Chapters authored
The Relationship Between Phenolic Compounds from Diet and Microbiota By Daniela Elena Popa, Cristina Manuela Drăgoi, Andreea Letiţia
Arsene, Ion Bogdan Dumitrescu, Alina Crenguţa Nicolae, Bruno Stefan Velescu and
George T.A. Burcea-Dragomiroiu
All multicellular organisms live in a strong bond with the microorganisms from around the world, and the humans are not the exceptions. Human microbiota (a complex bacterial community) contains about 1014 microbial cells, 10 times more than the content of the cells from our body and the microbial genome named microbiome, 1000 more that the human genome. It colonises any surface of the human body, above our skin, in the genitourinary tract, gut and airways. From all this, the gut is the most colonised organ, with an amount of almost 70% of the human microbes. Considering the large size of the gut, compared with a tennis terrain, filled with substances that plays a key, nutritive role for the microbes, polyphenols are micronutrients from our diet, with an emerging role in the modulation of the colonic microbial population composition and activity. Therefore, many studies underline that long-term consumption of diets rich in plants polyphenols offers protection against cancer, cardiovascular diseases, diabetes, osteoporosis and neurodegenerative diseases. This chapter reviews the biological effects of plant polyphenols in the context of relevance to human health, especially considering the food functionality area, together with the complexity of the human microbiota and the bioavailability highly dependent on their intestinal absorption.
Part of the book: Phenolic Compounds
Chronotherapy Advances in the Management of Chronic Neurological and Cardiovascular Diseases: Complex Interactions of Circadian Rhythm Environmental Inputs, Nutrition and Drug Administration and Their Impact on Human Health By Alina Crenguța Nicolae, Ion-Bogdan Dumitrescu, Camelia Cristina Diaconu, Mirela Elena Ritivoiu, Carmen Adella Sirbu and Cristina Manuela Drăgoi
New scientific evidence raises awareness concerning the human-specific interplay among primary environmental conditions, such as the light–dark cycle, activity–rest alternation, nutritional patterns, and their reflection on the physiological and pathological characteristics that are displayed uniquely by every individual. One of the critical aspects in the clinic is to understand the role of circadian rhythms as remarkable modulators of the biological effects of drugs and to aim for an optimal overlapping of the time of administration of medicines with the physiologic release of certain hormones, the time-dependent expression of genes, or the key-regulatory protein synthesis, which are all circadian-driven processes. The pharmacokinetics and pharmacodynamics profiles, as well as the possible drug interactions of neurotropic and cardiovascular agents, are intensely subjected to endogenous circadian rhythms, being essential to identify as much as possible the patients’ multiple risk factors, from age and gender to lifestyle elements imprinted by dietary features, sleep patterns, psychological stress, all the way to various other associated pathological conditions and their own genetic and epigenetic background. This review chapter will highlight the involvement of biological rhythms in physiologic processes and their impact on various pathological mechanisms, and will focus on the nutritional impact on the circadian homeostasis of the organism and neurologic and cardiovascular chronotherapy.
Part of the book: Circadian Rhythm
Sirtuins and Melatonin: Linking Chronobiology to Inflammation and Aging By Anca Ungurianu, Cristina Manuela Drăgoi, Alina Crenguța Nicolae, Ion-Bogdan Dumitrescu, Daniela Grădinaru and Denisa Margină
In recent years, the intricate interplay between sirtuins and melatonin has emerged as a fascinating area of research, with profound implications on various aspects of human health. This comprehensive chapter delves into the complex relationship between sirtuins and melatonin, as well as their essential roles in the regulation of circadian rhythms, inflammation, and aging. The attention is primarily directed to their impact on a range of critical health focal points, including cardiovascular diseases, central nervous system disorders, metabolic imbalances, musculoskeletal disorders, neoplasms, and the overarching process of aging, detailing all the complex biochemical mechanisms and physiological pathways that validate the intimately tailored functional relationship between the indoleamine hormone synthesized in the pinealocytes and the NAD+-dependent histone deacetylases. These two components interact in complex ways, influencing processes such as cellular homeostasis, oxidative stress, and inflammatory cascade regulation. Age-related reductions in SIRT1 expression, influenced by melatonin levels, can deeply impact cellular functions. By elucidating the complex connections between sirtuins, melatonin, and chronobiological processes, we contribute to a deeper understanding of the fundamental mechanisms that trigger inflammation and aging-related diseases, and in the meantime underscore the promising avenues for future research and clinical interventions aimed at enhancing human health and extending the quality of life.
Part of the book: Advances in Geriatrics and Gerontology - Challenges of the New Millennium [Working title]