Abdominal Strain

By Terry Zeigler, EdD, ATC


A abdominal strain is fairly common in athletes and active populations because this group of muscles is constantly engaged to keep the athlete’s core tight so that the athlete can perform and execute skills using his/her extremities and/or total body. Strong and healthy abdominal muscles only enhance an athlete’s performance. However, injure these muscles, and the athlete will have significant difficulty trying to perform.

The muscles of the abdomen are layered from deep to superficial including the transverse abdominis (fibers run across the abdomen), internal and external obliques (fibers run in opposite diagonal directions), and rectus abdominis (fibers run up and down). Each has a function linked to its structure.

The deepest muscle, transverse abdominis constricts to hold the abdominal contents in place and to help with forced expiration, coughing, laughing, and sneezing. The internal and external obliques’ diagonal fibers are designed to assist in trunk rotation, lateral flexion (movement sideways), and when working as a pair, trunk flexion.

The most superficial muscle group is the rectus abdominis. This is the set of muscles that fun up and down the abdomen and can be seen in athletes who have a low body fat (also known as the much sought after “six pack”). The muscle fibers can be seen just under the skin as they rise and fall from their attached fascial sheath. The rectus abdominis is primarily responsible for trunk flexion, but can also assist in other trunk movement.


What is a abdominal strain? 

A strain is an injury to a muscle. A strain can vary in severity from a mild stretch to a full rupture. In an abdominal muscle strain, any one of the four muscles can be injured causing extreme discomfort with any trunk movements as well as with coughing, laughing, deep breathing, or sneezing. 


What are the classifications of abdominal strain? 

A mild stretching of a muscle is diagnosed as a first degree abdominal strain and can result in localized pain, mild swelling, and pain with movement, coughing, laughing, deep breathing, or sneezing.

A more severe injury of an abdominal muscle is a partial tear (second degree). Depending on the amount of fibers torn, this type of injury may be quite debilitating for the athlete. The athlete may experience sudden abdominal pain, marked tenderness, localized swelling, and discoloration. Any and all movements of the athlete may be painful with the athlete guarded in his/her movements.

A third degree muscle strain is the most severe injury and is diagnosed as a complete muscle rupture either at its insertion, origin, or midsection. Along with the symptoms of a second degree muscle strain, the athlete may also experience the symptoms of shock including nausea, vomiting, pale skin, excess perspiration, difficulty breathing, and a shallow and rapid heart rate.

Athletes suspected of a full rupture muscle tear should be immediately removed from the activity and provided emergency medical care until emergency services arrives. The athlete should be kept still while an ice pack is applied to the injury. The athlete’s vital signs (pulse, respiration, blood pressure) should be monitored until help arrives.


How is an abdominal strain diagnosed? 

An abdominal strain is easily diagnosed by a sports medicine professional with the use of a thorough medical history and complete clinical evaluation. Palpation of the injury site combined with abdominal muscle tests can provide enough information to determine the severity of the muscle injury as well as the specific muscle injured. 


Who gets a abdominal strain? 

Athletes more susceptible to an abdominal strain are those in sports that require strong rotational movements or flexion/hyperextension movements. They are usually acute (traumatic) injuries seen in athletes in the sports of baseball, softball, basketball, gymnastics, and track and field.


What causes abdominal strain? 

The most common causes of abdominal strains are sudden twisting (i.e., swinging a bat) or sudden hyperextension of the spine (i.e., as seen during dynamic gymnastics movements) (Anderson, M.K., Hall, S.J., & Martin, M., 2005).

If the force of the movement is stronger than the fibers of the muscles can withstand, the muscle will begin to stretch. If the force continues, the fibers may begin to tear. Continued force could cause a complete rupture within the muscle or between the muscle and its fascial attachment.


What can I do to prevent a abdominal strain? 

Athletes can prevent abdominal strains by maintaining the flexibility of their trunk and increasing the strength of their core muscles. The good thing is that many sports programs already include core strength training exercises as part of their conditioning program.

If athletes are involved in programs that do not incorporate core training, a large variety of these types of exercises are used by personal trainers, physical therapists, and certified athletic trainers. These professionals can be consulted for additional or advanced exercises to strengthen core muscles.

One core exercise that can be done without equipment is the bridge. It is easily performed and has a lot of variations that can be added to increase the difficulty level of the specific exercise.

The athlete starts in a position lying on the floor. The athlete bends his/her knees so that his/her feet are on the floor. Then the athlete pushes his/her pelvis up so that the knees, hips, and spine are in one line. Initially, the athlete may want to place his/her hands and arms on the ground to add stability. As the athlete gets stronger, the athlete can raise his/her arms off of the floor.

As the athlete moves up into the bridge, the athlete should contract all of the muscles in and around the trunk and hold the bridge for 10 seconds. This can be repeated for a total of three sets of ten repetitions.

To increase the difficulty of this exercise, the athlete can extend one knee by lifting his/her foot off of the ground while in the bridge position. They key is for the athlete to maintain a neutral pelvis position with hips straight and not rotated throughout this exercise. The athlete can alternate legs or hold the extended leg for a count of five or ten before replacing his/her foot on the ground.

Another good exercise to build core muscles is the plank or prone bridge. Traditionally, the plank is performed on the ground with the athlete on his/her forearms in a push-up position. If this is too difficult, the athlete may start in the plank position on his/her knees. The goal for the athlete is to hold the plank position for as long as possible keeping his/her spine, hips, knees, and feet in one straight line.

To increase the difficulty of a regular plank, the athlete can move from a forearm position to a push-up position by alternately pushing up one arm and then the other and then reversing back to the forearm position keeping a steady rhythm. Again, the goal is to keep the hips and shoulders stabilized during the up and down movement.

Another alternative to the regular plank is the side plank or side bridge. The idea is the same but the athlete is in a side lying position. The athlete balances on one forearm while holding his/her opposite arm up in the air keeping the body straight with only the feet touching the ground.

A more difficult variation of the side plank is to have the athlete lift his/her top leg and hold it while maintaining a tight core in the plank position. This can be done with multiple leg lifts or by just holding the leg lift for a number of seconds.


What is the treatment for a abdominal strain? 

The immediate treatment of an abdominal strain involves about using the P.R.I.C.E. principle – Protection, Rest, Icing, Compression, Elevation -beginning with the application of an ice pack for twenty minutes. The ice pack can be reapplied every two hours for the first two to three days post-injury.

Rest is another component of the P.R.I.C.E. principle, but is a little more difficult with an abdominal strain. Injuries to the arms or legs can easily be protected and rested through the use of crutches, slings, or braces. However, splinting the trunk of the body is not such an easy task.

To protect and rest the abdominal muscles, the athlete may need to limit his/her activities for a few days until the pain decreases. To assist the athlete in supporting the injured area, the athlete may choose to wear an ace bandage. The ace bandage also serves to add compression to the area minimizing any swelling.

After the pain begins to subside, the athlete can begin mild stretching of the injured area along with isometric contractions to begin to strengthen and heal the injured tissue. Stretching should proceed slowly and be performed carefully so as not to cause any pain.

Pain is an indicator that the athlete has exceeded the injured tissue’s capability to lengthen. Stretching too early during the rehabilitation of a muscle strain can reinjure the damaged tissue and set the athlete’s progress back. New collagen tissue can be torn from its attachment and restart the bleeding and swelling process.

Isometric muscle exercises can be safely performed early in the rehabilitation process because they are designed to contract a muscle without allowing any movement of the associated joints. One such exercise is to have the athlete lie on his/her back and flex his/her knees placing his/her feet on the ground. The athlete then pushes his/her lower back against the ground while contracting all of the abdominal muscles at the same time. The athlete can hold the contraction for 10 seconds and repeat 10 times.

As the muscle continues to heal and the athlete’s range-of-motion improves, the athlete can progress to concentric muscle exercises for his/her core. Concentric muscle exercises are exercises in which the muscle contracts causing a shortening of the muscle and movement of the adjacent joints.

Movements to improve the strengths of all of the abdominal muscle groups should include the movements of trunk flexion, rotation, and lateral flexion (side bend). Each exercise should be done to target specific muscle groups.

Although once popular to strengthen the rectus abdominis, sit-ups are not the best exercise for strengthening the abdominals. An effective exercise is a modified crunch. The athlete lies on the floor with his/her knees bent and feet placed shoulder width apart. The athlete contracts his/her abdominals and then lifts his/her chin to the ceiling focusing on moving the chest off of the floor. It is a lift rather than a curl.

The internal and external obliques can be targeted by using the same exercise as above, but by adding a rotational component with each lift. The athlete can alternate rotations to the left and to the right with each modified crunch. This rotational component targets the diagonal fibers of the internal and external obliques.

Traditional core exercises can also be performed to strengthen the abdominal muscles. If available, core exercises can also be performed using a therapy ball or foam roll.


Recovery – Getting back to Sport

Once the athlete has pain-free full range-of-motion of his/her trunk (flexion, extension, rotation, and lateral flexion) and good strength, the athlete is ready to progress to sport specific functional exercises.  These exercises should include on a gradual progression of skills required in the athlete’s sport.

For example, a softball player should include both offensive and defensive skills specific to the athlete’s position. For example, a catcher should include drills specific to that position whereas an athlete who competes as a middle infielder should include drills fielding balls directly at the athlete as well as to either side.

Regardless of the defensive position, all ball players need to be able to swing a bat. Those returning from an abdominal strain should take extra care when beginning and progressing through hitting drills. The athlete should begin swinging drills at about an intensity of 50% while using a lighter bat than usual.

Once the athlete can perform bat swings at full speed without pain, the athlete can progress to hitting whiffle balls off of a tee or soft toss drills. Once the athlete can perform these drills comfortably and with confidence, the athlete can proceed to hit off of a machine.

Only when the athlete can comfortably perform all the basic skills of his/her sport without pain can the athlete progress to scrimmage situations. With time and confidence, the athlete will be ready to return to sports.


When Can I Return to Play? 

The athlete can return to sports when he/she has been released by his/her physician and is pain-free through all ranges-of-motion of the trunk with full strength. 



  • Anderson, M.K., Hall, S.J., & Martin, M. (2005). Foundations of Athletic Training: Prevention, Assessment, and Management. (3rd Ed.). Lippincott Williams & Wilkins: Philadelphia, PA.
  • Arnheim, D.D. & Prentice, W.E. (2000). Principles of Athletic Training. (10th Ed.). McGraw Hill: Boston, MA.
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