Category Archives: injury prevention

How Physiotherapy Can Help With Osteoporosis

By Lana Kovacevic, PT

Exercise step classOsteoporosis is a condition of reduced bone strength that causes bones to be more likely to break (1). It is a progressive disease in which the density and quality of bone decreases over time making it more fragile. Current trends show that more and more people are affected by osteoporosis each year (1). Among Canadian men and women, an estimated 1 in 4 women have osteoporosis compared to 1 in 8 men (1).

Why is osteoporosis so concerning?

The major threat to healthy aging and independent mobility for those with osteoporosis is the risk of sustaining a fragility fracture. A fragility fracture is a broken bone that results from minimal trauma or stress – stress which typically would not cause a bone to break (1). An example would be breaking a bone in the wrist or hip after falling from standing height (1). After an initial fragility fracture, you become more than two times as likely to sustain another fracture in the future (1). The most common bones to be injured are those of the wrist, upper arm, ribs, spine, pelvis, and hip (1).

Who is at risk for osteoporosis?

Canadian guidelines recommend that all postmenopausal women and men over the age of 50 years be screened for their risk of osteoporosis (1). A diagnosis is made following an X-ray that measures bone mineral density. This test is recommended for those who have at least 1 major or 2 minor risk factors (1).

Figure 1: Some key major and minor risk factors for osteoporosis (1)

Major Risk Factors Minor Risk Factors
  • Age over 65 years
  • Family history of osteoporosis fracture
  • Early menopause (before age 45)
  • Glucocorticoid therapy for more than 3 months
  • Falls
  • Smoking
  • Diet low in calcium
  • Body weight less than 57 kg
  • Rheumatoid arthritis

How can I check if I am at risk for osteoporosis?

A convenient online tool for estimating the risk of osteoporosis fracture exists called the FRAX® Fracture Risk Assessment Tool. Click on this link to get an estimate of your personal risk. If you are concerned about your risk for osteoporosis, it is best to consult your family doctor.

How is osteoporosis treated?

Apart from medical management with medication and supplementation, exercise is a key component of treatment. Exercise has been shown to slow the loss of bone mineral density and reduce the risk of falling (1). This means that exercise can be beneficial for both preventing osteoporosis as well as managing symptoms for those already diagnosed with osteoporosis.

Can physiotherapy and exercise help if…

…I’m concerned about developing osteoporosis in the future?

For anyone at an increased risk of osteoporosis or those with a family history of osteoporosis, taking part in weight-bearing physical activity and activity that involves some impact is best for preventing bone loss. Starting this type of exercise at a younger age may make you less likely to suffer from osteoporosis in older age.

…I’ve already been diagnosed with osteoporosis?

For those with osteoporosis, exercise is important to help minimize bone density loss. It is also critical for reducing the risk of falling and therefore, a broken bone. Risk of falling is higher for people with poor strength, balance, posture, and with poor postural stability. All of these factors can be addressed and improved with a proper exercise program.

…I’ve already had a fragility fracture and want to avoid having another one in the future?

A safe exercise program is also beneficial for those who have already suffered a broken bone associated with osteoporosis. Less than 20% of women (or 1 in 5) and 10% of men (or 1 in 10) who have had a fracture are given the appropriate treatment to prevent a future fracture (2). It is important to restore safe movement patterns during recovery from a fracture as well as to reduce the risk of sustaining another fracture.

Each person is unique and should have an exercise program that is tailored to their specific needs. A physiotherapist can assess, treat, and teach you how to reduce your risk of osteoporosis, manage your symptoms, and improve your general health and physical functioning.

Reference:

  1. Brown JP, Josse RG. 2002 clinical practice guidelines for the diagnosis and management of osteoporosis in Canada. CMAJ. 2002. 167(10); S1-34.
  2. Papaioannou A, Morin S, Cheung AM, Atkinson S, Brown JP, Feldman S, et al. 2010 clinical practice guidelines for the diagnosis and management of osteoporosis in Canada: summary. CMAJ. 2010. 182(17): 1-10.

BodyTech Physiotherapy

Advertisements

Shin Splints

RunnerMedial tibial stress syndrome, commonly called “shin splints”, is a term used to describe pain and tenderness felt on the inside, lower border of the shin bone. Shin splints are commonly experienced by athletes who take part in activities involving repetitive running and jumping, particularly after a sudden increase in activity level (either duration, distance or intensity). The repetitive stress placed on the bones, muscles and joints of the lower leg during these high impact activities may result in irritation and inflammation of the shin bone (tibia).

Shin splint pain is usually described as a dull ache. It usually develops slowly over time, first being noticed at the end of activity. Some athletes may complain of pain at the beginning and end of activity, but not affecting their performance. Over time, pain will commence during activity and eventually may be felt during regular day to day activities such as walking. As shin splints progress, they also make the lower leg sore to touch.

Bones- Shin SplintsThere are a number of factors that may predispose an athlete to develop shin splints including: flat feet, rigid arches, muscle weakness, and/or muscle tightness. Other contributing factors may include running downhill, running on hard surfaces, running in worn-out footwear, or playing sports with frequent stops and starts (e.g. basketball, squash, tennis). While the pain presentation is often similar across individuals, there are a variety of bio-mechanical abnormalities in the pelvis, hips, knees, and ankles that can also lead to the development of shin splints.

Proper treatment requires a detailed assessment by a registered Physiotherapist to identify and target the contributing factors as well as the location of pain. Treatment includes rest, ice, specific joint mobilizations, an individualized stretching and strengthening program, and if needed a gradual return to regular activity. During recovery, aerobic fitness can be maintained with low impact activities such as swimming and biking. If left untreated, the repetitive stress on the tibia may result in a stress fracture yielding a longer recovery time.

A physiotherapist can perform a full assessment to determine the exact cause of an athlete’s pain and develop a treatment program to relieve pain, facilitate return to activity, and prevent future injury.

BodyTech Physiotherapy

Physiotherapy for Carpal Tunnel Syndrome

Carpal Tunnel Syndrome
Carpal Tunnel Syndrome is pain, numbness, and tingling, in the wrist and hand particularly in the thumb, index and middle finger. This syndrome affects approximately 3-6% of the general population. The carpal tunnel is a small passageway at the wrist that tendons and the median nerve run through as they travel into the hand. The tunnel is surrounded by bone and connective tissue so it does not easily stretch or expand, making structures within it susceptible to irritation which can cause the median nerve to be compressed. If left untreated and the condition worsens, symptoms may progress to include weakness in the hand.

Causes and Risk Factors
A combination of several of the following factors can increase the risk of developing carpal tunnel syndrome:

  • Chronic stress on wrist/hand – typically affecting the dominant hand, often due to working posture or repetitive motions (eg. using computers for several hours a day, assembly-line workers, musicians, using vibrating power tools)
  • Trauma to the wrist (eg. fracture, sprain) – can cause damage to the nerve or swelling to other structures that will narrow the carpal tunnel
  • Pregnancy – hormonal changes can affect tendons and cause swelling
  • Arthritis – bony growths into the tunnel narrow the space
  • Congenital Predisposition – women and smaller individuals may have narrower carpal tunnels, reducing space for the nerve
  • Diabetic or Metabolic Disorders – negatively affect the body’s nerves

Symptoms
The most common symptoms of carpal tunnel syndrome include:

  • Gradual onset of pain, burning, tingling, numbness or itching in the palm, thumb and/or index and middle fingers
  • Feeling of weakness and swelling in the hand, with difficulty grasping small items, making a fist and performing fine motor tasks
  • Urge to shake out the hand to relieve the tingling sensations

In the early stages, symptoms will often be intermittent. However, as the condition worsens symptoms are more severe and begin to persist for longer periods of time. Pain and numbness tends to be worse at night for a lot of individuals.

Treatment
It is advised to seek treatment from a professional as soon as carpal tunnel symptoms arise as the condition will not typically resolve on its own.

Medication: Over the counter anti-inflammatory drugs (eg. Ibuprofen) may provide short term relief from mild symptoms. Corticosteroid injections are a much stronger anti-inflammatory, and may also be a temporary option to help relieve pressure and symptoms for those with relatively mild symptoms.

Physiotherapy: Seeking help from a registered physiotherapist is one of the best options for treatment of carpal tunnel syndrome. Physiotherapy will include manual therapy on your wrist to improve the mobility of the joints and stretch tight muscles and tendons in the wrist and fingers, helping to remove any scar tissue buildup that may hinder recovery. The Physiotherapist will also incorporate nerve gliding techniques to help improve the mobility of the median nerve through the carpal tunnel. Ultrasound may be used over the carpal tunnel area to reduce inflammation which helps to relieve symptoms. Your physiotherapist may also suggest a brace or splint to immobilize the wrist while working or performing aggravating activities. They will provide education about activity modification to avoid aggravating positions, such as holding the wrist in a flexed (bent) position. Your physiotherapist will also prescribe specific stretching and strengthening exercises for the fingers, thumb, hand and arm to progress through later stages of recovery. They will provide education on proper posture while working to prevent relapse.

Surgery: With very severe cases of carpal tunnel syndrome where nonsurgical treatment does not provide any relief, surgery may be an option. The surgery typically consists of cutting the roof of the carpal tunnel, to provide more room for the tendons and median nerve and decrease compression. Full recovery back to original strength in the hand may take 6-12 months.

While carpal tunnel is a relatively common condition, it is often misdiagnosed, thus it is a good idea to seek treatment from a registered physiotherapist upon the onset of symptoms in order to have the best chance of full recovery and to prevent irreversible damage. Your physiotherapist will be able to recommend appropriate treatment options, whether that be manual therapy, bracing, or if necessary, surgical intervention.

BodyTech Physiotherapy

Snow Shoveling Safety

Snow.jpegIf you are like us, you have probably spent a good chunk of time clearing off your car, driveway, and sidewalks these past few weeks. If you are not used to this kind of strenuous activity, you also might have felt tired and sore once you were finished. At BodyTech Physiotherapy we have already seen an influx of people with low back pain due to shoveling snow. As a result of this, we have compiled a list of safety tips to keep you moving injury-free until spring rolls around.

  1. Consider hiring snow removal services if you have lower back issues or heart problems, including a previous heart attack, a known cardiac disease, high blood pressure, and/or high cholesterol.
    • Snow shoveling can be as strenuous on your body as lifting weights – a sudden increase in physical activity levels, especially without proper form, can predispose you to injury.
    • Studies have shown that exercise using your arms (like shoveling) significantly increases blood pressure levels compared to leg exercise (like walking), putting you at a higher risk of a heart attack.
  2. OLYMPUS DIGITAL CAMERAUse the proper tools
    • Sturdy, non-slip winter boots and salting are essential to prevent slips and falls.
    • An ergonomic shovel can help reduce excessive amounts of forward bending, which could otherwise put a lot of strain on your lower back.
  3. Use proper form
    • Stand with your legs hip width apart
    • Hold the shovel close to your body
    • Space your hands apart to increase leverage
    • Bend from your knees, not your back
    • Engage your core/tighten your stomach while lifting
    • Avoid twisting while lifting
    • Walk to dump your snow instead of throwing it
    • Pushing is easier than lifting
  4. Warm up
    • Cold, stiff muscles are more prone to injury. Get your body warmed up and ready to go by marching on the spot, doing some small squats, and rotating your upper body from side to side.
  5. Shovel early and often
    • Freshly fallen snow is lighter and fluffier than snow that has been sitting for a few hours, which makes moving it much less stressful on your body.
  6. Slow and steady wins the race
    • Though it may be tempting to power through and get your shoveling done as fast as possible, work at a slow and steady rate while focusing on proper form to decrease your risk of injury.
    • If there is a large amount of snow, work in layers of 2-3 inches instead of trying to lift it all at once.
  7. Take breaks and hydrate!
    • We recommend shoveling for 15 minutes followed by a 15 minute break
    • Remember to drink water or other non-alcoholic beverages during your break – shoveling is hard work!

BodyTech Physiotherapy

Tennis Elbow

Tennis Elbow

Lateral epicondylitis, more commonly referred to as “tennis elbow”, is a term used to describe pain just above the elbow joint on the outer side of the arm. Contrary to popular belief, tennis elbow is not a condition that is exclusive to tennis players or athletes. The term tennis elbow was coined from the fact it can be a significant problem for as many as 50% of tennis players during their careers. However, less than 5% of reported cases of tennis elbow result from playing tennis!

More specifically, tennis elbow is a tendinopathy at the origin of the extensor carpi radialis brevis tendon (the tendon that is responsible for wrist extension). This tendinopathy is due to degeneration of, or damage to the tendon causing inflammation and subsequently, pain. In order to understand what causes tennis elbow, it is important to first understand tendons and how they function. Tendons are like “ropes” made of collagen tissue. They are flexible, but do not stretch when pulled. It is the job of the tendon to connect muscle to bone. In the case of tennis elbow, the area on the bone where the tendons attach, just above the elbow on the lateral side (or outer side) of the arm, are sometimes incapable of handling the force of the arm muscles. Strong forces or sudden impact to the tendons at this point of attachment are what cause damage, like small tears in the fibers of the tendon (similar to a rope becoming frayed).

Activities that exacerbate tennis elbow symptoms are those that involve repetitive motion of the arm, forearm, wrist, and hand. Movements that are commonly associated with the development of tennis elbow are: lifting, gripping something tightly in combination with inward or outward rotation of the forearm, jerky throwing motions, swatting with the hand, and simultaneous rotation of the forearm and bending of the wrist. Racquet sports may be the most “popular” activity to associate with tennis elbow, but as previously mentioned most cases are the result of a wide range of actions that include, but are not limited to: painting/plastering, excessive and repetitive use of a computer mouse, carpentry work, gardening and repetitive lifting and carrying.

Tennis elbow can be suspected when performing routine tasks, such as gripping objects or turning doorknobs, become painful. A physician or physiotherapist can diagnose tennis elbow by discussing symptoms and examining the affected arm. Diagnostic tests are not typically necessary for an accurate diagnosis, however, a physician may request an X-ray or MRI imaging if symptoms do not improve with treatment.

Treatment options for tennis elbow include modifying activities that exacerbate symptoms. Movements that cause an increase in pain should be avoided to help allow the tendon to heal. Pain management is also important to consider. Anti-inflammatory painkillers are commonly used for some symptomatic relief, however physiotherapy remains the most successful tool in the treatment of tennis elbow long-term. A physiotherapist will perform manual therapy on the affected arm, to mobilize the underlying stiff joints and tight structures. Modalities such as ice, and ultrasound, as well as taping may be used to ease pain and encourage healing. A physiotherapist will implement stretching and strengthening exercises to help restore normal function of the arm, and also prevent tennis elbow from occurring in the future.

BodyTech Physiotherapy

The Importance of Hydration

Hydration

With increases in temperatures during the summer months, ensuring adequate hydration is extremely important, especially during activities requiring physical exertion.  Every cell and system in the human body relies on water to survive and to work correctly and efficiently, but water is lost every day through sweating, urination and breathing. Sweating is the body’s cooling mechanism, so naturally we sweat more when outdoor temperatures are higher or during exercise. A combination of hot, humid temperatures and physical activity can easily put the body into a state of dehydration. Dehydration decreases the ability of the body to regulate core temperature and decreases blood flow, both of which can have a detrimental impact on exercise performance.

Certain people will be more susceptible to dehydration than others, i.e. children lose water more quickly due to smaller body size, while older adults have difficulty conserving water and have a decreased sensation of thirst. Anyone who works or exercises in hot and humid conditions is also more likely to become dehydrated due to an increased level of sweating. Humidity makes it difficult for sweat to evaporate from your skin, which means it is harder for your body to regulate its temperature and keep cool. Although heavy and prolonged exercise makes people most at risk for dehydration, there is a cumulative effect.  This means with inadequate fluid intake over a few days, even mild or moderate exercise can create a state of dehydration. For athletes, mild dehydration of 1-2% of body weight can decrease the ability of muscles to use glucose, which diminishes aerobic performance and causes fatigue more quickly. Therefore, it is very important to ensure proper hydration in the days leading up to races or games.

How to tell if you are dehydrated:

  • Little urine output and/or urine that is darker than usual
  • Dry mouth, thirst
  • Fatigue
  • Headache
  • Dizziness, lightheadedness
  • Muscle cramps
  • Nausea

Drinking fluids and replacing electrolytes is the easiest and quickest way to treat dehydration. If you have any of the above symptoms and think you may be dehydrated, drink small amounts of water frequently in order to prevent an upset stomach. Sports drinks can also be helpful in treating or preventing dehydration, but take caution as the sugar in sports drinks can cause diarrhea. Eating foods high in water content, such as fruits and vegetables, will help in the rehydration process; and be sure to avoid anything that will continue to dehydrate you further, such as caffeine and alcohol. Severe dehydration will require a trip to the hospital for rapid hydration through an intravenous line. Symptoms of severe dehydration include loss of consciousness, rapid or weak pulse, low blood pressure, and confusion. Untreated severe dehydration can lead to complications, such as heat stroke, and can damage kidneys and muscles. Heat stroke occurs when the body overheats and is no longer able to sweat and cool itself down, usually due to prolonged physical exertion in hot conditions. This is extremely dangerous and requires immediate medical attention, before brain or other organ damage occurs. A milder form and precursor to heat stroke is heat exhaustion, which has symptoms such as heavy sweating, lightheadedness, and muscle cramps. It is very important to treat heat exhaustion before it becomes heat stroke, by moving the person into a cool, shaded area, cooling off with wet towels, and giving liquids if possible. If symptoms continue to worsen, call for emergency medical attention.

How much do you really need to drink?

Although there are many recommendations for how much water to consume, a general rule of thumb is to consistently drink throughout the day, before you feel thirsty. Exercisers will need to consume more than non-exercisers due to water loss through sweating. In the hour or so prior to a workout, try to consume 1-3 cups of water. During exercise, if possible, drink about ½ cup or a few mouthfuls every 15-20 minutes. This will help to prevent dehydration and is especially important if the weather is hot, or the activity is particularly long and strenuous. A handy trick to know how much to drink after finishing a workout, is to weigh yourself before and after. For every pound that you have lost during the activity drink about 3 cups of water. If you weigh the same amount before and after, it likely means you hydrated adequately throughout the activity, and can just continue drinking normally for the rest of the day.

Keeping cool and staying hydrated should be a priority in the hot summer months. Dehydration negatively impacts the body and can lead to a decrease in athletic performance, heat exhaustion or even heat stroke. Drinking water consistently throughout the day, and increasing this amount before and after exercise will help to keep you hydrated and safe during the summer.


BodyTech Physiotherapy

BodyTech Physiotherapy
519.954.6000 | BodyTechPhysio.ca

 

The Truth behind Core Activation

Development of a strong core can be a common goal for numerous reasons, such as:  improving physical physique, preventing/relieving back pain, improving performance in recreational or competitive activities and building a stable base for our arms and legs to perform normal activities of daily living. This article will correct any myths about proper core activation. It will explain how development of a strong core will improve overall function for not only the lower back, but our bodies in general.

The first key to a strong core is developing a stable inner core. The inner core works as a unit to create dynamic stability around the spine and pelvis.

The inner core is made of up of four muscle groups:

  • transversus abdominis
  • pelvic floor muscles
  • multifidus
  • diaphragm

 

Transversus Abdominis (TA):

pic 1Transversus abdominis is a muscle that lies deep within the abdomen, attaching to fascia at the spine and wrapping forward towards the belly button, creating an internal corset. The function of the TA muscle is to stabilize your low back and pelvis prior to moving your arms or your legs. This muscle should be engaging subconsciously with any arm/leg/back movement throughout the day; however for many of us this is not the case. Reasons for inhibition of this muscle include: low back pain, surgery to the low back or abdomen, or pregnancy. To re-educate this muscle you must learn to tighten your lower abdomen without tilting your pelvis or puffing out your chest. Engagement is achieved by gently drawing your belly button inpic 2 towards your spine feeling tension develop on the sides of your pelvic bones. Make sure you remember to breathe naturally from your abdomen as you hold this contraction. Once the muscle is activated, movements of the arms and legs can be added to increase the difficulty and by integrating TA contractions into activities of
daily living.

 

Pelvic floor:

The second wall of the inner core is composed of the pelvic floor musculature. This creates the floor or base of the inner core unit. Contraction of these muscles can be achieved by envisioning that you are stopping your urine flow midstream. This exercise is very similar to the traditional Kegel exercise, and adds a second component of stability to our inner core. Please note that if you are experiencing any incontinence or retention issues you should visit a pelvic health physiotherapist before starting pelvic floor exercises.

 

Multifidus:

pic 3The third component of our inner core is the multifidus muscle. Multifidus is located on either side of the spine. This muscle is a segmental spinal stabilizer, and atrophy can be seen at one or multiple levels.  To retrain this muscle you will likely need the help of a physiotherapist. Your physiotherapist will palpate (touch) the sides of your spine and you will be asked to swell the muscle under their fingers. This is difficult for many of us to do without the help of additional muscles. Common ways we cheat to mimic this muscle function is by tipping the pelvis forward, flexing the hips or tightening the muscles of the buttock. A good way to feel multifidus activate would be to take a step forward while palpating the gutters beside the spine; you will feel a small bulge of muscle under your fingers as multifidus contracts.

 

Diaphragm:

The fourth component or roof of the inner core is the diaphragm muscle. To ensure correct stability/function through this muscle, make sure you breathe from your stomach (abdominal breathing) rather than from your chest during the inner core contraction. Breathing from the chest is less than ideal for proper core function and limits the use of the diaphragm muscle.

 

Why Core Engagement Helps Prevent Muscle Injury:

Dysfunction of the inner core results in increased pressure placed on passive structures (ligaments, bone/joints, discs, capsules) of the lumbar spine due to lack of support and stabilization when moving. If the passive structures are not supported with the core, repeatedly or over a prolonged period of time, injury or dysfunctions such as stiffness or poor movement patterns may occur, creating pain.

 

Lack of Proper Inner Core Strength Can Lead to Injury:

Often exercises that are meant to strengthen the core can lead to injury. A common mistake individuals make is performing exercises that challenge outer core muscles without proper endurance of the inner core. Performing exercises such as sit-ups and planks without a stable foundation can lead to injury of the lower back/pelvis due to the lack of dynamic stabilization around these joints. Without a strong core, maintaining the correct exercise position is also difficult and can lead to injury. Similarly, if an individual performs a lift without anticipatory engagement of the inner core, increased load is placed on the passive system of the back and pelvis, possibly leading to an injury.

 

Functional Retraining of Proper Core Engagement:

The core acts as a foundation or stable base on which all body movements are generated to maintain back and pelvic stability. Strength of core musculature enables effective load transfer throughout the body with functional movement and activity.

The exercise strategies listed above can be utilized to re-educate use of the inner core muscles. Once inner core activation is successfully achieved, activation should be performed in differing functional positions and levels of difficulty. Following successful re-training of the inner core, your physiotherapist will begin to introduce outer core exercises (to challenge your rectus abdominus, external obliques, internal obliques). Isometric outer core engagement will be integrated while performing arm and leg movements, ensuring that the spine remains stabilized in neutral throughout.

The outer core can be categorized into four sling systems, which exist in the body to help with stability around the trunk and pelvis. Your physiotherapist can create a graduated outer core retraining program using these slings once correct inner core engagement is achieved.

 

Outer Core Sling Systems:

Four sling systems (specific groupings of muscle) exist in the outer core. These sling systems are designed to help with Force Closure to the joints of the low back and pelvis (SI joint). Force closure describes use of the muscular and fascial system to assist with stability around joints.

 

Posterior Oblique Sling:

The posterior oblique system assists with force closure by use of the following muscles/fascia:

  • Gluteus maximus
  • Opposite latissimus dorsi (lats)
  • Thoracodorsal fascia (band connecting trunk to lower extremity)

pic 4An example of an exercise that incorporates use of the posterior oblique sling is bird dog.

Functionally the posterior oblique system is used during walking and rotational activities (ie. swinging a golf club).

 

Anterior Oblique Sling:

The anterior oblique system assists with force closure by use of the following muscles/fascia:

  • External obliques
  • Opposite internal obliques
  • Transversus abdominis

pic 5An example of an exercise that encourages use of the anterior oblique sling is dead bug.

Functional use of the anterior oblique system is used during the acceleration phase of throwing.

 

 

Longitudinal Sling:

The longitudinal sling system assists with pelvic stability. The muscles/fascia making up the longitudinal sling include:

  • Erector spinae (low back extensors)
  • Multifidus
  • Thoracodorsal fascia
  • Sacrotuberous ligament (ligament at the SI joint)
  • Biceps femoris (outer hamstring muscle)

pic 6An example of an exercise that would engage the longitudinal sling is the reverse boat pose in yoga or a superman exercise.

The longitudinal sling is functionally utilized during walking and running activities.

 

Lateral Sling:

The lateral sling is important for force closure across the pelvis, and also ensures positional control of the pelvis during single leg stance and walking. Muscles/fascia included in the lateral sling system are:pic 7

  • Gluteus medius and minimus
  • Opposite hip adductors (inner thigh muscles)

Exercises designed to promote activation of the lateral sling are often performed in a single leg stance position, ensuring correct core and pelvic control. Specific exercises for the lateral system include: step ups, step downs and side step ups.

The lateral sling is used functionally during walking and any single leg activity.

pic 8The final step to successful core retraining is to obtain full function. Performing functional movements while maintaining controlled trunk and limb movements in changing environments is the first step in functional retraining. Once you are comfortable with this activity, speed of activation and increased load can be added to challenge the core further. Further information and a staged exercise program can be discussed with your physiotherapist.

Diane Lee & Associates: training for the deep muscles of the core (Internet). South Surrey: D G Lee Physical Therapist Corp;  (cited 2016 Jan 12). Available from: http://www.dianelee.ca/article-training-deep-core-muscles.php