Overview of Different Location of Muscle Strain

Up to 30% or more of all the sports injuries that we deal with in our daily medical practice, including contusions and bruises [1] are injuries to muscle. Muscular injuries can occur anywhere on our whole body. The treatment methods available to us today are of such a wide variety that the athlete can to return to physical activity as soon as possible (in most of the cases) without any permanent damage or secondary reactions. Many of these injuries are not properly treated due to several factors, for example, physician inexperience or that athletes minimize the injury in their quest to stay in the competition; athletes hide (especially during the clinical evaluation) their pain, which is very important information for the medical doctors to set the guidelines on how to treat the pathology. Unfortunately, now we have these injuries in children and adolescent athletes because of the availability of high level of competition in all sports even at those ages. So having the knowledge to make the correct diagnosis in these pathologies is essential for physicians who treat athletes every day.


Introduction
Up to 30% or more of all the sports injuries that we deal with in our daily medical practice, including contusions and bruises [1] are injuries to muscle.
Muscular injuries can occur anywhere on our whole body. The treatment methods available to us today are of such a wide variety that the athlete can to return to physical activity as soon as possible (in most of the cases) without any permanent damage or secondary reactions.
Many of these injuries are not properly treated due to several factors, for example, physician inexperience or that athletes minimize the injury in their quest to stay in the competition; athletes hide (especially during the clinical evaluation) their pain, which is very important information for the medical doctors to set the guidelines on how to treat the pathology.
Unfortunately, now we have these injuries in children and adolescent athletes because of the availability of high level of competition in all sports even at those ages.
So having the knowledge to make the correct diagnosis in these pathologies is essential for physicians who treat athletes every day.

Pectoral strains
A strained pectoral muscle is actually a slight tear in the chest muscles named pectoral muscles and these two muscles are located at the front of the chest. One is the largest (pectoralis major) and originates from the sternum, ribs and collar bone and goes to the upper part of the humerus and the smallest is the pectoralis minor that finish in the front of the shoulder blade.
An injury happens when the muscle is stretched too far and the pain can be felt at the same moment or in some cases latter during the cooling down phase after the exercise and sometimes the pain radiates to the upper arm or neck [2].
Diagnosis.-During the physical examination some patients show an obvious swelling and bruising area that is tender under digital palpation and others just have pain when you ask them to move the arms backwards, (Fig. 1) in some others you can ask them to try to do a push up and the patients refers pain over the affected area. Another way to make the diagnosis is to ask the athlete that with the arms extended try to get together the hands and you put your fist between the hands for not allow him to do it (fig. 2) Figure 2. With both arms straighten at front ask the patient to put their hand together against resistance To assess the severity of the injury an Ultrasound, CT scan or MRI scan may be required.

Biceps strains
The biceps is located in the front of the upper arm and it is attached to the elbow and the shoulder.When we flex the elbow most of this movement is done by the biceps.
Symptoms of a biceps strain include sudden and severe pain at the front of the shoulder and also the athlete can experience swelling, deformity of the muscle and loss of strength, presence of a bruise over the affected area, depending on the severity.
In the physical evaluation with the elbow straighten palpate all along the biceps ( fig. 3) ask the patient to flex the elbow with the palm up and tell him not to let you push it toward the floor ( fig. 4) an ultrasound study is very useful to assess the severity of the injury because some tears at the level of the elbow more often require surgical repair [3].

Triceps strains
The triceps muscle is located in the back side of the upper arm and its main action is straightening the elbow. A triceps strain can be a simple overstretch to a partial or complete tear. This pathology may result from overusing or in a single boost of force.
When this occurred the symptoms are pain, stiffness, tenderness, edema, in some cases bruising and loss of strength.
During the physical examination the patient refers pain over the area and the palpation can be done with the elbow in flexion to relax the muscle ( fig. 5), also if we ask the athlete to straighten the elbow with the palm down against resistance ( fig. 6). Some patients require surgical treatment depends on the site and the severity of the injury. [4]

Medial flexor pronator muscles strain) medial flexor pronator strain
This is an injury that occurs on the inside of the elbow after either direct trauma as in wrestling or baseball or from valgus strain in golf or football soccer.
The injury occurs to the forearm muscles that attach to the inside (medial) aspect of the elbow; the first indication of injury is pain, swelling, or even in an acute hematoma may be present.
Physical examination should determine the exact location of the injury according to pain (using digital palpation). The maneuvers to be performed include: Ask patient to perform wrist flexion and pronation. Pain is often referred into the affected area (figure 7a).
With the elbow at 45° of flexion, movements of flexion, extension, pronation, and valgus stress are carried to determine the location and magnitude of the injury.(figure 7c) These maneuvers should be done on the contralateral elbow as well to see how great is the difference in pain intensity and location as well as motion between the two joints.
Another maneuver that can be used to assess pain is forced flexion of the wrist against resistance (figure 7b). You can define three grades of injury: First.-There is damage to a small fraction of muscle fibers.

Second.-This can include an avulsion of the muscles insertion
Third.-There is a broader breakdown of muscle fibers. There may also be the presence of an avulsion fracture cause by detachment of the tendon in the affected area.
One complication may be an injury to the ulnar nerve. If this happens the sensitivity of the little finger and the ring finger are affected [5] to be sure to perform a small sensitivity neurological examination (figure 8).

Flexor muscle strain
Another common injury is the forearm flexor injury.
For example in sports requiring abduction and external rotation after a sudden adduction internal rotation of the can cause forearm flexor muscles to be injured (e.g., baseball, swimming, etc.) Once injured, there will be tenderness around over the forearm flexor muscles.
The pain from this injury can be provoked by asking the athlete to flex the wrist against resistance; pain should arise in the medial side (figure 9). In some athletes (those with a pronator injury) a hematoma can be present. Pain can be provoked with pressure on the lateral side of the elbow joint forcing the elbow into valgus.

Abdominal muscle strain
Several muscles converge in the abdomen: rectus, internal and external obliques and also the transverse and the pyramid On physical examination is difficult to establish the diagnosis because beneath these muscles is the abdominal cavity that contains different organs that also can cause pain.
Not all the abdominal pain has an muscle origin and it is our challenge to know what signs or symptoms differentiates the different pathologies.
Whenever an athlete refers abdominal pain, we should start the physical examination away from the zone of pain and gradually get closer to the area that the athlete describes as being the most annoying in appearance, swelling, deformity, tumors, etc.
If we suspect a muscular abdominal tear [6], part of the physical examination would be to ask the athlete to do a sit up and putting an effort on the abdominal area. There will be patients in which you have to ask the athlete to contract the abs against resistance in order to get a painful response (figure 10). In abdominal pathologies unrelated to the muscle and if we have any doubt, it is best to refer the athlete to a specialist and not cause more damage by waiting and see if the symptoms disappear. This is a very valuable time if the cause is pain comes from an organ of the abdominal cavity.

Groin muscle strain
For example in soccer players the incidence of groin injury is approximately 5% to 6.2%, [7].
If we talk about the local anatomy, there are four muscles that converge at the same point and any of them could be torn or stretched so even though the symptoms may be closely related the source, pain could be localized to any of these muscles: rectus femoris, adductors, psoas major or sartorius.
Remember that these muscles are involved in hip flexion so in the physical examination, we must look for pain when the athlete is flexing the hip.
The athlete may have exacerbation and decrease in symptoms while in some cases the pain is only present when there are changes in the speed or change of direction. It is not unusual for the athlete to have no pain when running forward without changing direction.
The symptoms can be vague and often undefined because of the convergence of various anatomical structures. Pain could be due to a sport's hernia, osteitis pubis, nerve pain (neurally referred pain), bursitis, tumors, etc.
A physical examination can begin examining the painful area to rule out that pain that could be from a node or an inguinal hernia (in all the cases there is tenderness).If the lesion is muscular in origin, pain should increase when the athlete is asked the patient to perform hip flexion against resistance (figure 12). Other provocative maneuvers are to have the athlete lift the leg (with the knee extended) (figure 13a), against resistance or the examiner takes the leg in extension and do some abduction movement ( figure 13b, 13c). Si hacemos este movimiento de forma contralateral con la pierna no involucrada podremos ver que el rango de movimiento está limitado en la pierna afectada. Similar tests of the contralateral (uninvolved) leg will show just how much range of motion is limited in the affected leg. An initial recommendation is for rest to allow time for the symptoms to be minimized. Treatment is based on a good diagnosis and since here we encounter the convergence of various etiologies of pain, any misdiagnosis could lead to chronic pain that can result in limitation of the athlete´s sports performance

Lumbar strains
Lumbar sprains are the most common causes of low back pain. A low back muscle strain occurs when the muscle fibers are abnormally stretched or torn. The injury can occur because of overuse, improper use, or trauma. It is classified as "acute" if it has been present for days to weeks. If the strain lasts longer than 3 months, it is referred to as "chronic".
Almost all of these low back injuries are due to injuries of the muscle. Certain risk factors, such as excessive lower back curvature, forward-tilted pelvis, weak back and/or abdominal muscles, and tight hamstrings, can increase the risk for this injury.
The symptoms are: Pain around the low back and upper buttocks, Low back muscle spasm, Pain associated with activities, and generally relieved with rest spasms in the lower back that result in more severe pain and lower back feels sore to the touch Trauma of great force can injure the tendons and muscles in the lower back. Pushing and pulling sports, such as weight lifting or football, can lead to a lumbar strain.
The diagnosis of lumbar strain is based on the history of injury, but in the physical examination we palpate all the back of the patient facing down, to locate the pain ( fig.14 a). We also ask him to try to rise the head while we are holding the ankles( fig. 14 b) and another maneuver is ask him to rise the leg with the knee straighten,on at the time, (fig. 14 c).

Pubic adductor strain
The pubic adductor strain is a very common pathology in runners. Attached to the pubis are three muscle that converge: the adductor magnus, minimus and longus.
This injury usually occurs suddenly after having made a sharp sprint or change of direction and speed. When this injury happens, the athlete suddenly suspends the exercise and seeks medical help.
In the physical examination, pain is referred to a specific area of the adductor region to the inner and upper part of the leg. Palpation of the area may reveal edema, increased temperature, and in some cases a visible bruise ( figure 15). In carrying out exploratory maneuvers, a patient is unable to laterally raise the leg without pain and may require help to perform this movement.
With the athlete lying supine, ask him to to flex the knee and hip to 45° and then ask him to let the leg drop outward to the point of pain., If the injury is minor, the examiner may need to apply some resistance to provoke pain ( figure 16a,16b).

Quadriceps
One of the largest muscles in our body is the one on the front of the thigh. It is called the Quadriceps because it has four distinct beginnings (heads) that form separate muscles (vastus medialis, vastus intermedius, vastus lateralis and rectus femoris) that come together and insert as a single unit to the superior pole of the patella wrapping it and then inserting into the anterior tibial tuberosity.
Functionally, the quadriceps contributes significantly to the knee's stability. The quadriceps is a prime mover of knee extension and assists in hip flexion. The athlete can be injured in two ways. One is by a direct blow to the muscle and a second method is when the extension movement is performed suddenly.
A direct blow can cause blood vessels to break leading to intermuscular or intramuscular hematomas.
Physical examination includes a direct palpation to the injured area that should provoke pain and limping by the patient. This diagnosis is not difficult to determine because the athlete's history leaves no doubt ( figure 17).
When there is a torn muscle caused by an overexertion, the examiner can also palpate underlying edema. The athlete will usually be quite uncomfortable in the area of the injury and unable to perform an isometric contraction of the thigh similar to the unaffected leg.
We can check the range of motion of the leg with the athlete lying supine on the edge of the examination table and bending the knee to the limit of pain ( figure 18). At this point, stop the movement and measure the hip and knee angles. Repeat the test with the uninvolved leg and determine the difference in the measurements. Treatment should be instituted immediately to prohibit the injury from complicating and increasing the pain as time passes. Some times in the clinical history we have reports of previous ruptures that left an obvious muscle deformity (such a depression in the rectus femoris), but from the functional point of view the athlete's performance is unaffected even although the defect could be very large and might even need surgery, [8].

Hamstring
The hamstring muscles are located on the back of the thigh and function to flex the knee and extend the hip. These muscles form the back and inside out of the thigh (semitendinosus, semimembranosus and biceps femoris (long and short head) the latter being the outermost of these muscles).
When this group of muscles are injured, the athlete reports having felt a "pull" especially when they are doing explosive exercises, and so the athlete stops and suspends all activity immediately.
There are hamstrings injuries that can occur in a slow and chronic manner, so the symptoms are vague and can be confused with pain in the lower back; not all injuries to this muscle group are acute, [9].
The causes of this injury can be very marked imbalance quadriceps strength (muscle imbalance), also often are due to lack of elasticity or warm-up previous to ballistic sports activity [10].
When this injury occurs, pain is widespread, edema occurs quickly and the patient is unable to stand or walk on the injured leg. Moreover, in the course of a few hours a hematoma is present, which can be displaced by gravity towards the back of the knee.
On physical examination (with the patient lying prone) pain in the area of the tear is provoked by palpation and the patient cannot perform an isometric knee flexion or hip extension nor can the athlete perform hip extension (figure 19a).

Gastrocnemius tear
These muscles are the gastrocnemius (medial and lateral head), and soleus and all combine to form the Achilles tendon. Their function is to help flex the knee and the foot (plantar flexion) and also the supination of the foot. Injuries in the calf are often due to lack of adequate warm up, stretching, or by overexertion when the muscle is already fatigued.
Generally speaking, the injury usually occurs acutely and patients say it feels as if someone had stuck in the back of the leg, yet when they turn around nobody is behind them, [11].
Pain is present immediately and the athlete can no longer stand and may have to be removed from the field on a stretcher. On physical examination, the prone patient is examined and the site of injury can be determined by palpation; edema is not always present ( figure 20). With the athlete still lying prone, the knee is flexed to 90°. Pain is triggered when the athlete is asked to perform plantar flexion.
A complication of this condition is when the Achilles tendon ruptures; it is very important to rule out this complication. With the patient in a sitting position, compress the muscles (figure 21) to make the toes goes directly downward (Thompson sign). If this movement does not occur, the tendon could be completely torn and surgical treatment may be necessary.
Standing on the toes causes too much pain and the patient is unable to apply equal force by both legs to remain standing (figure 22).