| scholarly article | Q13442814 |
| P2093 | author name string | Ismail AA | |
| Bergmann P | |||
| Welraeds D | |||
| Heilporn A | |||
| Wilmet E | |||
| P2860 | cites work | Longitudinal study of bone mineral content in the lumbar spine, the forearm and the lower extremities after spinal cord injury | Q30993015 |
| Bone mineral content of the lumbar spine and lower extremities years after spinal cord lesion | Q36439185 | ||
| Longitudinal study of calcium and bone metabolism in paraplegic patients | Q40101534 | ||
| Body composition and resting energy expenditure in long term spinal cord injury. | Q52423743 | ||
| Osteoporosis after spinal cord injury | Q68101546 | ||
| P433 | issue | 11 | |
| P304 | page(s) | 674-677 | |
| P577 | publication date | 1995-11-01 | |
| P1433 | published in | Paraplegia | Q26841823 |
| P1476 | title | Longitudinal study of the bone mineral content and of soft tissue composition after spinal cord section | |
| P478 | volume | 33 |
| Q36646317 | 31st g. Heiner sell lectureship: secondary medical consequences of spinal cord injury |
| Q89747919 | A Long-Term Pilot Study on Sex and Spinal Cord Injury Shows Sexual Dimorphism in Functional Recovery and Cardio-Metabolic Responses |
| Q35884632 | A biomechanical analysis of exercise in standing, supine, and seated positions: Implications for individuals with spinal cord injury |
| Q36283643 | A randomized trial of functional electrical stimulation for walking in incomplete spinal cord injury: effects on body composition |
| Q78673766 | A wheelchair modified for leg propulsion using voluntary activity or electrical stimulation |
| Q36628354 | Age and motor score predict osteoprotegerin level in chronic spinal cord injury |
| Q47226140 | Ambulatory level and asymmetrical weight bearing after stroke affects bone loss in the upper and lower part of the femoral neck differently: bone adaptation after decreased mechanical loading |
| Q38913345 | Anthropometric and biomechanical characteristics of body segments in persons with spinal cord injury. |
| Q55118623 | Anthropometry, Body Composition, and Performance in Sport-Specific Field Test in Female Wheelchair Basketball Players. |
| Q64227136 | Application of current sarcopenia definitions in spinal cord injury |
| Q80075827 | Assessment of anthropometric, systemic, and lifestyle factors influencing bone status in the legs of spinal cord injured individuals |
| Q37021130 | Barriers to providing dual energy x-ray absorptiometry services to individuals with spinal cord injury |
| Q36987754 | Biochemical biomarkers are not dependent on physical exercise in patients with spinal cord injury |
| Q38645004 | Body Composition changes with Testosterone Replacement Therapy following Spinal Cord Injury and Aging. A Mini Review. |
| Q36076669 | Body composition and resting energy expenditure in patients aged 11 to 21 years with spinal cord dysfunction compared to controls: comparisons and relationships among the groups. |
| Q33978174 | Body composition of women and men with complete motor paraplegia |
| Q34148869 | Bone and muscle loss after spinal cord injury: organ interactions |
| Q35147216 | Bone loss and fractures in multiple sclerosis: focus on epidemiologic and physiopathological features. |
| Q35941609 | Bone loss and muscle atrophy in spinal cord injury: epidemiology, fracture prediction, and rehabilitation strategies |
| Q39030288 | Bone loss at the distal femur and proximal tibia in persons with spinal cord injury: imaging approaches, risk of fracture, and potential treatment options |
| Q47334046 | Can body weight supported treadmill training increase bone mass and reverse muscle atrophy in individuals with chronic incomplete spinal cord injury? |
| Q37760420 | Challenges, concerns and common problems: physiological consequences of spinal cord injury and microgravity. |
| Q30682696 | Changes in muscle mass, fat mass, and bone mineral content in the legs after stroke: a 1 year prospective study |
| Q46423993 | Changes in osteoprotegerin/RANKL system, bone mineral density, and bone biochemicals markers in patients with recent spinal cord injury |
| Q60304029 | Changes of tibia bone properties after spinal cord injury: Effects of early intervention |
| Q35951326 | Chronic activity-based therapy does not improve body composition, insulin-like growth factor-I, adiponectin, or myostatin in persons with spinal cord injury |
| Q35833522 | Comparison of Fat Mass Percentage and Body Mass Index in Koreans With Spinal Cord Injury According to the Severity and Duration of Motor Paralysis |
| Q37052621 | Coronary heart disease in individuals with spinal cord injury: assessment of risk factors |
| Q37811293 | Diagnosis and treatment of osteoporosis in spinal cord injury patients: A literature review |
| Q41650975 | Differences in bone mineral density, markers of bone turnover and extracellular matrix and daily life muscular activity among patients with recent motor-incomplete versus motor-complete spinal cord injury. |
| Q36093644 | Distinct Skeletal Muscle Gene Regulation from Active Contraction, Passive Vibration, and Whole Body Heat Stress in Humans. |
| Q35724264 | Dose estimation and surveillance of mechanical loading interventions for bone loss after spinal cord injury |
| Q35060389 | Early exercise after spinal cord injury ('Switch-On'): study protocol for a randomised controlled trial |
| Q47954006 | Effect of electrical stimulation-induced cycling on bone mineral density in spinal cord-injured patients |
| Q39344562 | Effect of treadmill gait on bone markers and bone mineral density of quadriplegic subjects. |
| Q22254136 | Effects of CGRP on human osteoclast-like cell formation: a possible connection with the bone loss in neurological disorders? |
| Q33782227 | Effects of electromyostimulation on muscle and bone in men with acute traumatic spinal cord injury: A randomized clinical trial |
| Q34510965 | Effects of spinal cord injury on body composition and metabolic profile - part I. |
| Q38308624 | Effects of spinal cord injury on osteoblastogenesis, osteoclastogenesis and gene expression profiling in osteoblasts in young rats |
| Q35724288 | Electrically induced muscle contractions influence bone density decline after spinal cord injury |
| Q35781307 | Evaluation of bone mineral density in patients with spinal cord injury. |
| Q30234487 | Evidence-based prevention and treatment of osteoporosis after spinal cord injury: a systematic review. |
| Q37456095 | FES-rowing attenuates bone loss following spinal cord injury as assessed by HR-pQCT. |
| Q42710889 | Factors influencing bone loss in paraplegia |
| Q36729366 | Femoral loads during passive, active, and active-resistive stance after spinal cord injury: a mathematical model |
| Q37023702 | Five-year longitudinal bone evaluations in individuals with chronic complete spinal cord injury. |
| Q43055252 | Functional electrical stimulation for incomplete spinal cord injury |
| Q59800687 | Guideline Approaches for Cardioendocrine Disease Surveillance and Treatment Following Spinal Cord Injury |
| Q52953315 | Healthy body mass index values often underestimate body fat in men with spinal cord injury |
| Q35076277 | Impact on bone and muscle area after spinal cord injury. |
| Q36315948 | International spinal cord injury endocrine and metabolic extended data set. |
| Q57711945 | Intravenous pamidronate attenuates bone density loss after acute spinal cord injury |
| Q93029415 | Is prophylaxis for osteoporosis indicated after acute spinal cord injury? |
| Q34442741 | Loading and skeletal development and maintenance |
| Q75258431 | Long-term changes in bone metabolism, bone mineral density, quantitative ultrasound parameters, and fracture incidence after spinal cord injury: a cross-sectional observational study in 100 paraplegic men |
| Q45201997 | Long-term disuse osteoporosis seems less sensitive to bisphosphonate treatment than other osteoporosis |
| Q33874220 | Longitudinal changes in femur bone mineral density after spinal cord injury: effects of slice placement and peel method |
| Q73200130 | Longitudinal outcomes in spinal cord injury: aging, secondary conditions, and well-being |
| Q35150977 | Longitudinal study of body composition in spinal cord injury patients |
| Q40755856 | Longitudinal study of bone loss in chronic spinal cord injury patients |
| Q39374476 | MRI analysis and clinical significance of lower extremity muscle cross-sectional area after spinal cord injury. |
| Q36572362 | Measurement of Bone: Diagnosis of SCI-Induced Osteoporosis and Fracture Risk Prediction |
| Q47224835 | Measuring partial body potassium in the legs of patients with spinal cord injury: a new approach |
| Q36572367 | Muscle Density and Bone Quality of the Distal Lower Extremity Among Individuals with Chronic Spinal Cord Injury |
| Q37195874 | Muscle and bone plasticity after spinal cord injury: review of adaptations to disuse and to electrical muscle stimulation |
| Q35042419 | Muscle weakness, spasticity and disuse contribute to demineralization and geometric changes in the radius following chronic stroke |
| Q35724303 | Musculoskeletal adaptations in chronic spinal cord injury: effects of long-term soleus electrical stimulation training |
| Q35819950 | Musculoskeletal plasticity after acute spinal cord injury: effects of long-term neuromuscular electrical stimulation training |
| Q28307736 | Non-pharmacological treatment and prevention of bone loss after spinal cord injury: a systematic review |
| Q33846076 | Osteocyte Apoptosis Caused by Hindlimb Unloading is Required to Trigger Osteocyte RANKL Production and Subsequent Resorption of Cortical and Trabecular Bone in Mice Femurs |
| Q36283120 | Osteoporosis after spinal cord injury |
| Q35737534 | Peripheral quantitative computed tomography: measurement sensitivity in persons with and without spinal cord injury. |
| Q33747146 | Potential regenerative rehabilitation technology: implications of mechanical stimuli to tissue health |
| Q37085939 | Prediction of limb lean tissue mass from bioimpedance spectroscopy in persons with chronic spinal cord injury |
| Q88625420 | Prevention and management of osteoporosis and osteoporotic fractures in persons with a spinal cord injury or disorder: A systematic scoping review |
| Q33215329 | Reduced hip bone mineral density is related to physical fitness and leg lean mass in ambulatory individuals with chronic stroke |
| Q50183803 | Relationship of Spinal Cord Injury Level and Duration to Peak Aerobic Capacity with Arms-Only and Hybrid FES-Rowing |
| Q38426359 | Risk factors for the development of osteoporosis after spinal cord injury. A 12-month follow-up study. |
| Q35606192 | Role of spared pathways in locomotor recovery after body-weight-supported treadmill training in contused rats |
| Q58794835 | Semi-automated segmentation of magnetic resonance images for thigh skeletal muscle and fat using threshold technique after spinal cord injury |
| Q41476589 | Severe Spinal Cord Injury Causes Immediate Multi-cellular Dysfunction at the Chondro-Osseous Junction |
| Q51771258 | Significant Loss of Areal Bone Mineral Density Following Prolonged Bed Rest During Treatment With Teriparatide. |
| Q34642153 | Skeletal adaptations to alterations in weight-bearing activity: a comparison of models of disuse osteoporosis |
| Q36113670 | Some problems of the lower extremity in patients with spinal cord injuries |
| Q37967050 | Spinal cord injury and physical activity: preservation of the body. |
| Q35207796 | Spinal cord injury causes rapid osteoclastic resorption and growth plate abnormalities in growing rats (SCI-induced bone loss in growing rats) |
| Q36428144 | Spinal cord injury-induced osteoporosis: pathogenesis and emerging therapies |
| Q73389176 | Spontaneous insufficiency fractures of long bones: a prospective epidemiological survey in nursing home subjects |
| Q30889601 | Supralesional and sublesional bone mineral density in spinal cord-injured patients |
| Q73009734 | The effect of locomotor training combined with functional electrical stimulation in chronic spinal cord injured subjects: walking and reflex studies |
| Q35418541 | The effect of low-magnitude whole body vibration on bone density and microstructure in men and women with chronic motor complete paraplegia |
| Q45937710 | The effects of an anabolic agent on body composition and pulmonary function in tetraplegia: a pilot study. |
| Q33699245 | The influence of disuse on bone microstructure and mechanics assessed by HR-pQCT. |
| Q52411851 | The use of bioelectric impedance analysis to measure fluid compartments in subjects with chronic paraplegia. |
| Q48191273 | Thiopental dose requirements for induction of anaesthesia and subsequent endotracheal intubation in patients with complete spinal cord injuries |
| Q34293826 | Trabecular bone microarchitecture is deteriorated in men with spinal cord injury |
| Q42086133 | Treatment with resveratrol attenuates sublesional bone loss in spinal cord-injured rats |
| Q48685400 | Use of prolonged standing for individuals with spinal cord injuries |
| Q37470039 | VA-based survey of osteoporosis management in spinal cord injury |
| Q87663471 | Zoledronic acid administration failed to prevent bone loss at the knee in persons with acute spinal cord injury: an observational cohort study |
| Q81272032 | [Surgery for fractures of the lower extremities in cases of chronic spinal cord injury] |
Search more.