| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/0021-9290(80)90033-0 |
| P698 | PubMed publication ID | 7400169 |
| P2093 | author name string | P R Cavanagh | |
| M A Lafortune | |||
| P433 | issue | 5 | |
| P304 | page(s) | 397-406 | |
| P577 | publication date | 1980-01-01 | |
| P1433 | published in | Journal of Biomechanics | Q4862281 |
| P1476 | title | Ground reaction forces in distance running | |
| P478 | volume | 13 |
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| Q50074825 | A comparison of ground reaction force components according to the foothold heights in 16-t truck during downward step |
| Q61649798 | A comparison of overground and treadmill running for measuring the three-dimensional kinematics of the lumbo–pelvic–hip complex |
| Q35754042 | A kinematic method for footstrike pattern detection in barefoot and shod runners |
| Q40780509 | A mechanical model to determine the influence of masses and mass distribution on the impact force during running |
| Q38786702 | A public dataset of running biomechanics and the effects of running speed on lower extremity kinematics and kinetics. |
| Q36950947 | ACCURACY OF SELF-REPORTED FOOT STRIKE PATTERN IN INTERCOLLEGIATE AND RECREATIONAL RUNNERS DURING SHOD RUNNING. |
| Q53400895 | Accelerometer-based prediction of running injury in National Collegiate Athletic Association track athletes. |
| Q34980500 | Achilles tendon strain energy in distance running: consider the muscle energy cost |
| Q73083582 | Adaptation of the human calcaneus to variations of impact forces during running |
| Q100533825 | Adding carbon fiber to shoe soles may not improve running economy: a muscle-level explanation |
| Q69212139 | An analysis of splits leaps and gymnastic skill by physiological recordings |
| Q35736873 | Ankle pain and peroneal tendon pathology |
| Q49821791 | Assessing Infant Carriage Systems: Ground Reaction Force Implications for Gait of the Caregiver |
| Q34095839 | Athletic footwear: design, performance and selection issues |
| Q91710676 | BENEFITS AND USE OF AQUATIC THERAPY DURING REHABILITATION AFTER ACL RECONSTRUCTION -A CLINICAL COMMENTARY |
| Q37080986 | Bilateral ground reaction forces and joint moments for lateral sidestepping and crossover stepping tasks |
| Q36882434 | Biomechanical Factors Associated with Injury During Landing in Jump Sports |
| Q28139332 | Biomechanical analysis of the effect of orthotic shoe inserts: a review of the literature |
| Q37951197 | Biomechanical factors affecting performance in netball. Implications for improving performance and injury reduction |
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| Q69823770 | Biomechanics, load analysis and sports injuries in the lower extremities |
| Q47440637 | Bone shaft bending strength index is unaffected by exercise and unloading in mice |
| Q41756266 | CAN RUNNERS PERCEIVE CHANGES IN HEEL CUSHIONING AS THE SHOE AGES WITH INCREASED MILEAGE? |
| Q31121824 | Calculation of vertical ground reaction force estimates during running from positional data |
| Q58796123 | Changes in Achilles tendon stiffness and energy cost following a prolonged run in trained distance runners |
| Q41082955 | Common injuries in runners. Diagnosis, rehabilitation and prevention |
| Q28730426 | Comparative triceps surae morphology in primates: a review |
| Q37081462 | Comparison of Plantar Pressure Distribution between Different Speed and Incline During Treadmill Jogging |
| Q35699430 | Comparison of lower extremity kinematic curves during overground and treadmill running |
| Q35699414 | Comparison of methods for kinematic identification of footstrike and toe-off during overground and treadmill running |
| Q36269880 | Comparison of muscle synergies for running between different foot strike patterns |
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| Q42554176 | Differences in muscle activity between natural forefoot and rearfoot strikers during running |
| Q89967510 | Drift-Free Foot Orientation Estimation in Running Using Wearable IMU |
| Q40471291 | Dynamic Foot Biomechanics |
| Q46725042 | EFFECT OF HEEL LIFTS ON PATELLOFEMORAL JOINT STRESS DURING RUNNING. |
| Q71219652 | Effect of corrective rearfoot orthotic devices on ground reaction forces during ambulation |
| Q27318850 | Effect of running speed and leg prostheses on mediolateral foot placement and its variability |
| Q87974362 | Effectiveness of various isometric exercises at improving bone strength in cortical regions prone to distal tibial stress fractures |
| Q92001744 | Effects of anti-pronation shoes on lower limb kinematics and kinetics in female runners with pronated feet: The role of physical fatigue |
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| Q52603650 | Estimation of Vertical Ground Reaction Forces and Sagittal Knee Kinematics During Running Using Three Inertial Sensors. |
| Q35131703 | Fall-related upper body injuries in the older adult: a review of the biomechanical issues |
| Q37144106 | Foot and lower limb diseases in runners: assessment of risk factors |
| Q40746334 | Foot biomechanics during walking and running |
| Q36710002 | Foot-strike pattern and performance in a marathon. |
| Q41545268 | Footwear and stress fractures |
| Q73154437 | Force and repetition in cycling: possible implications for iliotibial band friction syndrome |
| Q69640112 | Force-, EMG-, and elasticity-velocity relationships at submaximal, maximal and supramaximal running speeds in sprinters |
| Q33776654 | Generation and attenuation of transient impulsive forces beneath the foot: a review |
| Q28652061 | Gracility of the modern Homo sapiens skeleton is the result of decreased biomechanical loading |
| Q37081531 | Ground reaction force differences between running shoes, racing flats, and distance spikes in runners |
| Q33734165 | Ground reaction force estimates from ActiGraph GT3X+ hip accelerations |
| Q55010119 | Heel-toe running: A new look at the influence of foot strike pattern on impact force. |
| Q36798402 | How do low horizontal forces produce disproportionately high torques in human locomotion? |
| Q36242293 | Impact forces of plyometric exercises performed on land and in water |
| Q35081664 | Impact of Center-of-Mass Acceleration on the Performance of Ultramarathon Runners |
| Q43637509 | Impact reduction during running: efficiency of simple acute interventions in recreational runners. |
| Q58800021 | Indirect Measurement of Ground Reaction Forces and Moments by Means of Wearable Inertial Sensors: A Systematic Review |
| Q35935506 | Influence of Obesity on Foot Loading Characteristics in Gait for Children Aged 1 to 12 Years |
| Q47212579 | Intralimb coordination following obstacle clearance during running: the effect of obstacle height |
| Q92534300 | Is changing footstrike pattern beneficial to runners? |
| Q47401633 | Is the Mechanical Fatigue of Bone Influenced More by the Impact or Active Phase of Running? |
| Q34019118 | Knee stability assessment on anterior cruciate ligament injury: Clinical and biomechanical approaches. |
| Q36148212 | Lower extremity kinematics in running athletes with and without a history of medial shin pain |
| Q33783534 | Measurement agreement between a newly developed sensing insole and traditional laboratory-based method for footstrike pattern detection in runners |
| Q77315224 | Measuring changes in step parameters during an exhausting running exercise |
| Q88430386 | Midtarsal locking, the windlass mechanism, and running strike pattern: A kinematic and kinetic assessment |
| Q58699015 | Modular Control of Human Movement During Running: An Open Access Data Set |
| Q30485864 | Muscle contributions to fore-aft and vertical body mass center accelerations over a range of running speeds |
| Q30497259 | Muscle contributions to propulsion and support during running |
| Q37354112 | Natural turf surfaces: the case for continued research. |
| Q36698076 | Older Runners Retain Youthful Running Economy despite Biomechanical Differences. |
| Q40071362 | Pattern of outsole shoe heel wear in infantry recruits |
| Q36247308 | Physical activity in the prevention and amelioration of osteoporosis in women : interaction of mechanical, hormonal and dietary factors |
| Q83242308 | Physiological consequences of military high-speed boat transits |
| Q42763634 | Plantar Pressures During Long Distance Running: An Investigation of 10 Marathon Runners |
| Q97421068 | Plantar load characteristics among runners with different strike patterns during preferred speed |
| Q50987846 | Predicting Functional Independence Measure Scores During Rehabilitation with Wearable Inertial Sensors. |
| Q35989006 | Protocol for evaluating the effects of a therapeutic foot exercise program on injury incidence, foot functionality and biomechanics in long-distance runners: a randomized controlled trial. |
| Q92855968 | Recognition of Foot Strike Pattern in Asian Recreational Runners |
| Q34544443 | Redistribution of Mechanical Work at the Knee and Ankle Joints During Fast Running in Minimalist Shoes. |
| Q36189495 | Region-of-interest analyses of one-dimensional biomechanical trajectories: bridging 0D and 1D theory, augmenting statistical power |
| Q36767727 | Regional bone mineral density in male athletes: a comparison of soccer players, runners and controls |
| Q33735156 | Risk factors for stress fractures. |
| Q41683339 | Runners adjust leg stiffness for their first step on a new running surface |
| Q39424480 | Running Economy from a Muscle Energetics Perspective. |
| Q36138210 | Running Speed Can Be Predicted from Foot Contact Time during Outdoor over Ground Running |
| Q41545262 | Running biomechanics |
| Q55067685 | Running in the real world: adjusting leg stiffness for different surfaces. |
| Q39808318 | Running shoes, orthotics, and injuries |
| Q37942877 | Running shoes. Their relationship to running injuries |
| Q86267348 | Shoe drop has opposite influence on running pattern when running overground or on a treadmill |
| Q42427852 | Shoes alter the spring-like function of the human foot during running. |
| Q90356894 | Step time asymmetry increases metabolic energy expenditure during running |
| Q30452790 | Subtalar Pronation Does Not Influence Impact Forces or Rate of Loading During a Single-Leg Landing. |
| Q89388762 | The Effect of a Curved Non-Motorized Treadmill on Running Gait Length, Imbalance and Stride Angle |
| Q27301561 | The Foot's Arch and the Energetics of Human Locomotion. |
| Q47111213 | The Influence of Footwear on the Modular Organization of Running |
| Q36933593 | The Influence of a Bout of Exertion on Novice Barefoot Running Dynamics |
| Q35982159 | The Role of Arch Compression and Metatarsophalangeal Joint Dynamics in Modulating Plantar Fascia Strain in Running |
| Q33592196 | The biomechanics of running. |
| Q48380422 | The distal hindlimb musculature of the cat: interanimal variability of locomotor activity and cutaneous reflexes. |
| Q52236574 | The dynamic loading response of surfaces encountered in beach running. |
| Q52207891 | The effect of muscle stiffness and damping on simulated impact force peaks during running. |
| Q60300653 | The feasibility of predicting ground reaction forces during running from a trunk accelerometry driven mass-spring-damper model |
| Q39604314 | The influence of playing surfaces on the load on the locomotor system and on football and tennis injuries |
| Q57945109 | The influence of simulated wear upon the ability of insoles to reduce peak pressures during running when wearing military boots |
| Q53072239 | The influence of speed and size on avian terrestrial locomotor biomechanics: Predicting locomotion in extinct theropod dinosaurs. |
| Q41790583 | The mechanical properties of the human subcalcaneal fat pad in compression |
| Q28305050 | The spring in the arch of the human foot |
| Q36794595 | Three-dimensional acceleration of the tibia during walking and running |
| Q61649795 | Three-dimensional angular kinematics of the lumbar spine and pelvis during running |
| Q57826888 | Three-dimensional impact kinetics with foot-strike manipulations during running |
| Q91651981 | Twelve-Week Gait Retraining Reduced Patellofemoral Joint Stress during Running in Male Recreational Runners |
| Q92290101 | Using A Soft Conformable Foot Sensor to Measure Changes in Foot Strike Angle During Running |
| Q28740809 | When hatchlings outperform adults: locomotor development in Australian brush turkeys (Alectura lathami, Galliformes) |
| Q57937864 | Why forefoot striking in minimal shoes might positively change the course of running injuries |
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