Pre-operative preparation. This table summarises the various measures the surgeon needs to take prior to starting the surgery to ensure its success.
\r\n\tIn sum, the book presents a reflective analysis of the pedagogical hubs for a changing world, considering the most fundamental areas of the current contingencies in education.
",isbn:"978-1-83968-793-8",printIsbn:"978-1-83968-792-1",pdfIsbn:"978-1-83968-794-5",doi:null,price:0,priceEur:0,priceUsd:0,slug:null,numberOfPages:0,isOpenForSubmission:!1,hash:"b01f9136149277b7e4cbc1e52bce78ec",bookSignature:"Dr. María Jose Hernandez-Serrano",publishedDate:null,coverURL:"https://cdn.intechopen.com/books/images_new/10229.jpg",keywords:"Teacher Digital Competences, Flipped Learning, Online Resources Design, Neuroscientific Literacy (Myths), Emotions and Learning, Multisensory Stimulation, Citizen Skills, Violence Prevention, Moral Development, Universal Design for Learning, Sensitizing on Diversity, Supportive Strategies",numberOfDownloads:null,numberOfWosCitations:0,numberOfCrossrefCitations:null,numberOfDimensionsCitations:null,numberOfTotalCitations:null,isAvailableForWebshopOrdering:!0,dateEndFirstStepPublish:"September 14th 2020",dateEndSecondStepPublish:"October 12th 2020",dateEndThirdStepPublish:"December 11th 2020",dateEndFourthStepPublish:"March 1st 2021",dateEndFifthStepPublish:"April 30th 2021",remainingDaysToSecondStep:"4 months",secondStepPassed:!0,currentStepOfPublishingProcess:4,editedByType:null,kuFlag:!1,biosketch:"Dr. Phil. Maria Jose Hernandez Serrano is a tenured lecturer in the Department of Theory and History of Education at the University of Salamanca, where she currently teaches on Teacher Education. She graduated in Social Education (2000) and Psycho-Pedagogy (2003) at the University of Salamanca. Then, she obtained her European Ph.D. in Education and Training in Virtual Environments by research with the University of Manchester, UK (2009).",coeditorOneBiosketch:null,coeditorTwoBiosketch:null,coeditorThreeBiosketch:null,coeditorFourBiosketch:null,coeditorFiveBiosketch:null,editors:[{id:"187893",title:"Dr.",name:"María Jose",middleName:null,surname:"Hernandez-Serrano",slug:"maria-jose-hernandez-serrano",fullName:"María Jose Hernandez-Serrano",profilePictureURL:"https://mts.intechopen.com/storage/users/187893/images/system/187893.jpg",biography:"DPhil Maria Jose Hernandez Serrano is a tenured Lecturer in the Department of Theory and History of Education at the University of Salamanca (Spain), where she currently teaches on Teacher Education. She graduated in Social Education (2000) and Psycho-Pedagogy (2003) at the University of Salamanca. Then, she obtained her European Ph.D. on Education and Training in Virtual Environments by research with the University of Manchester, UK (2009). She obtained a Visiting Scholar Postdoctoral Grant (of the British Academy, UK) at the Oxford Internet Institute of the University of Oxford (2011) and was granted with a postdoctoral research (in 2021) at London Birbeck University.\n \nShe is author of more than 20 research papers, and more than 35 book chapters (H Index 10). She is interested in the study of the educational process and the analysis of cognitive and affective processes in the context of neuroeducation and neurotechnologies, along with the study of social contingencies affecting the educational institutions and requiring new skills for educators.\n\nHer publications are mainly of the educational process mediated by technologies and digital competences. Currently, her new research interests are: the transdisciplinary application of the brain-based research to the educational context and virtual environments, and the neuropedagogical implications of the technologies on the development of the brain in younger students. Also, she is interested in the promotion of creative and critical uses of digital technologies, the emerging uses of social media and transmedia, and the informal learning through technologies.\n\nShe is a member of several research Networks and Scientific Committees in international journals on Educational Technologies and Educommunication, and collaborates as a reviewer in several prestigious journals (see public profile in Publons).\n\nUntil March 2010 she was in charge of the Adult University of Salamanca, by coordinating teaching activities of more than a thousand adult students. She currently is, since 2014, the Secretary of the Department of Theory and History of Education. Since 2015 she collaborates with the Council Educational Program by training teachers and families in the translation of advances from educational neuroscience.",institutionString:"University of Salamanca",position:null,outsideEditionCount:0,totalCites:0,totalAuthoredChapters:"0",totalChapterViews:"0",totalEditedBooks:"0",institution:{name:"University of Salamanca",institutionURL:null,country:{name:"Spain"}}}],coeditorOne:null,coeditorTwo:null,coeditorThree:null,coeditorFour:null,coeditorFive:null,topics:[{id:"23",title:"Social Sciences",slug:"social-sciences"}],chapters:null,productType:{id:"1",title:"Edited Volume",chapterContentType:"chapter",authoredCaption:"Edited by"},personalPublishingAssistant:{id:"301331",firstName:"Mia",lastName:"Vulovic",middleName:null,title:"Mrs.",imageUrl:"https://mts.intechopen.com/storage/users/301331/images/8498_n.jpg",email:"mia.v@intechopen.com",biography:"As an Author Service Manager, my responsibilities include monitoring and facilitating all publishing activities for authors and editors. From chapter submission and review to approval and revision, copyediting and design, until final publication, I work closely with authors and editors to ensure a simple and easy publishing process. I maintain constant and effective communication with authors, editors and reviewers, which allows for a level of personal support that enables contributors to fully commit and concentrate on the chapters they are writing, editing, or reviewing. I assist authors in the preparation of their full chapter submissions and track important deadlines and ensure they are met. I help to coordinate internal processes such as linguistic review, and monitor the technical aspects of the process. As an ASM I am also involved in the acquisition of editors. Whether that be identifying an exceptional author and proposing an editorship collaboration, or contacting researchers who would like the opportunity to work with IntechOpen, I establish and help manage author and editor acquisition and contact."}},relatedBooks:[{type:"book",id:"6942",title:"Global Social Work",subtitle:"Cutting Edge Issues and Critical Reflections",isOpenForSubmission:!1,hash:"222c8a66edfc7a4a6537af7565bcb3de",slug:"global-social-work-cutting-edge-issues-and-critical-reflections",bookSignature:"Bala Raju Nikku",coverURL:"https://cdn.intechopen.com/books/images_new/6942.jpg",editedByType:"Edited by",editors:[{id:"263576",title:"Dr.",name:"Bala",surname:"Nikku",slug:"bala-nikku",fullName:"Bala Nikku"}],productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"1591",title:"Infrared Spectroscopy",subtitle:"Materials Science, Engineering and Technology",isOpenForSubmission:!1,hash:"99b4b7b71a8caeb693ed762b40b017f4",slug:"infrared-spectroscopy-materials-science-engineering-and-technology",bookSignature:"Theophile Theophanides",coverURL:"https://cdn.intechopen.com/books/images_new/1591.jpg",editedByType:"Edited by",editors:[{id:"37194",title:"Dr.",name:"Theophanides",surname:"Theophile",slug:"theophanides-theophile",fullName:"Theophanides Theophile"}],productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"3092",title:"Anopheles mosquitoes",subtitle:"New insights into malaria vectors",isOpenForSubmission:!1,hash:"c9e622485316d5e296288bf24d2b0d64",slug:"anopheles-mosquitoes-new-insights-into-malaria-vectors",bookSignature:"Sylvie Manguin",coverURL:"https://cdn.intechopen.com/books/images_new/3092.jpg",editedByType:"Edited by",editors:[{id:"50017",title:"Prof.",name:"Sylvie",surname:"Manguin",slug:"sylvie-manguin",fullName:"Sylvie Manguin"}],productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"3161",title:"Frontiers in Guided Wave Optics and Optoelectronics",subtitle:null,isOpenForSubmission:!1,hash:"deb44e9c99f82bbce1083abea743146c",slug:"frontiers-in-guided-wave-optics-and-optoelectronics",bookSignature:"Bishnu Pal",coverURL:"https://cdn.intechopen.com/books/images_new/3161.jpg",editedByType:"Edited by",editors:[{id:"4782",title:"Prof.",name:"Bishnu",surname:"Pal",slug:"bishnu-pal",fullName:"Bishnu Pal"}],productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"72",title:"Ionic Liquids",subtitle:"Theory, Properties, New Approaches",isOpenForSubmission:!1,hash:"d94ffa3cfa10505e3b1d676d46fcd3f5",slug:"ionic-liquids-theory-properties-new-approaches",bookSignature:"Alexander Kokorin",coverURL:"https://cdn.intechopen.com/books/images_new/72.jpg",editedByType:"Edited by",editors:[{id:"19816",title:"Prof.",name:"Alexander",surname:"Kokorin",slug:"alexander-kokorin",fullName:"Alexander Kokorin"}],productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"1373",title:"Ionic Liquids",subtitle:"Applications and Perspectives",isOpenForSubmission:!1,hash:"5e9ae5ae9167cde4b344e499a792c41c",slug:"ionic-liquids-applications-and-perspectives",bookSignature:"Alexander Kokorin",coverURL:"https://cdn.intechopen.com/books/images_new/1373.jpg",editedByType:"Edited by",editors:[{id:"19816",title:"Prof.",name:"Alexander",surname:"Kokorin",slug:"alexander-kokorin",fullName:"Alexander Kokorin"}],productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"57",title:"Physics and Applications of Graphene",subtitle:"Experiments",isOpenForSubmission:!1,hash:"0e6622a71cf4f02f45bfdd5691e1189a",slug:"physics-and-applications-of-graphene-experiments",bookSignature:"Sergey Mikhailov",coverURL:"https://cdn.intechopen.com/books/images_new/57.jpg",editedByType:"Edited by",editors:[{id:"16042",title:"Dr.",name:"Sergey",surname:"Mikhailov",slug:"sergey-mikhailov",fullName:"Sergey Mikhailov"}],productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"371",title:"Abiotic Stress in Plants",subtitle:"Mechanisms and Adaptations",isOpenForSubmission:!1,hash:"588466f487e307619849d72389178a74",slug:"abiotic-stress-in-plants-mechanisms-and-adaptations",bookSignature:"Arun Shanker and B. Venkateswarlu",coverURL:"https://cdn.intechopen.com/books/images_new/371.jpg",editedByType:"Edited by",editors:[{id:"58592",title:"Dr.",name:"Arun",surname:"Shanker",slug:"arun-shanker",fullName:"Arun Shanker"}],productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"878",title:"Phytochemicals",subtitle:"A Global Perspective of Their Role in Nutrition and Health",isOpenForSubmission:!1,hash:"ec77671f63975ef2d16192897deb6835",slug:"phytochemicals-a-global-perspective-of-their-role-in-nutrition-and-health",bookSignature:"Venketeshwer Rao",coverURL:"https://cdn.intechopen.com/books/images_new/878.jpg",editedByType:"Edited by",editors:[{id:"82663",title:"Dr.",name:"Venketeshwer",surname:"Rao",slug:"venketeshwer-rao",fullName:"Venketeshwer Rao"}],productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"4816",title:"Face Recognition",subtitle:null,isOpenForSubmission:!1,hash:"146063b5359146b7718ea86bad47c8eb",slug:"face_recognition",bookSignature:"Kresimir Delac and Mislav Grgic",coverURL:"https://cdn.intechopen.com/books/images_new/4816.jpg",editedByType:"Edited by",editors:[{id:"528",title:"Dr.",name:"Kresimir",surname:"Delac",slug:"kresimir-delac",fullName:"Kresimir Delac"}],productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}}]},chapter:{item:{type:"chapter",id:"63747",title:"Trajectory Tracking Control of Parallel Manipulator with Integral Manifold and Observer",doi:"10.5772/intechopen.80375",slug:"trajectory-tracking-control-of-parallel-manipulator-with-integral-manifold-and-observer",body:'Parallel manipulators (PMs) possess advantages of high precision, high stiffness, and large load-to-weight ratio; they have attracted wide attention and have been widely used in industries such as high-speed handling, motion simulation, and electronic manufacturing [1]. However, in order to increase efficiency, PMs are increasingly used in high-speed and heavy-duty operations. In order to reduce costs and energy consumption, the lightweight design of the mechanical body will be the inevitable choice. However, in the high-speed or heavy-duty application, the lightweight mechanical body will produce significant elastic deformation and vibration. Therefore, the end-effector’s movement consists of the rigid-body motion and the elastic displacement caused by elastic deformation and vibration. Using conventional control methods for rigid-body manipulators will not guarantee good tracking accuracy of flexible manipulator’s end-effector. Therefore, it is of great significance to improve the tracking accuracy of high-speed lightweight PMs by considering the flexibility of members to establish the dynamic model for rigid-flexible coupling and carrying out research on high-precision control algorithms.
Many scholars have conducted extensive and in-depth studies on modeling methods for manipulators with flexible links. Dwivedy et al. [2] reviewed the dynamic modeling of robots with flexible links. Due to the presence of link flexibility, the system will exhibit nonminimum phase characteristics when selecting the end-effector of the manipulator as the output. The literature [3, 4, 5] redefines the output of the manipulator’s end position by taking the link elasticity into account, and uses the control algorithm for the rigid-body manipulator to control the new output; however, this method can only realize the point-to-point position control and cannot guarantee tracking control of the end trajectory [6]. The singular perturbation method is another effective method to deal with the nonminimum phase characteristics of manipulators with elastic links. The small parameters are introduced to reduce the order of rigid-flexible coupling models, which are decomposed into two subsystems, the fast and the slow, and two subcontrollers are designed using compound control algorithm. The controller of the system realizes the control of the rigid body motion and the rapid suppression of the elastic vibration. However, as the deformation increases, the singularity perturbation algorithm shows a deficiency and the algorithm cannot compensate for the elastic displacement [7, 8, 9]. Khorasani [10] proposed an integral manifold method by high-order approximation of fast subsystem variables, which greatly improved the vibration suppression effect. By introducing the elastic displacement into the end of the manipulator and designing the corrective torque, Moallem et al. [11] realized the trajectory tracking precision control and vibration suppression of the two-degree-of-freedom serial robot. Based on the above method, Fotouhi et al. [12, 13, 14, 15, 16] studied the trajectory tracking control of the flexible joint robot, the flexible robot with the single link, the rigid-flexible hybrid robot, and the two-bar flexible robot by simplifying the selection of correction moments, and show good results.
Due to the existence of the closed-chain structure, the dynamic model of PMs is complex when considering the flexibility of the links. Therefore, the research on the vibration suppression and trajectory tracking control is very limited. Zhang et al. [7] used assumption mode method and Lagrange equation to model 3PRR PMs with flexible passive links, and adopted singular perturbation compound control to suppress vibration. However, the influence of the elastic displacement of the links on the moving platform is not considered in the model, and the elastic displacement compensation and the rate of change of the elastic links are not processed when the algorithm is designed. Therefore, the trajectory tracking effect needs to be improved. Existing research has not yet been found for the above issues. In the research of trajectory tracking control based on integral manifold, no relevant research has been found for PMs. The control algorithms for the slow subsystem in the existing research are feedback linearization methods, and the fast subsystem is PD control or pole placement. In order to taking into accounts of the elastic deformation and vibration of high-speed PMs due to the flexibility of links and improve the tracking accuracy and dynamic performance, this chapter introduces the integral manifold based on the rigid-flexible coupling model of the 3RRR PM, the hypothesis of small deformation and the velocity mapping in the previous paper [17], and the high-order rigid-flexible coupling model is transformed into two subsystems, then a composite control algorithm based on sliding mode variable structure control and backstepping control is proposed. At the same time, a high-gain observer is introduced to the curvature rate caused by the flexibility. Finally, simulation studies are conducted to verify the feasibility of the algorithm.
The structure of the 3RRR parallel manipulator was shown in Figure 1, which consists of three branches, and each branch composed of one active link and passive link, the end of which is the moving platform. The coordinates and the parameters are given in Figure 2,
The 3RRR PM.
Coordinates of the 3RRR PM.
According to our previously published paper [17], the flexibility of passive links can be neglected, so only the deformation of active links is considered here, which can be expressed as
where
From the dynamic model (1), the state variables are defined as below [15],
where
where
For Eq. (4), the integral manifold is defined as [15, 18],
Eq. (5) can be interpreted that if the fast subsystem variables arrive at the integral manifold trajectory at the moment t*, then for the moment
Due to the small variable
where
The inverse matrix of the mass matrix, the Coriolis force and the centrifugal force terms are functions of the small variable
The centrifugal and inertial force after the expansion of Eq. (1) can be expressed as,
Substituting Eqs. (6) through (8) into Eq. (4), we can obtain,
When the flexibility of the links is ignored, the small variable
where
According to the integral manifold, the deviation of the fast subsystem variable can be expressed as,
Multiply the Eq. (11) with
For the slow and fast subsystems represented by Eqs. (10) and (12), the composite control algorithm is designed as shown in Figure 3. For the slow subsystem, the backstepping control is used to achieve the tracking control of the rigid body motion. At the same time, according to the velocity mapping relationship, the mapping relationship between the elastic deformation of the links and the elastic displacement of the moving platform is established. The motion of the moving platform is obtained according to the rigid-body motion and the elastic displacement, and the elastic torque compensation is realized by designing the correction torque
Scheme of the controller.
The backstepping control is a recursive control algorithm for complex nonlinear systems. The original system is decomposed into subsystems that do not exceed the system order. The control design is realized by establishing Lyapunov functions step by step for each subsystem, and the stability of the system is ensured [19]. First, define the position error as,
where
where
Based on the position error, define the Lyapunov function as,
Deriving Eq. (16) can be obtained,
According to the velocity error (15) in conjunction with Eq. (17), the Lyapunov function is defined as,
Deriving the above formula and substituting the relevant parameters, the derivative of the Lyapunov function can be expressed as,
According to Eq. (19), the control torque of the slow subsystem is
where
Therefore, according to the Lyapunov stability principle, the slow subsystem is stable with the torque
where
According to the velocity mapping relationship, the acceleration of the moving platform generated by the elastic motion can be expressed as,
where
The flexibility examined in this chapter is within a small deformation range, and the elastic displacement
Make the second derivative of Eq. (22), when considering the rigid-flexible coupling motion, the acceleration of the end-effector of the moving platform can be expressed as,
Defining the position error
According to Eq. (26), define the Lyapunov function,
Derivative of Eq. (27) with respect to time can be obtained as,
Let the coefficient of
At this time,
Define a new time scale
The latter two terms of the second equation contain small parameter
Due to the existence of the disturbance term, the fast subsystem adopts sliding mode variable structure control, and the sliding mode surface is selected as,
where
According to the sliding surface, the Lyapunov function is defined as,
Derivative of the above equation with respect to time can be obtained as,
According to Eq. (35), the fast subsystem control law designed as,
where
Therefore, according to the Lyapunov stability principle, the fast subsystem is convergent with torque of (36). The symbolic function will cause jitter to the system. To reduce the generation of jitter, the saturation function
where
The curvature can be obtained by strain gage measurement of the stress of the links, and the change rate of curvature is directly related to the rate of change of stress, and generally cannot be directly measured. In order to avoid direct measurement of the change rate of curvature, this chapter will design a high-gain observer to observe the curvature change rate by measuring the curvature. It can be known from Eq. (11) that the fast subsystem variable
where
To prove the stability of the system, new variables of error are defined as,
Substitute the above equation into (39), the state observer can be expressed as,
The Eq. (42) can be rewritten as,
where
where
Since
According to Eq. (47), when
Therefore, according to Eq. (48), the upper bound of the small parameter can be obtained, and the fast subsystem torque can be expressed as,
where
where
According to Eq. (50), the Lyapunov function can be defined as:
where
Since
According to the Rayleigh-Ritz inequality,
where
According to Eq. (56), when
The abovementioned integral manifold is used to reduce the rigid-flexible coupling system of high-speed PM, and the complex high-order system is decomposed into a slow subsystem describing the rigid body motion and a fast subsystem of elastic deformation, and the backstepping control and sliding mode variable structure control are adopted for two subsystems, respectively, and designed a high-gain observer to solve the problem that the elastic displacement change rate is difficult to measure, and proved the stability of each subsystem. However, the stability of each subsystem does not guarantee the stability of the overall system. Therefore, it is necessary to synthesize the subsystems to prove the stability of the overall system. Substituting Eqs. (9), (20), and (29) into kinetic Eq. (3), the systematic error equation can obtained,
where
According to the error equation, define the Lyapunov function that contains the overall system as,
where
Since
According to Eqs. (53) and (61),
According to the Rayleigh-Ritz inequality, we can obtain,
where
The condition that the closed-loop system is asymptotically stable is
Ignoring the influence of high-order terms of
According to Eq. (67), when the value of
When the Taylor expanding order
where the running time
To describe the control performance of the end-effector, an average error is introduced, and is defined as,
where
According to Eq. (24), the elastic displacement
Flexible displacement of moving platform. (a) Displacement of X direction. (b) Displacement of Y direction. (c) Displacement of rotational direction.
Vibration of the moving platform. (a) Flexible displacement of all directions. (b) Residue vibration of all directions.
The tracking error is the difference between the actual output and the desired output of the end of the moving platform.
Trajectory error of directions. (a) Trajectory error of X direction. (b) Trajectory error of Y direction. (c) Trajectory error of rotational direction.
Tracking error of the moving platform. (a) Trajectory error of directions. (b) Residue error of directions.
Decompose the rigid-flexible coupling dynamic model into fast and slow subsystems based on the integral manifold, and employ the sliding mode control and backstepping control to design the fast and slow subsystem controllers, respectively, and compensate the elastic displacement at the end of the manipulator. A high-gain observer estimates the rate of change of curvature, which in turn enables trajectory tracking control of high-speed PM.
The Lyapunov function is selected to prove the asymptotic stability of the slow subsystem, fast subsystem, high-gain observer, and the overall system. The conditions for selecting the integral manifold and the small parameters of the observer are given.
Apply MATLAB-SIMULINK to establish a comparison simulation to verify the performance of the proposed compound control algorithm. The simulation results show that the composite control algorithm has obvious advantages in vibration suppression and trajectory tracking.
This research was supported in part by the Natural Science Foundation of Zhejiang under Grant No. LY18E050019 and the Excellent Talent Cultivation Foundation under Grant No. ZSTUME02B09.
Microvascular anastomosis is a fine art form which requires practice to get it perfect. Perfection is required to repair a vessel that is 2 mm or less in diameter with precision in order to prevent the development of a thrombus resulting in vessel occlusion. In order to achieve this, harmony should be present between the microscope, its operator (the surgeon), and his instruments. With experience, the surgeon may be able to successfully anastomose 1–2 mm diameter vessels with loupes magnification, but it is not recommended for the novice. This chapter is divided into two sections: the first is a brief description of the surgeon’ s posture, his instruments, patient factors and the environment to illustrate how the harmony results in a better whole. In the second section, the techniques on how to accomplish the process without compromising the quality of repair and the finer points on how to enhance it will be highlighted to bring the whole orchestra to its crescendo and conclusion.
\nThere are four main components to the whole scenario. If we liken it to a Musical Concert, then the place where the whole operation takes place is the Operating Room (OR) while the main Conductor of the event is the Chief Surgeon. The surgical (musical) instruments are what are essential for the surgery to take place and finally the musical score is the patient upon which this whole event is dependent upon to be successful.
\nThe theatre where the drama takes place is the operating room. The environment in this room is critical to the success of the surgery. The conductor or Master of the OR is the surgeon and the environment should be tailored to his or her preference.
\nMicrosurgery requires a steady hand and practiced skill. It takes hours to complete a replantation or undertake a coronary artery by-pass graft while demanding full concentration to the task at hand. Mundane issues must be sorted out for any discomfort may prolong the surgery and even render it unsuccessful.
\nThe temperature of the OR is of course controlled within specified limits of regulatory standards, but the main surgeon must be comfortable throughout the duration of the surgery.
\nThe lighting, similarly, has to be of superb quality to visualise the most intricate detail. The aim is to have a well-illuminated field without shadows. The operating microscope achieves this by housing an incandescent or halogen bulb in the floor stand and transmitting the light via a built-in fibre optic cable to the operating field. The general surgical field, however, is wider and once the surgeon looks out to this area, it will appear dark, thus the periphery also has to be well-lit with good OR lights.
\nSurgical equipment such as the Operating microscope, the x-ray machine, the coagulation (diathermy) unit, the heart-lung bypass machine and the anaesthetic machines all need to be co-ordinated and well-spaced out (Figure 1). In a centre routinely performing these surgeries, there are fixed protocols: they are there for a reason. Surgeons in different centres will do it differently depending on how (and where) they have been trained; therefore, these protocols are to be tailored to the surgeon or institution.
\nOperation theatre set-up. The X-ray machine (mini C-arm), operating microscope and diathermy machine should all be away from the main surgeon and not touching the operating table. The surgical stool is shown in the inset.
The surgeon’s stool (Figure 1: inset) is obviously of extreme importance and depending upon their preference should be comfortable and of perfect (adjustable) height with rollers to allow the surgeon to move seamlessly. Different sub-specialties have slightly varying adjustments such back support, arm support (or none) a ring below to rest the foot and so on. These are personal preferences and every attempt should be made to accommodate them.
\nThe Diathermy cable should be tucked well out of the way and the foot pedal next to the surgeon’s dominant foot. If the microscope has foot control, then it could be placed at the assistant’s preferred foot or elsewhere. The wire should not interfere with the rollers of the operating surgeon’s stool.
\nThe surgeon performing an operation must be well rested, energised, reasonably hydrated and abreast of the task at hand. It is important to note that any heavy activity (swinging heavy objects, manual activity) should be avoided in the 24 hours prior to microsurgery. If one wants to test this out, try playing table tennis after a round of tennis. Using the larger muscle groups will compromise the fine motor control (in millimetres and micrometres) required in microsurgery. Caffeine intake should be the amount the surgeon is used to: not more and not less. For obvious reasons the use of sedatives prior to surgery is not advised as are medications that may cause drowsiness.
\nDuring emergency cases, if progress is not being made, a 10–20-minute break is advised; it usually allows a fresh take on the stumbling block. If it is a technically difficult step, take a breather before starting it, better insight is gained with a few deep breaths.
\nThe Operating microscope is used in many different surgical specialities and has been adapted for their particular needs. The Ophthalmic one for example is angled at 45° while the neuro one is used while in standing position. The Plastic and Hand Surgeons use the same one in a sitting position and new the latest ones by Zeiss (Pentero and Kinevo) have 3D images and screens that are facing the surgeon so he does not even have to look down at the field (Figure 2)!
\nOperating microscopes. The classic Zeiss microscope came on the S88 floor stand. Now Zeiss has the modern Pentero and Kinevo which can do fluoroscan view as well as show the screen up front (on the right), so the surgeon can operate seeing up, not down, reducing neck strain.
The Neuro Microscopes show arterial and venous flow – they also have infrared technology that allows intra-operative visual assessment of blood flow and patency, all with the push of a button.
\nIn cases where the vessel diameter is more than 1.5 mm, it is possible to use high powered loupes (4.2x or even 6.0x) to perform the anastomoses safely (by an experienced surgeon). There are now a number of high-quality loupes in the market from various players that provide an extended field of vision with great clarity. It should be noted that the focal length is fixed, so be sure of your working distance before purchasing one.
\nThe surgical set for a microvascular anastomosis should be comprehensive (Figure 3), however the number of instruments on the table during the repair should be limited to the ones in use and best housed in a silicone-based beaker of water (not saline). There are a few essential instruments that one cannot do without: a good microsurgical needle holder, a straight and curved microsurgical scissors, a pair of fine jeweller’s forceps (straight and angled) and a vessel dilator [1]. Obviously, it is essential to have a set of microvascular clamps, both single and double, with the latter optional to be mounted on a frame. I prefer the Acland clamps with a bar across (Figure 4), which helps to anchor the suture when repairing the vessel. I also like to use a blunt-tipped curved dissecting micro-scissors (Figure 5) for it does not damage the adventitial tissue and the all-important intima during vessel preparation.
\nA basic set of microsurgical instruments. Note the fine double hooks on the right and a nerve holder next to the needle holder. The curved (blunt) micro needle-holder is the second from the left and is extremely useful. The instruments should be comfortable to hold and use.
Double approximator clamps. These thoughtfully designed clamps are mounted on a bar (yellow arrow), where one clamp is fixed whilst the other can slide. Surrounding it is a frame (blue arrows) which assists by allowing one to anchor the suture on to it. The pressure exerted by the clamps (A for artery – green arrow) is approximately 30 g [5, 8].
Blunt tipped micro-scissors (curved). These are excellent for dissecting the soft tissue (adventitia) surrounding the vessels for the blunt tips have less chance of puncturing or damaging the vessel (see magnified inset). Also notice there is hardly a gap when the scissors close (useful feature).
The main suture I use for arterial repair of less than 1.0 mm in diameter is the 10/0 by Ethicon; code W2870 – Figure 6A. This has a diameter of 1/1000 of an inch and a length of 13 cm which is one inflexion of the wrist across the operating field under the microscope. There is thus no delay in visualisation i.e. one does not have to move one’s vision away from the Operating microscope or drop the needle and pick it up again because the suture is too long. For larger diameter vessels, 9/0 Ethilon may be used or even 8/0 but one has to balance between ease of performance and needle penetration causing leaks. For veins, being thin-walled and more challenging to handle, a 10/0 suture is practical. For those more experienced, 11/0 (Figure 6B) may be used, although not all theatres carry those. If it is anticipated that the patient’s vessels are fragile or small, you may want to forewarn the Sister in charge to obtain the 11/0 sutures.
\nEthilon 10/0 and 11/0 sutures from ETHICON. A. The 10/0 suture is 1/1000th of an inch and 13 cm long (W2870, BV75-3 13cm black) B. The 11/0 suture (W2881G, BV50-3 13cm black as in package in inset) is of same length but finer, not visible to the naked eye. These are used at the fingertip for arteries (10/0) and veins (11/0).
Drugs: Syringes of Normal Saline, heparinised saline (1000iu to 50 cc or 100 cc of saline) and Lignocaine 2% are prepared in 10 cc syringes with different coloured cannulas attached to them to differentiate them [3].
\nBackground material (usually made of plastic and blue or green in colour) to place under the anastomosis site during the procedure can be cut to size and prepared. Micro arrowhead sponges to absorb blood and fluids from the surgical site, multiple small single or double skin hooks, white gauze as background around operative field and some folded towels to support one’s wrist are all the minute details that will assist in the procedure going smoothly (Figure 7).
\nThe operative field. Note the microscope stand (green rectangle) is away from the field allowing the surgeon space to move to the left or right. The right hand should be supported on a roll of towels (yellow oval) and the white gauze (red trapezoid) keeps the background clear (needles visible).
The ideal patient is young and healthy with no co-morbidities, but this is far from reality. For replantation surgery, one must weigh the pros and cons of doing the surgery, for life is more important than limb. Main areas to look out for are cardiac, respiratory, renal, hepatic and clotting functions. In the case of coronary by-pass surgery, obviously life is dependent on the microsurgical aspect, hence the technique must be perfect!
\nSeveral factors affect immediate outcome: the blood pressure (BP) of the patient must be above 110/70 mmHg to ensure good flow through the anastomosed part, a low BP is prone to thrombus formation. Thus, even in a heparinised condition, one has to make sure thrombus formation is not due to inadequate perfusion.
\nHypothermia is another cause for failure. One must ensure adequate warmth in the theatre, for the patient as well as the vessel. The anastomosed vessel needs to be kept warm with sterile warm bath or gauze moistened in warm water/saline. We place a bottle of saline in the microwave after unscrewing the cap, and heat it up, then use that. Other modalities include placing a sterile container in a hot water bath to heat up the saline within. Lignocaine 2% can be applied locally to dilate the vessel and reduce spasm after the repair has been completed.
\nThe most commonly encountered co-morbidities are Hypertension and Diabetes. The former is not usually an issue, but the latter may well be. Peripheral vascular disease may affect anastomoses in the digital vessels and affect outcome. In central anastomoses, this may not be an issue, but control of the blood sugar level is mandatory in peripheral repair.
\nWhen there are multiple co-morbidities, peripheral repair or replantation or even central vascular repair becomes a challenge, not in the technical aspect, but in terms of long-term outcome, due to it being more likely for complications to develop. Where possible, these must be addressed and stabilised prior to surgery.
\nWhen there are clues such the red streak sign (Figure 8), it means the digit is unfavourable for replantation because of intimal damage and blood leakage. Vein grafting could be attempted but, in the end, it still may fail because there is extensive inner damage.
\nRed streak sign. The blue arrows point to a faint red line that can be seen where the artery lies. Its intima has been stretched (avulsion injury) and the ecchymosis is due to leakage of blood from avulsed branches. The green arrow shows a red ribbon sign where the vessel is coiled up like a corkscrew due to the avulsion force tearing the layers of the vessel wall. Nerve and tendon may similarly have a long trail. These are poor prognostic signs.
Severe or dirty abrasion wounds need to be appropriately cleaned or brushed to avoid contamination of the field and delayed infection destroying the repair. Crush injuries cause damage beyond that which is visible and hence should be approached with respect [4].
\nIf the digital vessel is found in a coiled state or there is a long trailing digital nerve (Figure 8), it means this was an avulsion injury (avulsed from the proximal aspect) and the vessel has suffered intimal damage. The entire length requires vein grafting which may leave some areas without a blood supply.
\nLocally, if there is damage to the vessel ends, these need to be trimmed to a level where they seem intact. On occasion a flap is to be placed for a defect caused by cancer: one must ensure that an irradiated vessel is not used for the anastomosis.
\nIf there is discordance in the size of the donor and recipient vessel, a few tricks are available to harmonise the size mismatch – which needs to be done – to prevent turbulent blood flow [2].
\nIn the medical history it is important to note any features that may give rise to a hypercoagulable state (age, obesity, OCP intake, etc.) and the reverse where a patient is taking anti-coagulants or herbal supplements such as ginseng. In both cases extra steps need to be taken to ensure complications are kept to a minimum.
\nThe initial debridement, dissection and macro fixation (bone, tendon and ligament repair) may be performed under tourniquet control, but the microvascular repair is usually performed without it [3]. The proximal vessel end is clamped (with a single clamp), the tourniquet is deflated (if it was up), and the vessel then tested for good flow by releasing the single clamp. If it has a good spurt, the repair is proceeded with. If it does not, the patient is then checked to have good hydration (BP), temperature and oxygenation. Locally, the wound is checked for damage to the proximal vessel or if there is a crush injury [4]. After ruling this out, and ensuring good flow, the proximal vessel end is clamped and flushed with heparinised saline to remove any clots and blood present. Enough length of the vessel is dissected to allow placement in the double clamps, so that a clear view of the end is seen enabling it to be prepared for suturing under magnification. The opposite vessel is similarly prepared and brought into view with the double clamp, making it clearer with a dark coloured background material (Figure 9). To achieve these “clear ends”, the vessels needs to be “freed” from the surrounding adventitial sheath that they are housed in. I prefer to use the curved dissecting micro scissors (blunt tips) to avoid damaging the vessel wall (Figure 5). Care must be taken not to leave any open branches (ligate or clip them) which will cause oozing later. An IV bolus of 1000 U of Heparin is given at this point. I have found this to be enough in the Asian setting. 3000–5000 U causes spontaneous bleeding and I prefer the lower dose.
\nPlacement of vessel ends in double clamps. The two ends of the severed vessel are placed one end in each clamp and brought closer together until they are a vessel diameter apart.
Once the ends are placed in the clamps, if they are not smooth, they are cut using the adventitial scissors (straight) to provide a sharp clean edge for suturing. It has traditionally been taught to trim the adventitial layer using the sharp adventitia micro scissors, but the blunt-tipped curved micro-scissors allow closer dissection. Hold the vessel by the adventitial layer with the jeweller’s forceps and go around the circumference taking off at least 2 mm from the edge (Figure 10). Finally, dilate both ends with a fine blunt-tipped vessel dilator to about 1.5 times its original diameter and hold it for 2 seconds [5]. This step is important because not only will it allow better visualisation, it will also stretch the smooth muscle of the intima paralysing it for a couple of hours, so it cannot go into spasm. If there is spasm, 1% or even 2% lignocaine can be applied to the vessel wall to alleviate it. The ends are then rinsed with Heparinised saline and the repair is ready to begin (Figure 11).
\nTrimming the adventitia. (A) The adventitia is pulled using a jeweler’s forceps (left hand) and using the micro-scissors (right hand), it is nipped just at the vessel edge (media). (B) With the hole thus created, one blade of the scissors is used to enter, and then cut the adventitia all the way around the vessel, above and below. (C) End result.
Prepared vessels. After the adventitia is cleared, the vessels are almost translucent. A dark background and bathing them in saline facilitates repair. Inset: clamps facing the surgeon make certain repair techniques easier.
For an end-to-end anastomosis, the vessel ends are usually aligned (and cut if they are prepared vessels) perpendicularly to the vascular axis. If one end is larger than the other, the smaller vessel may be cut at an angle to match the diameter size of the larger vessel (Figure 12A).
\nTriangulation method of repair. (A) If the diameter of the vessel walls are grossly mismatched, the smaller one may be cut obliquely to increase the diameter size. (B) Three stay sutures are placed 120° apart as a guide.
In summary, the technique requires the circumference of the vessel wall to be divided into thirds and a stay suture placed at each point (Figure 12B). Subsequently sutures are placed between the three stay sutures and depending on the size of the vessel one, two or even three may be squeezed in.
\nThe first stay suture is placed as in Figure 13. The needle tip is used to hook the adventitia and the left-hand forceps is placed gently just inside the lumen. The tip of the needle is then pushed into the lumen with the forceps acting as a counterforce [6].
\nFirst stay suture. (A) The adventitial layer is lifted with the tip of the needle and the forceps is gently inserted into the lumen. (B) The needle is then placed on the media and pierced through perpendicularly into the jaws of the forceps tips. (C) A bite on the opposite lumen is similarly placed with the aid of the forceps, this time from outside. × is where the second stay suture should be placed.
The needle is then brought out and equidistant through the opposite lumen with the left-hand forceps again acting as a resistive force. The needle is pushed through in between the tips of the forceps and picked up in two or three steps gently ensuring the needle swage does not damage the vessel wall and that the thrombogenic cut ends are not inverted inside. Once tied, one thread is kept longer to wind around the clamp bar to stabilise the vessel ends. The first two stay sutures are difficult but especially important because they prevent the back wall of the vessel being caught up. The second suture should be performed in an easy position: on the upper surface of the vessel (Figure 14). Once these two are in, two or three intervening sutures are put in. Due to the tightness of the space sometimes it is difficult to place the last two sutures, so it can be modified by not tying the second last suture and continuing the stitching to the last one, leaving the needle in place (Figure 15). This allows good visualisation when inserting the needle for the last stitch, preventing catching the ‘back wall’. The second last suture is tied followed by the final suture.
\nSecond stay suture. (A) The 2nd stay suture is put in at approximately 1/3 of the circumference of the vessel from the first one. It is more difficult to place than the first and is crucial to get it right. Therefore, it is placed in the easier position on the front wall. (B) The two stay sutures are tightened until the front edges approximate in one line.
Double suture. Once the first pass of the needle is done, the knot is not tied and the needle is passed again between the first pass and the last tied suture. The needle is left in situ and the first pass knot is tied by grabbing the free end of the suture. Once this is tied, the needle is pulled through and the second knot tied.
The double clamp may then be flipped 180° and the third suture placed with the back wall up, so it is not taken in with the suturing. The double clamps are moved slightly apart to apply tension on the vessel ends, separating them, allowing the sutured vessel wall to be seen through (Figure 16). One can check the repair done as well as safely proceed with the rest of the suturing. The third stay suture is placed equidistant from the other two main stay sutures. The suture is tied and again one end may be wound around the clamp bar to steady the vessel ends. The remaining two thirds of the vessel wall are sutured in a similar fashion. The vessel repair is now complete.
\nDoing the back wall. Once the clamps are flipped and tensioned, the view of the sutured first segment can be seen and repair checked before proceeding.
An extremely useful technique to master in situations where there is hardly any manoeuvrability (short vessel length and space) or space to flip the clamp or perform a vascular repair. Suturing is started at the most difficult point in the back wall and done using the inside out technique, moving upwards to easier points.
\nPlace the double clamp with the tips facing you, this will reduce the amount of space they utilise and allow better visualisation (Figure 11 – inset). Next, place the first suture at the far end of the back wall using the ‘inside out’ technique so that the knot is outside (Figure 17A). The needle is pushed from the outside of the left vessel wall edge to inside the lumen and then it goes from the right vessel wall edge lumen to outside, where the knot is tied. Again, one end is kept long to assist in stabilising the vessel ends. The next suture is placed next to the first one, nearer to you in a similar outside in fashion (Figure 17B and C), until one moves upwards, then the suturing becomes easier and may be done in the usual way at the top side until complete (Figure 17D).
\nOne-way-up suture technique. (A) Take the first bite the furthest away from you. (B) The second bite is placed next to the first starting with the left vessel wall edge from outside-in. (C) The needle is then pulled out and inserted inside-out of the right vessel wall edge. (D) This is continued to the end till complete.
In the hands of a practiced surgeon, this suturing technique is rapid and gives good results; however a single mistake may prove costly, requiring the suturing to be redone and perhaps the vessel shortened! Also, a less experienced surgeon may end up entangling the suture or pulling it too tight to cause purse-stringing. Thus, one should only attempt this when one’s technique is smooth and well-orchestrated.
\nIn the first few attempts at this technique, the surgeon should aim to divide the vessel end walls into two by putting in one stay suture each on opposing ends. The first stay suture is tied and the long end of the thread is fastened to the clamp bar (Figure 18). The opposite is similarly knotted and anchored, but the needled thread is not cut, being used to start the front side of the suturing. Three or maximum four passes with the needle are most likely required in a 1.0–1.5 mm diameter vessel starting with the first one as close as possible to the stay suture to prevent leakage. At the end, any slack in the continuous run is picked up and the suture is tied to the free end of one of the threads. The clamp is then flipped 180° and the needle used to continue suturing the opposing side. Care must be taken not to accidentally take the back-wall for the two are close. Once the other end is reached, the suture is tied to the long thread. The anastomosis is complete.
\nContinuous suture technique. The vessel is locked by two stay sutures 180° apart. A continuous running suture is started from the distal side proximally.
This technique is an important one to have in the armamentarium. It allows a “way out” for example when there is a paucity of recipient vessels or if the flap donor vessel is too short. It does however carry a risk of size mismatch in terms of diameter and wall thickness. While the former may be somewhat addressed by an oblique cut or narrowing the larger vessel, difference in thickness is more difficult to deal with. The risk of turbulent flow must be born in mind [7].
\nEnsure the donor vessel is of adequate length to reach the arteriotomy site without undue tension. It must be freed of adventitia at least up to 3 mm away and dilated to ease anastomosis. It is essential to ensure there are no kinks or twists in the donor vessel (artery or especially if it is a vein) because this may be disastrous once it is anastomosed!
\nPlace the artery in double clamps. The arteriotomy site must also be similarly cleared of adventitia to a three times length of the proposed defect. Care should be taken while performing this and instruments must be sharp and well approximated.
\nA suture is placed at the exact site of the arteriotomy and tied off (Figure 19A). It is to be used as an anchor for the excised piece. It is lifted taut and using the left hand, a 45° angled cut is made (Figure 19B). The blood is washed out and the micro-scissors are switched to the right hand making a similarly 45° angled cut meeting the opposite side exactly [5].
\nPerforming and end-to-side anastomosis. (A) A suture is tied to the arterial wall (media). (B) A “v”-shaped cut is made. (C) The needle is pushed from the artery to the donor vessel, starting from the right side. (D) Two stay sutures at 180° (red arrows) stabilize the donor vessel; one more is put mid-way at the back (light blue arrow). (E) The sutures are placed radially and evenly. (F) Completed.
Either one of the three suturing techniques described before (interrupted, one-way-up or continuous) can be used. The key is to start with the right hand on the right-hand side of the arteriotomy and place the suture outside in, then take the donor vessel from inside out (Figure 19C). It is a safe practice to place another stay stitch at 180° to stabilise the loose donor vessel. Similarly, a stay stitch mid-distance along on the back wall, can be placed to keep it out of harm’s way (Figure 19D). The most important point to note in the suturing technique is to angle the stitches radially outwards to the arteriotomy to ensure an even spacing and place them as one would tighten nuts on the wheel of a tyre rim, progress from either side and moving to the centre to complete the anastomosis safely (Figure 19E and F).
\nOnce suturing is complete, the clamps are ready to be released but before doing that, make sure the blood pressure is well-maintained, a supply of lignocaine 2%, warm saline, clean gauze and heparinised saline are readily available [8]. Lignocaine is applied to the field and rinsed off with heparinised saline after 2 minutes. The double clamps are approximated, reducing tension on the repair and then the distal one is released first, followed by the proximal one. There will be bleeding, but take the clean gauze, soak it with warm saline and continuously apply light compression on the anastomosis. An infusion of intravenous Heparin is started at this point – I give 4000 U over 24 hours. Previously I would also start the patient on Dextran 40, but now rely on Osmofundin.
\nAfter 2 minutes, gently remove the gauze, and rinse with warm saline. If there is no more bleeding, that is good. If there is, you may need to reapply compression and repeat the steps. If it is still spurting, there is a gap which needs closure and this is done with the blood flowing because proximal clamping will result in thrombosis. An assistant provides constant irrigation under which the surgeon performs the suture. If done correctly, it is not difficult but needs intense focus and a steady hand.
\nThere are a few signs to suggest that the anastomosis is a success. One must learn to appreciate the finer points when trying to decipher the result:
\nExpansile pulsation means the diameter of the blood vessel increases and decreases with each heartbeat and there is patency of flow. Longitudinal pulsation if it is seen proximally, implies the blood is ‘hammering’ against a block (thrombus) or a wrongly sutured vessel.
\nWriggling is movement seen in a curved vessel that is patent and pulsating. It is not observed in straight vessels.
\nThere are several tests that can be performed to illustrate patency and Robert Acland has described them beautifully [5].
\nThe Uplift test shows blood filling and emptying with the systolic and diastolic phases of the heart when an instrument placed under the vessel lifts it up, almost occluding it.
\nThe Empty-and-refill test if done gently provides the most conclusive evidence of patency. A fine curved jeweller’s forceps is used to gently occlude the vessel distal to the repair. Another pair of forceps is then used to milk the blood in the vessel distally and finally the proximal forceps is released (Figure 20). If the emptied vessel refills promptly, the repair is patent.
\nEmpty-and-refill test. (A) An angled forceps is used to hold the vessel distal to the anastomosis. (B) A jeweler’s forceps is then used to gently occlude the vessel distal to this. (C) The jeweler’s forceps is moved in a distal direction. Upon release of the angled forceps, the vessel will fill up with blood.
Repairing a vein is not for the novice and is much harder than an artery. The most obvious reason for this is that the walls are floppy and much thinner, so it is difficult to see the edge after dissection. The other reason is that veins have less adventitial tissue that is rather adherent to its walls, making it challenging to dissect. They are hence also easier to damage unless handled with meticulous care and technique. Last but not least, the slower blood flow makes them prone to thrombosis and even slight damage to the intimal walls kicks off the cascade.
\nThe vascular sheath is flimsy but adherent. Pick it up (making sure one does not damage the venular wall) with a good pair of jeweller’s forceps and holding the dissecting (blunt) micro-scissors parallel to the vein, make a hole in it. Then slide the scissors into the space and dissect along the wall of the vein carefully, making sure not to pull out any tributaries with force. These should be ligated with 10/0 nylon or cauterised very carefully. Once released, the vein ends are brought together and placed in the double clamp. The job is made easier if there is an underlying piece of background material and the operative field is flooded with saline or Ringer’s lactate. A fine vessel dilator should be used to dilate the vein in two or three directions. It may be difficult to locate the lumen initially, but once this is done, the vein takes a more recognisable form and the lumen becomes visible.
\nIn view of the thin walls, there is a tendency for the vein edge to roll inwards and mistakes can be made in taking stitches. Extra precaution should be exercised and if there is any doubt, do not proceed until it is cleared. The first two stay sutures are the most crucial and should be done while bathed in saline. The intermediate sutures may be placed slightly further apart (double the distance) than in an artery because venous pressure is lower.
\nOnce the repair is complete, the distal clamp is released first to flood the repair site and the vessel dilates immediately. Immediate release of the proximal clamp should show a good flow.
\nA good result will reveal a similar diameter and colour both proximal and distal to the anastomosis. Patency is confirmed by the uplift test. Flow is tested from distal to proximal (along the direction of flow) across the anastomotic site. If there is a block, it will bulge at the anastomotic site and the proximal diameter will be smaller, while the blood in the distal part will progressively become darker.
\nThis procedure is more difficult than a straight-forward venous anastomosis and has multiple steps: getting the arterial defect ready, harvesting a vein for grafting using a meticulous dissection and anastomosing both ends of the graft. It is a necessary skill to acquire for all microsurgeons.
\nDuring emergency procedures and sometimes even in elective surgeries, the arterial conduit is damaged and needs replacement in part or more. This is where the interpositional vein graft comes in useful. Most times the vein can be harvested from an adjacent site (size is matched) or a distant one (saphenous in the leg). In all instances, the defect must be measured in order to be bridged. Both the arterial ends are dissected free of adventitia and clamped with single clamps in preparation to receive the vein graft.
\nThis is an important step in the procedure and should not be taken lightly. Exact measurement and harvest of the vein graft is to be done by a competent surgeon very carefully. A slightly longer graft is taken in case damage is done to the ends. Too long a graft will cause tortuousness and kinking, while a shorter graft will tend to stretch and tear or leak.
\nA length of vein corresponding to the arterial defect is outlined (this is measured before the vein is cut) and using the same meticulous dissection techniques described in Section 3.5, the vein graft is extracted after applying clips (or ligating) both ends. Blood is removed from the vein manually and by irrigation. It is placed in the approximator (double) clamp on one side and the anastomosis is ready to begin.
\nThis is started on the right side (for right-handed surgeons) because the artery gives a firm attachment point, and this is needed because the vein graft is free-floating making it difficult to put a suture through. A piece of coloured paper may be used to assist as background material adding oblique cuts to it, so it can help to hold sutures in place while repair is in progress [5].
\nThe second anastomosis is started after the vein graft is checked to avoid any twisting (this will cause kinks and blockages) and that the double clamp is not straddling the repair site.
\nThere are many pearls of wisdom and these are best summarised in tables according to the procedure that is being performed. Table 1 describes general rules while Tables 2 and 3 enumerate good practices for arterial and venous repair respectively.
\nSurgeon | \nPatient | \n
---|---|
1. Pre-operative preparation (well-rested, hydration, nutrition and self-relief). 2. Avoid heavy activity the day prior (24 hours). 3. Do not alter (maintain) caffeine intake. 4. Prepare for (elective) surgery mentally. | \n1. Ensure good hydration. 2. Control of medical conditions (co-morbidities) if any. 3. Peri-operative antibiotics. 4. Review imaging and investigations. | \n
Operation theatre | \nAmputated part | \n
1. Adjust lighting. 2. Maintain OR temperature. 3. Ensure good positioning of machines and instruments. 4. Make sure surgical stool and diathermy foot pedal are in right position. 5. Hands should be well-supported with towels. 6. Place clean gauze as operative field background. | \n1. Beware of red streak sign. 2. Look for coiled vessels. 3. Look for trailing nerves and tendons. 4. Meticulous pre-dissection. 5. Ensure good spurt of arterial blood. | \n
Pre-operative preparation. This table summarises the various measures the surgeon needs to take prior to starting the surgery to ensure its success.
Positive practice points | \nThings to avoid | \n
---|---|
1. Meticulous handling of soft tissues 2. Place (dark) background under vessel ends to see clearly 3. Gentle dissection to skeletonise and isolate vessel 4. Methodical and careful removal of adventitia 5. Rinse blood vessel and dilate it. 6. Approximate clamps | \n1. Tugging at unyielding tissues. 2. Grabbing the media (full thickness). 3. Performing an action without a clear view or in a pool of blood. 4. Using clamps larger than required. 5. Applying the diathermy to the main vessel. | \n
Tips to achieve a good arterial repair. Points to remember when performing an arterial repair.
Positive practice points | \n
---|
1. Very gentle dissection and minimal handling of vein. 2. Allow the vein to ‘rest’ after dissection then place it in the clamp. 3. Flush out all the blood, for any standing blood will cause thrombosis. 4. Dilate the vessel with a single prong, then both prongs of the dilator in different directions. 5. After dilation, bathe in lignocaine then apply the clamps. 6. Perform a meticulous anastomosis with evenly placed sutures. 7. Bathe in lignocaine (2–10%) before releasing the clamps. 8. After releasing clamps, allow the blood to flow for a few minutes. 9. If arterial and venous anastomoses are done simultaneously, release the artery clamps just before the vein. 10. If there is a leak, the vein needs to be re-clamped and repaired after the blood is flushed out. | \n
Tips to achieve a good venous repair. Veins need more care in their handling and rest periods in between steps. A keen eye will prevent mishaps such as catching the back wall inadvertently.
While there are an enormous number of things that can go wrong with even the most experienced surgeon, I have tried to list the most common ones here in order as they appear in the text: Various arterial repair techniques of increasing difficulty (Tables 4 and 5), venous anastomosis (Table 6) and grafting (Table 7) and finally arteriotomy and end-to-side repair (Table 8).
\nPositive practice points | \nNegative actions to avoid | \n
---|---|
1. Have a clear operative field of vision and good access 2. Mobilise a good length of vessel 3. Properly trimmed adventitia and clean vessel ends 4. Comfortable spacing of clamps 5. Divide the vessel into equal thirds and place sutures equidistant from both vessel ends. 6. Clear view and sure of needle placement. | \n1. small and inadequate wound, poor retraction leading to poor visualisation 2. Trying the anastomosis with short vessel ends 3. Persisting in the anastomosis when view is obstructed or when facing trouble. 4. Excessive traction (clamps too far apart) or obscured view of lumen (clamps too close). 5. Asymmetrical placement of sutures with bad coaptation of vessel ends 6. Struggling with needle then catching the back wall. | \n
Arterial repair technique: Triangulation. The column on the left lists the positive actions to be practiced while the column on the right, the negative results thereof.
One-way-up technique | \n
---|
\n
| \n
Continuous suture technique | \n
\n
| \n
Pointers in performing arterial repair. Tips to ensure good results in the two other (more challenging) techniques of arterial repair.
\n
| \n
Pitfalls in venous anastomoses. These are the common mistakes made when anastomosing veins. Extra care needs to be taken in handling them because they tend to thrombose easily.
Pearls | \nPitfalls | \n
---|---|
1. Ensure right diameter of the vein graft 2. Measure the length of graft before harvesting. 3. Take the vein graft with a cuff of fat around it. 4. Lay the vein graft straightened out (untwisted) with both sides in clamps. This avoids twisting with no blood in graft, while ensuring its visibility. 5. Remember to reverse the vein graft for arterial flow to accommodate for the valves. | \n1. Suturing two vessels of mismatched diameters 2. The vein graft shortens after harvest! 3. A skeletonised graft is more susceptible to damage by the forceps. 4. Not checking for a twist before the second anastomosis may result in unnecessary anguish! 5. Using suction while graft is in the operative field is dangerous! Clamps also help avoid it being sucked in. 6. Getting the clamps in the way of the anastomoses may necessitate redoing it! | \n
Pearls and pitfalls of vein graft harvest and anastomosis. Performing the right steps in the correct order not only increases chances of success but also reduces time and effort taken.
1. Perform the arteriotomy in the steps mentioned in the text. 2. Angle the adventitia scissors at 45° to make the cut. 3. Remember to reverse the vein graft and place it straightened out (while still in the clamps). 4. Start with the arterial wall from outside in and take the vein inside out. 5. Place a second stitch at 180° to the first. 6. Place the sutures radially spaced and not longitudinal to the arteriotomy 7. Put in a stay suture on the back wall mid-way between these first two stitches. 8. Any technique may be used to perform the anastomosis. 9. Keep a short leash on the suture length 10. If using continuous suturing, tighten as you move along. | \n
Perfecting end-to-side repair. Pointers to bear in mind when performing this in addition to what has been mentioned earlier.
In conclusion, microsurgical anastomosis is a fine art that needs practice, practice, practice to make perfection. There is absolutely no room for error. There are numerous techniques that can help the novice, though and repetition will improve the outcome. Good instrumentation, the correct suture materials and an excellent microscope will help tremendously. A number of items may be modified without sacrificing the result and some of these ideas may be used in less developed countries.
\nI would like to thank Intechopen for their generosity in helping with the funding of this chapter.
\nThere is no conflict of interest to be declared.
You have been successfully unsubscribed.
",metaTitle:"Unsubscribe Successful",metaDescription:"You have been successfully unsubscribed.",metaKeywords:null,canonicalURL:"/page/unsubscribe-successful",contentRaw:'[{"type":"htmlEditorComponent","content":""}]'},components:[{type:"htmlEditorComponent",content:""}]},successStories:{items:[]},authorsAndEditors:{filterParams:{sort:"featured,name"},profiles:[{id:"6700",title:"Dr.",name:"Abbass A.",middleName:null,surname:"Hashim",slug:"abbass-a.-hashim",fullName:"Abbass A. Hashim",position:null,profilePictureURL:"https://mts.intechopen.com/storage/users/6700/images/1864_n.jpg",biography:"Currently I am carrying out research in several areas of interest, mainly covering work on chemical and bio-sensors, semiconductor thin film device fabrication and characterisation.\nAt the moment I have very strong interest in radiation environmental pollution and bacteriology treatment. The teams of researchers are working very hard to bring novel results in this field. I am also a member of the team in charge for the supervision of Ph.D. students in the fields of development of silicon based planar waveguide sensor devices, study of inelastic electron tunnelling in planar tunnelling nanostructures for sensing applications and development of organotellurium(IV) compounds for semiconductor applications. I am a specialist in data analysis techniques and nanosurface structure. I have served as the editor for many books, been a member of the editorial board in science journals, have published many papers and hold many patents.",institutionString:null,institution:{name:"Sheffield Hallam University",country:{name:"United Kingdom"}}},{id:"54525",title:"Prof.",name:"Abdul Latif",middleName:null,surname:"Ahmad",slug:"abdul-latif-ahmad",fullName:"Abdul Latif Ahmad",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:null},{id:"20567",title:"Prof.",name:"Ado",middleName:null,surname:"Jorio",slug:"ado-jorio",fullName:"Ado Jorio",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:{name:"Universidade Federal de Minas Gerais",country:{name:"Brazil"}}},{id:"47940",title:"Dr.",name:"Alberto",middleName:null,surname:"Mantovani",slug:"alberto-mantovani",fullName:"Alberto Mantovani",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:null},{id:"12392",title:"Mr.",name:"Alex",middleName:null,surname:"Lazinica",slug:"alex-lazinica",fullName:"Alex Lazinica",position:null,profilePictureURL:"https://mts.intechopen.com/storage/users/12392/images/7282_n.png",biography:"Alex Lazinica is the founder and CEO of IntechOpen. After obtaining a Master's degree in Mechanical Engineering, he continued his PhD studies in Robotics at the Vienna University of Technology. Here he worked as a robotic researcher with the university's Intelligent Manufacturing Systems Group as well as a guest researcher at various European universities, including the Swiss Federal Institute of Technology Lausanne (EPFL). During this time he published more than 20 scientific papers, gave presentations, served as a reviewer for major robotic journals and conferences and most importantly he co-founded and built the International Journal of Advanced Robotic Systems- world's first Open Access journal in the field of robotics. Starting this journal was a pivotal point in his career, since it was a pathway to founding IntechOpen - Open Access publisher focused on addressing academic researchers needs. Alex is a personification of IntechOpen key values being trusted, open and entrepreneurial. Today his focus is on defining the growth and development strategy for the company.",institutionString:null,institution:{name:"TU Wien",country:{name:"Austria"}}},{id:"19816",title:"Prof.",name:"Alexander",middleName:null,surname:"Kokorin",slug:"alexander-kokorin",fullName:"Alexander Kokorin",position:null,profilePictureURL:"https://mts.intechopen.com/storage/users/19816/images/1607_n.jpg",biography:"Alexander I. Kokorin: born: 1947, Moscow; DSc., PhD; Principal Research Fellow (Research Professor) of Department of Kinetics and Catalysis, N. Semenov Institute of Chemical Physics, Russian Academy of Sciences, Moscow.\r\nArea of research interests: physical chemistry of complex-organized molecular and nanosized systems, including polymer-metal complexes; the surface of doped oxide semiconductors. He is an expert in structural, absorptive, catalytic and photocatalytic properties, in structural organization and dynamic features of ionic liquids, in magnetic interactions between paramagnetic centers. The author or co-author of 3 books, over 200 articles and reviews in scientific journals and books. He is an actual member of the International EPR/ESR Society, European Society on Quantum Solar Energy Conversion, Moscow House of Scientists, of the Board of Moscow Physical Society.",institutionString:null,institution:{name:"Semenov Institute of Chemical Physics",country:{name:"Russia"}}},{id:"62389",title:"PhD.",name:"Ali Demir",middleName:null,surname:"Sezer",slug:"ali-demir-sezer",fullName:"Ali Demir Sezer",position:null,profilePictureURL:"https://mts.intechopen.com/storage/users/62389/images/3413_n.jpg",biography:"Dr. Ali Demir Sezer has a Ph.D. from Pharmaceutical Biotechnology at the Faculty of Pharmacy, University of Marmara (Turkey). He is the member of many Pharmaceutical Associations and acts as a reviewer of scientific journals and European projects under different research areas such as: drug delivery systems, nanotechnology and pharmaceutical biotechnology. Dr. Sezer is the author of many scientific publications in peer-reviewed journals and poster communications. Focus of his research activity is drug delivery, physico-chemical characterization and biological evaluation of biopolymers micro and nanoparticles as modified drug delivery system, and colloidal drug carriers (liposomes, nanoparticles etc.).",institutionString:null,institution:{name:"Marmara University",country:{name:"Turkey"}}},{id:"61051",title:"Prof.",name:"Andrea",middleName:null,surname:"Natale",slug:"andrea-natale",fullName:"Andrea Natale",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:null},{id:"100762",title:"Prof.",name:"Andrea",middleName:null,surname:"Natale",slug:"andrea-natale",fullName:"Andrea Natale",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:{name:"St David's Medical Center",country:{name:"United States of America"}}},{id:"107416",title:"Dr.",name:"Andrea",middleName:null,surname:"Natale",slug:"andrea-natale",fullName:"Andrea Natale",position:null,profilePictureURL:"//cdnintech.com/web/frontend/www/assets/author.svg",biography:null,institutionString:null,institution:{name:"Texas Cardiac Arrhythmia",country:{name:"United States of America"}}},{id:"64434",title:"Dr.",name:"Angkoon",middleName:null,surname:"Phinyomark",slug:"angkoon-phinyomark",fullName:"Angkoon Phinyomark",position:null,profilePictureURL:"https://mts.intechopen.com/storage/users/64434/images/2619_n.jpg",biography:"My name is Angkoon Phinyomark. I received a B.Eng. degree in Computer Engineering with First Class Honors in 2008 from Prince of Songkla University, Songkhla, Thailand, where I received a Ph.D. degree in Electrical Engineering. My research interests are primarily in the area of biomedical signal processing and classification notably EMG (electromyography signal), EOG (electrooculography signal), and EEG (electroencephalography signal), image analysis notably breast cancer analysis and optical coherence tomography, and rehabilitation engineering. I became a student member of IEEE in 2008. During October 2011-March 2012, I had worked at School of Computer Science and Electronic Engineering, University of Essex, Colchester, Essex, United Kingdom. In addition, during a B.Eng. I had been a visiting research student at Faculty of Computer Science, University of Murcia, Murcia, Spain for three months.\n\nI have published over 40 papers during 5 years in refereed journals, books, and conference proceedings in the areas of electro-physiological signals processing and classification, notably EMG and EOG signals, fractal analysis, wavelet analysis, texture analysis, feature extraction and machine learning algorithms, and assistive and rehabilitative devices. I have several computer programming language certificates, i.e. Sun Certified Programmer for the Java 2 Platform 1.4 (SCJP), Microsoft Certified Professional Developer, Web Developer (MCPD), Microsoft Certified Technology Specialist, .NET Framework 2.0 Web (MCTS). I am a Reviewer for several refereed journals and international conferences, such as IEEE Transactions on Biomedical Engineering, IEEE Transactions on Industrial Electronics, Optic Letters, Measurement Science Review, and also a member of the International Advisory Committee for 2012 IEEE Business Engineering and Industrial Applications and 2012 IEEE Symposium on Business, Engineering and Industrial Applications.",institutionString:null,institution:{name:"Joseph Fourier University",country:{name:"France"}}},{id:"55578",title:"Dr.",name:"Antonio",middleName:null,surname:"Jurado-Navas",slug:"antonio-jurado-navas",fullName:"Antonio Jurado-Navas",position:null,profilePictureURL:"https://mts.intechopen.com/storage/users/55578/images/4574_n.png",biography:"Antonio Jurado-Navas received the M.S. degree (2002) and the Ph.D. degree (2009) in Telecommunication Engineering, both from the University of Málaga (Spain). He first worked as a consultant at Vodafone-Spain. From 2004 to 2011, he was a Research Assistant with the Communications Engineering Department at the University of Málaga. In 2011, he became an Assistant Professor in the same department. From 2012 to 2015, he was with Ericsson Spain, where he was working on geo-location\ntools for third generation mobile networks. Since 2015, he is a Marie-Curie fellow at the Denmark Technical University. His current research interests include the areas of mobile communication systems and channel modeling in addition to atmospheric optical communications, adaptive optics and statistics",institutionString:null,institution:{name:"University of Malaga",country:{name:"Spain"}}}],filtersByRegion:[{group:"region",caption:"North America",value:1,count:5717},{group:"region",caption:"Middle and South America",value:2,count:5179},{group:"region",caption:"Africa",value:3,count:1696},{group:"region",caption:"Asia",value:4,count:10260},{group:"region",caption:"Australia and Oceania",value:5,count:890},{group:"region",caption:"Europe",value:6,count:15670}],offset:12,limit:12,total:117458},chapterEmbeded:{data:{}},editorApplication:{success:null,errors:{}},ofsBooks:{filterParams:{sort:"dateendthirdsteppublish"},books:[],filtersByTopic:[{group:"topic",caption:"Agricultural and Biological Sciences",value:5,count:11},{group:"topic",caption:"Biochemistry, Genetics and Molecular Biology",value:6,count:14},{group:"topic",caption:"Business, Management and Economics",value:7,count:2},{group:"topic",caption:"Chemistry",value:8,count:7},{group:"topic",caption:"Computer and Information Science",value:9,count:10},{group:"topic",caption:"Earth and Planetary Sciences",value:10,count:4},{group:"topic",caption:"Engineering",value:11,count:16},{group:"topic",caption:"Environmental Sciences",value:12,count:2},{group:"topic",caption:"Immunology and Microbiology",value:13,count:4},{group:"topic",caption:"Materials Science",value:14,count:5},{group:"topic",caption:"Mathematics",value:15,count:1},{group:"topic",caption:"Medicine",value:16,count:51},{group:"topic",caption:"Neuroscience",value:18,count:1},{group:"topic",caption:"Pharmacology, Toxicology and Pharmaceutical Science",value:19,count:5},{group:"topic",caption:"Physics",value:20,count:3},{group:"topic",caption:"Psychology",value:21,count:3},{group:"topic",caption:"Robotics",value:22,count:1},{group:"topic",caption:"Social Sciences",value:23,count:3},{group:"topic",caption:"Technology",value:24,count:1},{group:"topic",caption:"Veterinary Medicine and Science",value:25,count:2}],offset:0,limit:12,total:null},popularBooks:{featuredBooks:[],offset:0,limit:12,total:null},hotBookTopics:{hotBooks:[],offset:0,limit:12,total:null},publish:{},publishingProposal:{success:null,errors:{}},books:{featuredBooks:[{type:"book",id:"7802",title:"Modern Slavery and Human Trafficking",subtitle:null,isOpenForSubmission:!1,hash:"587a0b7fb765f31cc98de33c6c07c2e0",slug:"modern-slavery-and-human-trafficking",bookSignature:"Jane Reeves",coverURL:"https://cdn.intechopen.com/books/images_new/7802.jpg",editors:[{id:"211328",title:"Prof.",name:"Jane",middleName:null,surname:"Reeves",slug:"jane-reeves",fullName:"Jane Reeves"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter"}},{type:"book",id:"9961",title:"Data Mining",subtitle:"Methods, Applications and Systems",isOpenForSubmission:!1,hash:"ed79fb6364f2caf464079f94a0387146",slug:"data-mining-methods-applications-and-systems",bookSignature:"Derya Birant",coverURL:"https://cdn.intechopen.com/books/images_new/9961.jpg",editors:[{id:"15609",title:"Dr.",name:"Derya",middleName:null,surname:"Birant",slug:"derya-birant",fullName:"Derya Birant"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter"}},{type:"book",id:"8545",title:"Animal Reproduction in Veterinary Medicine",subtitle:null,isOpenForSubmission:!1,hash:"13aaddf5fdbbc78387e77a7da2388bf6",slug:"animal-reproduction-in-veterinary-medicine",bookSignature:"Faruk Aral, Rita Payan-Carreira and Miguel Quaresma",coverURL:"https://cdn.intechopen.com/books/images_new/8545.jpg",editors:[{id:"25600",title:"Prof.",name:"Faruk",middleName:null,surname:"Aral",slug:"faruk-aral",fullName:"Faruk Aral"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter"}},{type:"book",id:"9157",title:"Neurodegenerative Diseases",subtitle:"Molecular Mechanisms and Current Therapeutic Approaches",isOpenForSubmission:!1,hash:"bc8be577966ef88735677d7e1e92ed28",slug:"neurodegenerative-diseases-molecular-mechanisms-and-current-therapeutic-approaches",bookSignature:"Nagehan Ersoy Tunalı",coverURL:"https://cdn.intechopen.com/books/images_new/9157.jpg",editors:[{id:"82778",title:"Ph.D.",name:"Nagehan",middleName:null,surname:"Ersoy Tunalı",slug:"nagehan-ersoy-tunali",fullName:"Nagehan Ersoy Tunalı"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter"}},{type:"book",id:"8686",title:"Direct Torque Control Strategies of Electrical Machines",subtitle:null,isOpenForSubmission:!1,hash:"b6ad22b14db2b8450228545d3d4f6b1a",slug:"direct-torque-control-strategies-of-electrical-machines",bookSignature:"Fatma Ben Salem",coverURL:"https://cdn.intechopen.com/books/images_new/8686.jpg",editors:[{id:"295623",title:"Associate Prof.",name:"Fatma",middleName:null,surname:"Ben Salem",slug:"fatma-ben-salem",fullName:"Fatma Ben Salem"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter"}},{type:"book",id:"7434",title:"Molecular Biotechnology",subtitle:null,isOpenForSubmission:!1,hash:"eceede809920e1ec7ecadd4691ede2ec",slug:"molecular-biotechnology",bookSignature:"Sergey Sedykh",coverURL:"https://cdn.intechopen.com/books/images_new/7434.jpg",editors:[{id:"178316",title:"Ph.D.",name:"Sergey",middleName:null,surname:"Sedykh",slug:"sergey-sedykh",fullName:"Sergey Sedykh"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter"}},{type:"book",id:"9208",title:"Welding",subtitle:"Modern Topics",isOpenForSubmission:!1,hash:"7d6be076ccf3a3f8bd2ca52d86d4506b",slug:"welding-modern-topics",bookSignature:"Sadek Crisóstomo Absi Alfaro, Wojciech Borek and Błażej Tomiczek",coverURL:"https://cdn.intechopen.com/books/images_new/9208.jpg",editors:[{id:"65292",title:"Prof.",name:"Sadek Crisostomo Absi",middleName:"C. Absi",surname:"Alfaro",slug:"sadek-crisostomo-absi-alfaro",fullName:"Sadek Crisostomo Absi Alfaro"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter"}},{type:"book",id:"7831",title:"Sustainability in Urban Planning and Design",subtitle:null,isOpenForSubmission:!1,hash:"c924420492c8c2c9751e178d025f4066",slug:"sustainability-in-urban-planning-and-design",bookSignature:"Amjad Almusaed, Asaad Almssad and Linh Truong - Hong",coverURL:"https://cdn.intechopen.com/books/images_new/7831.jpg",editors:[{id:"110471",title:"Dr.",name:"Amjad",middleName:"Zaki",surname:"Almusaed",slug:"amjad-almusaed",fullName:"Amjad Almusaed"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter"}},{type:"book",id:"9343",title:"Trace Metals in the Environment",subtitle:"New Approaches and Recent Advances",isOpenForSubmission:!1,hash:"ae07e345bc2ce1ebbda9f70c5cd12141",slug:"trace-metals-in-the-environment-new-approaches-and-recent-advances",bookSignature:"Mario Alfonso Murillo-Tovar, Hugo Saldarriaga-Noreña and Agnieszka Saeid",coverURL:"https://cdn.intechopen.com/books/images_new/9343.jpg",editors:[{id:"255959",title:"Dr.",name:"Mario Alfonso",middleName:null,surname:"Murillo-Tovar",slug:"mario-alfonso-murillo-tovar",fullName:"Mario Alfonso Murillo-Tovar"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter"}},{type:"book",id:"9139",title:"Topics in Primary Care Medicine",subtitle:null,isOpenForSubmission:!1,hash:"ea774a4d4c1179da92a782e0ae9cde92",slug:"topics-in-primary-care-medicine",bookSignature:"Thomas F. Heston",coverURL:"https://cdn.intechopen.com/books/images_new/9139.jpg",editors:[{id:"217926",title:"Dr.",name:"Thomas F.",middleName:null,surname:"Heston",slug:"thomas-f.-heston",fullName:"Thomas F. Heston"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter"}}],latestBooks:[{type:"book",id:"6934",title:"Psycho-Social Aspects of Human Sexuality and Ethics",subtitle:null,isOpenForSubmission:!1,hash:"44731b106aa0d1ab5c64a7394483c7d5",slug:"psycho-social-aspects-of-human-sexuality-and-ethics",bookSignature:"Dhastagir Sultan Sheriff",coverURL:"https://cdn.intechopen.com/books/images_new/6934.jpg",editedByType:"Edited by",editors:[{id:"167875",title:"Dr.",name:"Dhastagir Sultan",middleName:null,surname:"Sheriff",slug:"dhastagir-sultan-sheriff",fullName:"Dhastagir Sultan Sheriff"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"10062",title:"Forecasting in Mathematics",subtitle:"Recent Advances, New Perspectives and Applications",isOpenForSubmission:!1,hash:"9a3ad05fef0502040d2a238ad22487c0",slug:"forecasting-in-mathematics-recent-advances-new-perspectives-and-applications",bookSignature:"Abdo Abou Jaoude",coverURL:"https://cdn.intechopen.com/books/images_new/10062.jpg",editedByType:"Edited by",editors:[{id:"248271",title:"Dr.",name:"Abdo",middleName:null,surname:"Abou Jaoude",slug:"abdo-abou-jaoude",fullName:"Abdo Abou Jaoude"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"9043",title:"Parenting",subtitle:"Studies by an Ecocultural and Transactional Perspective",isOpenForSubmission:!1,hash:"6d21066c7438e459e4c6fb13217a5c8c",slug:"parenting-studies-by-an-ecocultural-and-transactional-perspective",bookSignature:"Loredana Benedetto and Massimo Ingrassia",coverURL:"https://cdn.intechopen.com/books/images_new/9043.jpg",editedByType:"Edited by",editors:[{id:"193200",title:"Prof.",name:"Loredana",middleName:null,surname:"Benedetto",slug:"loredana-benedetto",fullName:"Loredana Benedetto"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"10075",title:"Nonlinear Optics",subtitle:"From Solitons to Similaritons",isOpenForSubmission:!1,hash:"b034b2a060292c8511359aec0db1002c",slug:"nonlinear-optics-from-solitons-to-similaritons",bookSignature:"İlkay Bakırtaş and Nalan Antar",coverURL:"https://cdn.intechopen.com/books/images_new/10075.jpg",editedByType:"Edited by",editors:[{id:"186388",title:"Prof.",name:"İlkay",middleName:null,surname:"Bakırtaş",slug:"ilkay-bakirtas",fullName:"İlkay Bakırtaş"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"10116",title:"Nano- and Microencapsulation",subtitle:"Techniques and Applications",isOpenForSubmission:!1,hash:"8d92c5999718734b36a0cc3a6af7c7f6",slug:"nano-and-microencapsulation-techniques-and-applications",bookSignature:"Nedal Abu-Thabit",coverURL:"https://cdn.intechopen.com/books/images_new/10116.jpg",editedByType:"Edited by",editors:[{id:"308436",title:"Associate Prof.",name:"Nedal",middleName:null,surname:"Abu-Thabit",slug:"nedal-abu-thabit",fullName:"Nedal Abu-Thabit"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"9881",title:"Perovskite and Piezoelectric Materials",subtitle:null,isOpenForSubmission:!1,hash:"8fa0e0f48567bbc50fbb3bfdde6f9a0b",slug:"perovskite-and-piezoelectric-materials",bookSignature:"Someshwar Pola, Neeraj Panwar and Indrani Coondoo",coverURL:"https://cdn.intechopen.com/books/images_new/9881.jpg",editedByType:"Edited by",editors:[{id:"177037",title:"Dr.",name:"Someshwar",middleName:null,surname:"Pola",slug:"someshwar-pola",fullName:"Someshwar Pola"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"9394",title:"Genotoxicity and Mutagenicity",subtitle:"Mechanisms and Test Methods",isOpenForSubmission:!1,hash:"9ee7e597358dbbfb5e33d0beb76e6fff",slug:"genotoxicity-and-mutagenicity-mechanisms-and-test-methods",bookSignature:"Sonia Soloneski and Marcelo L. Larramendy",coverURL:"https://cdn.intechopen.com/books/images_new/9394.jpg",editedByType:"Edited by",editors:[{id:"14863",title:"Dr.",name:"Sonia",middleName:null,surname:"Soloneski",slug:"sonia-soloneski",fullName:"Sonia Soloneski"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"7434",title:"Molecular Biotechnology",subtitle:null,isOpenForSubmission:!1,hash:"eceede809920e1ec7ecadd4691ede2ec",slug:"molecular-biotechnology",bookSignature:"Sergey Sedykh",coverURL:"https://cdn.intechopen.com/books/images_new/7434.jpg",editedByType:"Edited by",editors:[{id:"178316",title:"Ph.D.",name:"Sergey",middleName:null,surname:"Sedykh",slug:"sergey-sedykh",fullName:"Sergey Sedykh"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"8545",title:"Animal Reproduction in Veterinary Medicine",subtitle:null,isOpenForSubmission:!1,hash:"13aaddf5fdbbc78387e77a7da2388bf6",slug:"animal-reproduction-in-veterinary-medicine",bookSignature:"Faruk Aral, Rita Payan-Carreira and Miguel Quaresma",coverURL:"https://cdn.intechopen.com/books/images_new/8545.jpg",editedByType:"Edited by",editors:[{id:"25600",title:"Prof.",name:"Faruk",middleName:null,surname:"Aral",slug:"faruk-aral",fullName:"Faruk Aral"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"9569",title:"Methods in Molecular Medicine",subtitle:null,isOpenForSubmission:!1,hash:"691d3f3c4ac25a8093414e9b270d2843",slug:"methods-in-molecular-medicine",bookSignature:"Yusuf Tutar",coverURL:"https://cdn.intechopen.com/books/images_new/9569.jpg",editedByType:"Edited by",editors:[{id:"158492",title:"Prof.",name:"Yusuf",middleName:null,surname:"Tutar",slug:"yusuf-tutar",fullName:"Yusuf Tutar"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}}]},subject:{topic:{id:"43",title:"Biochemistry",slug:"biochemistry-genetics-and-molecular-biology-biochemistry",parent:{title:"Biochemistry, Genetics and Molecular Biology",slug:"biochemistry-genetics-and-molecular-biology"},numberOfBooks:21,numberOfAuthorsAndEditors:446,numberOfWosCitations:216,numberOfCrossrefCitations:175,numberOfDimensionsCitations:451,videoUrl:null,fallbackUrl:null,description:null},booksByTopicFilter:{topicSlug:"biochemistry-genetics-and-molecular-biology-biochemistry",sort:"-publishedDate",limit:12,offset:0},booksByTopicCollection:[{type:"book",id:"9346",title:"Computational Biology and Chemistry",subtitle:null,isOpenForSubmission:!1,hash:"badcbbb6482c3717b111d4a16b1fdac3",slug:"computational-biology-and-chemistry",bookSignature:"Payam Behzadi and Nicola Bernabò",coverURL:"https://cdn.intechopen.com/books/images_new/9346.jpg",editedByType:"Edited by",editors:[{id:"45803",title:"Ph.D.",name:"Payam",middleName:null,surname:"Behzadi",slug:"payam-behzadi",fullName:"Payam Behzadi"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"9057",title:"Cellular Metabolism and Related Disorders",subtitle:null,isOpenForSubmission:!1,hash:"7e65b3987fb8ae8eb483224fadd5fac7",slug:"cellular-metabolism-and-related-disorders",bookSignature:"Jesmine Khan and Po-Shiuan Hsieh",coverURL:"https://cdn.intechopen.com/books/images_new/9057.jpg",editedByType:"Edited by",editors:[{id:"140755",title:"Dr.",name:"Jesmine",middleName:null,surname:"Khan",slug:"jesmine-khan",fullName:"Jesmine Khan"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"8176",title:"DNA Methylation Mechanism",subtitle:null,isOpenForSubmission:!1,hash:"1de018af20c3e9916b5a9b4fed13a4ff",slug:"dna-methylation-mechanism",bookSignature:"Metin Budak and Mustafa Yıldız",coverURL:"https://cdn.intechopen.com/books/images_new/8176.jpg",editedByType:"Edited by",editors:[{id:"226275",title:"Ph.D.",name:"Metin",middleName:null,surname:"Budak",slug:"metin-budak",fullName:"Metin Budak"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"7004",title:"Metabolomics",subtitle:"New Insights into Biology and Medicine",isOpenForSubmission:!1,hash:"35a30d8241442b716a4aab830b6de28f",slug:"metabolomics-new-insights-into-biology-and-medicine",bookSignature:"Wael N. Hozzein",coverURL:"https://cdn.intechopen.com/books/images_new/7004.jpg",editedByType:"Edited by",editors:[{id:"189233",title:"Prof.",name:"Wael N.",middleName:"Nabil",surname:"Hozzein",slug:"wael-n.-hozzein",fullName:"Wael N. Hozzein"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"8912",title:"Biochemical Analysis Tools",subtitle:"Methods for Bio-Molecules Studies",isOpenForSubmission:!1,hash:"10a6269502e58eda525718afec8e667e",slug:"biochemical-analysis-tools-methods-for-bio-molecules-studies",bookSignature:"Oana-Maria Boldura, Cornel Baltă and Nasser Sayed Awwad",coverURL:"https://cdn.intechopen.com/books/images_new/8912.jpg",editedByType:"Edited by",editors:[{id:"189429",title:"Prof.",name:"Oana-Maria",middleName:null,surname:"Boldura",slug:"oana-maria-boldura",fullName:"Oana-Maria Boldura"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"10111",title:"Apolipoproteins, Triglycerides and Cholesterol",subtitle:null,isOpenForSubmission:!1,hash:"29ed0d776c8e3b2af0e50b3c4cf5e415",slug:"apolipoproteins-triglycerides-and-cholesterol",bookSignature:"Viduranga Y. Waisundara and Miljana Z. Jovandaric",coverURL:"https://cdn.intechopen.com/books/images_new/10111.jpg",editedByType:"Edited by",editors:[{id:"194281",title:"Dr.",name:"Viduranga Yashasvi",middleName:null,surname:"Waisundara",slug:"viduranga-yashasvi-waisundara",fullName:"Viduranga Yashasvi Waisundara"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"7036",title:"Advances in Lipid Metabolism",subtitle:null,isOpenForSubmission:!1,hash:"f6c8e0623ad7d860b95d3e2eda4b904c",slug:"advances-in-lipid-metabolism",bookSignature:"Rodrigo Valenzuela Baez",coverURL:"https://cdn.intechopen.com/books/images_new/7036.jpg",editedByType:"Edited by",editors:[{id:"72355",title:"Prof.",name:"Rodrigo",middleName:null,surname:"Valenzuela Baez",slug:"rodrigo-valenzuela-baez",fullName:"Rodrigo Valenzuela Baez"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"7588",title:"Chemistry and Biological Activity of Steroids",subtitle:null,isOpenForSubmission:!1,hash:"6c31f480909cfd6937f756ee0b982b07",slug:"chemistry-and-biological-activity-of-steroids",bookSignature:"Jorge António Ribeiro Salvador and Maria Manuel Cruz Silva",coverURL:"https://cdn.intechopen.com/books/images_new/7588.jpg",editedByType:"Edited by",editors:[{id:"69976",title:"Prof.",name:"Jorge António Ribeiro",middleName:null,surname:"Salvador",slug:"jorge-antonio-ribeiro-salvador",fullName:"Jorge António Ribeiro Salvador"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"6897",title:"Biophysical Chemistry",subtitle:"Advance Applications",isOpenForSubmission:!1,hash:"0ad18ab382e2ffb9ff202d15282297eb",slug:"biophysical-chemistry-advance-applications",bookSignature:"Mohammed A. A. Khalid",coverURL:"https://cdn.intechopen.com/books/images_new/6897.jpg",editedByType:"Edited by",editors:[{id:"137240",title:"Prof.",name:"Mohammed",middleName:null,surname:"Khalid",slug:"mohammed-khalid",fullName:"Mohammed Khalid"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"6966",title:"Lipid Peroxidation Research",subtitle:null,isOpenForSubmission:!1,hash:"f1f45176e765ecb65a1c6d1496e75b5b",slug:"lipid-peroxidation-research",bookSignature:"Mahmoud Ahmed Mansour",coverURL:"https://cdn.intechopen.com/books/images_new/6966.jpg",editedByType:"Edited by",editors:[{id:"224662",title:"Prof.",name:"Mahmoud Ahmed",middleName:null,surname:"Mansour",slug:"mahmoud-ahmed-mansour",fullName:"Mahmoud Ahmed Mansour"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"8622",title:"Peptide Synthesis",subtitle:null,isOpenForSubmission:!1,hash:"de9fa48c5248dbfb581825b8c74f5623",slug:"peptide-synthesis",bookSignature:"Jaya T. Varkey",coverURL:"https://cdn.intechopen.com/books/images_new/8622.jpg",editedByType:"Edited by",editors:[{id:"246502",title:"Dr.",name:"Jaya",middleName:"T",surname:"Varkey",slug:"jaya-varkey",fullName:"Jaya Varkey"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}},{type:"book",id:"8095",title:"Liposomes",subtitle:"Advances and Perspectives",isOpenForSubmission:!1,hash:"02b0d76190d551561ad19af0c80f98f2",slug:"liposomes-advances-and-perspectives",bookSignature:"Angel Catala",coverURL:"https://cdn.intechopen.com/books/images_new/8095.jpg",editedByType:"Edited by",editors:[{id:"196544",title:"Prof.",name:"Angel",middleName:null,surname:"Catala",slug:"angel-catala",fullName:"Angel Catala"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter",authoredCaption:"Edited by"}}],booksByTopicTotal:21,mostCitedChapters:[{id:"38573",doi:"10.5772/51687",title:"Food Phenolic Compounds: Main Classes, Sources and Their Antioxidant Power",slug:"food-phenolic-compounds-main-classes-sources-and-their-antioxidant-power",totalDownloads:9163,totalCrossrefCites:28,totalDimensionsCites:83,book:{slug:"oxidative-stress-and-chronic-degenerative-diseases-a-role-for-antioxidants",title:"Oxidative Stress and Chronic Degenerative Diseases",fullTitle:"Oxidative Stress and Chronic Degenerative Diseases - A Role for Antioxidants"},signatures:"Maria de Lourdes Reis Giada",authors:[{id:"153687",title:"Associate Prof.",name:"Maria De Lourdes",middleName:"Reis",surname:"Giada",slug:"maria-de-lourdes-giada",fullName:"Maria De Lourdes Giada"}]},{id:"39159",doi:"10.5772/51788",title:"Oxidative Stress in Diabetes Mellitus and the Role Of Vitamins with Antioxidant Actions",slug:"oxidative-stress-in-diabetes-mellitus-and-the-role-of-vitamins-with-antioxidant-actions",totalDownloads:5485,totalCrossrefCites:13,totalDimensionsCites:29,book:{slug:"oxidative-stress-and-chronic-degenerative-diseases-a-role-for-antioxidants",title:"Oxidative Stress and Chronic Degenerative Diseases",fullTitle:"Oxidative Stress and Chronic Degenerative Diseases - A Role for Antioxidants"},signatures:"Maria-Luisa Lazo-de-la-Vega-Monroy and Cristina Fernández-Mejía",authors:[{id:"46162",title:"Dr.",name:"Maria-Luisa",middleName:null,surname:"Lazo-De-La-Vega-Monroy",slug:"maria-luisa-lazo-de-la-vega-monroy",fullName:"Maria-Luisa Lazo-De-La-Vega-Monroy"}]},{id:"52857",doi:"10.5772/65366",title:"Oxidative Stress and Disease",slug:"oxidative-stress-and-disease",totalDownloads:2342,totalCrossrefCites:4,totalDimensionsCites:17,book:{slug:"a-master-regulator-of-oxidative-stress-the-transcription-factor-nrf2",title:"The Transcription Factor Nrf2",fullTitle:"A Master Regulator of Oxidative Stress - The Transcription Factor Nrf2"},signatures:"Rosângela F.F de Araújo, Danyelly Bruneska G. Martins and Maria\nAmélia C.S.M. Borba",authors:[{id:"189307",title:"Dr.",name:"Rosângela",middleName:null,surname:"Araújo",slug:"rosangela-araujo",fullName:"Rosângela Araújo"},{id:"194629",title:"Dr.",name:"Danyelly",middleName:null,surname:"Martins",slug:"danyelly-martins",fullName:"Danyelly Martins"},{id:"194630",title:"MSc.",name:"Maria Amélia",middleName:null,surname:"Borba",slug:"maria-amelia-borba",fullName:"Maria Amélia Borba"}]}],mostDownloadedChaptersLast30Days:[{id:"69775",title:"Principles of Chromatography Method Development",slug:"principles-of-chromatography-method-development",totalDownloads:1566,totalCrossrefCites:2,totalDimensionsCites:2,book:{slug:"biochemical-analysis-tools-methods-for-bio-molecules-studies",title:"Biochemical Analysis Tools",fullTitle:"Biochemical Analysis Tools - Methods for Bio-Molecules Studies"},signatures:"Narasimha S. Lakka and Chandrasekar Kuppan",authors:[{id:"304950",title:"Prof.",name:"Chandrasekar",middleName:null,surname:"Kuppan",slug:"chandrasekar-kuppan",fullName:"Chandrasekar Kuppan"},{id:"309984",title:"Mr.",name:"Narasimha S",middleName:null,surname:"Lakka",slug:"narasimha-s-lakka",fullName:"Narasimha S Lakka"}]},{id:"72074",title:"The Chemistry Behind Plant DNA Isolation Protocols",slug:"the-chemistry-behind-plant-dna-isolation-protocols",totalDownloads:983,totalCrossrefCites:0,totalDimensionsCites:0,book:{slug:"biochemical-analysis-tools-methods-for-bio-molecules-studies",title:"Biochemical Analysis Tools",fullTitle:"Biochemical Analysis Tools - Methods for Bio-Molecules Studies"},signatures:"Jina Heikrujam, Rajkumar Kishor and Pranab Behari Mazumder",authors:[{id:"74521",title:"Dr.",name:"Rajkumar",middleName:null,surname:"Kishor",slug:"rajkumar-kishor",fullName:"Rajkumar Kishor"},{id:"309357",title:"Prof.",name:"Pranab Behari",middleName:null,surname:"Mazumder",slug:"pranab-behari-mazumder",fullName:"Pranab Behari Mazumder"},{id:"318351",title:"Ph.D. Student",name:"Jina",middleName:null,surname:"Heikrujam",slug:"jina-heikrujam",fullName:"Jina Heikrujam"}]},{id:"38573",title:"Food Phenolic Compounds: Main Classes, Sources and Their Antioxidant Power",slug:"food-phenolic-compounds-main-classes-sources-and-their-antioxidant-power",totalDownloads:9163,totalCrossrefCites:28,totalDimensionsCites:83,book:{slug:"oxidative-stress-and-chronic-degenerative-diseases-a-role-for-antioxidants",title:"Oxidative Stress and Chronic Degenerative Diseases",fullTitle:"Oxidative Stress and Chronic Degenerative Diseases - A Role for Antioxidants"},signatures:"Maria de Lourdes Reis Giada",authors:[{id:"153687",title:"Associate Prof.",name:"Maria De Lourdes",middleName:"Reis",surname:"Giada",slug:"maria-de-lourdes-giada",fullName:"Maria De Lourdes Giada"}]},{id:"65545",title:"Histamine and Other Biogenic Amines in Food. From Scombroid Poisoning to Histamine Intolerance",slug:"histamine-and-other-biogenic-amines-in-food-from-scombroid-poisoning-to-histamine-intolerance",totalDownloads:1839,totalCrossrefCites:4,totalDimensionsCites:8,book:{slug:"biogenic-amines",title:"Biogenic Amines",fullTitle:"Biogenic Amines"},signatures:"Oriol Comas-Basté, Maria Luz Latorre-Moratalla, Sònia Sánchez-Pérez,\nMaria Teresa Veciana-Nogués and Maria del Carmen Vidal-Carou",authors:[{id:"256830",title:"Dr.",name:"M.Carmen",middleName:null,surname:"Vidal-Carou",slug:"m.carmen-vidal-carou",fullName:"M.Carmen Vidal-Carou"},{id:"290453",title:"Mr.",name:"Oriol",middleName:null,surname:"Comas-Basté",slug:"oriol-comas-baste",fullName:"Oriol Comas-Basté"},{id:"290454",title:"Dr.",name:"Mariluz",middleName:null,surname:"Latorre-Moratalla",slug:"mariluz-latorre-moratalla",fullName:"Mariluz Latorre-Moratalla"},{id:"290455",title:"Ms.",name:"Sònia",middleName:null,surname:"Sánchez-Pérez",slug:"sonia-sanchez-perez",fullName:"Sònia Sánchez-Pérez"},{id:"290456",title:"Dr.",name:"M.Teresa",middleName:null,surname:"Veciana-Nogués",slug:"m.teresa-veciana-nogues",fullName:"M.Teresa Veciana-Nogués"}]},{id:"64549",title:"Plant Lipid Metabolism",slug:"plant-lipid-metabolism",totalDownloads:1348,totalCrossrefCites:3,totalDimensionsCites:5,book:{slug:"advances-in-lipid-metabolism",title:"Advances in Lipid Metabolism",fullTitle:"Advances in Lipid Metabolism"},signatures:"Fatiha AID",authors:[{id:"256576",title:"Prof.",name:"Fatiha",middleName:null,surname:"Aid",slug:"fatiha-aid",fullName:"Fatiha Aid"}]},{id:"52298",title:"NRF2 Rewires Cellular Metabolism to Support the Antioxidant Response",slug:"nrf2-rewires-cellular-metabolism-to-support-the-antioxidant-response",totalDownloads:2788,totalCrossrefCites:6,totalDimensionsCites:13,book:{slug:"a-master-regulator-of-oxidative-stress-the-transcription-factor-nrf2",title:"The Transcription Factor Nrf2",fullTitle:"A Master Regulator of Oxidative Stress - The Transcription Factor Nrf2"},signatures:"Ting-Yu Lin, Lewis C. Cantley and Gina M. DeNicola",authors:[{id:"188337",title:"Dr.",name:"Lewis",middleName:null,surname:"Cantley",slug:"lewis-cantley",fullName:"Lewis Cantley"},{id:"188629",title:"Dr.",name:"Gina",middleName:null,surname:"DeNicola",slug:"gina-denicola",fullName:"Gina DeNicola"},{id:"194683",title:"MSc.",name:"Ting-Yu",middleName:null,surname:"Lin",slug:"ting-yu-lin",fullName:"Ting-Yu Lin"}]},{id:"39159",title:"Oxidative Stress in Diabetes Mellitus and the Role Of Vitamins with Antioxidant Actions",slug:"oxidative-stress-in-diabetes-mellitus-and-the-role-of-vitamins-with-antioxidant-actions",totalDownloads:5485,totalCrossrefCites:13,totalDimensionsCites:29,book:{slug:"oxidative-stress-and-chronic-degenerative-diseases-a-role-for-antioxidants",title:"Oxidative Stress and Chronic Degenerative Diseases",fullTitle:"Oxidative Stress and Chronic Degenerative Diseases - A Role for Antioxidants"},signatures:"Maria-Luisa Lazo-de-la-Vega-Monroy and Cristina Fernández-Mejía",authors:[{id:"46162",title:"Dr.",name:"Maria-Luisa",middleName:null,surname:"Lazo-De-La-Vega-Monroy",slug:"maria-luisa-lazo-de-la-vega-monroy",fullName:"Maria-Luisa Lazo-De-La-Vega-Monroy"}]},{id:"60923",title:"Introductory Chapter: Basics of Free Radicals and Antioxidants",slug:"introductory-chapter-basics-of-free-radicals-and-antioxidants",totalDownloads:1439,totalCrossrefCites:4,totalDimensionsCites:7,book:{slug:"free-radicals-antioxidants-and-diseases",title:"Free Radicals, Antioxidants and Diseases",fullTitle:"Free Radicals, Antioxidants and Diseases"},signatures:"Rizwan Ahmad",authors:[{id:"40482",title:"Prof.",name:"Rizwan",middleName:null,surname:"Ahmad",slug:"rizwan-ahmad",fullName:"Rizwan Ahmad"}]},{id:"52680",title:"Endogenous Antioxidants: A Review of their Role in Oxidative Stress",slug:"endogenous-antioxidants-a-review-of-their-role-in-oxidative-stress",totalDownloads:3186,totalCrossrefCites:3,totalDimensionsCites:14,book:{slug:"a-master-regulator-of-oxidative-stress-the-transcription-factor-nrf2",title:"The Transcription Factor Nrf2",fullTitle:"A Master Regulator of Oxidative Stress - The Transcription Factor Nrf2"},signatures:"Tomás Alejandro Fregoso Aguilar, Brenda Carolina Hernández\nNavarro and Jorge Alberto Mendoza Pérez",authors:[{id:"154732",title:"Dr.",name:"Jorge A.",middleName:null,surname:"Mendoza-Pérez",slug:"jorge-a.-mendoza-perez",fullName:"Jorge A. Mendoza-Pérez"},{id:"154908",title:"Dr.",name:"Tomás A.",middleName:null,surname:"Fregoso-Aguilar",slug:"tomas-a.-fregoso-aguilar",fullName:"Tomás A. Fregoso-Aguilar"},{id:"194794",title:"Dr.",name:"Brenda Carolina",middleName:"Carolina",surname:"Hernandez Navarro",slug:"brenda-carolina-hernandez-navarro",fullName:"Brenda Carolina Hernandez Navarro"}]},{id:"68865",title:"Online Automated Micro Sample Preparation for High-Performance Liquid Chromatography",slug:"online-automated-micro-sample-preparation-for-high-performance-liquid-chromatography",totalDownloads:348,totalCrossrefCites:0,totalDimensionsCites:0,book:{slug:"biochemical-analysis-tools-methods-for-bio-molecules-studies",title:"Biochemical Analysis Tools",fullTitle:"Biochemical Analysis Tools - Methods for Bio-Molecules Studies"},signatures:"Hiroyuki Kataoka, Atsushi Ishizaki and Keita Saito",authors:[{id:"88155",title:"Prof.",name:"Hiroyuki",middleName:null,surname:"Kataoka",slug:"hiroyuki-kataoka",fullName:"Hiroyuki Kataoka"},{id:"308808",title:"MSc.",name:"Atsushi",middleName:null,surname:"Ishuzaki",slug:"atsushi-ishuzaki",fullName:"Atsushi Ishuzaki"},{id:"308809",title:"Dr.",name:"Keita",middleName:null,surname:"Saito",slug:"keita-saito",fullName:"Keita Saito"}]}],onlineFirstChaptersFilter:{topicSlug:"biochemistry-genetics-and-molecular-biology-biochemistry",limit:3,offset:0},onlineFirstChaptersCollection:[],onlineFirstChaptersTotal:0},preDownload:{success:null,errors:{}},aboutIntechopen:{},privacyPolicy:{},peerReviewing:{},howOpenAccessPublishingWithIntechopenWorks:{},sponsorshipBooks:{sponsorshipBooks:[{type:"book",id:"10176",title:"Microgrids and Local Energy Systems",subtitle:null,isOpenForSubmission:!0,hash:"c32b4a5351a88f263074b0d0ca813a9c",slug:null,bookSignature:"Prof. Nick Jenkins",coverURL:"https://cdn.intechopen.com/books/images_new/10176.jpg",editedByType:null,editors:[{id:"55219",title:"Prof.",name:"Nick",middleName:null,surname:"Jenkins",slug:"nick-jenkins",fullName:"Nick Jenkins"}],equalEditorOne:null,equalEditorTwo:null,equalEditorThree:null,productType:{id:"1",chapterContentType:"chapter"}}],offset:8,limit:8,total:1},route:{name:"profile.detail",path:"/profiles/214785/mauro-koji",hash:"",query:{},params:{id:"214785",slug:"mauro-koji"},fullPath:"/profiles/214785/mauro-koji",meta:{},from:{name:null,path:"/",hash:"",query:{},params:{},fullPath:"/",meta:{}}}},function(){var m;(m=document.currentScript||document.scripts[document.scripts.length-1]).parentNode.removeChild(m)}()