Barefoot Running

Found this while searching the Sports Science web site-

http://www.sportsci.org/index.html?jour/03/03.htm&1

SPORTSCIENCE
sportsci.org

Review: Training & Performance

Barefoot Running

Michael Warburton

Gateway Physiotherapy, Capalaba, Queensland, Australia 4157. Email

Sportscience 5(3), sportsci.org/jour/0103/mw.htm, 2001 (2564 words)

Reviewers: Caroline Burge, School of Medicine, University of Queensland, Brisbane 4006, Australia; Larry M Feinman, Mountain Chiropractic, Lafayette, Colorado 80026, USA; Ian Shrier, Center for Clinical Epidemiology and Community Studies, SMBD-Jewish General Hospital, Montreal, Quebec H3T 1E2, Canada

Running barefoot is associated with a substantially lower prevalence of acute injuries of the ankle and chronic injuries of the lower leg in developing countries, but well-designed studies of the effects of barefoot and shod running on injury are lacking. Laboratory studies show that the energy cost of running is reduced by about 4% when the feet are not shod. In spite of these apparent benefits, barefoot running is rare in competition, and there are no published controlled trials of the effects of running barefoot on simulated or real competitive performance. Reprint pdf · Reprint doc

KEYWORDS: economy, efficiency, injury, performance, shoes
Reviewer’s Comment

Introduction. 1

Injuries. 2

Acute Injuries. 2

Chronic Injuries. 2

Economy. 4

Adapting to Barefoot Running. 4

Conclusions. 4

Acknowledgements. 5

References. 5

Introduction

Well-known international athletes have successfully competed barefoot, most notably Zola Budd-Pieterse from South Africa and the late Abebe Bikila from Ethiopia. Running in bare feet in long distance events is evidently not a barrier to performance at the highest levels. Indeed, in this review I will show that wearing running shoes probably reduces performance and increases the risk of injury.

I became interested in research on barefoot running when I noticed that a reasonably high proportion of runners compete in bare feet during cross-country races in Queensland, Australia. I have based the review on articles I found containing the words barefoot and running in Medline, SportDiscus, and in Web publications. I found several original research reports on the occurrence and mechanisms of acute and chronic injuries in unshod and shod populations, and a few reports on the energy cost of running with and without shoes (including an unpublished thesis). Two authors provided recommendations for adapting to barefoot running. I also found informal websites devoted to barefoot running and barefoot living. There are apparently no published controlled trials of the effects of running in bare feet on simulated or real competitive performance, nor any surveys on the reasons why people do not compete barefoot.

Injuries

Where barefoot and shod populations co-exist, as in Haiti, injury rates of the lower extremity are substantially higher in the shod population (Robbins and Hanna, 1987). Furthermore, running-related chronic injuries to bone and connective tissue in the legs are rare in developing countries, where most people are habitually barefooted (Robbins and Hanna, 1987). This association between injury and wearing shoes is consistent with the possibility that wearing shoes increases the risk of injury, but other explanations for the association are possible; for example, in developing countries barefoot runners may be too poor to seek medical attention, shod runners may wear shoes because they have problems running barefoot, and shod runners may wear bad shoes, wear shoes incorrectly, and cover more miles. Prospective studies and randomized controlled trials of barefoot and shod running would resolve this uncertainty.

Studies of rates of injury in barefoot and shod runners in developed countries are non-existent, presumably because barefoot runners are a rarity. However, there have been several studies implicating footwear in the etiology of injuries in runners. I have grouped these as studies of acute injuries (resulting from an accident during running) and chronic injuries (resulting from continual exposure to running).

Acute Injuries

Ankle sprains are the most frequently reported acute sports injury, and 90-95% of these are inversion injuries causing partial or complete rupture of the anterior talofibular ligament and occasionally of the calcaneofibular ligament (Robbins et al., 1995; Stacoff et al., 1996). It is claimed that footwear increases the risk of such sprains, either by decreasing awareness of foot position provided by feedback from plantar cutaneous mechanoreceptors in direct contact with the ground (Robbins et al., 1995), or by increasing the leverage arm and consequently the twisting torque around the sub-talar joint during a stumble (Stacoff et al., 1996). Siff and Verkhoshansky (1999, p.452) reported that running shoes always reduce proprioceptive and tactile sensitivity, and that using bare feet on the high-density chip-foam mats in gyms preserves proprioceptive sensitivity. Robbins et al. (1989) considered that behaviors induced by plantar tactile sensations offer improved balance during movement, which may explain the preference of many gymnasts and dancers for performing barefoot.

The skin on the plantar surface (sole) of the foot is more resistant to the inflammatory effects of abrasion than skin on other parts of the body (Robbins et al., 1993), but stones, glass, nails or needles can still cause bruising or puncture wounds even when the plantar skin is thickened by adaptation to barefoot running. Extremes in temperature can also cause discomfort, blistering or chill blains. Running shoes therefore will play an important role in protection on some courses and in some weather conditions.

Chronic Injuries

One of the most common chronic injuries in runners is planter fasciitis, or an inflammation of the ligament running along the sole of the foot. There is some evidence that the normally unyielding plantar fascia acts as the support for the medial longitudinal arch, and that strain on the proximal fascial attachment during foot strike leads to plantar fasciitis (Robbins and Hanna, 1987). Barefoot running may induce an adaptation that transfers the impact to the yielding musculature, thus sparing the fascia and accounting for the low incidence of plantar fasciitis in barefoot populations (Robbins and Hanna, 1987).

Chronic ailments such as shin splints, ilio-tibial band syndrome and peri-patellar pain are attributed variously to excessive pronation, supination, and shock loading of the limbs (Siff and Verkhoshansky, 1999, p.451). When running barefoot on hard surfaces, the runner compensates for the lack of cushioning underfoot by plantar-flexing the foot at contact, thus giving a softer landing (Frederick, 1986). Barefoot runners also land mid-foot, increasing the work of the foot’s soft tissue support structures, thereby increasing their strength and possibly reducing the risk of injury (Yessis 2000, p.124).

Wearers of expensive running shoes that were promoted as correcting pronation or providing more cushioning experienced a greater prevalence of these running-related injuries than wearers of less expensive shoes (Robbins and Gouw, 1991). In another study, expensive athletic shoes accounted for more than twice as many injuries as cheaper shoes, a fact that prompted Robbins and Waked (1997) to suggest that deceptive advertising of athletic footwear (e.g., “cushioning impact”) may represent a public health hazard. Anthony (1987) reported that running shoes should be considered protective devices (from dangerous or painful objects) rather than corrective devices, as their capacity for shock absorption and control of over-pronation is limited. The modern running shoe and footwear generally reduce sensory feedback, apparently without diminishing injury-inducing impact–a process Robbins and Gouw (1991) described as the “perceptual illusion” of athletic footwear. A resulting false sense of security may contribute to the risk of injury (Robbins and Gouw, 1991). Yessis (2000, p.122) reasoned that once the natural foot structures are weakened by long-term footwear use, people have to rely on the external support of the footwear, but the support does not match that provided by a well functioning foot.

Measurements of the vertical component of ground-reaction force during running provide no support for the notion that running shoes reduce shock. Robbins and Gouw (1990) reported that running shoes did not reduce shock during running at 14 km/h on a treadmill. Bergmann et al. (1995) found that the forces acting on the hip joint were lower for barefoot jogging than for jogging in various kinds of shoe. Clarke et al. (1983) observed no substantial change in impact force when they increased the amount of heel cushioning by 50% in the shoes of well-trained runners. Robbins and Gouw (1990) argued that plantar sensation induces a plantar surface protective response whereby runners alter their behavior to reduce shock. The less-cushioned shoe permitted increases in plantar discomfort to be sensed and moderated, a phenomenon that they termed “shock setting”. Footwear with greater cushioning apparently provokes a sharp reduction in shock-moderating behaviour, thus increasing impact force (Robbins and Hanna, 1987; Robbins et al., 1989; Robbins and Gouw, 1990). However, in these studies the subjects ran on treadmills or force platforms. Further studies are needed to establish how shoes affect impact force and shock-moderating behavior on natural surfaces such as road or grass.

Other features of footwear, such as arch supports and orthotics, may interfere with shock-moderating behavior and probably hinder the shock-absorbing downward deflection of the medial arch on landing (Robbins and Hanna, 1987). These features reportedly reduce pronation and supination or offer the wearer lateral and arch support. They may help some people with foot pathologies, but their benefit is uncertain for runners with healthy feet (Yessis, 2000, p.121).

Runners with diminished or absent sensation in the soles of the feet are particularly vulnerable to damage or infection when barefoot. Peripheral neuropathy is a common complication of diabetes mellitus and may result in the loss of protective sensations in the feet. Barefoot locomotion is therefore not recommended in this population (Hafner and Burg, 1999). Indeed, proper footwear is essential and should be emphasized for individuals with peripheral neuropathy (ACSM/ADA, 1999; ACSM, 2000).

Economy

Wearing shoes increases the energy cost of running. Burkett et al. (1985) found that oxygen consumption during running increased as the amount of mass they added to the foot increased; shoes and orthotics representing 1% of body mass increased oxygen consumption by 3.1%. Flaherty (1994) found that oxygen consumption during running at 12 km/h was 4.7% higher in shoes of mass ~700 g per pair than in bare feet. An increase in oxygen consumption of ~4% is of little importance to the recreational runner, but the competitive athlete would notice a major effect on running speed.

The increase in oxygen consumption with running shoes could have several causes. An obvious possibility is the energy cost of continually accelerating and decelerating the mass of the shoe with each stride. Another possibility is the external work done in compressing and flexing the sole and in rotating the sole against the ground–up to 13% of the work done in walking, according to Webb et al. (1988). Frederick (1986) reported that oxygen consumption increased substantially with thicker shoe inserts during treadmill running. Not surprisingly, materials used for cushioning in shoes absorb energy, and stiff midsoles should produce a 2% saving of energy compared with standard midsoles (Stefanyshyn and Nigg, 2000). Finally, shoes probably compromise the ability of the lower limb to act like a spring. With bare feet, the limb returns ~70% of the energy stored in it, but with running shoes the return is considerably less (Yessis, 2000, p.123).

Adapting to Barefoot Running

Thirty minutes of daily barefoot locomotion is a recommended starting point to allow thickening of the sole of the foot and adaptation of muscles and ligaments (Robbins et al., 1993). Begin by walking barefoot at every reasonable opportunity then progress to jogging, gradually increasing the intensity and duration (Yessis 2000, p.124). After 3-4 weeks, the plantar skin eventually becomes robust and allows longer periods of barefoot running at higher average velocities (Robbins et al., 1993). To facilitate adaptation, perform progressive strengthening exercises for the foot and ankle, including foot inversion, toe flexion, and walking on the balls of the feet. Barefoot locomotion on uneven surfaces will also help stimulate the plantar surface and provide increased sensory feedback (Yessis 2000, p.125).

Conclusions

• Running in shoes appears to increase the risk of ankle sprains, either by decreasing awareness of foot position or by increasing the twisting torque on the ankle during a stumble.

• Running in shoes appears to increase the risk of plantar fasciitis and other chronic injuries of the lower limb by modifying the transfer of shock to muscles and supporting structures.

• Running in bare feet reduces oxygen consumption by a few percent. Competitive running performance should therefore improve by a similar amount, but there has been no published research comparing the effect of barefoot and shod running on simulated or real competitive running performance.

• Research is needed to establish why runners choose not to run barefoot. Concern about puncture wounds, bruising, thermal injury, and overuse injury during the adaptation period are possibilities.

• Running shoes play an important protective role on some courses, in extreme weather conditions, and with certain pathologies of the lower limb.

Reviewer’s Comment

Acknowledgements

I would like to thank Christian Finn and Will Hopkins for their kind assistance in the editing of this article.

References

American College of Sports Medicine and American Diabetes Association (1997). Diabetes mellitus and exercise: joint position statement. Medicine and Science in Sports and Exercise 29(12), i-vi

American College of Sports Medicine (2000). ACSM position stand on exercise and Type 2 diabetes. Medicine and Science in Sports and Exercise 32, 1345-1360

Anthony RJ (1987). The functional anatomy of the running training shoe. Chiropodist, December, 451-459

Bergmann G, Kniggendorf H, Graichen F, Rohlmann A (1995). Influence of shoes and heel strike on the loading of the hip joint. Journal of Biomechanics 28, 817-827

Burkett LN, Kohrt M, Buchbinder R (1985). Effects of shoes and foot orthotics on VO2 and selected frontal plane kinematics. Medicine and Science in Sports and Exercise 17, 158-163

Clarke TE, Frederick EC, Cooper LB (1983). Effects of shoe cushioning upon ground reaction forces in running. International Journal of Sports Medicine 4, 247-251.

Flaherty RF (1994). Running economy and kinematic differences among running with the foot shod, with the foot bare, and with the bare foot equated for weight. Microform Publications, International Institute for Sport and Human Performance, University of Oregon, Eugene, Oregon

Frederick EC (1986). Kinematically mediated effects of sports shoe design: a review. Journal of Sports Sciences 4, 169-184

Hafner J, Burg G (1999). Dermatological aspects in prevention and treatment of the diabetic foot syndrome. Schweizerische Rundschau fur Medizin Praxis 88, 1170-1177

Robbins SE, Gouw GJ (1990). Athletic footwear and chronic overloading: a brief review. Sports Medicine 9, 76-85

Robbins SE, Gouw GJ (1991). Athletic footwear: unsafe due to perceptual illusions. Medicine and Science in Sports and Exercise 23, 217-224

Robbins S, Gouw G, McClaran J, Waked E (1993). Protective sensation of the plantar aspect of the foot. Foot and Ankle 14, 347-352

Robbins SE, Gouw GJ, Hanna AM (1989). Running-related injury prevention through innate impact-moderating behavior. Medicine and Science in Sports and Exercise 21, 130-139

Robbins SE, Hanna AM (1987). Running-related injury prevention through barefoot adaptations. Medicine and Science in Sports and Exercise 19, 148-156

Robbins SE, Waked E, Rappel R (1995). Ankle taping improves proprioception before and after exercise in young men. British Journal of Sports Medicine 29, 242-247

Robbins S, Waked E (1997). Hazards of deceptive advertising of athletic footwear. British Journal of Sports Medicine 31, 299-303

Siff MC, Verkhoshansky YV (1999). Supertraining (4th ed.). Denver, Colorado. Supertraining International

Stacoff A, Steger J, Stussi E, Reinschmidt C (1996). Lateral stability in sideward cutting movements. Medicine and Science in Sports and Exercise 28, 350-358

Stefanyshyn DJ, Nigg BM (2000). Influence of midsole bending stiffness on joint energy and jump height performance. Medicine and Science in Sports and Exercise 32, 471-476

Webb P, Saris WH, Schoffelen PF, Van Ingen Schenau GJ, Ten Hoor F (1988). The work of walking: A calorimetric study. Medicine and Science in Sports and Exercise 20, 331-337

Yessis M (2000). Explosive running. Illinois, USA. Contemporary Books

Edited by Will Hopkins
Published Dec 2001
editor
©2001

I have actually read this before. I dont trust these studies. Lets have every distance runner in the world run barefoot for a month and see what happens. Also the african distance runners can do this because they have trained this way there whole lives and most likely not acostom to wearing shoes at all.

Shoes are evil…

I think i share Tim’s cynicism. Until someone studies the difference directly between shod and unshod running, we really don’t know.

Also, if i remember correctly, a lot of XC runners during my parent’s generation in the US raced and trained barefoot. If barefoot running was so much more advantageous to speed, why did anyone start using shoes (besides hurting one’s foot stepping on stuff).

If barefoot running was so much more advantageous to speed, why did anyone start using shoes (besides hurting one’s foot stepping on stuff). [/b]

The need to protect one’s foot is probably exactly why people started wearing shoes. The reason runners wear such elaborate shoes is probably just because shoe companies have thoroughly indocrinated the running community with the idea that we absolutely have to have the most advanced cushioning and support features in order to run safely. Furthermore, I don’t think anyone is claiming that barefoot running is “so much more” advantageous to speed, but rather that the bare foot is suited for running without any artificial support and that the artificial structure can disrupt natural biomechanics somewhat. Have you ever looked at some of the extremely well-cushioned shoes (prime example - Nike SHOX) and noticed how much higher the heel rests above the forefoot? It’s got to be at least 1.5 inches! This means that when the outsole of the shoe is flat on the ground, the foot is actually plantar flexed - sort of like running in high heels. Therefore, if the foot is NOT plantar flexed, the heel of the shoe is going to be closer to the ground than the forefoot, which means the heel is going to come crashing down prematurely at the moment of footstrike. This has probably led to the fierce competition among shoe companies to boast the most elaborate cushioning system - to absorb the shock of this unnatural way of running caused by the cushioning system itself.

I dont like the nike air. I think the air bubble can cause injury problems in runners/sprinters.

The cynical answer to why world-class runners wear shoes is because you can’t get a shoe contract if you run barefoot…

Personally the only shoes I wear for running are track spikes and this is simply because I need the spikes to get enough traction. If I could have the spikes embedded into my bare feet, I think I would prefer that option

And on the seventh day god said:

Throw away thy shoes and run barefoot and you will be free from injury. (unless you tread on some moron’s dirty needle!!)

Amen

The Technology chanel did a show on running barefoot and how, over time, the foot creates natural padding to protect the foot from bumps and sticks…The runners featured ran marathons barefoot. They had skin like leather, never had foot or ankle injuries, and wouldn’t have it any other way. Unfortunately, I missed most of the show both times it was televised so I didn’t get to see anything about speed, but the idea was that a few shoe companies are trying to test these barefoot runners to see the “needed” places for extra padding in shoes.

i try to do all my tempo work in barefeet when i can and at least some of my speed work on grass in bare feet.

Why?

When I wear shoes all the time I get ankle problems, shin splints, popliteus tendonitis, plantar fascitis…the list goes on.

The only real difference I have noticed in my training when I have got these injuries is whether I wear shoes or not, and the reason I wear shoes can vary as well. Ie; surface uneven or not suitable in some way etc

I think I am a barefoot convert, although I believe you still need to do some training in flats and spikes.

I’m always a bit worried about crap in the field even if I do check. Plus if your doing 600m checking twice can be a pain. Could water shoes maybe be used as something close to barefoot running for foot strengthening purposes?

Yes, if there is any danger of stepping on glass or other nasty items, I would make sure to have my feet shod. After all, a bad cut on your foot could put you out of training for quite a while and it is certainly not worth the risk.

So if you can’t go barefoot, then I would look for the most minimal shoes that I could find. My concern with the water shoes would be with them slipping around on your feet and causing blisters. Most of the ones I have seen are some kind of rubbery/neoprene material that works well for aquatic sports, but may not handle sweaty running feet very well. Look for some really flexible flats with minimal heel padding or even some of the cross country/indoor type track shoes.

Well actually I think that mine have enough space in them that I could wear socks and I guess that wouldn’t mess up the effect that much. Thanks for pointing that out to me though or I probably would have gotten a nasty blister. If it doesn’t work I think I’ll consider buying Pumas.

Here is a recent post by Jamie Carruthers on the Supertraining list-

Members may enjoy reading the following resources:

A Case for Bare Feet, Section 3: Health. See 3.4 in particular for
the disadvantages of only training in shoes
http://www.barefooters.org/key-works/case_for/3.health.html

Michael Warburton. Barefoot Running
http://www.sportsci.org/jour/0103/mw.htm

Why Shoes Make “Normal” Gait Impossible, By William A. Rossi, D.P.M
http://www.unshod.org/pfbc/pfrossi2.htm.

Comment on Barefoot Running. Caroline Burge
http://www.sportsci.org/jour/0103/cb.htm

Bare feet in Medicine
http://www.barefooters.org/medicine/

Barefoot FAQ,
http://www.barefooters.org/faq/

BAREFOOT RUNNING
http://www.posetech.com/training/archives/000125.html

Take Off Your Shoes and Walk by Simon J. Wikler D.S.C.
http://www.unshod.org/pfbc/toysaw.htm

The Barefoot RevolutionRoy M. Wallack
http://www.mensjournal.com/healthFitness/0506/running_barefoot.html

http://www.ahcuah.com/lawsuit/exhibits/robbins2.htm

Barefoot running not always good for the feet. Casey McGuire-Turcotte.
http://the.honoluluadvertiser.com/article/2003/Aug/22/sp/sp30a.html

Any others?
Jamie Carruthers
Wakefield, UK

Nike Free?

True about the water shoes. I bought the Adidas Mali. I ran on the beach and did a little XC with them, came back home with nasty blisters on my feet. I like the socks that the cyclist use. They are thin fit well and keep your feet dry.

I think the idea of running tempo or sprints on a unlittered (trash and fecal matter), manicured grass field is a great idea.

Anyone experience running on dew covered or wet grass without shoes?

What about traction on a rubber track without a spiked shoe? Do you think it would make a great difference after a period of acclimation without shoes?

My apprehension with any barefoot running would be the conscious thinking that my next step could be on broken glass. I think that conscious reminder would not keep me relaxed enough to complete a sound workout. At least the first workout or part of the first workout. I also think I would start off looking down to see what was beneath my feet.

Running on the wet grass barefoot is kind of a pain and its unsafe (some people can slip and strain something). If you can find a soft rubber track i guess its better than nothing. The best thing to do is to find a school with a well maintained grass field and do your tempo there. Or just keep your shoes on. You dont have to do tempo barefoot. If you want to stregnthen your feet, do towel crunches OR you can walk on the beach/sand barefoot for a couple of miles.

I tried on a pair of the Nike Free on the other day.

Granted I only walked around the store with them, I don’t think they are all that.

On the plus side- they did come with two different insoles depending on how high of an arch you have.

But what do insoles have to do with Barefoot Running?

The downside would be the heel design does not look as if it is build for much wear (In fact, the employee who assisted me said they had had returns because of the heel wearing out).

Since when did running barefoot come with an $85 price tag?

The alternative I’ve used is the old Nike Aqua Sox (the water sport shoe they had). The Aqua Sox was out in the late 80’s and I found a pair two years ago at a Nike Outlet Store for $16. They have served the purpose well as they are just enough to cover the foot for protection without interruption of foot mechanics that would be the same as running barefoot.

You’re missing the point! The barefoot running is being done by the factory employees who toil to make the flats in the Third World!