Brian Schiff’s Blog

Many athletes and clients I work with lack adequate pillar and shoulder stability. Whether this is related to acquired laxity, inherent instability or simply a lack of proper muscular control, I think it is important to assess baseline stability in anyone performing overhead lifts, ballistic upper body training and in overhead athletes.

In my clinic, I work with lots of baseball players, swimmers and volleyball players. Most females tend to struggle with hyper mobility (loose shoulder joints) whereas many of my males tend to have soft tissue tightness and in some cases limited internal rotation (GIRD). Both males and females tend to have a need to improve dynamic shoulder and pillar (core) stability to reduce injury risk and optimize mechanics.

The following exercise is one I use to both assess anti-rotational control/stability as well as train the body to resist torsional forces. In the video below, you can see how to assess your baseline strength and stability.

This exercise is very effective in working improving glenohumeral and scapular stability as well as enhancing shoulder, torso and hip stability. In my opinion, athletes with poor stability in this assessment should not perform unilateral Olympic lifting or ballistic overhead training as they may lack the necessary neuromuscular control to execute the proper movement pattern.

I just returned from the Sports Physical Therapy Section’s annual conference in Las Vegas. There were plenty of great presentations from various industry leaders. I thought I would take a moment and summarize a few key points from the conference that may be helpful to clinicians and consumers alike.

The conference theme was the power of innovation. Hot topics covered were blood flow restriction therapy, cupping, dry needling, eccentric loading for tendiopathy, weighted ball training, and kinesiotaping and laser therapy to name a few. Below are some takeaways worth mentioning:

• Blood flow restriction (BFR) training can be used to help reduce muscle atrophy after surgery, improve muscle protein synthesis and provide a way to increase strength with loads as low as 20-30% of 1RM for clients unable to tolerate heavy loading
• BFR is not superior to nor a substitute for high intensity training (need to push weight to see best strength gains), but it can be used as an adjunct to training. It also produces an increase in IGHF1 after exercise.
• BFR should not be used before higher intensity activities such as HIT, plyometrics, SAQ, etc.
• Clinicians and strength coaches should consider Olympic lifting derivatives as an alternative to traditional lifts if there is concern with catch phases or biomehcanical/physical concerns. Examples include high pulls/snatch pulls instead of traditional cleans and snatches.
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In my previous post, I outlined the history and findings related to my son’s medial elbow pain. Since publication of that blog post, I have since been given the results of his MR arthrogram and have further updates. If you did not read the prior post, you can click here to read it.

Initially, my concern was tendinitis or more of a flexor/pronator strain given his mild yet persistent soreness and response to rest. The imaging revealed that his UCL was pristine, the radiocapitellar joint liked good, no osteophyte formation or really any inflammation in the soft tissue. The surge told me he had to look closely, but there was evidence of mild fluid around the apophysis. So, in essence, there was some overload/strain being placed on the growth plate.

Given that my son’s growth plates are still open at age 15, he was experiencing some overload (apophysitis) rather than strain on the UCL itself. Had he been skeletally mature, there likely would have been more stress being placed directly on the ligament itself. So, this was good news for all of us.

We received the results on Tuesday October 31. With clearance to pitch last weekend as tolerated by the MD, I elected to have my son throw a bullpen last week. He threw 25 pitches on Wednesday night (one week ago) and was at 100% and pain free. As such, I let him throw 40 pitches in our showcase game last Saturday. He again threw pain free. Now that Fall baseball has ended, we will shut him down for some extended rest and focus on arm care and overall strength and conditioning as he continues his HS workouts.

Some key takeaway points for players, parents and coaches:

• Never dismiss pain that occurs with throwing
• Educate players about throwing related soreness/tightness (such as lactic acid build up that would be typical after a start on the mound) so they can differentiate that from true pain
• If velocity, mechanics or performance in a player suddenly drops, be suspicious of a potential injury knowing that most players will try to throw through it (look for shaking/rubbing of the arm, grimacing or other body language that is outside the player’s normal routine)
• If you suspect an injury, seek out an immediate assessment from a knowledgeable physical therapist and/or MD who treats baseball players as they will do a more comprehensive evaluation and uncover the root cause of dysfunction faster
• Getting imaging in a higher level player will provide peace of mind for the athlete, parent and coach allowing for proper care and progression back to pitching as evidenced in this situation
• Managing pitch counts, innings pitched and recovery between appearances will be instrumental in preventing or reducing injuries

In the end, we must rely on the athletes to communicate what they re feeling. Often, pitcher push through fatigue and pain in the spirit of competition. It is imperative that we advise against this in order to promote long term health and prevent more serious injuries. I know I feel fortunate that my son’s injury was not serious at all.

Moving forward, I will adjust his off season and in-season throwing to ensure he actually conditions his arm with more frequent throwing (not pitching) to ensure his endurance is better, as I feel this may have been a factor in his overuse scenario. While he threw a weekly bullpen this summer, he only threw on average 2 days per week on top of that. He threw daily in middle school ball last year and never had any arm related issues on the mound.

Each player is different in terms of their build, pitching capacity, arm talent, etc. With that said, I think it is important to analyze their performance over the year based on innings pitched, pitch counts, rest between outings, strength program, throwing programs and perceived fatigue to evaluate what works bets for the player. Educating players and parents about arm care and health management strategies will reduce injuries and facilitate long term success for pitchers that have a chance to play in college and beyond.

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.

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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.