Anatomy

The Acromioclavicular (AC) joint is located at the lateral tip of the shoulder. The joint is formed by two bones, the clavicle (collarbone) and the acromion (a portion of the scapula/shoulder blade). In between the joint sits a fibrocartilage meniscal disc and the bones are connected by a number of ligaments, muscles and a joint capsule.

Role

The AC joint acts as a pivot point in the shoulder allowing the shoulder blade to rotate as the arm is lifted upwards. If it is dysfunctional it affects the control of your shoulder.

About

The AC joint is very commonly injured in contact sports that involve tackling like rugby or AFL. This is classified as a traumatic injury in which the ligaments can be torn and the capsule disrupted which results in the bone separating. However, you can also have AC joint pain from overloading the joint or degeneration of the fibrocartilage meniscus. It can also develop into a condition called osteolysis which is quite common in gym goers.

Differentiation from “bursitis” or impingement (common shoulder pain)

Shoulder bursitis/impingement is a very common condition in which the bursa and tendons in the shoulder get inflamed or overloaded. Often a cortisone injection is prescribed which can reduce the pain if the bursa is the main issue. However, if it is not the correct diagnosis then ongoing pain and disability can perpetuate. It is very important to get your shoulder assessed by a physiotherapist to differentiate between the two conditions so the right treatment plan can be selected. Please note that Impingement CAN occur as a result of AC joint pain or injury but is not the primary diagnosis.

Common presentation

·         Pain at the top or tip of the shoulder

·         Difficulty lying on the shoulder

·         Difficulty bringing the arm across the body

·         Pain with lifting an object above your head

·         Pain with gym activities like bench press

General advice

·         Try icing the area especially when it is painful

·         Rubbing voltaren gel on the area can help reduce pain, the joint is superficial enough for the gel to have some effect

·         Applying taping to pull the shoulder upwards can take the pressure off the joint and relieve discomfort

·         A structured rehab program is helpful in making the muscles around the joint stronger so there is less load on the area

·         A cortisone injection can be helpful if conservative treatment isn’t effective, as long as they inject the right spot

·         Most importantly, visit your highly trained physiotherapist for a thorough assessment and in-depth treatment plan

WHAT IS IT?

Myositis ossificans (MO) is a condition where bone tissue forms within a muscle after injury. Damage of muscle tissue results in bleeding and inflammation within the first 24-48 hours post injury, and within the first week collagen fibres are laid down to repair the damaged tissue. Normally this process takes between 4-6 weeks to complete. With MO, fibrotic tissue is laid down in the muscle, which becomes ossified or calcified tissue.

This results in a hard, palpable lump in the muscle belly, restricted range of motion and reduced strength of the muscle. Unlike an uncomplicated muscle strain, MO can take months to years for the ossified portion to completely reabsorb. Return of muscle function is very dependable on the size of the ossification.

It is most common in the quadriceps, hamstring and back muscles.

HOW DOES IT HAPPEN?

The most common cause of myositis ossificans is significant, direct trauma to the muscle. It is most common in contact sports, however sports such as hockey and cricket also have a high prominence due to contact from the ball. It can also occur after a muscle strain.

You have increased risk of developing MO if you continue playing after a muscle injury, aggressively stretch or massage a muscle injury within the first 48 hours or re-injure the same area.

WHAT ELSE COULD IT BE?

A thorough clinical assessment will rule out any differential diagnosis however, particularly with a history of trauma, MO is hard to miss.

Medical imaging may be useful, however is not necessary to confirm a diagnosis. Ossified tissue can be seen on X-ray after 6 weeks, however if the injury is acute an ultrasound may be used to assess the extent of any haematoma.

Potential differential diagnosis that should be negated by your clinician are:

-       Muscle strain

-       Muscle contusion/haemotoma

-       Joint sprain

-       Compartment syndrome

HOW LONG WILL IT TAKE TO GET BETTER?

Over time, the ossification is gradually reabsorbed, however this process may take a number of months. In some cases the ossified growth may never completely reabsorb. This may result in tightness or discomfort when stretching the muscle, however normally won’t impair function of the muscle.

Here are some tips for the duration of your recovery. Your physiotherapist will guide you through an individual rehabilitation program.

Ice/compression

As with most acute injuries, the ‘RICE’ principle should be applied over the first 48 hours. This refers to rest, ice, compression and elevation. Compression can be applied with a tubigrip bandage, and icing for no longer than 20 minutes at a time, with a 2 hours break between ice packs.

Hirudoid cream

Hirudoid cream or gel dissolves small blood clots and reduces inflammation of the affected area. Depending on the area, the cream can be applied overnight and wrapped in gladwrap. It is advised to discuss with your pharmacist or GP before using this medication.

Load Management

Depending on the location and size of injury, you will need to de-load the area for a period of time. If you have significant discomfort walking, you may require crutches for the first few days, before you can tolerate putting weight on your leg. Your physio will then guide you through a program progressing through range of motion, strength, flexibility and power exercises. Unlike a muscle strain, it is okay (and often necessary) to push through slight discomfort with these exercises to regain full range and power of the muscle.

Stretching

An ossified section of the muscle tissue should be vigorously stretched so to not loose length of the affected muscle. Stretching should be performed for 2-3 minutes at a time, multiple times throughout the day. Note that stretching should not be performed within the first two weeks of a muscle injury as it can increase bleeding and should only be performed once the diagnosis of myositis ossificans is confirmed.

Returning to Play

Your physiotherapist should have a strict return to play criteria to ensure there is little risk of re-injury to the area. In contact sports you can play with padding over the area, to distribute the force of subsequent contact. It is oaky to return to play without complete reabsorption of the ossified area, as long are you have met the return to play criteria.

WHAT ELSE COULD I DO?

Anti-inflammatories may be indicated to help the body reabsorb ossified tissue. Your physiotherapist may refer you to a GP or sports physician to prescribe appropriate anti-inflammatories.

Surgical removal of the ossification is rare, and will only occur in those cases near a muscle insertion, where joint function is impaired. Surgery is only performed at least 12 months post original injury. 

If you suspect myositis ossificans, your physiotherapist will help you develop a suitable management plan

Finals time for most winter sports is fast approaching and from a physiotherapy perspective this is the time of year that we see a spike in sporting injuries. A lot of these injuries tend to be to parts of the body that have some sort of deficit, be it strength, length or control. It is quite hard to be able to identify these areas yourself and even physiotherapists would find it hard to accurate identify these deficits purely through observation.

This is why screening is so widely utilised for athletes from amateur to elite. Screening usually involves a battery of tests that give objective measurements that are then compared to the normal values for an athlete in a specific sport. Screening can also involve questionnaires that focus on general health and previous injury history.

An article by Sanders, Blackburn and Boucher (2013), looked at the use of pre-participation physicals (PPE) for athletic participation. They found PPE’s to be useful, comprehensive and cost effective. They explained that PPE’s can be modified to meet the major objectives of identification of athletes at risk.

An article by Maffey and Emery (2006) looked at the ability of pre-participation examinations to contribute to identifying risk factors for injury. They found limited evidence for examinations in terms of the ability to reduce injury rates among athletes. However, they were effective in the identification of previous injury (such as ankle sprains) and providing appropriate prevention strategies (such as balance training). From this it has been shown to reduce the risk of recurrent injury. It may also be useful in identifying known risk factors which can be addressed by specific injury prevention interventions.

An example of a screening measure that is typically used in screening protocols includes a knee to wall test (KTW). This test is used for ankle dorsiflexion as well as soleus muscle length (one of your calf muscles). The test is performed using a ruler which is placed perpendicular to a wall with no skirting board. The athlete puts their foot flat on the ground next to the ruler and as far from the wall as possible as long as their knee is touching the wall. Distance from the wall to the end of the big toe is noted by looking at the ruler. An example of a normal distance for netball players is greater than 15cm on each side.

Here at East Vic Park Physiotherapy we have developed a number of specific musculoskeletal screens for a variety of sports including netball, running, swimming and throwing sports. They comprehensively identify the key risk factors that are seen in injuries sustained in each sport. If you are interested in preventing injury for the upcoming sports season, then contact the clinic on 9361 3777 and book your screening appointment today!

WHAT IS IT?

Plantar fasciitis Is a very common cause of heel pain. It can be quite debilitating and can last for months if not addressed. Typically, pain will be felt on the inside of the heel and arch. Pain can be sharp or achy. There can be a small amount of swelling over the medial heel as well as tenderness to touch. Mornings are worse, with it usually taking anywhere from 2-3 minutes to an hour for the stiffness and pain to reduce.

POSSIBLE CAUSES

·         Change in load eg Running/jumping

·         Change in footwear

·         Change in activity surface eg. Hard surface

·         Acute trauma eg. Stepping on a rock

 SCANS

Sometimes your GP will refer you for a scan of the affected area. Most likely it will be an x-ray or an ultrasound. This may show that there are heel spurs or “tears” in the plantar fascia. Although it can be good to confirm the diagnosis, scans can sometimes be detrimental as it may cause people to become worried about their condition. Scan results can also correlate poorly with symptoms an example being that people with heel spurs on x-ray don’t necessarily develop Plantar fasciitis.

TREATMENT OPTIONS

·         Soft tissue release

·         Joint mobilisations

·         Taping techniques

·         Orthotics

·         Exercise program (Physiotherapist prescribed)

·         Load management plan (Physiotherapist prescribed)

LOAD MANAGEMENT

Load management is about controlling how much you use the particularly area on a day to day basis. Usually when an area becomes painful, its load capacity (ability to tolerate load) is reduced so it becomes overloaded quicker than normal. This means that even normal tasks or activities like walking or standing can cause it to become more painful and swollen. 

One of the ways to improve the capacity is to progressively build up the amount that you use that area. This can be done with a specific structured exercise program (physiotherapist prescribed) that is made more difficult over a period of time. It is normal for rehabilitation to be painful, you cannot improve load tolerance without causing some discomfort.

The best way to monitor improvement is by recording morning pain (rating it out of 10, 10 is worst, 0 is nothing). It is normal to have ongoing morning stiffness even after pain has completely disappeared.

DIFFERENTIAL DIAGNOSIS

Sometimes Plantar fasciitis might not be the cause of heel or foot pain. It is important to see a physiotherapist to get an accurate diagnosis. Other causes of heel pain are below:

·         Plantar or Calcaneal Nerve pain

·         S1 radiculopathy

·         Stress fracture

·         Tarsal tunnel syndrome

·         Fractures

·         Retrocalcaneal bursitis

·         Spondyloarthropathies

·         Cancer (osteoid osteoma)

TIPS FOR PAIN FLARE UPS

·         Try to avoid walking around in bare feet

·         Using ice over the sore area can give temporary relief

·         Stretching it may be uncomfortable so roll a golf ball/tennis ball under the foot instead to release tight muscles

·         Pain relief or anti-inflammatory medication can be helpful but ask your pharmacist for advice

·         See your physiotherapist for a progressive loading program

As pre-season training gets underway for winter sports codes we generally see an increase in the number of patients with groin pain presenting to our clinic. Discussing groin pain as a whole is a very large topic, so for the purposes of this blog I will discuss non-traumatic groin pain and in particular the most common factors that can lead to injury.

Non-traumatic groin injuries are typically complex and require a thorough assessment to determine the factors that have led to the injury and a comprehensive exercise rehabilitation program to recondition the athlete to be ready to return to their sport.

WHAT IS IT?

Groin pain is an umbrella term for pain felt in the groin area. It is not diagnostic and does not indicate a specific pathology or tissue(s) affected. Groin pain can be sub-grouped into 6 different areas:

·         Adductor related
·         Hip flexor (iliopsoas) related
·         Abdominal (inguinal) related
·         Pubic related
·         Hip joint related
·         Other (neural, referred pain, fractures, abdominal/gynaecological conditions etc)

It is common more than one of these sub-groups to be affected and insufficiencies in one area can lead to an overload in another.
 

WHY DOES IT OCCUR?

Three common reasons for the development of groin pain in sporting people include training errors, poor mechanics and age.

·         Training errors causing injury usually refers to “too much too fast” and is usually seen with athletes rapidly increasing their training amounts without adequate recovery between sessions causing a progressive overload of structures in the groin area. Groin pain will commonly present as preseason training reaches 3-4 weeks in and more commonly as running demands transition into higher amounts of sprinting and agility.
·         Poor mechanics refers to muscle imbalances, poor movement control and patterns, poor posture, inadequate strength, lack of flexibility and sub-optimal technique for sport specific skill. This is where a good sports physiotherapist will be able to conduct a comprehensive assessment to determine which of these factors are contributing to your groin pain.
·         Younger athletes are more susceptible to developing groin pain as their skeletal system is less mature to withstand the stress that training can put on the body compared to older athletes (25+ years).

MANAGEMENT

The pain will generally settle with a combination of rest and anti-inflammatory medication. During this rest period it is important to address the factors that have led to developing groin pain (poor mechanics) to avoid reaggravating the injury when you return to running. It is very important to have a graduated return to running plan in place to allow for optimal recovery between sessions and avoiding too much load too soon.

PREVENTION

The old adage “prevention is the best cure” is applicable for groin pain and there is plenty that can be done to prevent it. If you have had groin pain in the past, having a preseason screen with your physiotherapist is beneficial to assess if any predisposing factors are present. A comprehensive strength and conditioning program to address any factors as well as condition your body to tolerate the training loads can help prevent groin injuries. Also making sure to optimise your recovery between sessions – for helpful tips read our blogs on recovery – will help prevent the development of groin pain.

Is there an answer or should I toughen up and suffer in silence?

Preseason is a common time for overuse injuries and pain to present due to the sudden increases in training volume and intensity. Shin splints is one such injury, which seems to just get worse and worse. Often this problem plagues the athlete annually at this time of year. Occasionally it persists into the season to the point where the athlete is constantly playing through pain, suffering post-game and performances can begin to be affected. Since they haven’t had an “injury”, the athlete often feels like they just need to toughen up, push on through and it will pass. However, the problems seem to only get worse and worse the harder they push. Other athletes take time off and are increasingly frustrated to find the injury returns as soon as they get back to business.

So what is shin splints and what causes it?

Shin splints is actually a loose term because it encompasses a range of presentations, including stress fractures and compartment syndrome. It is still widely used but an attempt is being made to oust it. You may or may not have heard your physio refer to it as medial tibial stress syndrome. Medial tibial refers to the inside of the lower shin where symptoms are most frequently reported. Stress syndrome simply indicates that relative overuse is most commonly the cause.

As the narrowest part of the tibia, tiny bending movements occur at this site when running. This causes microscopic breakdown of the bone. There can also be breakdown of the connective tissue that encapsulates the deep muscles of the calf, where it attaches to the bone at this location. However, this is a normal process that occurs in everyone every time they go for a run. The strength of the original tissue and the amount and intensity of the running determines how much breakdown occurs.

Our bodies respond well and adapt to training. Our immune system will usually kick in pretty quickly to clean up the breakdown and lay down new bone and connective tissue in its place.  As seen in the picture below, given proper loading volumes and recovery time, our bones overcompensate each time to get thicker, denser and stronger. This means that we can tolerate increasingly difficult challenges. This is a very similar process to how you can build muscle in the gym. However, bone does take a longer to recover, and longer to grow than muscle, but is just as plastic and adaptable.

How do I know how much is too much?

This varies greatly from person to person and is dependent of a number of factors.

Loading spikes:

We know that strong bones better resist breakdown and we know that bones get stronger over time. However, if you suddenly increase your training volume, frequency or intensity, you may not have time to sufficiently develop the bony adaptions necessary. Sometimes even changing mode of training to something very taxing on the calf muscles, such as hill running or skipping, is enough of overload the capacity of the tibia. Consistency and gradual increases in training load are imperative to avoid loading spikes.

Strength

Muscles develop at a different rate to bones. Importantly, muscle size is consistently associated with bone size and strength. This means bigger muscles are usually attached to stronger bones. Resistance exercises had been shown to increase bone density. Therefore, calf strengthening exercises can be useful in increasing the strength and size of the tibia so that less breakdown occurs.

Type of Runner

There are two extremes on a spectrum here. There is the athlete with calf and Achilles tendons like Pogo sticks. They often may be lacking in shock absorption and propulsion elsewhere. Naturally, if this is their primary source of power, it will also be the first area to overload. These athletes can often benefit from addressing the weaknesses elsewhere, reducing the demand on the calf muscles.

The other end of this spectrum is the athlete that has weak calf muscles, and is often knee dominant and heavy footed. A change in loading where calf strength is necessary can expose this weakness and cause overloading. Running retraining, and calf strengthening can work well in this population.

Nutrition and Bone Health:

Some people are genetically more vulnerable to low bone density. A family history of osteoporosis or stress fractures may hint at this as a factor. Another key issue is diet. We all know calcium is good for bones but vitamin D is also essential. Under-eating often occurs unintentionally, but when diet is compared with the massive energy requirements of greater than 5 sessions a week, calorie intake often becomes insufficient to meet energy expenditure. Nutrition is key to good bone health, and you can’t outrun a bad diet.

Pain Threshold

Pain is a protective mechanism, like a car theft alarm. It is designed to go off early and loudly before any substantial damage. This is a warning that there may be something to address. However, this threshold is very adjustable and dependent upon a multitude of factors. For example, the local nerve fibers become increasingly irritated and easier to set off when they are repeatedly overloaded. The red line in the picture above moves upwards and so it takes less to set it off. Like a car alarm that goes off in the middle of the night, it seems to get louder and louder.

We also know that lifestyle factors like getting poor sleep, feeling run down, stress, anxiety etc. can lower your overall pain threshold in the absence of pain or injury. In this instance, it takes much less breakdown to fire a pain response. Here, it is vital to address any of these factors that are modifiable to reconfigure the pain threshold to a more reasonable level.

Can the bone fracture?

The overwhelming majority of cases of medial tibial stress syndrome do not lead to stress fractures. This is because the rate of repair and breakdown usually meet an equilibrium long before the integrity of the bone is compromised. However, in some isolated incidences bone stress fractures can occur but this is rare. The pattern of pain with stress fractures is different from medial tibial stress syndrome. If you are concerned about developing a stress fracture, your physiotherapist can quickly establish the likelihood of it.

How do I know if I have medial tibial stress syndrome?

The common description of pain, is a dull diffuse ache along the inside of the shin. It will usually extend at least 5cm along the middle of bottom third of the shin. This pain comes on the beginning of exercise, but will often “warm up” and be less prominent as the exercise continues. As the local tissue becomes more irritated, it will last longer into exercise and may begin to even cause pain after exercise when walking or going up and down stairs. It is not limited to runners, and is very common in footie, soccer, hockey, netball and other field sports.

How long will it take to get better?

Compression garments, massage, dry needling, taping and shoe inserts may offer some short term relief. However, the results are mixed and often require trial-and-error to determine what works for that individual. They won’t solve the problem but can get you through the pain for long enough to successfully adapt.

There is great potential for long-term success the causing and contributing factors are identified and addressed. It can take time to build up the muscular, tendon and bone capacity. Likewise, the nervous system can take some time to cool down, especially the longer it has been wound up. Until then, a certain amount of patience is required. This carefully measured approach is the best way to ensure the problem doesn’t continue to spiral and progress.

What can I do for my shin pain?

1.       Catch it as early as possible before it becomes increasingly irritated.

2.       Start a training diary to get an idea of how much you are doing and how consistently you are training.

3.       Address lifestyle factors if they are modifiable, such as diet, sleep and stress – obviously, this is not always possible!!

4.       Visit a physiotherapist to identify your personal contributing factors and develop a management plan – there is no one-size-fits-all approach.

Approximately 80% of people will experience lower back pain at some stage in their life. It is one of the most common reasons for people missing work and seeing a doctor or physiotherapist. Although it is extremely common it can often a bit of an unknown to the general public as to what is the cause for their pain and disability.

There are many different causes of low back pain from strains/sprains, posture related pain and overuse injuries. This blog post will mainly focus on acute strains or sprains of the low back.

Similar to other joints around the body, strains or sprains to the low back occur when a stress is placed on a tissue that exceeds what it is capable of handling. An example of this could be someone bending over to lift a heavy object off the floor. However, a heavy force is not always required to strain the back. Repetitive movements of small force can also do this. 

Again like other joints around the body, different structures around that area can be irritated or strained. For the low back this can be surrounding muscles, ligaments, facet joints, discs or a combination of a few structures.

Timeframes of recovery will vary depending on what structures are involved, the severity of the injury, the demand of the person and lifestyle factors such as sleep, stress levels, diet ect.

What Can I do?

The back responds very well to movement. It is encouraged to continue to keep moving within your pain limitations.  Identify positions and movements your back feels better with adopt these positions rather than the painful ones.  This will differ from person to person so your physiotherapist will go over these particular activities/positions with you.

What can’t I do?

Your pain and symptoms will often be exacerbated immediately during specific activities. However, an increase in symptoms can often be noticed after completing particular tasks or even the following morning/day.

It is important to identify these activities or postures and avoid over repetition of them or prolonged time spent in those positions.  These activities are often simple tasks we complete on a regular basis throughout the day so it is often unrealistic to completely avoid them. Instead, modifying how we complete them or limiting how much of them we do of them will be more effective. Eg sitting posture or length of time spent sitting.

Do I need a scan?

The majority of back injuries do not require any scans or imagining and will resolve without the need for a scan. Scans can also be misleading at times as they tend to show everything that is happening in your back even when it’s not the source of your pain. Scan results can make people anxious, worried and stressed which can make their pain significantly worse.

 Imaging of the low back is potentially required when treatment/management of the injury could potentially change depending on the diagnosis or extent of the injury.  Your GP or physiotherapist will discuss with you if they think imaging is required in your case.

Do I need surgery?

Again, like imaging most low back injuries do not require surgery. However, there are circumstances where surgery may be required or beneficial in addressing certain injuries.  Obviously there are risks when any surgery is performed and so they are only recommended when they are truly needed.

When can I return to exercise?

This is a difficult question to answer as it will depend on a number of factors including the type of exercise you are attempting to return back to, the severity of the injury and previous injury history. However, in general, most soft tissue injuries have a recovery timeline of about 4-6 weeks. There will often still be things you will be able to do during your rehabilitation. This will usually start off with activities that do not exacerbate symptoms followed by modified versions of more complicated tasks with the aim to progress back to your previous level of function.  

Will this injury reoccur?

Like most injuries there is always a risk it re-aggravating Your treating physiotherapist will advise you on ways to best prevent this from happening. This will often involve an exercise program to address any deficiencies and optimising technique and posture with specific tasks/activities.

We use our hands repeatedly every day so it’s not surprising that sometimes we develop pain and discomfort in our fingers, wrists and forearms. Injuries in the wrist and hand can be caused due to traumatic events (e.g. a fall on an outstretched hand) or overuse, repetitive activities (e.g. computer use, racquet sports).

ANATOMY

The wrist and hand complex is made up of 27 bones, muscles, tendons, ligaments, nerves and blood vessels. Damage to any of these structures can cause pain and can affect your ability to use your hands effectively.

COMMON WRIST AND HAND INJURIES INCLUDE:

·         Fractures

·         Tendon pathologies e.g. Mallet finger, De Quervain’s Disease

·         Ligament injuries e.g. sprains

·         Joint inflammation

·         Nerve entrapments e.g. Carpal tunnel syndrome

·         Arthritic conditions

·         Ganglion cysts

If hand and wrist injuries are not assessed and treated properly this may lead to further impairments in the future.

EARLY MANAGEMENT

Should include rest, ice, compression and elevation (RICE principle) for the first 48-72 hours. Anti-inflammatories (NSAIDS) also have a role in early management, taken in the form of tablets and topical gels.

PHYSIOTHERAPY

Your physiotherapist will go through a comprehensive assessment to determine the source of your pain. Once the source of your pain has been established the initial aim of treatment includes education and addressing acute symptoms (pain, lack of movement and loss of strength).

When indicated your physiotherapist will start to address other issues such as loading, muscle imbalances, poor posture and biomechanics.  

PREVENTION

To reduce the risk of recurring wrist and hand injuries it is important to maintain adequate strength and length of the muscles around the wrist joint.

Your physiotherapist will advise you in activities that should be avoided to decrease irritation.

RETURN TO SPORT

When returning to sport it is essential that you discuss this with your physiotherapist. Your abilities will be assessed through a series of tests to determine whether you are ready to return to pre-injury activities and/or sport. 

An excellent video on what our understanding of pain currently is and in particular the complexities of chronic pain.

a FREE seminar on sports injury management presented by the Physiotherapists at East Vic Park Physiotherapy. Topics will include muscle contusion (corkie) management, post-game recovery and a practical session on strapping. 

Whether your sports season is heading into finals or you are about to start gearing up for the summer season ahead, the information presented will help you to perform at your best.

Appropriate for all athletes, parents, trainers and coaches.

Food will be provided - let us know if you have any dietary requests.

Spaces are limited so call us on 9361 3777 to secure your place now.