about
Effects of lumbar extensor fatigue and fatigue rate on postural swayNeural control of posture during small magnitude perturbations: effects of aging and localized muscle fatigueDisturbance and recovery of trunk mechanical and neuromuscular behaviours following prolonged trunk flexion: influences of duration and external load on creep-induced effectsEstimation of trunk mechanical properties using system identification: effects of experimental setup and modelling assumptionsTemporal changes in the required shoe-floor friction when walking following an induced slipAge differences in the required coefficient of friction during level walking do not exist when experimentally-controlling speed and step lengthEfficacy of three interventions at mitigating the adverse effects of muscle fatigue on postural controlLumbar extensor fatigue and circumferential ankle pressure impair ankle joint motion senseInfluence of fatigue time and level on increases in postural swayDisturbance and recovery of trunk mechanical and neuromuscular behaviors following repeated static trunk flexion: influences of duration and duty cycle on creep-induced effectsAge and gender moderate the effects of localized muscle fatigue on lower extremity joint torques used during quiet stancePostural sway and joint kinematics during quiet standing are affected by lumbar extensor fatigueDisturbance and recovery of trunk mechanical and neuromuscular behaviours following repetitive lifting: influences of flexion angle and lift rate on creep-induced effectsLoad-relaxation properties of the human trunk in response to prolonged flexion: measuring and modeling the effect of flexion angleImpaired plantar sensitivity among the obese is associated with increased postural swayDisturbance and recovery of trunk stiffness and reflexive muscle responses following prolonged trunk flexion: influences of flexion angle and durationPostural strategy changes with fatigue of the lumbar extensor musclesPracticing recovery from a simulated trip improves recovery kinematics after an actual tripReliability of COP-based postural sway measures and age-related differencesEffects of localized muscle fatigue on recovery from a postural perturbation without steppingModel-based assessments of the effects of age and ankle fatigue on the control of upright posture in humansMaximum voluntary joint torque as a function of joint angle and angular velocity: model development and application to the lower limbA balance control model of quiet upright stance based on an optimal control strategyDirect parameterization of postural stability during quiet upright stance: effects of age and altered sensory conditionsSoft tissue wobbling affects trunk dynamic response in sudden perturbationsWithin- and between-day reliability of trunk mechanical behaviors estimated using position-controlled perturbationsEffects of exercise-induced low back pain on intrinsic trunk stiffness and paraspinal muscle reflexesEvidence for an exposure-response relationship between trunk flexion and impairments in trunk postural controlA bootstrapping method to assess the influence of age, obesity, gender, and gait speed on probability of tripping as a function of obstacle heightEstimations of relative effort during sit-to-stand increase when accounting for variations in maximum voluntary torque with joint angle and angular velocityThe spectral content of postural sway during quiet stance: influences of age, vision and somatosensory inputsA new method for gravity correction of dynamometer data and determining passive elastic moments at the jointHealthy older adults have insufficient hip range of motion and plantar flexor strength to walk like healthy young adultsTripping Elicits Earlier and Larger Deviations in Linear Head Acceleration Compared to SlippingFalls resulting from a laboratory-induced slip occur at a higher rate among individuals who are obeseRelative Strength at the Hip, Knee, and Ankle Is Lower Among Younger and Older Females Who Are Obese.Females exhibit shorter paraspinal reflex latencies than males in response to sudden trunk flexion perturbations.A preliminary flow visualization study in a multiple disk centrifugal artificial ventricle.Changes in body segment inertial parameters of obese individuals with weight loss.Effects of age-related differences in femoral loading and bone mineral density on strains in the proximal femur during controlled walking.
P50
Q22337396-E774B521-619C-4F58-B504-2D4D7359B9DEQ23910264-173B397E-9C0A-45D6-9408-6244907218BCQ23910285-2C4FBCCE-9C1D-4838-A24E-5E6D11E947A1Q23910286-E0E508C6-F078-401B-B9E6-B6F9EF37720CQ23911608-0D763538-E038-497D-BAB7-1C2063AABAFDQ23912033-75103B42-5B0B-4E18-8217-87E2EDFD4AFCQ23912136-A2B44587-D010-4E27-AF53-0FEA1F4BF4A8Q23916215-AD9F62DA-BC9F-4844-AD3E-4C72D12BCEFDQ23916216-A0ABE4A2-C0C4-408A-98D4-A83D961983B8Q23916233-0C6418A5-BFED-4BDE-A69C-FA18AE3A5EA8Q23916686-40A4B1CA-A11B-487F-96DB-72D8AF371B3CQ23918321-09AE1532-9DD9-4C9F-BD36-AA2C916DAAA2Q23918898-078EAA70-CA1E-4D4D-8655-0A026C511C99Q23918900-94E195E5-7391-4FA8-8B49-0D3791424FF2Q23923966-380EA59A-2524-4C05-84BA-2A3753F8B65DQ24169883-5E14C223-5995-4ABC-A45B-4A5C57C9459FQ24169908-3FF1C561-877E-485C-8A3B-0F0BF06A6721Q24169913-B3131C1D-C7C1-4661-AA6E-8A1D6E19DFBBQ24169916-D32887C0-5CCB-42FD-9C35-9B5ABC0ECB58Q24169919-7126D6C1-29AE-4E15-BF43-BF1346B92B06Q24169922-D50272A2-BBD9-4675-8E03-C9E77A27D924Q24170020-F1E504E6-62ED-402A-A77A-D19E26B3C0B0Q24170021-3688A923-1675-4E98-AFB8-33C5E3886FE0Q24170022-8BAA4A11-DA3F-4640-BD62-1F0041711122Q24170036-BC478485-7231-4432-98A0-A40C62751956Q24170040-CFDD87E7-0780-4DF0-96D9-6C4D45C6D984Q24170043-35CE6B70-09DF-4441-8F98-CCAED8FF7FDAQ24170044-193D8DB2-512B-4340-9D0C-ECBA0DCFE089Q24170053-11DE1F40-51E4-4C97-83C8-7B70DBBBE3EDQ24170073-CFE30A76-1853-49A5-9D42-A7C83B061A07Q24170080-3DBEA709-02A0-45E9-A423-F7CC7E7CD437Q24706562-21153ABA-7911-4129-A85B-F411E8A88324Q28383412-9D638C4E-902D-465D-B484-20BACD4AA327Q28393005-F2187D3E-64FC-45AA-AD5D-04F9DECF73F1Q28950723-C10B7575-A669-4676-847B-61F845273D1BQ33806396-4F76EB1A-29C9-4CCA-A2FF-CCF1BED6F243Q33886609-2DC43CE2-696D-4552-B884-0F6DEDE125D0Q36792214-E154CE27-ECEB-48C6-A130-696B7C815AE3Q37067353-F336EE11-0726-4CEA-BC97-22A00D200B4DQ37228605-E610E5FC-64DB-42A4-A757-C2E50ADC13E9
P50
description
Forscher
@de
chercheur
@fr
investigador
@es
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
研究者
@zh
name
Michael Madigan
@ast
Michael Madigan
@en
Michael Madigan
@es
Michael Madigan
@nl
type
label
Michael Madigan
@ast
Michael Madigan
@en
Michael Madigan
@es
Michael Madigan
@nl
prefLabel
Michael Madigan
@ast
Michael Madigan
@en
Michael Madigan
@es
Michael Madigan
@nl
P108
P1153
7005169474
P31
P496
0000-0002-4299-3851