Longitudinal study of bone mineral content in the lumbar spine, the forearm and the lower extremities after spinal cord injury.
about
Mathematical models use varying parameter strategies to represent paralyzed muscle force properties: a sensitivity analysis.Non-pharmacological treatment and prevention of bone loss after spinal cord injury: a systematic reviewInternational spinal cord injury musculoskeletal basic data set.Intensive exercise may preserve bone mass of the upper limbs in spinal cord injured males but does not retard demineralisation of the lower body.Acute suppression of bone turnover with calcium infusion in persons with spinal cord injury.Longitudinal changes in femur bone mineral density after spinal cord injury: effects of slice placement and peel method.Effect of chronic activity-based therapy on bone mineral density and bone turnover in persons with spinal cord injuryThe international spinal cord injury endocrine and metabolic function basic data set.Vitamin D status and bone and connective tissue turnover in brown bears (Ursus arctos) during hibernation and the active state.Loading and skeletal development and maintenanceMuscular, skeletal, and neural adaptations following spinal cord injury.Bone mineral loss at the proximal femur in acute spinal cord injury.Dynamic skeletal muscle stimulation and its potential in bone adaptation.Enhancing muscle force and femur compressive loads via feedback-controlled stimulation of paralyzed quadriceps in humans.A retrospective review of lower extremity fracture care in patients with spinal cord injuryBone health in patients with multiple sclerosis.Bone mineral and stiffness loss at the distal femur and proximal tibia in acute spinal cord injury.Early exercise after spinal cord injury ('Switch-On'): study protocol for a randomised controlled trialLongitudinal study of body composition in spinal cord injury patients.Spinal cord injury causes rapid osteoclastic resorption and growth plate abnormalities in growing rats (SCI-induced bone loss in growing rats)The effect of low-magnitude whole body vibration on bone density and microstructure in men and women with chronic motor complete paraplegia.Electrically induced muscle contractions influence bone density decline after spinal cord injury.Musculoskeletal adaptations in chronic spinal cord injury: effects of long-term soleus electrical stimulation trainingPeripheral quantitative computed tomography: measurement sensitivity in persons with and without spinal cord injury.Bone mineral density after spinal cord injury: a reliable method for knee measurementEvaluation of bone mineral density in patients with spinal cord injury.Musculoskeletal plasticity after acute spinal cord injury: effects of long-term neuromuscular electrical stimulation training.Bone loss and muscle atrophy in spinal cord injury: epidemiology, fracture prediction, and rehabilitation strategies.Hormone replacement therapy in women with spinal cord injury - a survey with literature review.Assessment of In-Hospital Walking Velocity and Level of Assistance in a Powered Exoskeleton in Persons with Spinal Cord InjuryAcute Effects of Caffeine on Heart Rate Variability, Blood Pressure and Tidal Volume in Paraplegic and Tetraplegic Compared to Able-Bodied Individuals: A Randomized, Blinded Trial.Bone mineral density in spinal cord injury: an evaluation of the distal femurBone loss in spinal cord-injured patients: from physiopathology to therapy.A linear-actuated torsional device to replicate clinically relevant spiral fractures in long bones.Evidence-based evaluation of physiological effects of standing and walking in individuals with spinal cord injury.International spinal cord injury endocrine and metabolic extended data set.Spinal cord injury-induced osteoporosis: pathogenesis and emerging therapies.Muscle Density and Bone Quality of the Distal Lower Extremity Among Individuals with Chronic Spinal Cord Injury.Age and motor score predict osteoprotegerin level in chronic spinal cord injury.31st g. Heiner sell lectureship: secondary medical consequences of spinal cord injury.
P2860
Q24811374-13650670-E215-4E8B-9A72-63CD7238E366Q28307736-B06F8D97-68C5-4932-9768-E01B176BFE94Q30560965-503D16C8-CF41-4FFF-A7B8-46A39891947AQ31050823-3FE6126B-1E56-4D72-A502-80228A09FE22Q33696975-7D8D6F90-72EC-4836-B1B3-8BA6854EF79AQ33874220-0B1BC58A-F81B-4BF3-ADBA-DE32D6225D57Q33893898-57440209-BDF0-4E59-B631-8A2B2F28594EQ33902172-7C0A0F4C-DA38-4510-88E5-88E28E23198CQ33952501-9BDA5E94-7B93-4719-8078-4CBC5FB5135FQ34442741-0E03B47A-47B4-4F52-842D-6E28F463C046Q34524823-0E98409E-755F-4292-8903-7164675F5174Q34610883-A603FF25-5A1D-411F-80D0-2CCC29765A32Q34617251-C5E3BEEF-75F2-4343-8791-5F25D9D30A1BQ34666024-B75DD657-526C-458F-A7E0-A023C55D5B53Q34947699-D7417C25-5AE7-4BA1-83E1-F2867717263FQ34986532-E81639C9-81D0-4322-A49A-9D27DE674420Q35031672-A01F2E2A-E438-4C48-92C2-ED0E2EB9C11BQ35060389-9F9F3E4B-2D11-4043-BE65-A21F49035597Q35150977-B659BDCB-B36A-4C24-A72C-DA35242BE9BCQ35207796-1641068C-7017-415E-8BB3-FF4E12F13098Q35418541-0CEC5EE4-CEED-4701-8BB1-F05715139848Q35724288-7BE17205-9292-43BE-B8FB-4CB0D0DD7068Q35724303-9C369856-4D33-4896-A8FD-7E47BCAAE646Q35737534-6A53CE20-70B9-4A77-9D02-ABEB351CA334Q35737541-56141DCF-8C12-4ED5-A66B-B8408810A841Q35781307-55EC5450-C81E-43CD-A933-9792163F1D39Q35819950-C96A2CF5-37F9-465C-9653-4F59A77D1CD8Q35941609-B159F293-7EA1-4A1D-8D94-CD7B0DE23282Q35966781-F4E6CBC9-35A4-44B7-8B1A-C7BB26E44436Q36054936-0CF6F656-54C0-4881-9757-EFF56E6F9833Q36173091-0008D817-83E9-4D9B-BBD5-247DBEA41D1FQ36210593-DE84D020-DB25-4BC5-93EF-08108F2E4F85Q36255761-B49E765B-BA10-4F09-BC1A-BAB5B6B39113Q36299660-A52EFFC5-5286-4D12-8807-580DD706BF84Q36314283-FE9DF2B0-422B-4409-9D7B-587BEB5F0EE0Q36315948-ABB231A6-BA54-4967-A455-629898397AFDQ36428144-5DC152F3-8127-4929-92E8-DB3BD6ECB77CQ36572367-1579083A-C724-4D6A-8342-75E84BFB6032Q36628354-CBE02A34-1312-4CA1-922D-A44AB0DA8185Q36646317-3BA1BAC4-D323-44F5-B9A2-F75933B1789A
P2860
Longitudinal study of bone mineral content in the lumbar spine, the forearm and the lower extremities after spinal cord injury.
description
1990 nî lūn-bûn
@nan
1990 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1990 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1990年の論文
@ja
1990年論文
@yue
1990年論文
@zh-hant
1990年論文
@zh-hk
1990年論文
@zh-mo
1990年論文
@zh-tw
1990年论文
@wuu
name
Longitudinal study of bone min ...... ties after spinal cord injury.
@ast
Longitudinal study of bone min ...... ties after spinal cord injury.
@en
type
label
Longitudinal study of bone min ...... ties after spinal cord injury.
@ast
Longitudinal study of bone min ...... ties after spinal cord injury.
@en
prefLabel
Longitudinal study of bone min ...... ties after spinal cord injury.
@ast
Longitudinal study of bone min ...... ties after spinal cord injury.
@en
P2093
P1476
Longitudinal study of bone min ...... ties after spinal cord injury.
@en
P2093
Biering-Sørensen F
Schaadt OP
P304
P356
10.1111/J.1365-2362.1990.TB01865.X
P577
1990-06-01T00:00:00Z