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Design

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A typical climbing shoe is made out of 9 parts: heel loops, lining, tongue tab, tongue, closure system, upper, toe box, rand, and heel.[1]

The anatomy of a modern climbing shoe

Materials

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Leather is the most common upper material, but other materials such as fabric and synthetic leather are also used.[1][2] The climbing rubber used for soles was developed specifically for rock-climbing.[3][4] The two types of leather used in shoe construction are unlined leather and lined leather.[5][6] Unlined leather stretches more than its lined counterpart.[1][5] As such, lined leather is used in areas where stretching is not desired, and occurs the most.[1] Unlined leather is often used on the tongue and tongue tab of the shoe where stretching is desired.[5] Synthetic materials are more rigid and provide ventilation for the shoe; they are often used in the liner, heel loops, and the closure system.[1]

The soles of climbing shoes are made out of special rubber composites. These rubber composites differ depending on the desired stickiness, durability, and softness.[1][7][8] Climbing shoes have rubber that are unique to the type of shoe as it molds onto the holds of a wall. There is a tradeoff between stickiness of a rubber and its durability.[3] Stickier shoes provide better performance for climbers, but are worn out quicker[3][6].

Closure Systems

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Modern climbing shoes come in different closure systems that allow the wearer to adjust the tightness of the shoe.[1]

Lace-up Shoes
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Lace-up shoes use a traditional lace, like those on sneakers, that reaches the rand of the shoe. Lace-ups provide climbers with the most adjustability in the shoe’s tightness. According to REI, a climber wearing lace-up shoes can loosen the shoe for walk-off routes or tighten the laces to complete a harder route. [5]

Velcro Shoes
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Velcro shoes will often have one or two Velcro straps that allow for the adjustment of tightness. Velcro allows for quicker but less precise adjustments than laced shoes. They are commonly used in indoor-climbing environments because they are easier to take on and off. [1][5]

Slip-on
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Slip-on shoes do not have any form of adjustable closure, allowing the user to fit their shoes into tighter fitting spaces. They need to be fitted properly in order to prevent the feet from moving inside the shoe. A benefit of this close fit is a higher sensitivity to the climb, allowing the wearer of the shoe to use smaller holds for their feet. [2][5][9]

Nose Types

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Climbing shoes are typically made with one of two types of noses: pointed or rounded. [9][10]

Pointed
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Pointed shoes can make it easier for climbers to stand on smaller holds. [9][10]

Rounded
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Rounded shoes allow all toes to reach the front of the shoe more easily, granting the climber more power when pushing off the wall. [9]

Shoe type

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Modern climbing shoes are typically subdivided into three different profiles based on their shape: neutral, moderate, and aggressive. [10]

Neutral

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Neutral shoes, similar to everyday sneakers, feature a flatter outer sole that allows the foot to rest flat during use. According to REI, this style of shoe is best fitted for beginner climbers because of comfortability. More experienced climbers may also use neutral shoes to climb longer routes.[5][10]

Moderate

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Slightly more downturned than the neutral shoe, moderate shoes have a cambered (curved) toe box. They typically have a thinner sole and stickier rubber than neutral shoes. This enables climbers to climb different types of routes, including slab, crack, slight overhangs, and multi-pitch.[5][10]

Aggressive

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Aggressive shoes feature a stronger downturn than moderate shoes. This style of shoe is often the most painful to wear for climbers due to its strong curve and heel tension. According to REI, they are shaped asymmetrically to allow for climbers to place greater weight on their big toe in footwork techniques.[5][10] Aggressive shoes, similar to moderate shoes, have thin soles and sticky rubber, giving climbers greater sensitivity in their feet. [3][10]

Uses

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The modern climbing shoe’s features leverage a climber’s ability to use their feet more technically.

Edging

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Edging is a footwork technique where climbers rely on their toes to step on smaller surfaces. Shoes that are downturned aggressively and have a pointed toe allow the climber to utilize their feet on smaller foot holds. The stiffer the sole of the shoe, the more pressure a climber is able to put on their toes.[11]

Smearing

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Smearing is when a climber uses the sole of their shoe to walk on a wall or a flat surface without any footholds. Shoes with a more sensitive sole made of thinner rubber allow for the climber to have more flexibility in their feet and not use footholds.[11]

Toe hook and heel hook

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A toe hook is when the climber utilizes the rubber on the toe of their shoe to hook their toe onto a hold. A heel hook is when the climber utilizes the rubber on the heel of their shoe to hook their heel onto a hold. The rubber allows for greater frictional support and adherence between the shoe and the hold.[11][12]

Repairs

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A climbing shoe will deteriorate at different rates depending on the habits of the climber wearing it.[13] The sole may wear down or delaminate from the rand, and important seams can fray which endangers the structural integrity of the shoe.[13] A study done on consumer practices suggests that users will either repair or purchase new objects when faced with worn materials that affect service.[14] It was found that consumers tend to choose to repair products when the practice allows them to maintain a habit, such as having broken-in shoes that the consumer would prefer to wear instead of a new pair.[14] When climbing shoes experience wear, especially damage that prevents use, they can be sent to a resoler.[13] The resoler can perform repairs such as a half-resole or a re-rand to mend the shoes.[13] A resole will not change how the shoe fits or is shaped, which allows the consumer to maintain their habits.[13][14] A re-rand is required for more damaged shoes, which can impact the shoe’s shape.[13] If a shoe that experiences wear is left unrepaired for too long, it may reach a point where it can no longer be mended and a new pair must be purchased.[13]

Health Concerns

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Downsizing

A vast majority of climbers choose to use tight climbing shoes since less restrictive shoes leave room for the foot to slip around inside the shoe and can make it harder for individuals to gain stability on smaller climbing surfaces.[1][15] Smaller climbing shoes are especially common among more elite climbers.[15] Tighter shoes can help improve a climber’s ability, so many climbers are willing to compromise their foot comfort.[15] The climbing culture around smaller shoes has garnered attention regarding the health of climbers’ feet. The smaller fit has been shown to stunt bone growth in younger climbers and have lasting injuries and deformities.[15][16] The injuries and health complications related to tight climbing shoes have also prompted research into developing more appropriate climbing shoes. One group of researchers has developed a climbing shoe prototype that molds to the foot for a more natural fit with features that accommodate the variance in foot width among climbers.[17] The findings from this prototype show that different shoe designs can help reduce the risk of injury while maintaining climbers’ ability level.[17]

Inhalation of Rubber Particles

Rubber-derived chemicals (RDCs) are chemicals that may be harmful to humans when ingested and can be found in high concentrations in the rubber soles of climbing shoes.[18] The rubber additives are released into the air when the rubber wears down through use. A study has found that there are higher levels of RDCs present in indoor climbing gyms compared to other environments where climbing shoes are not typically worn.[18] Adults who frequent these gyms inhale more RDCs than the average person, and this raises potential health concerns about rubber additive levels in climbing shoes’ soles.[18]

References

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  1. ^ a b c d e f g h i Lovato, Alessio (2021). Fitting Labs: study case, data analysis and development of an e-commerce site through machine learning. Padua, Italy: Universita Degli Studi di Padova. pp. 11–21.
  2. ^ a b "How to Choose Climbing Shoes". Athlete Audit. 6 October 2016. Archived from the original on 2017-08-19.
  3. ^ a b c d "Our Climbing Shoe Rubber Comparison: Everything you need to know". 10 December 2019.
  4. ^ "Vertical jump shoes". 1 October 2022.
  5. ^ a b c d e f g h i REI. "How to Choose Rock Climbing Shoes". REI. Retrieved 5 November 2023.{{cite web}}: CS1 maint: url-status (link)
  6. ^ a b Cooper, Joseph D.; Hackett, Thomas (2021), Rocha Piedade, Sérgio; Neyret, Philippe; Espregueira-Mendes, João; Cohen, Moises (eds.), "Climbing", Specific Sports-Related Injuries, Cham: Springer International Publishing, pp. 209–220, doi:10.1007/978-3-030-66321-6_14, ISBN 978-3-030-66321-6, retrieved 2023-11-02
  7. ^ Best Climbing Shoes: What You Need To Know, retrieved 2023-11-07
  8. ^ "The Climbing Shoe Rubber Comparison: Everything you need to know". www.climbingshoereview.com. 2019-12-10. Retrieved 2023-11-07.
  9. ^ a b c d Burbach, Matt (2004). Gym climbing : maximizing your indoor experience (1st ed.). Seattle, WA: Mountaineers Books. ISBN 0-89886-742-8. OCLC 56560676.
  10. ^ a b c d e f g Long, John (2022). How to rock climb. Bob Gaines (6th ed.). Guilford, CT. ISBN 978-1-4930-5626-2. OCLC 1256628257.{{cite book}}: CS1 maint: location missing publisher (link)
  11. ^ a b c Rock Climbing Footwork Technique: Beginner Level & Basics, retrieved 2023-11-07
  12. ^ Intermediate Climbing Footwork Technique: Inside & Outside Edging, Toes and Heels, retrieved 2023-11-07
  13. ^ a b c d e f g Burbach, Matt (2004). Gym Climbing: Maximizing Your Indoor Experience. The Mountaineers Books. ISBN 978-0-89886-742-8.
  14. ^ a b c academic.oup.com https://academic.oup.com/crawlprevention/governor?content=%2fjcr%2farticle%2f49%2f2%2f229%2f6438003. Retrieved 2023-11-07. {{cite web}}: Missing or empty |title= (help)
  15. ^ a b c d McHenry, R. D.; Arnold, G. P.; Wang, W.; Abboud, R. J. (2015-09-01). "Footwear in rock climbing: Current practice". The Foot. 25 (3): 152–158. doi:10.1016/j.foot.2015.07.007. ISSN 0958-2592.
  16. ^ Morrison, A. B.; Schoffl, V. R. (2007-12-01). "Physiological responses to rock climbing in young climbers". British Journal of Sports Medicine. 41 (12): 852–861. doi:10.1136/bjsm.2007.034827. ISSN 0306-3674. PMC 2658987. PMID 18037632.{{cite journal}}: CS1 maint: PMC format (link)
  17. ^ a b van der Putten, Eleonora P.; Snijders, Chris J. (2001-08-01). "Shoe design for prevention of injuries in sport climbing". Applied Ergonomics. 32 (4): 379–387. doi:10.1016/S0003-6870(01)00004-7. ISSN 0003-6870.
  18. ^ a b c Sherman, Anya; Masset, Thibault; Wimmer, Lukas; Dailey, Lea Ann; Hüffer, Thorsten; Brieder, Florian; Hofmann, Thilo (September 15, 2023). "Inhalation of climbing shoe particles is highly relevant for the human exposure to rubber-derived chemicals in indoor facilities". Cambridge Open Engage. Retrieved November 6, 2023.