Hamstring contractures in children with spastic cerebral palsy result from a stiffer extracellular matrix and increased in vivo sarcomere length.
about
Pathophysiology of muscle contractures in cerebral palsyHealth-related physical fitness for children with cerebral palsyIntramuscular connective tissue differences in spastic and control muscle: a mechanical and histological studyEffectiveness and Complications of Percutaneous Needle Tenotomy with a Large Needle for Muscle Contractures: A Cadaver StudyHeterogeneity of muscle sizes in the lower limbs of children with cerebral palsy.Use of shear wave ultrasound elastography to quantify muscle properties in cerebral palsy.Ultrasound elastography: the new frontier in direct measurement of muscle stiffnessThree-dimensional reconstruction of skeletal muscle extracellular matrix ultrastructure.Assessment of net knee moment-angle characteristics by instrumented hand-held dynamometry in children with spastic cerebral palsy and typically developing children.Transcriptional abnormalities of hamstring muscle contractures in children with cerebral palsyCollagen content does not alter the passive mechanical properties of fibrotic skeletal muscle in mdx mice.Matrix Mechanosensing: From Scaling Concepts in 'Omics Data to Mechanisms in the Nucleus, Regeneration, and Cancer.Pregnancy-induced adaptations in intramuscular extracellular matrix of rat pelvic floor musclesReduced satellite cell population may lead to contractures in children with cerebral palsySystems analysis of biological networks in skeletal muscle function.Skeletal muscle satellite cells: mediators of muscle growth during development and implications for developmental disorders.Myofascial Structural Integration Therapy on Gross Motor Function and Gait of Young Children with Spastic Cerebral Palsy: A Randomized Controlled Trial.Neurologic Correlates of Gait Abnormalities in Cerebral Palsy: Implications for Treatment.Resonant reflection spectroscopy of biomolecular arrays in musclePolarization gating enables sarcomere length measurements by laser diffraction in fibrotic muscle.Disruption of basal lamina components in neuromotor synapses of children with spastic quadriplegic cerebral palsyHigh resolution muscle measurements provide insights into equinus contractures in patients with cerebral palsyUse it or lose it: multiscale skeletal muscle adaptation to mechanical stimuli.Assessment of passive knee stiffness and viscosity in individuals with spinal cord injury using pendulum test.Effects of ankle-foot braces on medial gastrocnemius morphometrics and gait in children with cerebral palsy.In Vivo Imaging of Human Sarcomere Twitch Dynamics in Individual Motor Units.Human skeletal muscle biochemical diversityThe relevance of nerve mobility on function and activity in children with Cerebral Palsy.Knee Moment-Angle Characteristics and Semitendinosus Muscle Morphology in Children with Spastic Paresis Selected for Medial Hamstring LengtheningSecondary muscle pathology and metabolic dysregulation in adults with cerebral palsyA nonlinear model of passive muscle viscosityDifferentiation between non-neural and neural contributors to ankle joint stiffness in cerebral palsy.Cellular mechanisms of tissue fibrosis. 4. Structural and functional consequences of skeletal muscle fibrosisThe effects of botulinum toxin injection frequency on calf muscle growth in young children with spastic cerebral palsy: a 12-month prospective study.Increased collagen cross-linking is a signature of dystrophin-deficient muscle.Astym Therapy Improves Bilateral Hamstring Flexibility and Achilles Tendinopathy in a Child with Cerebral Palsy: A Retrospective Case Report.Structure and function of the skeletal muscle extracellular matrix.Could muscle deformity in children with spastic cerebral palsy be related to an impairment of muscle growth and altered adaptation?Why is joint range of motion limited in patients with cerebral palsy?Mechanisms modulating skeletal muscle phenotype.
P2860
Q26865007-487E222A-1685-45EB-A636-5E9644800511Q26865847-29DF589F-41F9-463C-A233-43124A16AF97Q27321291-027C9895-B27E-446A-9A06-FAEEC39DFAFBQ27340195-C3AADB14-2EC3-4BBA-B181-63A88CEA98FEQ30278093-407D1A1B-6D0B-4199-9C55-FB6C80EC6099Q30366674-0B467628-F486-4400-BE54-215FC2F5BF8DQ30399707-6244B400-4BBC-4C3E-AE44-96A5B7F525ABQ30608531-58DB9035-77D6-4580-A4BD-ADC912C816D4Q30661244-86E16175-FA1A-4535-A3B1-BAD566101684Q31089554-5F3A399A-9F66-4011-81E2-4983A7622290Q33626503-E79A51A2-10A9-44AF-BF6C-616CD8A3396CQ33726992-9A371088-CFAA-4A0B-8F65-81E8575B59A8Q33744519-592585E6-6E49-405F-8635-9A45C9457C12Q33745897-3B680649-1C84-4A79-A725-BD01163CD65AQ33828179-755476EB-B4AB-47E1-BEEE-3CF9637CDA79Q34389066-6F160B34-F38A-48E0-8060-7DCF32E8428DQ34497099-691DC98E-07D8-45D6-BBD5-F96A403526BCQ34554547-07B29929-41D8-47C0-B41F-5E8CAE9D2EDFQ34561370-93E39F2A-A510-4381-8A37-537F0F8E6695Q34567331-269CA4E9-9D92-48E0-A4E3-E9D8D665A119Q34970248-E3BA601B-F79A-4400-B293-BE817CB07F08Q35129554-40D90F6D-6546-4DEF-8740-061689E85C8DQ35155008-A3785D1E-B641-421F-AA93-59D0CD651D72Q35418526-C2245CC7-BA3E-49B0-AE47-CC750107456FQ35801802-1E2EDF9C-6719-4E48-961E-17072102321CQ35873742-B1580AD9-908A-4F10-BF89-110A2562CF53Q36089168-674127B3-79BA-46B8-8D4A-C0F8BC1CE23DQ36157937-6246E1D7-7827-4521-A663-62FAA7E22517Q36197187-A4FA27D8-F898-4CB4-B106-7FEFEF7C8CA2Q36382552-A000CD19-7506-4F62-AD55-610312A0E867Q36995293-2E900264-55EE-4D79-959A-2743C8E8384FQ37079246-62652D0E-DCD9-4E4D-8D11-2BC3BFA18A1EQ37093579-07726456-6AB0-40BE-86F4-2BF270F171F8Q37337395-B03AA1BB-81DA-4D92-A955-559036CF367EQ37345809-D0BFEF3C-77BF-4A02-9B2B-6E7C4E6397D5Q37357895-3B80D0F3-3C94-4BC9-A8DF-1A028569EF88Q37939096-85AA4602-09EE-4EAC-A8F9-C9E522BF8EEDQ37988005-F04A1285-5A24-4957-8D7E-95CC1A49FC19Q38004810-AAD5CD5E-3343-4223-9718-F6BEF7FC86DEQ38165143-29F52EB7-C760-43A6-BAFC-3FC04E95A5A3
P2860
Hamstring contractures in children with spastic cerebral palsy result from a stiffer extracellular matrix and increased in vivo sarcomere length.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh-hant
name
Hamstring contractures in chil ...... ased in vivo sarcomere length.
@en
Hamstring contractures in chil ...... ased in vivo sarcomere length.
@nl
type
label
Hamstring contractures in chil ...... ased in vivo sarcomere length.
@en
Hamstring contractures in chil ...... ased in vivo sarcomere length.
@nl
prefLabel
Hamstring contractures in chil ...... ased in vivo sarcomere length.
@en
Hamstring contractures in chil ...... ased in vivo sarcomere length.
@nl
P2093
P2860
P1476
Hamstring contractures in chil ...... eased in vivo sarcomere length
@en
P2093
Henry G Chambers
Richard L Lieber
Samuel R Ward
P2860
P304
P356
10.1113/JPHYSIOL.2010.203364
P407
P577
2011-03-21T00:00:00Z