Brian Schiff’s Blog
Injury Prevention, Sports Rehab & Performance Training Expert
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I have a steady flow of baseball players who come to see me for shoulder and elbow rehab. As a former pitcher whose playing career was altered by an arm injury at age 14, I have a particular interest in throwing injuries. My son is a 6’2″ left-handed pitcher that plays showcase baseball. He will be the subject matter of this post moving forward.
Many of the players I see for shoulder and elbow pain suffer from pathological GIRD (glenohumeral internal rotation deficit). While it is common to see throwers with less internal rotation on their dominant side, it is important to assess total shoulder motion to make sure their mobility is within 5 degrees of their non-dominant side. Asymmetry in total shoulder motion and shoulder flexion increase the odds of elbow injuries. Click here to see the correlation in professional pitchers. Additionally, insufficient external rotation gain on the throwing arm increases injury risk. Click here to read an abstract summarizing data within the same group of professional pitchers.
Given this information and my background, I have preached arm care for years to my son. For some background, my son has pitched since he was 9 years old. Since I have been a coach for his team in one capacity or another since he was 10, I have closely monitored and controlled his pitch counts, innings per outing and total innings per year. He has always been able to throw hard, but he had a big growth spurt in middle school and his velocity grew with that.
He now throws between 75-77 mph as a HS freshman. He is projected to be 6’5″ tall and weighs 170 pounds at this time. His showcase coach pitched in MLB, and we have two other organizational pitching instructors with big league experience who supervise his weekly bullpens. His total innings pitched for 2017 = 43. Research indicates anything over 100 significantly increases injury risk. With all that said, he has developed some medial elbow pain over the past 4 months. He has no history of arm trouble to date. My intention is for this post to serve as useful diagnostic and proactive intervention for those who may see and experience similar cases.
Shoulder impingement is a common problem for many clients. Specifically, some clients will suffer from internal impingement as a result of a significant loss of internal rotation range of motion, also known as GIRD (glenohumeral internal rotation deficit). This has been widely researched in baseball players, and it is a common issue for overhead athletes. Of note, it can also impact those doing repetitive overhead lifts.
It is common to see asymmetry in internal range of motion for the dominant and non-dominant arms. For those clients who have a total shoulder motion asymmetry greater than 5 degrees, it becomes more important to resolve internal range of motion deficits based on the current literature. In my previous post, I revealed how to improve soft tissue mobility. In this post, I will review the sleeper stretch and cross body stretch to improve posterior shoulder mobility while increasing internal rotation.
The video below from my column ‘Functionally Fit’ for PFP Magazine will demonstrate how to do these stretches.
One of the more challenging issues I see in the clinic is pain in the upper hamstring region. Proximal hamstring tendinopathy, referred to medically as tendinosis, is common in runners and athletes. With that said, arriving at this diagnosis can also be challenging as proximal hamstring pain can also be caused by sciatica or referred pain from the low back region. A thorough clinical exam and good history will be able to definitively help diagnose the cause.
Chronic hamstring pain can occur as a result of a previous acute tear, or due to ongoing tendinitis that is aggravated by repetitive activity. Running, biking, rowing and even prolonged sitting can aggravate the hamstring tendons where they attach to the ischial tuberosity. There is also an ischial bursa that cushions this region that can become chronically inflamed. It is a common problem for distance runners and athletes involved in sprinting, hurdles, or cutting . Typical signs and symptoms include a deep, local pain in the buttocks/upper hamstring region that worsens with running, squatting, lunging and sitting.
Differential diagnoses include:
- Sciatic nerve irritation (may be a co-morbidity in some cases)
- Ischiofemoral impingement
- Apophysitis or avulsion in adolescents
- Deep gluteal muscle tear
- Stress fracture (posterior pubic bone or ischial ramus)
- Partial or complete rupture
Proximal hamstring tendinopathy is rarely painful during activities that do not involve elastic energy transfer or compression, such as walking on even ground, standing or lying down. Tears are typically accompanied by extreme hip flexion and knee extension during an acute injury (usually hear an audible pop). In some cases, chronic pain may also be accompanied by an exaggerated pain response, referred to as central sensitization where the central nervous system conveys an amplified neural signal resulting in pain hypersensitivity.
Poor landing mechanics are often cited as a predictor of ACL injury risk. In my 20 years as a physical therapist, I have rehabbed many athletes with this injury. I believe that injury prevention, whether to prevent a primary or secondary injury, hinges on the ability to train the body to decelerate and land appropriately. Some athletes simply move better than others. Nonetheless, teaching a soft bent knee landing while minimizing dynamic valgus is essential.
The following video from my online PFP column reveals a foundational exercise that can be used in prevention and rehab alike.
Click here if you want to read about another landing exercise that I utilize in my training and rehab programs.
Unfortunately, I see far too many patients following ACL reconstruction in my sports medicine practice. In any given month, I am rehabbing between 10 and 15 patients who have lost their season to this injury. Most of the time it is a non-contact mechanism of injury, often involving additional trauma to the collateral ligaments, menisci and/or cartilage within the joint.
Throughout my career, I have rehabbed several hundred athletes with ACL tears. It has always been an area of interest and passion for me as well as prevention. Blending my background in performance training with rehab, I have fostered through much trial and adjustment what seems to be a very effective approach to rehab and return to sport. Rehabbing higher level athletes is much like working on a high performance sports cars.
If you own a high performance vehicle, you would prefer to have it serviced at a dealership where the mechanics are experienced working on similar cars, yes? I feel the same care and application is relevant with ACL rehab. PT that is too aggressive or too conservative can impede progress and negatively impact peak performance.
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