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See how cheap they are |
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2 Pirelli tubes on the left |
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See how cheap they are |
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2 Pirelli tubes on the left |
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Which leg was immobilized? |
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Picture from SIU Med |
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Picture from Coregymball |
Not only were the patients blinded (a technique used to minimise bias), the patients also did not know they were part of a study.
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Picture from article |
The control group received an explanation of tendon pain that prioritised irreversible structural tendon pathology as the cause of pain.
The primary outcome measure was how much pain the runners had during a standardised hopping task measured on a scale of 0-100. Secondary outcomes were how stiff the lower limbs were hopping and time in seconds for pain to ease after completing the hopping task.
The diagnostic information immediately affected pain intensity during the hopping task. The average pain score was 25.4 in the experimental group versus 36.7 in the control group.
Time to ease (no pain) after hopping was near identical in both groups. Lower limb stiffness was higher in the experimental group. Note that higher leg stiffness is better for leg hopping because increased leg stiffness allows for greater force production and more efficient energy transfer. This leads to higher jump heights and faster movement.
This is a really intriguing area of research. We now have data showing that information from healthcare providers during the first visit has an immediate effect on pain. The language we use during clinical interactions can be powerful, shaping our perceptions and pain responses. This knowledge should change how we interact with our patients.
However, we need to also be able to do this in our clinics without compromising the accuracy and necessary medical information.
Reference
Travers NJ, Travers MJ, Gibson W et al (2025). The Content Of Diagnostic Information Has An Immediate Effect On Pain With Loading In People With Morportion Achilles Tendinopathy: A Randomized Clinical Experiment. Bra J PT. 29(5). DOI: 10.1016/j.bjbt.2025.101244
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R posterior arm picture by Mickeymed.com |
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Picture from Clinical Anatomy & Op Surgery |
Injury or compression in the quadrilateral space often leads to pain, numbness in the posterior shoulder/ arm and/ or weakness in those areas.
This condition is much more common in young athletes participating in arm over head sports like swimming, throwing and volleyball in their dominant hand. But she did do many overhead throws prior to having this pain in her posterior shoulder and arm. In addition, her coach also started her on a weight training program in the upper body and arms.
Injury or compression in the quadrilateral space often leads to pain, numbness in the posterior shoulder/ arm and/ or weakness in those areas. There is often tenderness in the quadrilateral space on palpation.
My patient also had some paresthesia (numbness, tingling sensations) on the outer shoulder and elbow when I checked her upper limb tension test. Her shoulder external rotation strength was also noticeably weaker on her thowing arm, which should not be the case.
Once we determined the cause, treatment was easy as we simply had to 'widen' the quadrilateral space while also addressing the overhead throwing overuse and the sudden increase in weight training. A simple phone call to her coach,who happened to be a previous national pitcher and patient of mine solved that.
Reference
Pocellini G, Brigo A, Novi M et al (2025). Different Patterns Of Neurogenic Quadrilateral Space Syndrome: A Case Series Of Undefinied Posterior Shoulder Pain. J Orthop Trauma. 26(1). DOI: 10.1186/s10195-024-00813-y.
I recently had a patient with a musculotendinous junction injury. Also known as the muscle-tendon junction (MTJ), it acts like a bridge to transfer forces from the muscle via the tendon to the connecting bone the muscle attaches to. This allows for movement to take place.
It is a special area where the muscle's fascia connects and inersects with tendon tissue. Structurally, the MTJ is seamlessly integrated into the tendon, with finger-like folds increasing the surface area for a stronger connection and to distribute stress (pictured above).It's a common site for injury as the MTJ undergoes some stress during daily activities and substanstial stress while playing sports. MTJ injury is often accompanied with both muscle and tendon injuries leading to restricted force trasmission.
Due to it's highly specialized structure, it does not often heal well after injury. Conservative treatment are mostly effective for minor MTJ sprains while partial tears and complete ruptures will require surgical intervention.
It can happen during a fall leading to trauma to the area. It often occurs due to repeated overload, usually from high intensity training in young athletes or overuse in middle age or older adults. My observations are MTJ injuries usually happen after a period of rest/ decreased muscle use followed by a period of intense muscle activity.
An example who be my patient mentioned above. He went on holiday for 3 weeks with no exercise and resumed his weekly basketball game on returrn and promptly tore his hamstrings at the MTJ. These tears occur frequently during eccentric muscle loading.
They are usually complete muscle tears. In hamstring injuries this account for 14.4% of all bicep femoris injuries. The supraspinatus muscle has the highest incidence of the tendon midsubstance injuries (11.4%). Complete tendon avulsions are more frequent in the triceps brachii and pectoralis major.
Conservative treatmant options like rest, ice and compression etc helps in the initial stages if the tear is small. Several studies have indicated that surgical treatment yields better results in terms of function, strength, patient ratings and recovery to pre-injury performance for the more serious tears.
Continous development of tissue engineering that focuses on regenerating new tissue from cells are now helpful to MTJ injuries by utilizing biological and synthetic scaffold-based tissue. This helps in the repair and healing of MTJ tears. However it is not easy to fully mimic the unique characteristics of our muscles, tendons and the MTJ itself.
Hopefully, newer polymers and scaffolds will help with healing of MTJ injuries in the future. For now, please be vigilant in your exercise after a period of rest. Avoid exercising at higher intensities initially while allowing for your muscles to adapt again. Note that the calf, pectoralis major (chest) and hamstrings are the most vulnearble areas.
Reference
Tong Sm Sun Y, Kuang B et al (2024). A Comprehensive Review Of Muscle-Tendon Junction: Structure, Function, Injury And Repair. Biomedicines 12, 243. DOI: 10.3390/biomedicines12020423
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Picture from NRI Nation |
The review showed convincing benefits of maximal strength training (MST) in healthy and 'diseased' older adults including frail and post stroke patients. Training performed with heavy (80-84 percent) of 1 RM and very heavy loads (>85% of 1 RM).
Key benefits were increased strength gains (2.5 percent per session). 4.5 percent increases in muscle power per session. Increase in Type II muscle fiber size, decrease in oxygen cost of walking and stair climbing. It also helps with balance.
MST uses loads of about 90% of 1 RM, which can only be performed a maximum of 3-5 reps, 3-5 sets and maximum intentional concentric velocity.
Here are the guidelines. Do 4 sets of 4 reps at about 90% of 1 RM or 4 RM. Do this 2 to 3 times a week. Single set options are also effective twice a week. Prioritize lower body compound lifts e.g. leg press, squats, step ups since strength reduction is more effective in lower compared to upper limbs with increasing age. Moreover the lower limbs are crucial for walking during everyday activities.
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Picture from article |
Some diseases or injuries may require other exercises to target an affected or impaired muscle or muscle group. Examples may include the bench press for wheelchair users, dorsiflexion for foot drop patients or hip abduction following hip surgery. Also note that very heavy unilateral (or single leg) strength training induces adaptations in the untrained, opposite injured limb. This is useful during acute or chronic periods of immobilization to limit the loss of function in the immobilized limb.
Supervised training are encouraged since it improves safety and confidence.
It is a very interesting read since it is good to have evidence that it is safe to use the heavier strength training lifts compared to the current guidelines. I am wondering if the 4 sets of 4 repetitions at 90 percent of 1 RM for older patients is a recipe for injury. Is the volume and frequency of the MST sustainable for the long term?
Reference
Toein T, Berg OK, Modena R et al (2025). Heavy Strength Training In Older Adults: Implications For Health, Disease And Physical Performance. J Cachexia Sar Muscle. 16(2): e13804. DOI: 10.002/jcsm.13804
Ligament correction with Dr Frank Liew (dentist) |
What's up Dr Kong (on the right)? |
Surprisingly, the 2nd day of the course zipped by much quicker than usual as we went through more the corrective techniques. There were practical applications such the association of MCL (medial collateral ligament) and your pes anserinus, how a rotated pelvis would affect the shoulder. How the hip affects the knee and also strategies on how to treat a foot drop. We covered all that and more.
Cutting the tape for EDF, jelly fish - not easy |