Dynamic plantar pressure analysis. Comparing common insole materials

1992 ◽  
Vol 82 (10) ◽  
pp. 507-513 ◽  
Author(s):  
PB Sanfilippo ◽  
RM Stess ◽  
KM Moss
Keyword(s):  
Plantar Pressure ◽  
Human Subjects ◽  
Force Plate ◽  
Vertical Force ◽  
Time Integral ◽  
Pressure Time ◽  
Peak Plantar Pressure ◽  
Force Time ◽  
Dynamic Measures ◽  
Force Time Integral

A comparison of five commonly used insole materials (Spenco, PPT, Plastazote, Nickelplast, and Pelite) was made to evaluate their effectiveness in reducing plantar vertical pressures on human subjects during walking. With the use of the EMED-SF pedograph force plate system, dynamic measures of vertical force, force-time integral, peak plantar pressure, pressure-time integral, and area of foot-to-ground contact were compared with the force plate covered with each of the insole materials and without any interface material.

THE EFFECTS OF CHANGES IN STEP WIDTH ON PLANTAR FOOT PRESSURE PATTERNS OF YOUNG FEMALE SUBJECTS DURING WALKING

2011 ◽  
Vol 11 (05) ◽  
pp. 1071-1083 ◽  
Author(s):  
SU-YA LEE ◽  
CHEN-YU CHOU ◽  
YI-YOU HOU ◽  
YU-LIN WANG ◽  
CHICH-HAUNG YANG ◽  
...  
Keyword(s):  
Ground Reaction Force ◽  
Plantar Pressure ◽  
Reaction Force ◽  
Lateral Side ◽  
Step Width ◽  
Foot Pressure ◽  
Time Integral ◽  
Pressure Time ◽  
Force Time ◽  
Force Time Integral

The aim of this study was to investigate the foot plantar pressure distribution and the effect of different step width during walking. Methods: Nineteen female volunteers who aged 18~30 years old and with no history of lower extremity injury were considered. Subjects walked at a pre-determined set speed with varied step width (5 cm, 10 cm, and 20 cm) for three trials at each step width. This study used an in-sole plantar pressure measurement system to collect the peak pressure, maximum ground reaction force, pressure–time integral, and force–time integral data of eight different foot regions. Results: The data revealed that the peak plantar foot pressure on the medial arch increased with wider step width (p < 0.05). In contrast, maximum ground reaction force, peak plantar pressure, pressure–time integral, and force–time integral on the lateral arch and lateral side of the metatarsals decreased with wider step width (p < 0.05). Conclusion: The results of this study revealed that smaller step width during walking result in decreasing the pressure on the medial arch of the foot. It may have the relieving effect for clients with pes planus and it can be a reference for rehabilitation clinicians while treating the above-mentioned subjects.

Effect of insole material on force and plantar pressures during walking

1992 ◽  
Vol 82 (8) ◽  
pp. 412-416 ◽  
Author(s):  
TG McPoil ◽  
MW Cornwall
Keyword(s):  
Plantar Pressure ◽  
Vertical Force ◽  
Pressure Data ◽  
Plantar Pressures ◽  
Time Integral ◽  
Force Time ◽  
Force Time Integral

Twelve subjects between the ages of 24 and 35 years walked barefoot over a pressure platform with the following insole materials placed directly on top of the platform: 1) PPT, 2) Spenco, and 3) Viscolas. Maximum vertical force, vertical force-time integral as well as maximum plantar pressure data were collected for the rearfoot, midfoot, and forefoot regions. The results were not significant for maximum vertical force and vertical force-time integral among the three insole materials when compared to barefoot-only walking. There was, however, a significant reduction in forefoot maximum plantar pressure among the three materials compared to barefoot-only walking. In the rearfoot region, a reduction in maximum plantar pressure was seen only with PPT and Spenco.

scholarly journals Lower limb kinetic comparisons between the chasse step and one step footwork during stroke play in table tennis

PeerJ ◽  
2021 ◽  
Vol 9 ◽  
pp. e12481
Author(s):  
Yuqi He ◽  
Dong Sun ◽  
Xiaoyi Yang ◽  
Gusztáv Fekete ◽  
Julien S. Baker ◽  
...  
Keyword(s):  
Lower Limb ◽  
Peak Pressure ◽  
Table Tennis ◽  
Time Integral ◽  
Pressure Time ◽  
One Step ◽  
Force Time ◽  
The One ◽  
Plantar Force ◽  
Force Time Integral

Background Biomechanical footwork research during table tennis performance has been the subject of much interest players and exercise scientists. The purpose of this study was to investigate the lower limb kinetic characteristics of the chasse step and one step footwork during stroke play using traditional discrete analysis and one-dimensional statistical parameter mapping. Methods Twelve national level 1 table tennis players (Height: 172 ± 3.80 cm, Weight: 69 ± 6.22 kg, Age: 22 ± 1.66 years, Experience: 11 ± 1.71 year) from Ningbo University volunteered to participate in the study. The kinetic data of the dominant leg during the chasse step and one step backward phase (BP) and forward phase (FP) was recorded by instrumented insole systems and a force platform. Paired sample T tests were used to analyze maximum plantar force, peak pressure of each plantar region, the force time integral and the pressure time integral. For SPM analysis, the plantar force time series curves were marked as a 100% process. A paired-samples T-test in MATLAB was used to analyze differences in plantar force. Results One step produced a greater plantar force than the chasse step during 6.92–11.22% BP (P = 0.039). The chasse step produced a greater plantar force than one step during 53.47–99.01% BP (P < 0.001). During the FP, the chasse step showed a greater plantar force than the one step in 21.06–84.06% (P < 0.001). The one step produced a higher maximum plantar force in the BP (P = 0.032) and a lower maximum plantar force in the FP (P = 0) compared with the chasse step. The one step produced greater peak pressure in the medial rearfoot (P = 0) , lateral rearfoot (P = 0) and lateral forefoot (P = 0.042) regions than the chasse step during BP. In FP, the chasse step showed a greater peak pressure in the Toe (P = 0) than the one step. The one step had a lower force time integral (P = 0) and greater pressure time integral (P = 0) than the chasse step in BP, and the chasse step produced a greater force time integral (P = 0) and pressure time integral (P = 0.001) than the one step in the FP. Conclusion The findings indicate that athletes can enhance plantarflexion function resulting in greater weight transfer, facilitating a greater momentum during the 21.06–84.06% of FP. This is in addition to reducing the load on the dominant leg during landing by utilizing a buffering strategy. Further to this, consideration is needed to enhance the cushioning capacity of the sole heel and the stiffness of the toe area.

Increased In-Shoe Lateral Plantar Pressures with Chronic Ankle Instability

2011 ◽  
Vol 32 (11) ◽  
pp. 1075-1080 ◽  
Author(s):  
Heather Schmidt ◽  
Lindsay D. Sauer ◽  
Sae Yong Lee ◽  
Susan Saliba ◽  
Jay Hertel
Keyword(s):  
Plantar Pressure ◽  
Peak Pressure ◽  
Ankle Instability ◽  
Chronic Ankle Instability ◽  
Maximum Force ◽  
Pressure System ◽  
Time To Peak ◽  
Time Integral ◽  
Pressure Time ◽  
Force Time

Background: Previous plantar pressure research found increased loads and slower loading response on the lateral aspect of the foot during gait with chronic ankle instability compared to healthy controls. The studies had subjects walking barefoot over a pressure mat and results have not been confirmed with an in-shoe plantar pressure system. Our purpose was to report in-shoe plantar pressure measures for chronic ankle instability subjects compared to healthy controls. Methods: Forty-nine subjects volunteered (25 healthy controls, 24 chronic ankle instability) for this case-control study. Subjects jogged continuously on a treadmill at 2.68 m/s (6.0 mph) while three trials of ten consecutive steps were recorded. Peak pressure, time-to-peak pressure, pressure-time integral, maximum force, time-to-maximum force, and force-time integral were assessed in nine regions of the foot with the Pedar-x in-shoe plantar pressure system (Novel, Munich, Germany). Results: Chronic ankle instability subjects demonstrated a slower loading response in the lateral rearfoot indicated by a longer time-to-peak pressure (16.5% ± 10.1, p = 0.001) and time-to-maximum force (16.8% ± 11.3, p = 0.001) compared to controls (6.5% ± 3.7 and 6.6% ± 5.5, respectively). In the lateral midfoot, ankle instability subjects demonstrated significantly greater maximum force (318.8 N ± 174.5, p = 0.008) and peak pressure (211.4 kPa ± 57.7, p = 0.008) compared to controls (191.6 N ± 74.5 and 161.3 kPa ± 54.7). Additionally, ankle instability subjects demonstrated significantly higher force-time integral (44.1 N/s ± 27.3, p = 0.005) and pressure-time integral (35.0 kPa/s ± 12.0, p = 0.005) compared to controls (23.3 N/s ± 10.9 and 24.5 kPa/s ± 9.5). In the lateral forefoot, ankle instability subjects demonstrated significantly greater maximum force (239.9N ± 81.2, p = 0.004), force-time integral (37.0 N/s ± 14.9, p = 0.003), and time-to-peak pressure (51.1% ± 10.9, p = 0.007) compared to controls (170.6 N ± 49.3, 24.3 N/s ± 7.2 and 43.8% ± 4.3). Conclusion: Using an in-shoe plantar pressure system, chronic ankle instability subjects had greater plantar pressures and forces in the lateral foot compared to controls during jogging. Clinical Relevance: These findings may have implications in the etiology and treatment of chronic ankle instability. Level of Evidence: III, Retrospective Case Control Study

Plantar Loading Asymmetry in American Indians with Diabetes and Peripheral Neuropathy, with Diabetes Only, and Without Diabetes

2013 ◽  
Vol 103 (2) ◽  
pp. 106-112 ◽  
Author(s):  
Thomas W. Kernozek ◽  
John F. Greany ◽  
Cassandra Heizler
Keyword(s):  
Peripheral Neuropathy ◽  
American Indians ◽  
Plantar Pressure ◽  
Control Group ◽  
Convenience Sample ◽  
Significant Peak ◽  
The Third ◽  
Time Integral ◽  
Pressure Time ◽  
Peak Plantar Pressure

Background: We investigated plantar loading asymmetry during gait in American Indians with and without diabetes and with diabetes and peripheral neuropathy. Methods: A convenience sample of 96 American Indians with and without diabetes was divided into three groups: 20 with diabetes and peripheral neuropathy, 16 with diabetes without peripheral neuropathy, and 60 with no history of diabetes (control group). Plantar loading was measured during barefoot walking across a pressure platform. Five trials were collected per foot during level walking at a self-selected speed using the two-step method. Asymmetry in peak pressure-time integral and peak plantar pressure were calculated from ten plantar regions and compared among groups. Results: Significant pressure-time integral asymmetry occurred across the forefoot regions in American Indians with diabetes and peripheral neuropathy compared with the other two groups. Significant peak plantar pressure asymmetry occurred in the third metatarsal region in both groups with diabetes (with and without peripheral neuropathy) compared with the control group. Conclusions: Overall, American Indians with diabetes seemed to show greater asymmetry in plantar loading variables across the forefoot region compared with those in the control group. Specifically, individuals with diabetes and peripheral neuropathy had the greatest amount of forefoot pressure-time integral asymmetry. Significant peak plantar pressure asymmetry occurred in the third metatarsal region of the forefoot in those with diabetes with and without peripheral neuropathy. Loading asymmetry may play a role in the development of foot ulcers in the forefoot region of American Indians with peripheral neuropathy and diabetes. (J Am Podiatr Med Assoc 103(2): 106–112, 2013)

scholarly journals Rehabilitation After Hallux Valgus Surgery: Importance of Physical Therapy to Restore Weight Bearing of the First Ray During the Stance Phase

2009 ◽  
Vol 89 (9) ◽  
pp. 934-945 ◽  
Author(s):  
Reinhard Schuh ◽  
Stefan G. Hofstaetter ◽  
Samuel B. Adams ◽  
Florian Pichler ◽  
Karl-Heinz Kristen ◽  
...  
Keyword(s):  
Hallux Valgus ◽  
Plantar Pressure ◽  
Weight Bearing ◽  
Metatarsophalangeal Joint ◽  
Rehabilitation Program ◽  
First Metatarsophalangeal Joint ◽  
Time Integral ◽  
First Ray ◽  
Force Time ◽  
Force Time Integral

Background Operative treatment of people with hallux valgus can yield favorable clinical and radiographic results. However, plantar pressure analysis has demonstrated that physiologic gait patterns are not restored after hallux valgus surgery. Objective The purpose of this study was to illustrate the changes of plantar pressure distribution during the stance phase of gait in patients who underwent hallux valgus surgery and received a multimodal rehabilitation program. Design This was a prospective descriptive study. Methods Thirty patients who underwent Austin (n=20) and scarf (n=10) osteotomy for correction of mild to moderate hallux valgus deformity were included in this study. Four weeks postoperatively they received a multimodal rehabilitation program once per week for 4 to 6 weeks. Plantar pressure analysis was performed preoperatively and 4 weeks, 8 weeks, and 6 months postoperatively. In addition, range of motion of the first metatarsophalangeal joint was measured, and the American Orthopaedic Foot and Ankle Society (AOFAS) forefoot questionnaire was administered preoperatively and at 6 months after surgery. Results The mean AOFAS score significantly increased from 60.7 points (SD=11.9) preoperatively to 94.5 points (SD=4.5) 6 months after surgery. First metatarsophalangeal joint range of motion increased at 6 months postoperatively, with a significant increase in isolated dorsiflexion. In the first metatarsal head region, maximum force increased from 117.8 N to 126.4 N and the force-time integral increased from 37.9 N·s to 55.6 N·s between the preoperative and 6-month assessments. In the great toe region, maximum force increased from 66.1 N to 87.2 N and the force-time integral increased from 18.7 N·s to 24.2 N·s between the preoperative and 6-month assessments. Limitations A limitation of the study was the absence of a control group due to the descriptive nature of the study. Conclusions The results suggest that postoperative physical therapy and gait training may lead to improved function and weight bearing of the first ray after hallux valgus surgery.

scholarly journals Force-time integral decreases with ejection despite constant oxygen consumption and pressure-volume area in dog left ventricle.

1987 ◽  
Vol 60 (6) ◽  
pp. 797-803 ◽  
Author(s):  
H Suga ◽  
Y Goto ◽  
T Nozawa ◽  
Y Yasumura ◽  
S Futaki ◽  
...  
Keyword(s):  
Oxygen Consumption ◽  
Left Ventricle ◽  
Time Integral ◽  
Force Time ◽  
Force Time Integral

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.

The Effect of Muscle Lentgh on Force-Time Integral in Relation to Energy-Rich Phosphate Consumption

1985 ◽  
pp. 605-610 ◽  
Author(s):  
A. De Haan ◽  
J. E. Van Doorn ◽  
P. A. Huijing ◽  
R. D. Woittiez ◽  
H. G. Westra
Keyword(s):  
Time Integral ◽  
Force Time ◽  
Force Time Integral

scholarly journals Effect of Mini-invasive Floating Metatarsal Osteotomy on Plantar Pressure in Patients With Diabetic Plantar Metatarsal Head Ulcers

2020 ◽  
pp. 107110072097609
Author(s):  
Eran Tamir ◽  
Michael Tamar ◽  
Moshe Ayalon ◽  
Shlomit Koren ◽  
Noam Shohat ◽  
...  
Keyword(s):  
Minimally Invasive ◽  
Plantar Pressure ◽  
Case Series ◽  
Metatarsal Head ◽  
Metatarsal Osteotomy ◽  
Retrospective Case ◽  
Level Of Evidence ◽  
Retrospective Case Series ◽  
Pressure Time ◽  
Peak Plantar Pressure

Background: Distal metatarsal osteotomy has been used to alleviate plantar pressure caused by anatomic deformities. This study’s purpose was to examine the effect of minimally invasive floating metatarsal osteotomy on plantar pressure in patients with diabetic metatarsal head ulcers. Methods: We performed a retrospective case series of prospectively collected data on 32 patients with diabetes complicated by plantar metatarsal head ulcers without ischemia. Peak plantar pressure and pressure time integrals were examined using the Tekscan MatScan prior to surgery and 6 months following minimally invasive floating metatarsal osteotomy. Patients were followed for complications for at least 1 year. Results: Peak plantar pressure at the level of the osteotomized metatarsal head decreased from 338.1 to 225.4 kPa ( P < .0001). The pressure time integral decreased from 82.4 to 65.0 kPa·s ( P < .0001). All ulcers healed within a mean of 3.7 ± 4.2 weeks. There was 1 recurrence (under a hypertrophic callus of the osteotomy) during a median follow-up of 18.3 months (range, 12.2-27). Following surgery, adjacent sites showed increased plantar pressure and 4 patients developed transfer lesions (under an adjacent metatarsal head); all were managed successfully. There was 1 serious adverse event related to surgery (operative site infection) that resolved with antibiotics. Conclusion: This study showed that the minimally invasive floating metatarsal osteotomy successfully reduced local plantar pressure and that the method was safe and effective, both in treatment and prevention of recurrence. Level of Evidence: Level III, retrospective case series of prospectively collected data.

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