Tag Archive for: Cycling injuries

senior cyclistWhether you are interested in road cycling, mountain biking, or just commuting to work, cycling injuries can happen to anyone.  In this article we will discuss three common bike injuries.

Achilles Tendonopathy: Achilles tendonopathy is an overuse injury caused by a breakdown of the tendon.   If you have tight calf muscles, spending several minutes performing heel raises before beginning your ride will reduces the risk of injury.

Achilles tendonopathy can also be caused by poor bike fit. Having the bike seat too high keeps the positions of your foot and toes pointed down, causing constant contraction of the calf muscles.   When the foot and toes point up during the bottom portion of the pedal stroke, the tension on the Achilles is released and this allows the tendon to have needed periods of rest.

Saddle Sores: A saddle sore is a skin disorder caused by long hours on a bike seat;  which is caused by the friction of your sit bones against the seat.  Having your bike seat too high can also causes this condition.  Lowering your bike seat can lessen the side-to-side motion of the pelvis, which can cause excessive friction against the seat. If you are still having problems, perhaps a different style of bike seat might provide relief.  Also, make sure your bike shorts are providing enough cushion/protection between you and the seat.

Lower Back Pain: Biking for long periods of time in a “riding” position is a major cause of lower back pain. Excessive flexion in the lumbar region of the spine can lead to nerve entrapment and sciatica.

Biking often overlooks core muscles, and having weak muscles can lead to low back pain by forcing supporting muscles to compensate for weaker muscles. Back pain can also be caused by a leg length discrepancy or misalignment of the spine. For more information on how to strengthen your core, please contact our physiotherapists.

Riding a bike that is too big for your frame, can also cause lower back pain; so take the time to have your bike fitted to your body: finding the correct body position on a bike will help avoid future biking injuries.

In order to enjoy cycling without injury; the choice of bike, proper frame size, and adjustments of the handlebar, seat and pedals can play a huge part; so size does matter when choosing a bike.

Here’s how to tell if the bike is truly right for you, and specific points on how you can fine tune the seat and handlebars to make it perfectly comfortable for you.

Frame Size:

The first step is getting the right size bike, so stand over the frame with both feet flat on the ground. A properly-sized road bike frame will allow an inch or two clearance between the top tube of the frame and your crotch. A mountain bike should aim for twice this distance.

Seat Height:

Your seat height should be set to a height that allows your leg to extend until it is almost completely straight when you are sitting on the seat. There should be only a slight bend to the knee when your foot is on the pedal in the bottom position.  A common mistake is for people to think that they should be able to sit on their seat touch the ground.  For maximum comfort, you want your seat to be level.

Handlebar Position
The goal of handlebar height adjustment is to find the position where you can ride comfortably without putting strain on your back, shoulders or wrists

Your handlebars should be at least as high as your seat, or even above it, so you can ride upright. If your handlebars are lower than your seat you’ll be pushed into your handlebars, and you’ll place more stress on your wrists, arms, neck, and back.

Making sure your bike fits is of utmost importance to cycling injury free.

Knee pain is a common complaint that affects people of all ages. A few reasons one may be experiencing knee pain include: a sudden increase in one’s training or activity schedule, the commencement of a new sport or activity, a change in footwear, improper training technique, or muscle imbalances and/or alignment issues.

Understanding what is causing your knee pain is the first step in treating it, and there are many possible causes of mechanical knee pain which include:

patello-femoral syndrome, patellar fracture, bursitis, Ilio-tibial band friction syndrome, patellar or quadriceps tendinopathy, ligament injuries/sprains, Meniscal injuries/tears, Osteoarthritis, Osgood-Schlatter’s disease,  Loose Bodies, etc…

 Knee pain is one of the most common cycling injuries. The most common cause of knee pain in cyclists in ilio-tibial band (IT band) syndrome. The IT band is a thick band of fibrous tissue that runs down the outside of the upper leg from the hip area to the knee. Pain usually results when the IT band becomes too tight and therefore rubs over the bony prominences of the knee. The IT band has direct attachments to the tensor fascia latae (TFL) muscle, which runs down along the outer front of the thigh/hip area and acts to help flex and abduct the hip. This muscle, which is used consistently in cycling, often becomes shortened and/or tight, thereby increasing tension on the IT band and contributing to knee and/or hip pain.

 As injury can often be a problem of overuse, or misuse, it is important to avoid the temptation to do too much (especially if just starting out with a new sport/activity, or commencing a training season). To avoid misuse of muscles, and prevent injury, it is important to ensure appropriate training technique and equipment fit (ie: bike fit).  With cycling, it is important to add in a stretching program for your lower extremities to help maintain a healthy and appropriate muscle length while training.

 In order to determine the cause of one’s knee pain, a comprehensive examination of the knee is completed and the appropriate treatment plan is outlined.

Treatment for knee pain can include:

1)    Electrotherapy such as ultrasound to decrease swelling, pain, speed up cell turn over and thus enhance healing and recovery.

2)    Interferential current may be used to decrease swelling or joint effusion, decrease pain, and speed up recovery.

3)    Heat may be used to decrease pain and increase range of motion

4)    Ice may be used to decrease inflammation and pain

5)    Soft tissue work to improve circulation, break up adhesions, decrease muscle tightness or tension, decrease pain

6)    Joint mobilizations to increase range of motion, decrease stiffness, increase circulation, and decrease pain

7)    Passive stretching to increase muscle length

8)    Taping to improve muscle function or joint alignment and decrease pain

9)    Comprehensive exercise program to correct for muscle imbalances, increase flexibility, improve strength / stability / proprioception.

 Below are a few exercises to help prevent knee injuries:

  1. Glute med strengthening – use theraband or stretchy tubing tied around ankles. In standing with legs straight and core contracted, side step (with straight legs) to left against the resistance of the band around the ankles. Continue for a minimum of 15 steps or until fatigue and then return to the starting point by side stepping to the right as above.
  2. Double leg or single leg squat, either on a BOSU or on the ground with a stability ball against the wall (your back leaning against the stability ball).
  3. Hamstring, Hip flexor stretching, and IT band rolling on foam roller

Remember to follow the PRICE principle if you believe you’ve sustained an acute knee injury, until you’ve been assessed from your health care practitioner.

P – Protect: Avoid anything that could cause further harm/injury or increase pain

R – Rest: Discontinue any and all physical activity as much as possible

I – Ice: Apply ice, 15-20 min max, 3-4 times/day

C – Compression: Wrap the injured area with a tensor bandage etc applying pressure around the area (to help decrease swelling and inflammation)

E – Elevation: Sit or lie with the limb or injured area elevated

Written by Jessica McCartie M.P.T.