Cycling Biomechanics: Difference between revisions
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{{#ev:youtube|Bg4q-54u9Bg}}<ref>Pioneercyclo.How to pedal like a Pro?. Available from https://www.youtube.com/watch?time_continue=2&v=Bg4q-54u9Bg&feature=emb_logo</ref> | {{#ev:youtube|Bg4q-54u9Bg}}<ref>Pioneercyclo.How to pedal like a Pro?. Available from https://www.youtube.com/watch?time_continue=2&v=Bg4q-54u9Bg&feature=emb_logo</ref> | ||
== Anatomy of Cycling == | |||
The primary power-producing muscles used for cycling include the quadriceps, hamstrings, and gluteals. The calf muscles, abdominals, and erector spinae, in conjunction with upper body muscles, are used for stability when riding a bike<ref>Training road Muscles used for cycling Available:https://www.trainerroad.com/blog/muscles-used-for-cycling-and-how-to-train-them/ (accessed 17.12.2021)</ref>. | |||
See the 30 second animation below. | |||
{{#ev:youtube|https://www.youtube.com/watch?v=MqLHuwxB5-c|width}}<ref>Pioneercyclo Which Muscles Are Used When Riding a Bike?Available from:https://www.youtube.com/watch?v=MqLHuwxB5-c (last accessed 17.12.2021)</ref> | |||
If you look at the image you can see what muscles are working at which points during the pedal cycle.[[Image:Anatomy-of-cycling.png|center|634x634px|alt=|frameless]]<ref>Cycle Season is Here in Vancouver, How is your Pedal Stoke? http://www.mypersonaltrainervancouver.com/cycle-season-is-here-in-vancouver-how-is-your-pedal-stroke/ (accessed 27 May 2016)</ref> | |||
=== The Power Phase of the Cyclist's Pedal Stroke === | === The Power Phase of the Cyclist's Pedal Stroke === | ||
Revision as of 05:51, 17 December 2021
Original Editor - Michelle Lee
Top Contributors - Michelle Lee, Lucinda hampton, Evan Thomas, Wanda van Niekerk, Kim Jackson, Vidya Acharya, Laura Ritchie, Scott Buxton, Naomi O'Reilly and WikiSysop
Introduction[edit | edit source]
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A key objective of sports biomechanics is to improve performance while reducing the incidence of injury, and knowledge of the biomechanics of cycling can benefit recreational, competitive and rehabilitating cyclists alike.
The study of cycling biomechanics provides understanding of how the body applies power to the bicycle and the way external forces effect the cyclist. This understanding allows recreational cyclists to position themselves for optimal comfort and efficiency and competitive cyclists to improve their performance in competition. It also helps physiotherapists to derive maximum benefits from the use of stationary ergometers and that the demands placed on their patients will improve their condition, not harm them.[1]
Points of Contact[edit | edit source]
There are 3 points of contact in cycling. Meaning 3 points of the body that make contact with the bike:
- Pelvis on the saddle
- Hand on the handlebars
- Foot on the pedal
Something to be aware of is that these areas can undergo sustained amounts of pressure and compression which can cause numbness, pain and weakness eg cyclist's palsy, cyclist's neck[2]
Phases of Cycling/Pedalling[edit | edit source]
There are 2 main phases of the pedal cycle;
- Power phase: From 12 o'clock till 6, phase where all the force is generally generated to propel the bike forward.
- Recovery phase. From 6 back to 12 o'clock
Have a look at this video (2 minutes) to learn to pedal like a pro based on leg biomechanics.
- 12 o'clock, this is known as Top Dead Centre (TDC).
- 6 o'clock is known as Bottom Dead Centre (BDC).
Anatomy of Cycling[edit | edit source]
The primary power-producing muscles used for cycling include the quadriceps, hamstrings, and gluteals. The calf muscles, abdominals, and erector spinae, in conjunction with upper body muscles, are used for stability when riding a bike[4].
See the 30 second animation below.
[5] If you look at the image you can see what muscles are working at which points during the pedal cycle.
The Power Phase of the Cyclist's Pedal Stroke[edit | edit source]
From the top of the pedal stroke, a cyclist utilizes their hip extensors (gluteus maximus muscle) which initiates the Power Phase of the pedal stroke until point at 3 on a clock face
From the point of 3 to 5 on the clock face the knee extensors activate: vastus lateralis and vastus medialis. Many cyclists associate this point with generating the most force for their pedal stroke; this is particularly prominent while climbing out of the saddle on steep gradients.
Due to the position on the bike, rectus femoris can become shortened leading to anterior hip pain, also due to the rectus femoris shortening the compressive forces around the patella increase causing discomfort. [7]
From positions 5 to 6, plantar flexion occurs, thanks to the gastrocnemius which causes the toes to point outwards[8]. The gastrocnemius and soleus's main role is to stabilise the lower leg to enable an efficient transition of the force generated by the upper leg to the pedal.[9]
Recovery Phase of the Cyclists’ Pedal Stroke[edit | edit source]
The transition from 6 o'clock back up to 12 o'clock is known as the Recovery Phase. Now not all of the muscles just switch of during this phase, it just is not as active as the Power Phase.
From 6 to 8, the Tibialis Anterior draws the toe upwards towards the shin. (dorsiflexion)
From 8 to 10, hamstrings (Semimembranosus, Semitendinosus and Biceps Femoris) pull the heel upwards towards the buttocks. Note: During cycling (depending on the position that is adopted by the cyclist, if on an upright bike), the ischial tuberosities may take most of the load through the saddle, therefore compressing the origin of the hamstrings.
From 10 to 12, the hip flexors of the liacus and Psoas finish off the pedal stroke[8].
Trunk, Back and Arm[edit | edit source]
The trunk and back play an important role in stabilising the spine and maintaining posture. There are many muscles within the back but to name a few: Multifidi and the quadratus lumborum are a couple of the main stabilisers of the spine when undergoing lateral and rotational movements, such as right leg enters the power phase whilst the left side of the spine stabilises and vice versa. The Erector Spinae muscles also play an important part in maintaining a stable posture whilst on the bike.
Abdominal muscles such as the rectus abdominus help to maintain stability as does the obliques. The obliques similarly to the back muscles will help stabilise a contralateral limb movement. As we move up the spine toward the shoulders, the latissimus dorsi and trapezius muscles enable the rider to fix their upper body onto the handlebars. The upper body has a role in stabilising contralateral torque, so as the right leg pushes down the left arm anchors to the handle bars and pulls up.
Similarly with the feet, the hands can undergo sustained amount of pressure so vascularity and nerves can become injured, most commonly the ulna nerve (cyclist's palsy) followed by the median nerve. [10][11]
Joints of the Lower Limb and their Role in Cycling[edit | edit source]
- The pelvis is the start of the lower limb complex. The ischial tuberosities (sit bones) are located here are the origin role for the hamstrings.
- The hip during cycling allows for and guides hip flexion, extension and small degree of rotation.
- The knee joint acts as a lever to the femur, as the femur is the longest bone in the body this can create large amounts of torque. This is where the patella plays a vital role, as it acts as a fulcrum and enables the force from the upper leg to be transferred to the lower leg.
- The ankle allows for dorsiflexion and plantarflexion in cycling.
- The foot is where the force that is generated from the lower limb complex is transferred to the pedal. Irregular amounts of force or compression running through the foot can result in neural pain and tissue damage from compression. [12][13]
Bike Fit[edit | edit source]
Correct positioning is critical for successful performance and injury prevention[1]. A correctly fitted bike can prevent many of the overuse injuries that occur from faulty biomechanics (poor position). It also means you can get the more comfort and can ride better and faster. The correct position varies from person to person, depending on factors like age, style of riding, and physical attributes like flexibility and anatomical variants.
The video below gives a basic bike fit instruction. The key elements outlined being saddle height, saddle layback and handlebar reach.
Concluding Remarks[edit | edit source]
The global bicycle market size was valued at USD 54.44 billion in 2020.
The number of people opting for bicycling as a form of leisure is anticipated to grow. Bicycles are a convenient form of exercise to ensure a healthy life, free from obesity and other disorders.[15]
With such a large amount of people cycling, whether it be professional, recreational or for commuting this increase the chance of developing an injury, so it is time we understood the biomechanics of cycling.
References[edit | edit source]
- ↑ 1.0 1.1 Sports performance Cycling biomechanics Available:https://www.sportsperformancebulletin.com/endurance-training/techniques/cycling-biomechanics/ (accessed 17.12.2021)
- ↑ Burt P. Bike Fit. Bloomsbury: London. 2014
- ↑ Pioneercyclo.How to pedal like a Pro?. Available from https://www.youtube.com/watch?time_continue=2&v=Bg4q-54u9Bg&feature=emb_logo
- ↑ Training road Muscles used for cycling Available:https://www.trainerroad.com/blog/muscles-used-for-cycling-and-how-to-train-them/ (accessed 17.12.2021)
- ↑ Pioneercyclo Which Muscles Are Used When Riding a Bike?Available from:https://www.youtube.com/watch?v=MqLHuwxB5-c (last accessed 17.12.2021)
- ↑ Cycle Season is Here in Vancouver, How is your Pedal Stoke? http://www.mypersonaltrainervancouver.com/cycle-season-is-here-in-vancouver-how-is-your-pedal-stroke/ (accessed 27 May 2016)
- ↑ CA Wilber, C1 Holland, RE Madison, 5F Loy. An Epidemiological Analysis of Overuse Injuries Among Recreational Cyclists. Int. J. Sports Med. 1995;16(3): 201 -206.
- ↑ 8.0 8.1 Skyaboveus Muscles of cycling Available:https://skyaboveus.com/cycling/Muscles-groups-used-while-cycling (accessed 17.12.2021)
- ↑ Burt P. Bike Fit. Bloomsbury: London. 2014
- ↑ Burt P. Bike Fit. Bloomsbury: London. 2014
- ↑ MC Ashe, GC Scroop, PI Frisken, CA Amery, MA Wilkins, KM Khan. Body position affects performance in untrained cyclists. Br J Sports Med. 2003;37:441–444
- ↑ Burt P. Bike Fit. Bloomsbury: London. 2014
- ↑ Wozniak CA. Cycling Biomechanics: A literature Review. Journal of Sports Physical Therapy. 1991;14(3):106-113
- ↑ Global Cycle Network. How to perform a basic bike fit. Available from: https://www.youtube.com/watch?v=1VYhyppWTDc [ last accessed 19.8.2019]
- ↑ Grand view research Bicycle Market Size, Share & Trends Analysis Report By Product (Mountain, Hybrid, Road), By Technology (Electric, Conventional), By End User (Men, Women, Kids), By Region, And Segment Forecasts, 2021 - 2028 Available:https://www.grandviewresearch.com/industry-analysis/bicycle-market (accessed 17.12.2021)
