Use of prolonged standing for individuals with spinal cord injuries. - Wikidata - wikimedia - TriplyDB

Use of prolonged standing for individuals with spinal cord injuries.

Use of prolonged standing for individuals with spinal cord injuries.

http://www.wikidata.org/entity/Q48685400

about

Long-Term Training with a Brain-Machine Interface-Based Gait Protocol Induces Partial Neurological Recovery in Paraplegic Patients.Systematic review and clinical recommendations for dosage of supported home-based standing programs for adults with stroke, spinal cord injury and other neurological conditions Sliding and lower limb mechanics during sit-stand-sit transitions with a standing wheelchair.The effect of supported standing in adults with upper motor neurone disorders: a systematic review.Can administrative claim file review be used to gather physical therapy, occupational therapy, and psychology payment data and functional independence measure scores? Implications for rehabilitation providers in the private health sector Enhancing muscle force and femur compressive loads via feedback-controlled stimulation of paralyzed quadriceps in humans.Monitoring standing wheelchair use after spinal cord injury: a case report High dose compressive loads attenuate bone mineral loss in humans with spinal cord injury.Mobility Outcomes Following Five Training Sessions with a Powered Exoskeleton.Evidence-based evaluation of physiological effects of standing and walking in individuals with spinal cord injury.Relationship between neurological injury and patterns of upright mobility in children with spinal cord injury.Active-resisted stance modulates regional bone mineral density in humans with spinal cord injury.The impact of supported standing on well-being and quality of life Improvements in orthostatic instability with stand locomotor training in individuals with spinal cord injury.Weight bearing through lower limbs in a standing frame with and without arm support and low-magnitude whole-body vibration in men and women with complete motor paraplegia.What are the next steps in designing an orthosis for paraplegic subjects?The efficiency of mechanical orthoses in affecting parameters associated with daily living in spinal cord injury patients: a literature review.A Drive System to add Standing Mobility to a Manual Standing Wheelchair.The prevalence and association of neck (coat-hanger) pain and orthostatic (postural) hypotension in human spinal cord injury.Spasticity changes in SCI following a dynamic standing program using the Segway.Neuromotor and musculoskeletal responses to locomotor training for an individual with chronic motor complete AIS-B spinal cord injury.Anatomic changes in the macroscopic morphology and microarchitecture of denervated long bone tissue after spinal cord injury in rats.Rehabilitation in practice: Spasticity management.On an equal footing: adults' accounts of the experience of using assistive devices for standing.Influence of Reciprocating Link When Using an Isocentric Reciprocating Gait Orthosis (IRGO) on Walking in Patients with Spinal Cord Injury: A Pilot Study.Evaluation of the stability of normal subjects and patients with Perthes and spinal cord injury disorders during short and long periods of time.Long-Term Performance and User Satisfaction With Implanted Neuroprostheses for Upright Mobility After Paraplegia: 2- to 14-Year Follow-Up.Sensor Fusion to Infer Locations of Standing and Reaching Within the Home in Incomplete Spinal Cord Injury.The effect of level of injury and physical activity on heart rate variability following spinal cord injury.The efficiency of orthotic interventions on energy consumption in paraplegic patients: a literature review.Investigating the status of using lower extremity orthoses recommended to patients with spinal cord injury.

P2860

Q27323287-DC2C7EF4-935B-42D0-91F9-765566C7EF3D Q28084693-AA4DB389-D9EE-48C8-B37F-F9981FD00022 Q33944714-51C1DA19-C832-4256-821D-9E3893A9EA81 Q34285482-DEF2B73E-9244-4AE6-8351-38764219C181 Q34288674-B12C8688-D356-4E73-B606-C1564584BD2F Q34666024-F539064D-F7CA-40B5-8F4B-47F464BBDC93 Q35152306-15C670B8-6EE1-4E0D-B2CC-2AED570429BE Q36028679-685AC28D-EB4B-42BD-AA55-5A739C6982DA Q36054930-4080D1F1-8595-4F65-8CCF-6930113D9550 Q36314283-1296E767-0FA4-4BF3-96A6-B149FBFF6077 Q36646359-B4A48DE7-5196-4E40-9820-83C852180EB5 Q36845397-189060D9-CDC9-47AB-945A-ACD0CFC835B5 Q37280747-9C493140-89E2-4DF4-A569-823ACE02B87B Q37311972-71F8FCFE-9AED-4DB2-980F-BA62753BE4BC Q37552463-3378B792-762B-4BDF-BD91-D5D772DAB0F6 Q37997015-B03CA2BC-7EF8-4406-B92C-981FD4A265E8 Q38175204-0EBD9860-4ADC-4B11-80E0-DC1540441946 Q38866667-92D34D64-8F44-4E11-B2A7-78EF54C5352A Q39408661-287C4BD4-592F-4208-93EC-64995691CA55 Q39617717-3F140489-DFE3-4680-AB44-0CC35BB3C41E Q42073551-15815B17-40A4-4D0D-B2EA-3E671E36969D Q42130804-6346E53E-B629-4ABD-AFED-FD7C7E9F37E8 Q43111719-699BD21C-4A89-4CAA-A83B-DDDB62969EDD Q44470857-B374521D-C39A-4911-9B57-EFF3AB7D43F1 Q47558642-67ADB8A0-C119-4C77-B26A-66E7DD88F16B Q47643253-DDD81358-5BE0-4CB4-B974-627F258414C5 Q47683053-54CF1D23-F530-4C21-A437-25484855D8E3 Q47899495-FBBF7E4F-CDF2-4635-86FD-CF8774B3BB95 Q50100687-54AF7C2E-ED58-409A-8D3A-9C0F67CCE35E Q50972325-0987157F-6B75-4E7D-8CDB-14BB68EF0EF0 Q51110178-B8F251FF-6B6F-4E24-B731-6BE7BE49FE2A

P2860

Use of prolonged standing for individuals with spinal cord injuries.

http://www.wikidata.org/entity/Q48685400

description

2001 nî lūn-bûn

@nan

2001年の論文

@ja

2001年学术文章

@wuu

2001年学术文章

@zh

2001年学术文章

@zh-cn

2001年学术文章

@zh-hans

2001年学术文章

@zh-my

2001年学术文章

@zh-sg

2001年學術文章

@yue

2001年學術文章

@zh-hant

name

Use of prolonged standing for individuals with spinal cord injuries.

@en

Use of prolonged standing for individuals with spinal cord injuries.

@nl

type

label

Use of prolonged standing for individuals with spinal cord injuries.

@en

Use of prolonged standing for individuals with spinal cord injuries.

@nl

prefLabel

Use of prolonged standing for individuals with spinal cord injuries.

@en

Use of prolonged standing for individuals with spinal cord injuries.

@nl

P1433

Q48685400-BEE3F65D-DF92-4C92-B8DE-02A9FCC42A99

P1476

Q48685400-76A1250E-D8CD-4742-A5C4-644BB688A3B5

P2093

Q48685400-049F4220-ED5C-4241-A638-8434BFAC1DED

Q48685400-16B1A95C-C31B-49F9-8383-C5E2454CE1D5

Q48685400-3EBD4033-1279-403C-9253-ECC19EDF4DB8

Q48685400-8825A4C5-A225-4B81-AF16-CA00714974C7

Q48685400-F8B93A04-73EF-4F15-A279-CEE4B7783107

Q48685400-FDCC78C7-2823-482B-9CF5-D835BB2A13CB

P2860

Q48685400-063B6485-F078-4426-9229-1BEAF21C2FDD

Q48685400-0CACCBC3-78D3-4642-9BB0-962E18235F74

Q48685400-17DFE290-14EB-4338-92DF-AB55CBAF6A0F

Q48685400-650270AB-A844-4D3D-A903-BA0E0F1A9463

Q48685400-689B539A-5830-4EE1-A9C3-7F91014A121B

Q48685400-6FFAFB82-8EEC-4262-B9C8-9AFBD64D40C3

Q48685400-7DA20428-8D08-463D-B031-6AE38D5EDBAB

Q48685400-85ADD2C0-0BB2-4690-A5C3-7E1F6BF9915F

Q48685400-B5CBC2EA-25F8-4BCE-A4B8-503B6E2745D6

Q48685400-CBEF914A-5D92-4AC8-BD0D-7F35CBF4F702

P304

Q48685400-8F4BE658-DEDF-4D3D-83D8-95721630D117

P31

Q48685400-A032A3BD-ED00-4BCC-BD11-559C5A4AEBC6

P356

Q48685400-45F522FC-30AE-410A-B6CF-EBEEB89134A8

P433

Q48685400-E3173925-DD3C-4597-88F5-63704A02DEA9

P478

Q48685400-4ABBF268-A0C1-4D85-AD2D-6B909A9C35F2

P577

Q48685400-C1170DCE-AC46-4C2D-8C8C-9DE9CCBC273A

P698

Q48685400-175CCEB4-814E-479D-A75F-A4310279539D

P356

P1433

Physical Therapy

P1476

Use of prolonged standing for individuals with spinal cord injuries.

@en

P2093

Bremner J

http://www.w3.org/2001/XMLSchema#string

Eng JJ

http://www.w3.org/2001/XMLSchema#string

Huston G

http://www.w3.org/2001/XMLSchema#string

Levins SM

http://www.w3.org/2001/XMLSchema#string

Mah-Jones D

http://www.w3.org/2001/XMLSchema#string

Townson AF

http://www.w3.org/2001/XMLSchema#string

P2860

A review of the properties and limitations of the Ashworth and modified Ashworth Scales as measures of spasticity.

Definition of complete spinal cord injury.

Longitudinal study of the bone mineral content and of soft tissue composition after spinal cord section.

Evaluation of a training program for persons with SCI paraplegia using the Parastep 1 ambulation system: part 3. Lack of effect on bone mineral density.

Cardiovascular and haemodynamic responses to tilting and to standing in tetraplegic patients: a review.

The Stockholm spinal cord injury study: 1. Medical problems in a regional SCI population.

Osteoporosis in spinal cord injury: using an index of mobility and its relationship to bone density.

Reduction of hypercalciuria in tetraplegia after weight-bearing and strengthening exercises.

Tilt table standing for reducing spasticity after spinal cord injury.

Clinical assessment of spasticity in spinal cord injury: a multidimensional problem.

P304

1392-1399

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1093/PTJ/81.8.1392

http://www.w3.org/2001/XMLSchema#string

P433

8

http://www.w3.org/2001/XMLSchema#string

P478

81

http://www.w3.org/2001/XMLSchema#string

P577

2001-08-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

11509069

http://www.w3.org/2001/XMLSchema#string