Things you didn't know about your back pain? - Natasha Eekhout (Paladin Biokineticists)

If you haven’t yet experienced the nagging pain in your lower back, well then heck that’s pretty impressive and you can consider yourself to be one of the lucky ones! It seems like a prevalent condition but how much do we really know about it?

1.      Back pain is one of the most prevalent ailments and surprisingly costs the country more than cancer and diabetic treatments combined, bet you didn’t know that! At least 80 out of 100 people will experience back pain, usually caused by everyday strains and sprains, during their life time and often it’s recoverable, if not, then you may have yourself a problem.

2.      Stop being a hypochondriac, scans aren’t necessarily required when you’re experiencing back pain. A short visit to your healthcare provider such as a physiotherapist will be able to identify if a scan is really needed depending on your symptoms and past medical history. A Biokineticist may also be of use to you, prescribing specific rehabilitative exercises to prevent further pain and injury.

3.      Interpretation of your scans can be skewed and misinterpreted. Research has shown that back scans of people who have bulging or herniated discs don’t even experience pain. Often people who do have back pain are told that all of these indicators are definitely the cause of the pain, when sometimes it may be referred from elsewhere or simply just muscle weakness. The results of your scans can be compared to baldness – it happens with age and overall genetics and there isn’t much we can do about it except for preventing further degeneration.

4.      More pain does not mean more damage! This might sound a bit strange, but this may be related to changes in environments or hypersensitivity. So when you’re having a bad day at work (murphy’s law) that little pain may just come about to aggravate you even more.

5.      When a disc or joint is ‘out of place’ it also doesn’t necessarily mean that this is the result of your pain. Yes in some cases it may be, but let’s not get ahead of ourselves and go for the whole manipulation thing unless it is really diagnosed and required.

6.      Bed rest is NOT the answer! Yes ok you may be in pain, and resting a day or two after your painful incident such as spraining an ankle is a good idea. However when it comes to back pain, depending on your symptoms, bed rest will only make your condition worse.

7.      Surgery… no! Just no. As a biokineticist we avoid this at all costs if possible and believe that conservative treatment is the way to go, unless it’s seriously debilitating and preventing those daily activities of yours.

8.      For most of us a good night’s sleep is hard to come by, and often this is related a shoddy night’s sleep. Improving your sleeping routines can help reduce the pain.

9.      Schoolbags are schoolbags, how else would you like to carry around those books? Research shows that weighted schoolbags aren’t necessarily the cause of your kid’s back pain and often, seeing as most kid’s these days just take it easy on the couch, it may be a simple way to get some physical activity into their daily agenda of xbox, play station and television.

10.  Stress levels can negatively affect your pain. So put a smile on your dile, take up something you enjoy and reduce that anxiety and those mood swings.

11.  Lifting goods and bending is seen as a no go when you have back pain. This may sometimes cause some strain and result in you being pretty immobile, relying on others to carry out your demands, which may not be such a bad thing. However this may become quite annoying for your newly acquainted ‘butlers.’ The key is to perform your movements carefully, avoiding them will just make them a whole lot worse to execute.

12.  Exercise is one of the most effective and drug free remedies you can use to help out with the pain, and the most awesome part about it, is that it’s free! Physical activity relaxes muscle tension, releases endorphins and generally improves your immune system. Under-used muscles tend to feel more pain and often need a couple sessions to wake up.

13.  The perfect sitting position doesn’t quite exist. I bet you’re all sitting up straight now aren’t you? Contrary to belief, everybody sits differently and obviously this is comfortable for you. Instead of sitting or standing in a super rigid posture, loosen up and move in a relaxed manner.

14.  ‘Persistent’ back pain can indeed get better! Treatment can take a while, and may not happen immediately. Take all of the above mentioned factors into consideration when seeking treatment, one form ain’t gonna make the cut! 

     Natasha completed her BSc Sports Science undergraduate degree at The University of Johannesburg and her BHSc honours degree in Biokinetics at The University of the Witwatersrand. 

She has a passion for a variety of sports in particular soccer, tennis, running and kickboxing which have contributed to a strong interest in orthopaedic rehabilitation and working with athletes. Other areas of focus include diabetic and cardiac rehabilitation, as well as weight loss and a keen enthusiasm for working with children of all ages. 

Natasha can be contacted on 082 476 9727 or natashaeekhout@kinetics.co.za

Can walking be as effective a form of exercise as running? - Tony Paladin (Paladin Biokineticists)

Whenever we are going to relate things to one and other, it is always best to adopt the old adage of “comparing apples with apples”. Comparing apples with say bananas makes for good conversation; but it doesn’t actually address the cold, hard facts.

The debate about walking vs. running and the respective health benefits of each has swung like a pendulum for decades between Doctors, Surgeons, Biokineticists, Physiotherapists, Athletics coaches and Personal Trainers.

Before we can critically comment on whether walking can be as effective as running we would need to define what exactly: “form of exercise” means. If we loosely reference the World Health Organisation’s definition of “exercise”, we can break the components into functional / balance, flexibility, strength and cardiovascular.

If we use these components as indicators, we can critically assess whether walking is as “effective” as running.

From a functional / balance perspective, the slower the movement the greater the stimulus. Generally walking is a good choice for people who need to improve basic function, increase activities of daily living and enhance balance. The function / balance components can be respectively varied in difficulty by offering assistance or creating instability. Verdict = when it comes to training basic function and balance, walking wins.

Flexibility. Unfortunately on this front, neither walking nor running has much to offer in terms of increasing muscle and joint range of motion. If I had a loaded gun to my head and was asked to make a call, I would have to say that across the walking / running echelon, sprinting would probably elicit the greatest effect on flexibility due to the ballistic and elastic components of the activity. Verdict = Do Yoga or full range of motion exercises such as squats in conjunction to your walking and running program.

When we introduce strength into the walk / run debate, we end up with a chicken and egg situation. Does one need to be strong to walk and run or does walking and running make you strong? Lets make walking the chicken and running the egg. Walking is the most elementary form of movement; it is literally one step harder than sitting. From the perspective of rudimentary movement, it is logical that one should start with the basics prior to advancing the activity. The “basics” in this case, is walking and when advanced, is running. Strength however, nestles itself quite firmly in between the two activities: you need to be strong to run. Do we go with the chicken or the egg? Since neither walking nor running really develops strength, it is advisable to include other movements in your program, which do. Verdict = Walking should be progressed to incline walking which should be progressed to fast incline walking which should be progressed to running. Strength exercises should be included across the entire stratum.

Then we have the cardiovascular component. In short, the faster your heart beats, the more “cardiovascular” the modality of exercise is. One could argue that it is a no brainer that running elevates your heart rate more than walking does, but does it really? Running sloppily on a flat surface at a slow pace versus brisk walking with a backpack up a hill is like comparing apples with bananas. If we compare apples with apples; as a general rule running elicits more of a cardiovascular response on the body due to the speed of the activity. The body needs to work harder to run than to walk. If we are going to get walking to obtain the same level of work, we need to make it more difficult. This can be done with speed, resistance, hills and direction. Verdict = from a cardiovascular perspective, walking with purpose has the potential to topple lackadaisical running.

So… Shall I walk or shall I run? For the non-injured and mostly healthy community, running has the ability to elicit more of an exercise response than walking and should probably be the mode of choice. For individuals with joint problems or who are simply not fit enough to run, walking is a heck of a lot better than bum sitting in terms of exercise response. Even when walking is too easy and running is too hard, walk-running is also an alternative to get the heart rate up but still allow for bouts of rest. The bottom line is your ability: exercise is meant to be both challenging and enjoyable.

With regards to general health benefits, increased fitness, toning and weightloss; the American College of Sports Medicine (ACSM) recommends that adults get at least 150 minutes of moderate-intensity cardiovascular exercise per week; strength train each muscle group two to three days a week; do flexibility exercise two to three days per week; and finally, do functional exercise two or three days per week. Whether you choose to walk or run is your choice, just make sure your heart is beating while you are doing it!

Tony’s Primary areas of focus include: Orthopaedic rehabilitation through strengthening (mainly backs and knees). He works with regaining function in ACL (anterior cruciate ligament) reconstructions and total knee replacement patients.

Tony also has an interest in sport specific testing and training (primarily rowing, cycling, running and triathlon).

Tony can be contacted on 011 807 9877 or tonypaladin@kinetics.co.za. 

In case of an emergency, he can be contacted on 082 921 6776.

What is Hypertension and how does a Biokineticist play a role in addressing it? - Anca Wessels (Paladin Biokineticists)

So you’ve heard of the term “high blood pressure”, but what does it really mean?

When your heart beats, it pumps blood out. The pressure it produces is called your systolic measurement (top reading) and should average at around 120.

When your heart is resting in between beats, it gets filled up with new blood. The amount of pressure needed to do this is called your diastolic measurement (bottom reading) and should average at 80.

If your blood pressure measurement is higher than 120/80 (eg. 150/100), you could be suffering from high blood pressure (hypertension). This means that the amount of pressure needed to pump and fill your heart is higher than normal and could lead to your heart being over worked. If left undiagnosed and untreated for an extended period of time, you could suffer from a heart attack or heart failure.

If you’ve been diagnosed with hypertension, one of the treatments that can assist in decreasing your reading is regular specific exercises. This is where Biokineticists come in.

Exercise for hypertension is specifically designed to train your heart how to deal with access pressure. These pressures can include anything from being overweight, to additional work stress, to being very unfit, to financial problems, etc.  By increasing your heart’s capability to adapt to different situations, you will lower your blood pressure and increase your quality of life.

For more info on high blood pressure and exercise, contact us now. You don’t have any time to waste!

Are your hips moving just a little too much! - Bianca Bunge (Paladin Biokineticists)

So if there ever was an 'All great ruler' of the lower body it would most probably have been the Hip joint! The hip joint is one of the most important and widely used joints in the human body, it allows us to do just about EVERYTHING, and plays a vastly essential role in mobility as it allows us to walk, jog, run, hop, jump, skip - whatever floats your boat - the list goes on and on...!! It is responsible for baring our body's weight (and after piling on a few killos after winter even more so) and is considered as an essential region of force transmission. The hip joint must therefore be able to accommodate various repeated, extreme forces during intense physical activity.

Furthermore, as the hip joint is a ball-and-socket joint it is also considered as one of our most flexible joints as it allows for a greater range of motion than most of the other joints in our body. Therefore, functionally, the hip joint enjoys a very large range of motion. It would therefore make sense that the hip joint should be stabilized before it gets completely out of control and goes on a free range rampage!! Poor hip stability can therefore be seen as the long lost answer to various deep (and shallow for that matter) rooted problems! Poor hip stability can further result in various movement dysfunctions and muscle compensations that can in the end be detrimental and lead to various aches, pains and even injuries!

Hip instability can be viewed as the common thread to a variety of different problem. Hip instability is a problem that's far more common than we like to admit! But as they say, admitting you have a problem is the first step, then comes the hard part, FIXING IT!! And this is far more of a daunting task. But the best way is to approach your 'Hip dysfunction and instability problem' is using a step-by-step approach! The fact is there can be a vast variety of different contributing factors, causes, compensations and imbalances that can be the culprits of your deep rooted problem! But don’t fear, that’s exactly what we’re here for – we’ll stabilise those hips of yours one step at a time!

Step 1: Deep tissue mobility - A tight muscle is not necessarily a strong muscle! Look at it like this, when you're feeling all stressed out and tensed up you don't want to work, and effectiveness and efficiency is the last thing on your mind - same thing with your muscles, when they're strained and tight there's no way they’re going to want to work effectively! Muscle tightness will result in reduced range of motion ultimately negatively influencing your performance and movement patterns! So basically what it comes down to is that you need to be loosened up, and soon too!

Step 2: Isolated strengthening - Time to put in that good old hard work, let that sweat roll down your face and get those muscles strong - because a weak muscle is definitely not going to take you the distance you want it to! But, it's all about specificity - target the RIGHT muscle and achieve the RIGHT results!!

Step 3: Functional strengthening - Cause in the end of the day you need to be functional - you need to be up and about doing your thing!! Here we get you up on your feet and strengthen you in a dynamic and functional way – this most definitely gets those muscles firing!

Step 4: Dynamic Stabilizing - So now that you've secured some good old hip stability it's important to make sure this stability carries over into dynamic, quick, functional movements!

Step 5: Time to show off your brand spanking new hip stability!

Time to develop some stable, well-functioning hips that will get Shakira raving!

Achilles Tendonitis - Michael Irvine (Paladin Biokineticists)

The Achilles tendon is the largest and strongest tendon in the human body. It is a tough band of fibrous tissue which inserts onto the calcaneus of the foot. The Achilles tendon is the common tendon to the gastrocnemius and soleus calf muscles. When these muscles are contracted, the Achilles tendon pulls on the calcaneus causing plantar flexion of the ankle. This is a common movement which makes walking, running, jumping and standing on toes possible. The Achilles tendon is said to withstand forces up to seven times one’s body weight, showing how much force the Achilles tendon is made to withstand during sporting activities.

Achilles Tendinitis is a condition which involves the inflammation of the tendon surrounding the ankle joint. Tendinitis within the heel complex is either due to a single cause, or may involve a variety of mechanisms. Although the Achilles tendon is an extremely strong structure and able to withstand large forces placed on it, it is still vulnerable to injury. This is due to a large amount of tension placed on it, as well as tendons having a limited amount of blood supply.

Achilles tendinitis is an inflammatory condition which involves the degeneration of the Achilles tendon. This is a result of micro tears which have developed within the structure which directly causes instability and a decrease in the tendons tensile strength.

There are two types of Achilles tendinitis:

• Acute Achilles Tendinitis

This is usually the result of abrupt or sudden onset, with the individual experiencing moderate pain 2 – 3 cm proximal to the tendons insertion on the heel. The pain is pinpoint tenderness and pain will increase when palpated.

• Chronic Achilles Tendinitis

This is generally an injury which occurs from overuse. Chronic Achilles Tendinitis exhibits a similar pain to Acute Achilles Tendinitis except the pain is usually at the insertion of the Achilles tendon. This injury generally occurs from repetitive micro trauma to the tendon and if left untreated, it could progress to an Achilles Tendon Rupture.

Aetiology:

It has been highly speculated that runners are more susceptible to Achilles tendinitis due to the repetitive micro trauma. This micro trauma is produced by:

1.       Eccentric Loading of fatigued muscles

2.       Excess pronation which produces a whipping action of the Achilles tendon

Therefore, all Achilles tendon injuries tend to be a result of either structural or dynamic disturbances of the lower leg. The main cause of Achilles tendon complex is due to overuse/overtraining.

Causes:

•     Overuse/changes in training
•     Ageing
•     Biomechanical faults (Pronation)
•     Tight calf muscles
•      Lack of ankle instability
•     Inappropriate show wear (resulting in biomechanical faults)

Signs and Symptoms:

Unless acute Achilles tendonitis, symptoms tend to develop gradually and become worse over time.

•         Local and tender pain in Achilles which tends to increase with specific activities
•     Crepitus (Grating or crackling sensation within the tendon upon movement)
•      Redness/swelling around the area
•      Affected tendon may appear thicker
•      Stiffness in tendon in morning which gets better with movement
•      Pain experienced with active or passive stretching
•      Reduced flexibility
•      Weakness and pain when standing on toes

Exercise as treatment:

Due to the Achilles tendinitis being an overuse injury, it is important to reduce activities that place strain on the Achilles tendon. Research has found that there are passive as well as active methods which can be prescribed to treat Achilles tendinitis. Aggressive stretching of the Achilles tendon complex should be implemented and incorporated into the training program to loosen the calf muscles and relieve the tendon of some of the tension placed on it. Exercises can be done to improve one’s biomechanical faults such as pronation which can help reduce the strain on the Achilles tendon.

Is my pain Sciatica or is it something else? - Natasha Eekhout (Paladin Biokineticists)

At least 1 out of 10 people have experienced that sharp radiating pain down the side and back of the thigh, and typically most people google this only to diagnose themselves and find out, ‘Hey I have sciatica!’ Sometimes google isn’t always right and sometimes diagnosing yourself isn’t the best thing to do either. So how do you tell the difference?

Let’s have a look at what it actually is and some causes associated with this irritating condition. Firstly what is sciatica? The sciatic nerve runs from the lower back all the way down the back of both legs. When this nerve is irritated usually due to being compressed, you will experience pain along the length of the nerve, which may radiate throughout the buttocks and down the legs. The intensity of the pain is dependent on the severity of irritation or compression, and

can range from being intermittent and manageable to downright debilitating. Usually the sensation experienced causes numbness, burning tingling and may be exacerbated by sitting.

The causes are varied and include lumbar disc herniation, muscle tightness, spondylolisthesis, lumbar stenosis, and general disc degeneration. Often sciatica is misdiagnosed and although you may be experiencing similar symptoms, there are conditions that may mimic sciatica:

• Sacroiliac joint dysfunction (SIJ): is a common cause of general leg and lower back pain and often results from hypermobility or hypomobility.
• Piriformis syndrome: is among the most common! This occurs when the piriformis muscle is inflamed or very tight, thus compressing the sciatic nerve running through or under it.
• Joint problems: such as spinal arthritis can cause similar symptoms.

One tip I’d like to give you, is to never diagnose yourself! The abundance of causes of this strange pain can be attributed to many different conditions even including spinal tumours, cauda equina syndrome or spinal infections. This doesn’t mean you have either, but the safest option is to visit that good old doctor of yours for an accurate diagnosis along with accurate treatment. Biokineticists aim to get down to the ‘root’ of the problem and to ensure your sciatica calms the heck down! 

Natasha completed her BSc Sports Science undergraduate degree at The University of Johannesburg and her BHSc honours degree in Biokinetics at The University of the Witwatersrand. 

She has a passion for a variety of sports in particular soccer, tennis, running and kickboxing which have contributed to a strong interest in orthopaedic rehabilitation and working with athletes. Other areas of focus include diabetic and cardiac rehabilitation, as well as weight loss and a keen enthusiasm for working with children of all ages. 

Natasha can be contacted on 082 476 9727 or natashaeekhout@kinetics.co.za

Cerebral Palsy (CP) and how Biokinetics can help - Nicole Robson (Paladin Biokineticists)

Cerebral Palsy is a neurological condition, where the part of the brain that controls muscle function, is damaged. This often occurs at birth. A variety of causes (predominantly at birth) include:

• low oxygen levels (hypoxia)
• severe jaundice
• brain infections
• bleeding into the brain
• head injuries
• maternal infections such as rubella (German measles)

 There are many different types of Cerebral Palsy that are classified as follows:

• Spastic: prominent reflexes and stiff muscle movements.
• Dyskinetic: This is divided into two types:
• Athetoid:  involuntary slow, movements
• Dystonic: Lack of trunk stability (affects posture)
• Ataxic: uncoordinated muscle movements
• Hypotonic: Low muscle tone (floppy)
• Mixed: combination of any of the above.

Exercise plays an important role in managing CP. Biokineticists are qualified health professionals who are trained to prescribe specific exercises. The purpose of exercise is to assist in providing independent movement. This is done by performing various functional movements, which often mimic activities of daily living. This goes hand in hand with muscle strength and therefore joint stability. Most importantly physical movement assists by preventing joints from becoming tight or permanently contracted.

Daily range-of-motion (ROM) exercises are essential in helping to prevent and delay and contractures (spasticity) as well maintaining mobility of joints. Stretching exercises are performed to increase range of motion. Progressive resistance exercises are important in developing strength. Fun Based exercises are also used for children to assist in posture correction, core and balance.

CP is a non progressive disease but can be managed through exercise which ultimately improves the individual’s quality of life.

Nicole obtained her BA in Human Movement Science at the University of Pretoria and completed her Honours Degree in Biokinetics at the University of Johannesburg. 

Nicole has an interest in Rhythmic Gymnastics and this particular sport led to her interest in the human body and orthopaedic rehabilitation, particularly of the back. She also has a keen interest in a variety of other sports. An area of focus that Nicole is also passionate about involves the training of children ranging from the very young child to teenagers. 

Nicole can be contacted on 082 888 8826 or nicolerobson@kinetics.co.za

Does your elbow need some elbow grease? - Natasha Eekhout (Paladin Biokinetics)

Ever experienced the kind of pain that makes bending or straightening your elbow virtually impossible without letting out a small yelp? You may very well just have elbow bursitis. You may be asking what the heck elbow bursitis is, so here’s the answer. It is the inflammation of the bursa situated behind your elbow. A bursa is a fluid filled sack and is located at joints to counteract friction.

So how do you know if you have elbow bursitis?

Usually elbow bursitis can occur when you whack that ‘funny bone’ of yours against the counter, causing swelling and localised tenderness. Initially symptoms include swelling which may not be accompanied with pain in some people however, as the inflammation and swelling increases often the pain on straightening and bending will increase too. Range of motion is not restricted in most cases, but due to pain limitations, restrictions may result. Inflamed areas are often warmer than the surrounding areas of skin and may also have associated redness. Chills or fevers may also be a symptom of septic bursitis.

How do you treat it?

Try avoid any aggravating movements and rest your elbow. Icing the inflamed area may also help and most obviously keep your elbow clear of any counters or tables. 

Sacroiliac Joint Dysfunction - Melissa Biffi (Paladin Biokineticists)

What is the (SI) Joint?

The sacroiliac (SI) joints are formed by the connection of the sacrum (triangular-shaped bone at the base of the spine) and the right and left iliac bones (two large bones that make up the pelvis). While most of the bones (vertebrae) of the spine are mobile, the sacrum is made up of five vertebrae that are fused together and do not move. The SI joints connect the spine to the pelvis and the sacrum and the iliac bones are held together by a group of strong ligaments.

There is relatively little motion at the SI joints, most of the motion in the area of the pelvis occurs either at the hips or the lumbar spine. When and individual is sitting upright of standing these joints  need to support the entire weight of the upper body, which places a large amount of stress across them and this can lead to wearing of the cartilage of the SI joints if the supporting muscles and ligaments are not strong enough.

Causes of SI joint dysfunction

SI joint dysfunction is a term used to refer to a condition that causes pain in the SI joints from a specific cause. There are a few common causes of SI joint dysfunction and these are conditions that change the normal walking pattern which places additional stress on the SI joints, This could include a leg length discrepancy (one leg longer than the other), or pain in the hip, knee, ankle or foot.

Degenerative arthritis is a common cause of SI joint dysfunction. As with most other joints in the body, the SI joints have a cartilage layer covering the bone. The cartilage allows for some movement and acts as a shock absorber between the bones. When this cartilage is damaged or worn away, the bones begin to rub on each other, and degenerative arthritis occurs. This is the most common cause of SI joint dysfunction.

Another common cause of SI joint dysfunction is pregnancy. During pregnancy, hormones are released in the female's body that allows for relaxation of ligaments which prepares the body for childbirth. Relaxation of the ligaments holding the SI joints together allows for increased motion in the joints and can lead to increased stresses and abnormal wear. The additional weight and walking pattern associated with pregnancy also places increased stress on the SI joints, 

What are symptoms of SI joint dysfunction?

The most common symptoms of SI joint dysfunction is sacroiliac pain. Pain in the SI joint is often related to either too much motion (hypermobility) or not enough (hypomobility) in the joint. Individuals often experience pain in the lower back or the back of the hips and can also be present in the groin and thighs. The pain is typically worse with standing and walking and improved when lying down. Inflammation and arthritis in the SI joint can also cause stiffness and a burning sensation in the pelvis.

How can Biokinetics help SI joint dysfunction?

 Biokinetics will focus on prescribing a specific individualised exercise regimen according to the needs of each person. The program will consist of low-impact aerobic activities , range of motion exercises for flexibility ,strength training  to improve muscle tone and stretching exercises. Exercise can help reduce pain and fatigue and improve muscle and bone strength. It is very important that the correct exercises be prescribed and done obediently, as incorrect exercises; a lack of effective management of SI Joint dysfunction and poor compliance of the individual can lead to progression of and increase pain of the SI Joint.

Melissa Biffi obtained her BCom Sports Management Degree at the University of Johannesburg and completed her Honours in Biokinetics at the University of Witwatersrand.

She has a special interest in dancing and other sports such as soccer and hockey, which lead to her interest in orthopaedic rehabilitation, particularly knee rehabilitation.

Melissa is also very passionate about working with children in specific areas such as rehabilitation and development of individuals from very young ages all the way through to adolescents.

Melissa can be contacted on 082 822 9677 or melissabiffi@kinetics.co.za 

Joint Laxity... Are you bent out of shape? - Nicole Robson (Paladin Biokineticists)

Ligaments connect bone to bone and therefore play an important role in joint stability. When ligaments are lax, there is less stability and the ligaments are termed “loose.” When this affects more than one joint in the body it is termed hypermobility and is often the cause of chronic pain. Causes are either genetic or as a result of an injury (torn ligament). Individuals with lax ligaments are more pre-disposed to injury and resultant joint degeneration with increasing age.

Common symptoms include

•  pain and stiffness in the joints and muscles
• clicking joints
• pre-disposition to dislocation.
• fatigue (extreme tiredness)
• recurrent injuries – such as sprains

Exercise is a great way to help manage pain and create stability around the joints. As a biokineticsist we can determine which joints are more hypermobile than others and therefore can determine which muscles are compensating. It is important to have specific exercise prescribed so that strength can develop and assist with stabilisation. It is also important to learn what normal range of motion is for each joint, in order to avoid hyperextension.

It is important to concentrate on both isometric and concentric strengthening exercises. In isometric exercise, the joint doesn't actually move, but the muscles around it are contracting. This enables the joint to remain stable whist gaining strength. With concentric exercises, muscles shorten as they contract (i.e. when you lift a weight in a bicep curl).

Emphasis should focus on the most susceptible joints such as your shoulders, elbows, knees and ankles. Core strengthening surrounding joints in your lower back, pelvis and hips is also of vital importance. A strong core assists with overall stability and therefore less chance of injury.

How do I know I need a Biokineticist? - Bianca Bunge (Paladin Biokineticists)

• Have you been suffering from lower back pain for the last month, year, or all your life?
• Have you recently sustained a sports injury?
• Have you undergone any Orthopaedic surgery?
• Are you planning on undergoing any Orthopaedic surgery in the near future, and need to do some strengthening and conditioning beforehand?
• Do you suffer from any joint pain or niggles?
• Do you suffer from daily headaches?
• Does your whole body feel tight and tensed?
• Have you recently undergone any Cardiac surgery?
• Are you unhappy with your weight and want to shed a few kilograms?
• Is your posture worrying you?
• Are you an athlete looking to enhance your performance?
• Do you Type 1 or Type 2 Diabetes?
• Do you have High Blood pressure or Cholesterol?
• Do you experience knee pain when running and/or squatting?
• When you embark on your ab challenge workout, do you seem to feel every exercise in your lower back instead of where you actually need to feel it, uhm, your abdominals?
• Do you occasionally feel numbness and tingling down your legs?
• Do you suffer from any chronic conditions such as Parkinsons, Arthritis, Osteoporosis, Hypertension, Metabolic Syndrome, to mention a few?
• Have you sustained a Neurological or Spinal injury?
• Do you just generally feel tight, tired, tensed and weak

Have you answered yes to any, or even a few of these questions? Well, then chances are you need a Biokineticist!! And we can help you!!

Bianca completed both her BA in Human Movement Science as well as her Honours degree in Biokinetics at the University of Pretoria. 

Bianca has a keen interest in various sports, particularly Netball and Running. She loves working with individuals and athletes of all levels and assisting them in achieving their desired goals. It’s all about the comeback! 

She’s passionate about the human body, movement, and working with different people and has a special interest in Orthopaedic Rehabilitation, in particular knee, hip and back rehabilitation. 

Bianca can be contacted on 082 8297 438 or biancabunge@kinetics.co.za

Children and Biokinetics... Let's have some fun! - Nicole Robson (Paladin Biokineticists)

Exercise and physical activity is just as important for children as it is for adults. In today’s society the rate of obesity and overweight children is increasing at an alarming rate. This is consequently leading to an early onset of type two diabetes. Poor posture from bad sitting habits can also cause lead to problems such as muscular imbalances and therefore undue stress on certain joints.

This represents the need for physical activity and exercise. Exercise, monitored by a trained professional such as biokineticist can help manage both chronic and orthopaedic conditions in children.

Biokinetics in children is a specialised form of exercise treatment that assists in long term physical development and also improves mental and emotional well being. Using a fun form of exercise therapy, many conditions can be managed conservatively through activity and exercise.

Conditions that would benefit from Biokinetics include conditions like Autism, ADHD/ADD, low muscle tone, spina bifida, perthes disease, in-toeing and out-teoing, scheurmanns disease, scoliosis, juvenile arthritis, asthma and cystic fibrosis.

Following an assessment the Biokineticist can put together a structured and monitored exercise programme, with the correct and necessary progression based on the child's needs.

In general it is important to develop good lifestyle habits from an early age.

Physical activity, monitored specifically by a biokineticist has a variety of benefits such as:

·         The development of a healthy heart and lungs

·         Increased flexibility

·         Improved balance

·         Enhanced co-ordination

·         Muscle imbalance corrections

·         Postural correction

·         Development of strong bones

·         Weight management

·         decrease  risk of certain diseases

·         improved mood and self-esteem

Early intervention not only slows progression of certain conditions but also helps maintain and prevent further problems in the future.