In-Shoe Plantar Pressure Profiles in Amateur Basketball Players

2018 ◽  
Vol 108 (3) ◽  
pp. 215-224 ◽  
Author(s):  
Pui W. Kong ◽  
Wing K. Lam ◽  
Wei X. Ng ◽  
Luqman Aziz ◽  
Hin F. Leong
Keyword(s):  
Plantar Pressure ◽  
Repeated Measures ◽  
Distribution Patterns ◽  
Biomechanical Analysis ◽  
Basketball Players ◽  
Time Integral ◽  
Plantar Pressure Distribution ◽  
Pressure Profiles ◽  
Pressure Time ◽  
Injury Mechanisms

Background: Biomechanical analysis of foot loading characteristics may provide insights into the injury mechanisms and guide orthotic prescription for basketball players. This study aimed to quantify in-shoe plantar pressure profiles in amateur players when executing typical basketball movements. Methods: Twenty male university basketball players performed four basketball-specific movement tasks—running, maximal forward sprinting, maximal 45° cutting, and layup—in a pair of standardized basketball shoes fitted with an in-shoe plantar pressure measurement system. Peak pressure (PP) and pressure-time integral (PTI) data were extracted from ten plantar regions. One-way repeated-measures analysis of variance was performed across the tasks, with significance set at P < .05. Results: Distinct plantar pressure distribution patterns were observed among the four movements. Compared with running, significantly higher (P < .05) PP and PTI of up to approximately 55% were found in sprinting and layup, particularly at the forefoot region. Similarly, significantly higher (P < .05) PPs and PTIs, ranging from approximately 23% to 90%, were observed in 45° cutting compared with running at most foot regions. Conclusions: Compared with running, sprinting and layup demonstrated higher plantar loading in the forefoot region, and 45° cutting yielded increased plantar loading in most regions of the foot. Understanding the plantar pressure characteristics of different movements may be useful in optimizing footwear designs, orthosis use, or training strategies to minimize regional plantar loading during amateur basketball play.

Plantar Pressure Distribution Character of Diabetic Foot in Young Patients during Normal Gait

2011 ◽  
Vol 474-476 ◽  
pp. 1377-1379
Author(s):  
Ming Rong ◽  
Yao Dong Gu ◽  
Jian She Li
Keyword(s):  
Pressure Distribution ◽  
Diabetic Foot ◽  
Plantar Pressure ◽  
Young Patients ◽  
Control Group ◽  
The Novel ◽  
Time Integral ◽  
Normal Gait ◽  
Plantar Pressure Distribution ◽  
Pressure Time

This study aims to investigate and compare the influence of plantar loading variables during gait of patients with diabetic in young ages. Subjects were divided into the following two groups: diabetic foot, 56 subjects; control group, 52 subjects. Plantar pressure distribution was measured during barefoot gait using the Novel emed platform. Both midfoot and lateral forefoot regions’ peak pressure in the diabetic foot was higher than the normal foot. Also, diabetic foot group experienced significantly higher in pressure-time integral and contact time. Those variables provided an indication of plantar loading behavior over time, and other kinesiological factors like joint deformities and mobility can be investigated in further study.

Plantar Shear Stress Distribution in Patients with Rheumatoid Arthritis

2010 ◽  
Vol 100 (4) ◽  
pp. 265-269 ◽  
Author(s):  
Metin Yavuz ◽  
Elaine Husni ◽  
Georgeanne Botek ◽  
Brian L. Davis
Keyword(s):  
Rheumatoid Arthritis ◽  
Shear Stress ◽  
Plantar Pressure ◽  
Peak Pressure ◽  
Joint Inflammation ◽  
Shear Stresses ◽  
Vertical Loading ◽  
Time Integral ◽  
Pressure Profiles ◽  
Pressure Time

Background: Rheumatoid arthritis is an autoimmune disease that causes chronic, progressive joint inflammation; it commonly affects the joints of the feet. Biomechanical alterations and daily pain in the foot are the common outcomes of the disease. Earlier studies focusing on plantar pressure in such patients reported increased vertical loading along with peak pressure-pain associations. However, footwear designed according to the pressure profiles did not relieve symptoms effectively. We examined plantar shear and pressure distribution in patients with rheumatoid arthritis and compared the findings with those of controls, and we investigated a potential relationship between foot pain and local shear stresses. Methods: A custom-built platform was used to collect plantar pressure and shear stress data from nine patients with rheumatoid arthritis and 14 control participants. Seven patients reported the presence of pain under their feet. Pressure-time and shear-time integral values were also calculated. Results: Peak pressure, pressure-time integral, resultant shear-time integral, and mediolateral shear stress magnitudes were higher in the complication group (P < .05). An association between peak shear-time integral and maximum pain locations was observed. Conclusions: Increased mediolateral shear stresses under the rheumatoid foot might be attributable to gait instability in such patients. A correlation between the locations of maximum shear-time integral and pain indicate the clinical significance of plantar shear in patients with rheumatoid arthritis. (J Am Podiatr Med Assoc 100(4): 265–269, 2010)

Biomechanical Response to External Biofeedback During Functional Tasks in Individuals With Chronic Ankle Instability

2021 ◽  
Author(s):  
Danielle M. Torp ◽  
Abbey C. Thomas ◽  
Tricia Hubbard-Turner ◽  
Luke Donovan
Keyword(s):  
Real Time ◽  
Plantar Pressure ◽  
Ankle Instability ◽  
Static Balance ◽  
Eyes Closed ◽  
Visual Biofeedback ◽  
Time Integral ◽  
Pressure Time ◽  
Eyes Open ◽  
Functional Task

Context Altered biomechanics displayed by individuals with chronic ankle instability (CAI) is a possible cause of recurring injuries and posttraumatic osteoarthritis. Current interventions are unable to modify aberrant biomechanics, leading to research efforts to determine if real-time external biofeedback can result in changes. Objective To determine the real-time effects of visual and auditory biofeedback on functional-task biomechanics in individuals with CAI. Design Crossover study. Setting Laboratory. Patients or Other Participants Nineteen physically active adults with CAI (7 men, 12 women; age = 23.95 ± 5.52 years, height = 168.87 ± 6.94 cm, mass = 74.74 ± 15.41 kg). Intervention(s) Participants randomly performed single-limb static balance, step downs, lateral hops, and forward lunges during a baseline and 2 biofeedback conditions. Visual biofeedback was given through a crossline laser secured to the dorsum of the foot. Auditory biofeedback was given through a pressure sensor placed under the lateral foot and connected to a buzzer that elicited a noise when pressure exceeded the set threshold. Cues provided during the biofeedback conditions were used to promote proper biomechanics during each task. Main Outcome Measure(s) We measured the location of center-of-pressure (COP) data points during balance with eyes open and eyes closed for each condition. Plantar pressure in the lateral column of the foot during functional tasks was extracted. Secondary outcomes of interest were COP area and velocity, time to boundary during static balance, and additional plantar-pressure measures. Results Both biofeedback conditions reduced COP in the anterolateral quadrant while increasing COP in the posteromedial quadrant of the foot during eyes-open balance. Visual biofeedback increased lateral heel pressure and the lateral heel and midfoot pressure-time integral during hops. The auditory condition produced similar changes during the eyes-closed trials. Auditory biofeedback increased heel pressure during step downs and decreased the lateral forefoot pressure-time integral during lunges. Conclusions Real-time improvements in balance strategies were observed during both external biofeedback conditions. Visual and auditory biofeedback appeared to effectively moderate different functional-task biomechanics.

Effect of Orthotic Therapy on Claw Toe Loading

2004 ◽  
Vol 94 (3) ◽  
pp. 246-254 ◽  
Author(s):  
Penny J. Claisse ◽  
Jodi Binning ◽  
Julia Potter
Keyword(s):  
Pressure Measurement ◽  
Plantar Pressure ◽  
Metatarsal Head ◽  
Plantar Surface ◽  
Time Integral ◽  
Pressure Time ◽  
Second Metatarsal ◽  
Plantar Pressure Measurement ◽  
Access To Data ◽  
Toe Deformity

This study demonstrates the effect of orthotic therapy for toe deformity on toe and metatarsal head pressures using a new analysis method facilitated by an in-shoe pressure-measurement system’s ability to export detailed data. Plantar pressure–time integrals in 11 individuals (22 feet) with claw deformity of the lesser toes were measured with and without toe props. Differences in pressure–time integrals at every individual sensor unit were then calculated for the two conditions, and significance was tested using the paired t-test. Plantar surface charts with contours of equal significant pressure–time integral change showed significant reduction under 17 second toes (77%), 22 third toes (100%), 15 fourth toes (68%), 13 second metatarsal heads (59%), 16 third metatarsal heads (73%), and 16 fourth metatarsal heads (73%). All 22 feet showed increases under the prop in the area of the third toe sulcus. This innovative approach to plantar pressure analysis could improve access to data that show significant pressure–time integral changes and, therefore, could advance the clinical application of plantar pressure measurement. (J Am Podiatr Med Assoc 94(3): 246–254, 2004)

scholarly journals Association between the levels of physical activity and plantar pressure in 6-14-year-old children

PeerJ ◽  
2020 ◽  
Vol 8 ◽  
pp. e8551 ◽  
Author(s):  
Lovro Štefan ◽  
Mario Kasović ◽  
Martin Zvonar
Keyword(s):  
Physical Activity ◽  
Plantar Pressure ◽  
Contact Time ◽  
Cross Sectional Study ◽  
Linear Regression Models ◽  
Older Children ◽  
Cross Sectional ◽  
Time Integral ◽  
Pressure Time ◽  
The Right

Background The main purpose of the study was to determine whether lower levels of physical activity were associated with higher plantar pressure generated under each foot. Methods In this cross-sectional study, we recruited 641 children aged 6–14 years (agemean ± SD = 9.7  ± 2.4 years; heightmean ± SD = 143.6  ± 15.3 cm, weightmean ± SD = 37.6  ± 13.4 kg; body-mass indexmean ± SD = 17.6  ± 3.2 kg/m2; 44.2% girls). We used EMED –XL pressure platform to measure force time integral, pressure-time integral, contact-time and contact area, peak plantar pressure and mean plantar pressure of the right and the left foot during the gait analysis. The level of physical activity was measured by using The Physical Activity Questionnaire for Older Children (PAQ–C). The associations were calculated by using generalized estimating equations with linear regression models. Results Lower levels of physical activity were associated with higher force- and pressure-time integrals, longer contact time and higher peak and mean plantar pressures in both feet. Conclusion Our study shows that the level of physical activity is strongly and inversely associated with plantar pressure in a sample of 6–14 year olds.

scholarly journals The Difference of In-Shoe Plantar Pressure Between Level Walking and Stair Walking

2019 ◽  
Vol 4 (4) ◽  
pp. 2473011419S0026
Author(s):  
Min Gyu Kyung ◽  
Chungho Lee ◽  
Jae Hee Lee ◽  
Yoon Jae Cho ◽  
Cao Linying ◽  
...  
Keyword(s):  
High Pressure ◽  
Plantar Pressure ◽  
Pressure Load ◽  
Stair Ascent ◽  
Time Integral ◽  
Stair Descent ◽  
Level Walking ◽  
Pressure Time ◽  
Stair Walking ◽  
Peak Pressures

Category: Basic Sciences/Biologics Introduction/Purpose: Stair walking is one of common activities of daily living. It is more demanding than level walking and can aggravate discomfort of the foot, such as Morton’s neuroma, plantar fasciitis, Achilles tendinitis, pressure related-ulcer, and etc. Therefore, analysis of increased pressure in specific plantar area at stair walking can be used as a risk assessment of foot discomfort and basic data in the clinical field. The purpose of this study is to analyze plantar pressure distribution and pressure patterns during gait cycle at stair walking compared to level walking. Methods: Fourty healthy male adults were recruited. Radiologic measurements and gait analysis were performed to check participants’ normality, and 35 healthy males with 20-28 years old were included. They performed level walking (18 meters walkway), stair (26 steps stair, height:16.7 cm, depth:29.8 cm) ascending, and descending in same type of running shoes. Measurements of in-shoe plantar pressure including peak pressure, pressure-time integral (PTI) were done by Pedar-X system. Only measurements of right steps were used to exclude the effect of the dominant foot. The sole was masked in 7 segments (hallux, 2nd-5th toes, medial forefoot, central forefoot, lateral forefoot, midfoot, heel region) to analyze properly. Percentages were assigned in relation to the size for each mask segment. Statistical analysis was performed using repeated measure ANOVA, and Bonferroni post hoc test was done. Results: Mean peak pressures in all regions except for the midfoot were higher during level walking than stair walking. During stair descent, mean peak pressures in all the regions except for the midfoot were generally lower than other types of walking, but it was the highest in the midfoot region. Pressure time integral (PTI) in the medial and central forefoot was higher during stair descent than level walking. PTI in the central and lateral forefoot, and the midfoot was higher when stair ascending than level walking. Pressure time integral (PTI) in the heel region was the highest during level walking, followed by stair ascent, stair descent. Conclusion: The risk of aggravation of discomfort in the midfoot area increases when stair descending. The medial region of forefoot bear high pressure load during stair descent, and the lateral region of forefoot and the midfoot region bear high pressure load during stair ascent. This is the first study to show plantar pressure patterns during level and stair walking in the large healthy gender-controlled population. We recommend that patients with pressure related foot lesions in the forefoot or midfoot avoid stair walking.

Effectiveness of the Fixtoe Device® in Plantar Pressure Reduction: A Preliminary Study.

2021 ◽  
Author(s):  
Maria Ruiz-Ramos ◽  
Ángel Manuel Orejana-García ◽  
Ignacio Vives-Merino ◽  
Carmen Bravo-Llatas ◽  
José Luis Lázaro-Martínez ◽  
...  
Keyword(s):  
Plantar Pressure ◽  
Metatarsophalangeal Joint ◽  
Metatarsal Head ◽  
Clinical Results ◽  
Cross Sectional ◽  
Time Integral ◽  
Pressure Time ◽  
Second Metatarsal ◽  
Maximal Pressure ◽  
Taping Technique

Abstract Background: Metatarsalgia is a common foot condition. The metatarsophalangeal stabilizing taping technique described by Yu et al. has shown good clinical results as a provisional treatment in propulsive metatarsalgia. 35 The Fixtoe Device®, a novel orthopedic device, intends to simulate stabilizing tape. However, to date, there is no evidence of its effectiveness.Methods: The aim of this study was to assess plantar pressure changes using the Fixtoe Device®, in comparison with the traditional method (stabilizing tape) in a young, healthy sample thorough a cross-sectional study. Maximal pressure (Kpa) and pressure-time integral (Kpa/s) in the second metatarsal head were measured in twenty-four healthy volunteers. Registers were taken in four different conditions: barefoot, traditional stabilizing tape, Fixtoe Device® without metatarsal pad, and Fixtoe Device® with metatarsal pad. Results: Mean second metatarsal head maximal pressure and mean pressure-time integral showed statistical difference among the four analyzed conditions (p < 0.0001 in both cases). The improvement in maximal pressure and pressure-time integral obtained in each intervention also showed significance (p < 0.0001 in both cases). Comparing the improvement of the Fixtoe Device® with and without metatarsal pad with that of tape condition showed a moderate to high and moderate effect size for both peak pressure and pressure-time integral reduction.Conclusions: The Fixtoe Device® reduces median maximal pressure and median pressure-time integral under the second metatarsal head in healthy young individuals. The Fixtoe Device® shows higher effectiveness than the traditional second metatarsophalangeal joint stabilizing taping technique. To our knowledge, this is the first investigation proving the effectiveness of the recently developed Fixtoe Device® in terms of plantar pressure modification, which leads the way to its use in clinics.

The Effect of Terrain on Foot Pressures During Walking

2005 ◽  
Vol 26 (10) ◽  
pp. 859-869 ◽  
Author(s):  
Olfat Mohamed ◽  
Kay Cerny ◽  
Wendy Jones ◽  
Judy M. Burnfield
Keyword(s):  
Repeated Measures ◽  
Metatarsal Head ◽  
First Metatarsal ◽  
Plantar Pressures ◽  
Time Integral ◽  
Pressure Time ◽  
Alpha Level ◽  
Mean Pressure ◽  
Musculoskeletal Pathology ◽  
Post Hoc

Background: High plantar pressures are associated with the development of foot ulcers in people with diabetic neuropathy. The effect of terrain on plantar pressures during walking has not been fully explored. Methods: Twenty 23- to 40-year-old subjects with no known musculoskeletal pathology walked across three terrains: padded carpet (R), grass (G), and concrete (C) while wearing Novel Pedar (Novel Electronics Inc. GMBH, Munich, Germany) insoles with and without shoes. Pressures were collected at 50 Hz. The sole of the foot was divided into: heel (H), lateral midfoot (LM), medial midfoot (MM), big toe and first metatarsal head (BT), and lateral toes and metatarsal heads (LT). Repeated measures ANOVA identified differences in pressures, forces, and contact areas across terrains. Post hoc Bonferroni adjustments were used to accept an overall alpha level of 0.05. Results: Peak pressure (PP), maximal mean pressure (MMP) and pressure time integral (PTI) were significantly higher ( p < 0.01) when walking barefoot on concrete than on grass or carpet for all foot regions except MM and LM. The percent increase in the three pressure variables ranged from 21% to 43%. Grass and carpet PP, MMP, and PTI were similar for the BT and LT. Wearing shoes significantly increased contact area and decreased all pressure variables on all three terrains. Conclusion: Walking barefoot, especially on concrete was associated with higher plantar pressure variables. Wearing shoes eliminated terrain differences in pressure except under the lesser toes. Persons with insensate feet should avoid walking barefoot on hard surfaces to avoid excessive plantar pressures. Wearing shoes and covering hard floors with nonslip, padded rugs may decrease plantar pressures and the risk of ulceration.

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