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Your first step to recovery

Wrist pain: De Quervains tenosynovitis

De Quervains tenosynovitis is a painful condition caused by inflammation of two prominent tendons that are located at the wrist and thumb.

The two tendons called the Extensor pollicus brevis  and Abductor pollicus longus originate from the middle of the forearm travel down towards and over the wrist to insert into the thumb. Collectively they function to extend the thumb, whilst abductor pollicus longus extends and also abducts the thumb (lifting thumb up to the ceiling).

What causes it?

The most common cause of De Quervains tenosynovitis is the repetitive overuse of thumb and wrist whether it is occupational or hobby related. For example, the repetitive thumb movement whilst using scissors by hair dressers, landscapers using shears or whilst gardening). Trauma to the tendons from injuries to the wrist or the thumb can cause inflammation of the tendons.

In some cases, age related degeneration of the tendon sheath or underlying conditions such as rheumatoid arthritis increases the risk of the developing De Quervains tenosynovitis. Hormonal changes resulting in fluid build up in young mothers can commonly result in De Quervains tenosynovitis.

Symptoms

Commonly your symptoms may include:

  • Pain located at base of your thumb
  • Pain elicited by movement of thumb (gripping or making a fist)
  • Grating or snapping feeling
  • Tightness in the wrist
  • Swelling surrounding the base of thumb and wrist

How is De Quervains tenosynovitis diagnosed?

Your doctor or physiotherapist will be able to diagnose the condition based on your symptoms and after doing a thorough movement assessment to rule out any other potential diagnosis.

  • Finkelstein test is used to elicit symptoms to confirm De Quervains tenosynovitis.

How to test:

  1. Wrap your thumb with your fingers.
  2. Slowly bend your wrist down

A positive test would elicit pain at the site of the two tendons.

Radiological investigations in lights of ultrasound and an x-ray might be recommended for further investigations, particularly to confirm clinical diagnosis or to rule out any other possible causes of De Quervains such as osteoarthritis.

What treatment options are available?

Conservative (non-surgical) management

Conservative management measures are generally recommended as the first line of management for mild to moderate symptoms. This is because up to 60-70% of symptoms are likely to improve over a period of 6-8 weeks of regular physiotherapy intervention. In this period, the following strategies are recommended by your therapist to fast-track your recovery

  • Rest and application of heat or cold packs
  • Avoid repetitive use of thumb
  • Pain medications (anti-inflammatory medications) such as diclofenac or ibuprofen
  • Splints or braces
  • Steroid injection

Surgical management

In more severe cases when conservative management has failed, surgery may be recommended by an orthopaedic specialist or surgeon.

Prior to your surgery you will have the opportunity to thoroughly discuss with your surgeon the details of the surgical procedure and about the post operative rehabilitation process.

  • Surgical procedure

Surgery may be performed under general or local anaesthesia. A small incision is made at the wrist and thumb region. The covering of the tendons (sheath) is then separated and expanded to provide the tendon space to allow the tendon to move smoothly within the sheath. After this the, the incision in then sutured with a firm dressing applied over the suture site.

  • While you recover from the surgery, an information sheet with post operative guidelines will be provided to you by your surgical team. It is important that you must follow the guidelines recommended by your surgeon for optimal recovery.
  • In most cases your will have a follow up with your surgeon few weeks after your surgery to check your wound healing and your progress. You are often times referred to physiotherapy for strength and conditioning of your wrist and hand movements to facilitate your recovery.

Repetitive Strain Injury (RSI) Explained

 

RSI is typically defined as an overuse disorder- a gradual build-up of overload to nerves, tendons, and muscles arising from repetitive movements or activities. Repetitive use of the same motions leads to inflammation and damage to these soft tissues. This disorder mostly affects the upper limb- particularly the elbows, hands and wrists.

 

Causes

Possible causes of RSI include but are not limited to:

  • Undertaking the same and repetitive movements and stressing the same muscle groups
  • Working in cold environments
  • Assuming a sustained and/or awkward posture for prolonged periods of time
  • Undertaking a particular activity for prolonged periods of time with no rest-breaks
  • Frequent and prolonged use of vibrating equipment
  • Adopting poor postures from working at inappropriately designed workstations
  • Undertaking a motion which involves carrying and/or lifting heavy items

 

 

Symptoms

RSI leads to a gradual development of a broad variety of symptoms, which range from mild to severe in severity. RSI particularly affects the muscles and joints of your wrists, hands, elbows, forearms, shoulders, neck. Having said this, RSI can affect other areas of the body as well.

Common symptoms may include:

  • Pain
  • Tingling
  • Cramping
  • Increased sensitivity to heat and cold
  • Tenderness
  • Fatigue
  • Loss of strength
  • Throbbing
  • Soreness
  • Achiness
  • Stiffness
  • Struggling with typical activities of daily living, such as gripping and twisting motions, carrying light weights, writing, kitchen prepping, dressing, personal cares etc

You may develop these symptoms when you undertake a task repetitively for a period of time, and can settle when you stop. Symptoms may settle over a few hours or over the course of a few days. However, if left untreated or is poorly managed, a minor RSI may gradually progress to a nasty chronic injury.

 

Diagnosis

 

If you experience mild discomfort whilst completing particular activities at home or at your job, it is a good idea to see your GP or physiotherapist to talk about RSI. But an RSI is not always simple to diagnose as there is no particular clinical test for it. Your GP will enquire about your medical history, occupation and work environment, and other activities to attempt to identify any repetitive motions you undertake that may be the cause of your symptoms. A physical examination will be undertaken, where they will assess your movement, check for pain, inflammation, sensation, tenderness, strength and reflexes in the impacted body part. RSI may be triggered by specific health disorders like bursitis, carpal tunnel, tigger finger, ganglion cyst, or tendonitis (inflammation in your tendons). Your GP can refer you on further diagnostic tests such as X-rays, Ultrasounds, blood tests, MRIs, nerve conduction tests etc, to determine if these underlying disorders may be the cause of your symptoms. You may be also be referred onto a physiotherapist and acupuncturist for conservative treatment and management for mild-moderate issues. If symptoms persist, you will then be referred onto a specialist.

 

Management

Initial treatment options for the management of RSI symptoms is conservative. This includes:

  • Rest, Ice, Compression, and Elevation (RICE principles)
  • Taking regular breaks between tasks and looking after your posture
  • Undertaking your activities and movements with appropriate form and posture
  • Intake of Nonsteroidal anti-inflammatory drugs (NSAIDs), both oral and topical as prescribed by the GP
  • Use of cold and heat to the impacted area
  • Administration of steroid injections into inflamed joints and tendons
  • Tailored exercise prescription from physiotherapists to correct posture and strengthen and stretch affected muscles
  • Acupuncture
  • Stress reduction and relaxation training
  • Use of splints and braces to help protect and rest the affected muscles and tendons

Ergonomically appropriate adjustments to your workstation and work environment may be recommended by your physio and GP- for example resetting your desk and chair if you’re working at computer, and alterations to your equipment and activities/motions to lessen the strain and stress on your muscles and joints. Surgery may be necessary in some cases.

 

Prevention

Minimizing repetitive actions particularly if they involve the use of heavy machinery or vibration. Improving your working posture and work-environment as well a taking regular breaks. Employers often undertake risk-assessments when you join a company to determine that the work area is ergonomically fit, comfortable and appropriate for you. You may be able to request for an assessment if you have not had one or are having issues with your work environment

Piriformis Syndrome

Piriformis syndrome refers to the dysfunction of the piriformis muscle which irritates the sciatic nerve. It is characterized by deep buttock region pain that radiates down leg and foot often accompanied by pins and needles and numbness traveling along the path of the sciatic nerve.

The simplistic reason for this widely distributed pain comes down to the piriformis muscle itself – Their close proximity means that direct trauma to the buttock region or the supporting structures can result in inflammation and muscle dysfunction which can compress and irritate the sciatic resulting in referred symptoms.

Piriformis syndrome symptoms may include:

  • Localised deep buttock region pain
  • Pain with continuous sitting or standing for 15 mins or over
  • Pins and needles along the leg down to the outer foot
  • Numbness in outer leg or foot (often resolves on movements)
  • Deep squatting or bending
  • Pain on direct palpation

Anatomy

 

The piriformis muscle originates from the outer surface of a large fused bone of our pelvis called the sacrum. It travels adjacently and inserts into the top of the hip joint. The piriformis muscle is a very active muscle involved in stabilizing the hip and pelvis during majority of our activities (walking, running, standing, sitting or standing, turning in bed). When the piriformis muscle contracts it helps the hip rotate outwards (external rotation) and lift thigh out and up (abduct).

The sciatic nerve originates from where the very base of the spine and the sacrum join known as the lumbosacral region (lower back and saddle region). In this region five separate branches of nerves travel outside of the bony openings of the spine called the nerve roots and connect into a single large nerve – the sciatic nerve. It then travels through the pelvis deep into the buttock region close proximity the piriformis and gluteal muscles. In some individuals the piriformis muscles can travel through the piriformis muscle subjecting them to piriformis syndrome.

Diagnosis

There are no specific tests to diagnose piriformis syndrome. Diagnosis of piriformis syndrome is made by the report of symptoms and by physical exam using a variety of movements to elicit pain to the piriformis muscle. In some cases, a contracted or tender piriformis muscle can be found on physical exam.

In cases where there is underlying pathology (such as disc injury, arthritis, sacroiliac dysfunction or hip injury) resulting in true sciatica – piriformis syndrome may develop to become an additional muscular dysfunction that is required to be addressed. Because symptoms can be similar in other conditions, radiologic tests such as MRIs may be required to rule out other causes of sciatic nerve compression, such as a herniated disc.

Consultation with a physiotherapist in this case is highly recommended as they will perform a comprehensive clinical examination to identify the root cause of your symptoms.

Exercises for piriformis syndrome

Corrective exercises with a combination of strength and flexibility regimen is an essential way to treat true piriformis syndrome (without involvement of other underlying pathologies).

The exercises outlined below follow a phase-by-phase progressive regimen to strength key muscles of the hip, buttock and legs.

As you work through these exercises expect to feel some pain during and after your exercise. Pain you may feel during the exercise is an expected sign of muscle activity. Pain you may feel after the exercises is an expected sign of muscle healing and recovery. However, if you are unable to participate in the exercises due to symptom deterioration – it is highly recommended you consult your physiotherapist to rule out other potential causes.

Otherwise, to help you gauge the correct amount of pain you should expect during exercise – use this scale. The ideal range should be 2 to 5. If your baseline pain is over 6 or 7 – it is recommended that you consult your doctor for pain relief appropriate to manage your pain, followed by a consult with a physiotherapist. Your physiotherapist will be able to modify the following exercises or prescribe alternative exercises best suited based on your current level of function and symptoms.

Symptom noting – is a great way to keep track of your progress and symptom behaviour.

  • Take a diary
  • Note down pain before you begin the exercise.
  • Note down the pain rating after each exercise.
  • Note down pain at the end of the day
  • Repeat the pain recording process for the next 4-5 days
  • Examine the trend in your symptoms.

Interference with everyday tasks – Your participation or level of exertion with everyday activities may interfere with your symptoms impacting your exercise tolerance. It is therefore important to note any of these interferences’ contributory to your pain.

Phase 1 – is a beginner stage.

This phase is intended for gently priming muscle activation. It will demand your concentration on technique and compliance to change the possible compensation your body has been used to as a result of pain. This phase can last between 1-2 weeks.

Instructions:

3 sets of 10 repetitions. Hold each repetition for 8-10 seconds. Rest 10-15 seconds between sets, 30 seconds between exercises. Do this exercise 1-2 times per day.

Bridges

 

Lie on your back.
Bend both knees and place your feet flat on the bed.
Lift your buttocks from the bed.
Place your buttocks back on the bed.
Repeat this exercise and remember to continue to breathe properly.


Clam shells

 

 

 

 

 

 

Lie on your side with your feet, ankles and knees together.
Bend the legs a little and tighten your core stability muscles.
Keeping the feet together, lift the top knee up.
Make sure you don’t roll your body back with the movement.
Control the movement as you bring the knee back down to the starting position.


Phase 2 – intermediate stage

The intermediate phase is similar to the beginner stage with the difference of using changing elements of progression to challenge the muscles capacity further. In this stage you may choose to progress the exercises by choosing to change ONE factor:

  • Increase repetitions
  • Increase hold time
  • Increase sets
  • Add appropriate resistance

Instructions:

  • 3 sets of 10-15 repetitions. Hold each repetition for 10-15 seconds.
  • Rest 10-15 seconds between sets, 30 seconds between exercises.
  • Do this exercise 1-2 times per day.

Bridges with resistance

 

 

 

 

 

 

 

Tie a resistance band around both thighs, just above your knees.
Lie on your back with your knees bent and legs hips width apart.
There should be tension in the band.
Raise your hips up into a bridge, keeping the knees hips width apart.
Control the movement back down to the start position, maintaining constant tension on the band.


Clams with resistance

Lie on your side and place a band above your knees, approximately an inch or two above the knee joint.
Bend your legs a little, keeping the feet in line with your back.
Use your core stability muscles to keep the body stable.
Keeping your feet together, lift the top knee up against the resistance of the band.
Ensure you stay on your side and do not roll your hips and your body back with the movement.
Lower the knee back down, controlling the resistance.


Phase 3 – advance stage

Body weight squats

Start position is standing straight with the arms out in front and bent at the elbows, the fists should be clenched and the palms facing inwards.
Move downwards into a squat position so that the knees are aligned over the toes and the heels are in contact with the floor, make sure the back is straight.
Keep the head and chest upright and the gaze horizontal.
Hold for 2 seconds and return to the start position.


Lunges

Stand straight with your arms to the side or on your hips.
Take a large step forwards on your affected leg, then drop your hips directly down between both feet, bending your hips and knees to a 90 degrees.
Push back up to the starting position, and repeat.
Make sure you take a large enough step that your front knee does not travel over your foot, and ensure your knee travels directly forwards.
Keep your body up straight throughout the movement.


Crab walks

Place a band around your ankles and gather some tension.
Side-step keeping constant tension on the band.
Make sure you do not bring your feet too close together and keep your toes and knees pointing forwards.


Phase 4 – return to activities

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Stretching

Do you always need to stretch the muscle? The answer is NO. While stretching is an important tool to improve muscle elasticity. You may not always need to stretch a muscle if it is NOT tight. Thus, stretching is recommended to be limited to areas you feel are TIGHT when you perform a given movement. Check the affected side and unaffected side – don’t need to stretch a muscle that doesn’t need to be stretched.

Seated piriformis stretch 

Start in a seated position.
Cross the symptomatic leg your ankle is resting on, to the opposite knee.
Apply gentle pressure to the knee as you lean forward, increasing the depth of the stretch.
Hold this position, you should feel a comfortable tension with no pain.


Pigeon stretch

 

Start on your hands and knees.
Cross the symptomatic leg underneath you, then lower your hips down to the ground.
Rest your body forwards on your arms.
You should feel a stretch across the buttock.

 

 

 

 

 

 

Dealing with De Quervain’s

De Quervain’s tenosynovitis is categorised as an overuse disorder which affects the tendons in your wrist that you use to straighten your thumb. It is associated with swelling in the two tendons around the base of your thumb, which then causes the sheaths encompassing these tendons to become inflamed. This results in increased pressure on surrounding nerves as well, resulting in symptoms such as numbness, tenderness and pain. You are likely to have these symptoms when making a fist, gripping or grasping something, pinching, twisting your wrist, and/or laterally bending your thumb.

Symptoms

The key distinguishing symptom of De Quervain’s tenosynovitis is tenderness and/or pain at the base of your thumb. You can experience pain referring up or down your forearm. You may notice the pain gradually develop or appear suddenly, and worsen when using your wrist, thumb and hand. Painful movements include making a fist, gripping or grasping something, twisting your wrist, pinching, and/or laterally bending your thumb.

Other key symptoms include:

  • Swelling at the base of your thumb
  • Experience numbness along the back of your index finger and thumb
  • ‘Snapping’ or ‘catching’ sensation experienced when you move your thumb

Causes

De Quervain’s tenosynovitis is typically associated with the chronic overuse of your thumb, hand and wrist. When undertaking movements like gripping, grasping, clenching, pinching, or wringing items in your hand, the two tendons in your lower thumb and wrist usually glide in a smooth manner via the small tunnel which attaches them to the base of your thumb. However, when you repeat a certain movement day in day out, it irritates the sheath around these two tendons, resulting in swelling and thickening which restrict their movements.

Factors which may increase your risk of developing this condition are:

  • Being in the age bracket of 30 to 50 years old
  • Pregnancy
  • Found more commonly in women.
  • Baby care: Lifting, carrying and/or holding your child repetitively with using your thumbs as leverage.
  • Hobbies or occupations which involve repetitive wrist and hand movements

Diagnosis

Your doctor or physiotherapist will discuss your medical and occupational history, and carry out a physical assessment of your wrist and hand.

The physical examination will include palpation for pain when pressure is applied to the thumb side of the wrist, as well as clinical test called the Finkelstein test. This test requires you to bend your thumb across the palm of your hand and bend your fingers down over your thumb. You will then bend your wrist towards your little finger. If this causes pain on the thumb side of your wrist, you are likely to have this condition.

Whilst X-rays are usually not needed for the diagnosis, however, you may be referred on for ultrasound imaging.

Management

The aim of the management for this condition is to reduce pain caused by the irritation and inflammation of the tendons, preserve movement in the wrist and thumb, and prevent its reoccurrence. If treatment is commenced early, the symptoms should subside in 4-6 weeks. If your symptoms arise during pregnancy, they may settle around the end of the pregnancy or post the breast-feeding stage.

  • Splints may be utilised to immobilise and rest your wrist and thumb
  • Ice application to the affected area
  • Your doctor may recommend the use of anti-inflammatory medication to ease swelling and decrease pain
  • Avoiding pinching with your thumb when moving your wrist from side to side
  • Avoidance of aggravating repetitive movements and activities
  • Administration of corticosteroid injection into the tendon sheath can ease pain and decrease swelling if recommended by your GP
  • Physiotherapy: Your physiotherapist will examine how you use your wrist and provide suggestions on how to make technique modifications to relieve stress on your wrists. They will teach you strengthening exercises for your wrist, hand and arm to help decrease pain and limit tendon irritation
  • Surgery may be recommended by your specialist in more severe cases and if conservative management fails

Carpal Tunnel Syndrome – What is it?

Have you been experiencing pain, pins and needles or numbness in your wrist and hands, especially after using the keyboard, chopping up a few veges, reading a book, using your mobile phone or with driving?

If you answered yes – then you are most likely to have Carpal tunnel syndrome.

What is Carpal Tunnel Syndrome?

Carpal tunnel syndrome is the most common condition in the arm. It is caused by compression of one of the three major nerves in the forearm – the median nerve, which travels through the wrist into the hand and fingers. Entrapment of the median nerve usually due to inflammation, occurs in the wrist commonly resulting in tingling of the wrist and hand (in some cases forearm), numbness, pain and weakness of the hand.

Signs and Symptoms

Often unrelated to a specific incident or an injury, symptoms of carpal tunnel syndrome usually develop gradually overtime. Symptoms may be worse in the morning and night. Many people find that the frequency and duration of symptoms increase as the conditions worsen.

Signs and symptoms may include:

  • Tingling, numbness or burning sensation of the thumb, index, middle and ¾ of ring fingers of the hand
  • Electric shock like radiating pain through the hand into thumb, index, middle and ¾ of ring finger
  • Weakened grip, loss of dexterity and fine movements such as picking up a hair pin, buttoning clothes.
  • Hypersensitivity or in other cases lessened sensation of hand to pressure, heat or cold temperatures
  • Swollen wrist

Let’s take a closer look at the anatomy!

As its name suggests – a group of small bones aka carpal bones form a tunnel like passageway in the wrist (palmar view). This unique architectural design allows for the tendons of the forearm muscles and the all-important median nerve to pass through the narrow tunnel through the wrist and into the hand and fingers, supplying sensation and motor function.

Causes

Common causes and risk factors that increase the likelihood of carpal tunnel syndrome include:

  • Repetitive wrist & hands movements – during work related tasks or leisure activities may irritate the tendons in the wrist, resulting in inflammation that irritates the nerve.
  • Wrist or hand injury – recurring sprains, swelling and reduced wrist movements reduces the space in the carpal tunnel
  • Pregnancy and menopause – hormonal changes can increase fluid retention in body increasing pressure in the carpal tunnel compressing the median nerve
  • Genetic history – petite
  • Medical conditions (rheumatoid arthritis, diabetes, hyperthyroidism)

Interesting facts about carpal tunnel syndrome

  • Women are 3 times more susceptible to develop carpal tunnel syndrome than men. This can be due to hormonal changes during pregnancy or menopause and also because women tend to have smaller carpal tunnels.
  • Not all fingers are affected. Median nerve supplies movement and sensation in the thumb, all fingers except the little finger.
  • Computers/keyboard are not the only reasons to blame – repetitive nature of any work related or leisure word increases risk of developing carpal tunnel syndrome

Diagnosis

Carpal tunnel syndrome is fairly easily diagnosed by your physiotherapy, doctor or a hand therapist.

Your health practitioner will gather information on your general health, history and nature of your symptoms. They will then carefully conduct a thorough clinical assessment to assess the movements of your hand and wrist, strength and use a collection of tests in effort diagnose your symptoms. In some cases, your therapist may examine your neck, shoulders and arms to rule out other potential causes.

You may often hear the physiotherapist or hand therapist mention that they want to conduct a functional assessment – A functional assessment is activity specific, where the therapist will watch you perform the activity that aggravates your symptoms the fastest. For example, if using a keyboard is generally when you feel your symptoms start – the therapist may observe you performing the very task to examine your overall posture.

Referral to scans or nerve conduction tests may be arranged by your doctor or therapist depending on the severity or complexity of your symptoms.

Scans

Referral to scans or nerve conduction tests may be arranged by your doctor or therapist depending on the severity or complexity of your symptoms.

  • Xray – provides key information on bone health, when dealing with a potential injury, or arthritis
  • Ultrasound – can examine potential soft tissue injury or inflammation compressing the median nerve
  • MRI – this advanced imaging provides in depth review of your wrist and hand. Usually arranged by your doctor or a specialist
  • Nerve conduction study – studies the electrical activity of the median nerve. This test will help you doctor examine the severity of your problem.

Treatment

In most cases, carpal tunnel syndrome will progressively worsen overtime. So, the key is early intervention!

Conservative management

Mild symptoms can be easily managed with a conservative approach.

  • Wearing splints or braces – keeps your wrist straight to prevent repetitive use of hands, thus reducing pressure or inflammation in the carpal tunnel.
  • Non-steroidal anti-inflammatory medications – such as celecoxib and ibuprofen as prescribed by your doctor may decompress the median nerve by reducing the inflammation in your body and wrist.
  • Activity modification: your physiotherapist will play an important role in providing you with advice around to modifying your activities to reduce your symptoms. They will also prescribe you with effective stretches and exercises to help manage your symptoms while safely aiding your recovery.
  • Steroid injections: your physiotherapist or doctor may recommend a ‘cortisone’, also known as a ‘corticosteroid’ injection to control your symptoms. It contains an anti-inflammatory substance that is injected into your carpal tunnel. The effects of the steroid injection may be temporary and can vary person to person depending on many factors (cause of symptoms, stage of your condition).

In mild to moderate cases, the effects of injection may last between 3-6months.

Surgical intervention

If non-surgical approaches have failed to relieve your symptoms, surgery may be required.

By this stage you would have consulted an orthopaedic surgeon. Your surgeon will thoroughly examine your overall health, symptoms, results from the scans and the nerve conduction study to help you decide on the best treatment approach.

If you decide to undergo surgery – the surgical procedure your surgeon will perform is called ‘carpal tunnel release’.

Recovery and outcomes

  • After your surgery you may be given a splint or a brace for a period of time specified by your surgeon. While in the splint or brace you will be encouraged to move your fingers to prevent stiffness and swelling.
  • Expect to experience minor pain, stiffness and swelling for a couple of weeks to months after your surgery. Pain medications provided by your surgeon must be taken as prescribed.
  • You may be encouraged to see your physiotherapist, who will work closely with your surgeon to help meet post-operative outcomes.
  • You will have regular 6-8 weekly follow ups with your surgeon as required to assess your healing and discuss gradual return to light activities and return to work.
  • If you have underlying medical conditions such as arthritis, except that your recovery may be slower than otherwise expected. It is important that you follow post-operative protocols your surgeon, doctor and physiotherapist recommend.

Meet Your Body Parts!

Here are definitions of common terms for body parts you may hear your doctor or physio use!

 

Ligaments

Ligaments are cordlike extensions that serve to connect ends of two bones to form a joint. They are made up of strong, durable, slightly elastic bandlike structures comprised of collagen fibres. The structural make up of ligaments is advantageous providing joint stability by limiting excessive movement.

What are Ligaments? (with pictures)

Tendons

Similar to ligaments, tendons contain densely packed bundles of tough collagen fibres that hold muscles together to the bone. They are located at the ends of every muscle in the human body. Bound together in tight sheaths they are made to withstand tension and transmit forces exerted by the muscle to the bone to cause movement.

 

10 Facts About Tendons | Physio Direct - Rural Physio at Your Doorstep

Muscles

Human body is made up of over 600 muscles categorised into three different types – cardiac, smooth and skeletal muscle.

  • Cardiac muscle – is only found in the walls of the heart. Its contractions help propel blood through the blood vessels to all part of the body.
  • Smooth muscle – is found mainly in the lining of internal organs (except the heart) including digestive and uninary tract organs, blood vessels. Smooth muscle works to transport substances through the organs by alternately contracting and relaxing.
  • Skeletal muscles – Skeletal muscles are the most abundant type of muscles that form the flesh of the body. They are attached to bones of the skeleton by tendons. They are responsible for voluntary movements of body. Facial expression, mobility, postural control and breathing are some of the movements we observe when skeletal muscles are subjected to voluntary control.

 

Muscle types — Science Learning Hub

Bones

Skeletal system of the human body is made up of 206 bones. Bones are most involved in providing an architectural framework by providing body shape, support and protection of vital organs and for locomotion. Besides these functions, bone is a reservoir for mineral and fats as a source of stored energy and formation of blood cells. Bones are classified by their shape as long, short, flat and irregular. They are connected by ligaments to form joints.

Let's learn about bones | Science News for Students

Cartilage

There are three different types of cartilage found in the human body – hyaline, elastic and fibrocartilage. Hyaline cartilage is the most common cartilage in the human body. It covers the ends of most bones at movable joints, connects ribs to the breastbone, forms the voice-box and nasal passages. It  consists of high water content that provides resilience to withstand great compressive forces found predominantly in joints.

 

What Is Cartilage?

Ankle injuries – Your first step to recovery

Common? Oh Yes!

The ankle is the most commonly injured joint in sport. This does not exclude other people such as active hikers, beach goers and even your average Sunday stroller. Good news though – your ankle injury is highly likely to be uncomplicated.

It is still vital that your ankle is examined, evaluated and treated early. This will ensure a swift return to activity and prevent further complications.

 

The road to recovery

Planning for Resiliency and the Road to Recovery

Your clinician will ask you some questions related to how you injured your ankle, pain, instability and any past episodes of injury. The earlier you get your ankle checked, the sooner your recovery will begin.

Keeping a mental note of things like initial pain, swelling, ability to walk and balance will go a long way in assisting your clinician to making an accurate diagnosis.

 

Investigations

Ankle x-rays

In most cases, initial X – rays are done to rule out broken bones.

Ultrasounds can be used to diagnose some ligament and tendon damage.

MRI is the best form of imaging but this does come at a higher cost and higher exposure to radiation. These are usually done after failed conservative treatment or in instances where pain remains high for longer periods.

A CT scan is helpful with complicated foot and ankle fractures. It will normally be ordered by a specialist surgeon who is planning for an operation.

 

What to look out for

Ankle sprains:

This is normally a twisting injury that causes a stretch or tear of ligaments surrounding the ankle. Your health care professional will provide you with all the information and tools you need for recovery.

These heal relatively quickly when the outside border of the foot is affected and a little slower when the inside border of the ankle is affected.

You will normally feel pain on certain ankle movements, stiffness in the ankle and experience some swelling and bruising.

Ankle - Wikipedia

 

Ankle Fractures:

These normally present with swelling, bruising and pain initially – although not always. In some cases, it is too painful to put weight on the ankle.

They are usually best confirmed with X – ray and specialist referral.

Management may be surgical or non-surgical depending on the severity and site of the fracture.

Fractures generally take longer to recover compared to sprains.

 

What treatment to expect

Foot and Ankle Doctor | EmergeOrtho—Triangle Region

Acute phase:

Your healthcare professional will normally initiate techniques to minimise your pain and swelling with rest, ice, compression and elevation.

Analgesia and anti – inflammatory medication may also be used.

Strapping may be used for stability at this stage and can be done by your physiotherapist.

You will also be encouraged to increase movement and begin strengthening.

 

Rehabilitation phase:

Balance and proprioceptive exercises will be given to you by your physiotherapist.

Strengthening will continue and running will start soon.

Once running in a linear motion pain free, you will progress to sport specific exercises.

Finally, you will return to sport or previous function such as trekking with a graded program.

Strapping may continue for up to 12 months after your injury in order to prevent re–injury.

 

What can you do on the day of the injury?

Rest by reducing time spent walking or standing. This will help the ankle to heal.

Ice the ankle for up to 20 minutes every couple of hours.

Compress the ankle with a firm bandage during the day and remove the bandage at night.

Elevate the leg.

Attempt circulatory exercises such as ankle circles and foot pumps (About 10 – 30 repetitions every couple of hours).

Contact your health professional or physiotherapist in order to make appointment for assessment.

If you are unable to stand on your leg or have excruciating pain in the ankle, head on to the local emergency department for immediate investigation.

 

Remember, your injury will heal and you will recover!

 

To find your nearest Physio Fusion clinic and book an appointment call 09 6266186 or visit our website https://physiofusion.co.nz

The myth about foot pronation (flat foot)

Myth: Foot pronation(flat foot) is the enemy.

Quest - Article - Surgery Sometimes, Bracing Often, Caution Always |  Muscular Dystrophy Association

In the foot, pronation should occur naturally when the foot comes into contact with the ground. Pronation will appear as the foot rolling inward and the arch flattening.

What are the benefits?

  • Dissipates the force that the foot receives from the ground

  • Allows the foot to become a stable and mobile adaptor to enhance movement opportunity

  • Loads the muscles of the extensor chain (calf, quads, glutes) to convert ground reaction forces into forward momentum so we can propel efficiently.

So why have I been told this is bad?

So as you are now aware, pronation is very normal and a critical movement to ensure we move and propel ourselves forward efficiently.

What you may have heard someone say to you is that you ‘overpronate’?

Firstly, overpronation is subjective and not as black and white as it is sometimes made out to be. Overpronation has be defined as: ‘a foot that rolls inward toward the arch excessively’.

Foot Pronation: Underpronation & overpronation explained- The Foot Clinic

What we must understand is that a pronation can only happen when the foot has a stable tripod on the ground. This means that the calcaneus (heel bone), 1st metatarsal (big toe knuckle), 5th metatarsal (little toe knuckle) must all remain in contact when the foot rolls inwards and the arch flattens.

The Foot Tripod - Fix Flat Feet

So, If you have been told you are ‘overpronated’ , it is most likely that your whole foot is ‘everting’ NOT ‘overpronating’.

What is Eversion?

Eversion can be defined as: ‘the process of turning inside-out’.

In pronation your heel must naturally ‘evert’ (sole of the heel will move away from the midline of the body) NOT your whole foot.

If your ‘whole foot’ everts (turns out) you will no longer have a stable foot tripod as the 5th metatarsal (little toe) will lose contact with the ground.

The key to ensuring this does not happen is to provide an environment for the bones of the midfoot (middle of the foot) and forefoot (toes) to experience the opposite motion to that of the heel. This will mean that the foot has an opportunity to truly pronate with a tripod on the ground.

 

 

So how can you help me do that?

  • At Physio fusion we can help you to bring your own body into alignment and create an environment in which the healing can begin

  • Foot strengthening exercises

  • Footwear advice

  • Referral to other healthcare specialists for further assistance (e.g. podiatrists)

To find your nearest Physio Fusion clinic and book an appointment call 09 6266186 or visit our website https://physiofusion.co.nz

Disorders of the Achilles Tendon

Basic Anatomy

The Achilles tendon is the largest tendon in the human-body. It is a band of tissue that connects your calf muscles to your heel bone (calcaneus). This tendon primarily facilitates general mobility such as walking, running, climbing stairs, jumping, and standing on your tip toes, by helping to raise the heel off the ground.

 

 

Common Achilles Pathology

Achilles tendinitis and tendinosis are two common disorders and are typically classified as overuse injuries.

Achilles tendonitis involves inflammation of the Achilles tendon. Inflammation is the body’s natural response to injury or disease, and often causes swelling, pain, or irritation. This inflammation is typically short-lived. Over time, if this is left resolved, the condition may progress to degeneration of the tendon- Achilles tendinosis, in which case, the tendon loses its organized structure and is likely to develop microscopic tears.

There are two types of Achilles tendonitis and it is based on which part of the tendon is inflamed:

  • Insertional Achilles tendonitis affects the lower portion of your tendon where it attaches to your heel bone.
  • Non-insertional Achilles tendonitis involves fibres in the middle portion of the tendon and tends to affect younger people who are active.

In both non-insertional and insertional Achilles tendinitis, damaged tendon fibres may also calcify (harden) and often bone spurs (extra bone growth) develop with insertional Achilles tendinitis. Achilles tendonitis may also increase your risk of sustaining an Achilles tendon rupture (tear).

Causes

Typically referred to as “overuse” conditions, Achilles tendonitis and tendinosis are often caused by the sudden increase in repetitive activity involving the Achilles tendon. This can put too much stress on the tendon too quickly, that can then lead to micro-injury of the tendon fibres. Because of this ongoing stress on the Achilles, the body is not able to repair the injured tissue. The structure of this tendon is then modified, resulting in continued pain and other symptoms. The Achilles tendon also has poor blood supply that makes it more susceptible to injury and may make recovery from injury slow.

Common factors that may lead to the development of disorders of the Achilles tendon include:

  • Weak and/or tight calf muscles
  • Rapidly increasing the amount or intensity of exercise within a short span of time
  • Hill climbing or stair climbing exercises
  • Presence of bony spurs in the back of your heel
  • Changes in footwear – especially changing from wearing high-heeled shoes to flat shoes
  • Wearing poor fitting, inappropriate, or worn out shoes during sporting activities
  • Exercising without adequate warm-ups and stretching
  • A sudden sharp movement which causes the calf muscles to contract and the stress on the Achilles tendon to be increased. This can cause the tendon fibres to tear.
  • Excessive mobility
  • Poor feet positioning and biomechanics (excessive pronation and flattening of the arches of the foot)

 

Symptoms

Achilles tendon pain: Causes. when to see a doctor, and treatment

 

Common symptoms include:

  • Pain and stiffness along the Achilles tendon especially first thing in the morning
  • Pain along the tendon or back of the heel that worsens with activity
  • Severe pain the day after exercising
  • Visible thickening of the tendon
  • Tenderness to touch
  • Bone spur
  • Swelling that is present all the time and gets worse throughout the day with activity

If you have experienced a sudden “pop” in the back of your calf or heel, you may have torn your Achilles tendon. Please seek urgent medical attention if you think you may have torn your tendon.

Diagnosis

If Achilles tendonitis or tendinosis is suspected, please deter from any activity or exercise which causes the pain. It is advisable to see your doctor or physiotherapist as soon as possible so that an accurate diagnosis may be made and appropriate treatment recommended.

You will be asked about the nature and duration of your symptoms and the medical professional assessing you will have a look at your foot and ankle. Ultrasound scanning may be used to evaluate the damage to the tendon and/or surrounding structures.

An MRI may be recommended if symptoms persist. X-rays may also be taken to rule out other disorders which may cause symptoms like Achilles tendonitis and tendinosis.

Achilles Tendonitis - Ankle - Conditions - Musculoskeletal - What We Treat  - Physio.co.ukHow to Treat Achilles Tendinopathy with Physical Therapy -  prohealthcareproducts.com

Treatment

Treatment will depend on the nature, severity, and length of the injury. Generally speaking, the longer the symptoms are present before treatment commences, the longer the timeframe until full recovery is attained.  Full recovery may take between three and nine months.

Initial treatment options in the early stages may include:

  • Rest – to avoid further injury to the area
  • Ice – to reduce inflammation
  • Elevation – to reduce swelling
  • Non-steroidal anti-inflammatory drugs to reduce pain and inflammation.

 How physiotherapy can help:

Physiotherapy typically focuses on two main areas: treatment and rehabilitation. Treatment may entail massage, shockwave therapy, acupuncture, gait re-education, and gentle stretching, whereas, rehabilitation predominantly entails strengthening of the Achilles and surrounding musculature.

Strengthening of the muscles surrounding the Achilles tendon facilitates healing in the tendon itself. Strengthening is attained through the utilization of specific exercises, that will be taught by your physiotherapist. It is common for the rehabilitation programme to take up to three months.

 

Exercises