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BACKGROUND:In recent years,as the popularity of long-distance fitness running continues to rise,more research progress has been made on related scientific issues.Among them,the landing pattern of long-distance running is an important biomechanical research hotspot at the level of running technique. OBJECTIVE:Using CiteSpace to visualize and analyze the relevant literature,the article sorts through the last decade's literature on the subject to identify the current state,hot spots,and trends in the footprint as well as to further discuss the main research hotspots of the foot strike pattern from a biomechanical perspective. METHODS:"Foot strike pattern,""Rearfoot strike,""non-Rearfoot strike,""Forefoot strike"and"Midfoot strike"were used as keywords to search the Web of Science Core Collection database. RESULTS AND CONCLUSION:A total of 896 relevant papers were finally included.The number of articles published in a year showed an overall upward trend.The top three countries in terms of the number of publications were the United States,China and the United Kingdom;the top three institutions were Harvard University,Shanghai University of Sports and the University of Massachusetts;and the top three authors were Davis Irene S,Hamill Joseph and Fu Weijie.The keywords"barefoot running,runner,injury,footing pattern,kinesiology"appear more frequently,and the keyword clusters include"energy cost,loading rate,footing pattern,risk factors,gait analysis",and the relevant research still continues to be hot to this day.After analyzing the above data in detail,we found that the overall research intensity of foot strike pattern has remained stable in recent years,and the hotspot mainly focuses on the biomechanical research of foot strike pattern;the trend of this kind of research focuses on the influence and adaptability of different strike patterns(forefoot strike and rearfoot strike)on long-distance runners(barefoot,shoes,distance,speed,injury risk,running economy and energy consumption,etc.).Therefore,there is no"standardized optimal landing,"but there may be"individualized optimal landings."It is suggested that researchers should select the optimal landing pattern and running technique strategy according to their own habitual way,movement pattern characteristics,exercise level and task attributes.
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Objective To investigate the effects of different foot strike patterns during running on Achilles tendon(AT)morphology and mechanical loading.Methods Fourteen habitual rearfoot strike runners and 14 habitual forefoot strike runners were recruited.Morphological characteristics(tendon length,cross-sectional area,and thickness)of the AT were collected using ultrasound imaging.The AT loading characteristics(plantar flexion moment,tendon force,load rate,impulse,and stress)of subjects wearing cushioned running shoes while running at a speed of 10 km/h were collected and calculated using a three-dimensional force measurement treadmill.Results Compared to habitual rearfoot strike runners,habitual forefoot strike runners showed a significant increase in peak plantar flexion moment of ankle joint,AT peak force,average loading rate,and peak loading rate(P<0.05).However,the differences in AT length,cross-sectional area,and thickness between the two groups were not statistically significant(P>0.05).Conclusions Long-term forefoot strike patterns can adaptively enhance the mechanical loading characteristics of the AT during repetitive stretch-shortening cycles.
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Long distance running is a popular sport with a high risk of getting musculoskeletal injuries, which is closely related to running shoes and foot-strike patterns. Biomechanical researches on relationship of running shoes and foot-strike patterns with running injuries were searched on the chain cloud library and Google academic database, and a total of 42 papers published from 1981 to 2016 were reviewed. There is not enough evidence to prove that running shoes have an effective cushioning and motor controlling function as what they claim, while barefoot running as a kind of more natural running pattern should be encouraged. Generally speaking, the forefoot strike has a lower injury risk on the knee, but increases the load on ankle and metatarsal bones. On the contrary, the rear foot strike always has a higher injury risk on the knee while a lower load on ankle and metatarsal bones. Therefore, runners should choose a suitable running method depending on their own conditions. The influence of running method transformation on biomechanical characteristics of lower limbs is not clear, and researches in such area may give more effective suggestions for runners to change their running methods.
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Objective To investigate the influence of barefoot running and shod running with different foot-strike patterns on characteristics of plantar pressures. Methods Kistler force plates and Medilogic insole plantar pressure system were used to collect and compare the kinetic data from a total of 12 healthy male volunteers under shod and barefoot conditions with heel-toe run and toe-toe run at the speed of 3 m/s, including the GRF, loading rate, plantar pressure and impulse. Results (1) Shod running with heel-toe strike significantly reduced the maximum loading rate and extended the time to reach the peak of impact force. Under forefoot strike pattern, shod running significantly increased the maximum push-off force than barefoot running. (2) More plantar pressure parameters were influenced by the foot-strike patterns as compared to those under the shod conditions, and there was a significant difference in the peak pressure and the time to reach the peak pressure in the mid-foot and heel region between the two foot-strike patterns. Conclusions The foot-strike pattern shows a more obvious influence on plantar pressure during jogging than the shod conditions. Shod running with heel strike can reduce the impact force, while barefoot running with forefoot strike can cause an excessive concentration of plantar pressure on the forefoot region, which indicates that a suitable pair of sports shoes is needed for both foot-strike patterns to reduce plantar pressure during jogging.
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Objective To investigate the influence of barefoot running and shod running with different foot-strike patterns on characteristics of plantar pressures and ground reaction force (GRF).Methods Kistler force plates and Medilogic insole plantar pressure system were used to collect the kinetic data from a total of 12 healthy male volunteers under shod and barefoot conditions with heel strike and forefoot strike at the speed of 3 m/s,including the GRF,the peak impact force,the maximum loading rate,the peak plantar pressure and impulse.Results (1) Shod running with heel strike significantly reduced the maximum loading rate and extended the time to reach the peak impact force.Under forefoot strike pattern,shod running significantly increased the maximum push-off force than barefoot running.(2) More plantar pressure parameters were influenced by the foot-strike patterns as compared to those under the shod conditions,and there was a significant difference in the peak pressure and the time to reach the peak pressure in the mid-foot and heel region between two foot-strike patterns.Conclusions The foot-strike pattern shows a more obvious influence on plantar pressure during jogging than the shod conditions.Shod running with heel strike can reduce the impact load,while barefoot running with forefoot strike can cause an excessive concentration of plantar pressure on the forefoot region,indicating that a suitable pair of sports shoes is needed for both foot-strike patterns to reduce the plantar pressure during jogging.
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Objective To investigate the influence of barefoot running and shod running with different foot-strike patterns on characteristics of plantar pressures and ground reaction force (GRF).Methods Kistler force plates and Medilogic insole plantar pressure system were used to collect the kinetic data from a total of 12 healthy male volunteers under shod and barefoot conditions with heel strike and forefoot strike at the speed of 3 m/s,including the GRF,the peak impact force,the maximum loading rate,the peak plantar pressure and impulse.Results (1) Shod running with heel strike significantly reduced the maximum loading rate and extended the time to reach the peak impact force.Under forefoot strike pattern,shod running significantly increased the maximum push-off force than barefoot running.(2) More plantar pressure parameters were influenced by the foot-strike patterns as compared to those under the shod conditions,and there was a significant difference in the peak pressure and the time to reach the peak pressure in the mid-foot and heel region between two foot-strike patterns.Conclusions The foot-strike pattern shows a more obvious influence on plantar pressure during jogging than the shod conditions.Shod running with heel strike can reduce the impact load,while barefoot running with forefoot strike can cause an excessive concentration of plantar pressure on the forefoot region,indicating that a suitable pair of sports shoes is needed for both foot-strike patterns to reduce the plantar pressure during jogging.
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Objective To investigate the influence of barefoot running and shod running with different foot-strike patterns on characteristics of plantar pressures and ground reaction force (GRF).Methods Kistler force plates and Medilogic insole plantar pressure system were used to collect the kinetic data from a total of 12 healthy male volunteers under shod and barefoot conditions with heel strike and forefoot strike at the speed of 3 m/s,including the GRF,the peak impact force,the maximum loading rate,the peak plantar pressure and impulse.Results (1) Shod running with heel strike significantly reduced the maximum loading rate and extended the time to reach the peak impact force.Under forefoot strike pattern,shod running significantly increased the maximum push-off force than barefoot running.(2) More plantar pressure parameters were influenced by the foot-strike patterns as compared to those under the shod conditions,and there was a significant difference in the peak pressure and the time to reach the peak pressure in the mid-foot and heel region between two foot-strike patterns.Conclusions The foot-strike pattern shows a more obvious influence on plantar pressure during jogging than the shod conditions.Shod running with heel strike can reduce the impact load,while barefoot running with forefoot strike can cause an excessive concentration of plantar pressure on the forefoot region,indicating that a suitable pair of sports shoes is needed for both foot-strike patterns to reduce the plantar pressure during jogging.