about
Assessment of muscular strength with the modified sphygmomanometer test: what is the best method and source of outcome values?Measurement properties and feasibility of clinical tests to assess sit-to-stand/stand-to-sit tasks in subjects with neurological disease: a systematic review.Strength deficits of the shoulder complex during isokinetic testing in people with chronic stroke.Psychometric properties of the stroke specific quality of life scale for the assessment of participation in stroke survivors using the rasch model: a preliminary study.Efficacy of interventions to improve physical activity levels in individuals with stroke: a systematic review protocol.Measurement properties of self-report physical activity assessment tools in stroke: a protocol for a systematic review.Assessment of grip strength with the modified sphygmomanometer test: association between upper limb global strength and motor function.Handgrip strength deficits best explain limitations in performing bimanual activities after stroke.Health, function and disability in stroke patients in the community.180° turn while walking: characterization and comparisons between subjects with and without stroke.Dynamometry for the measurement of grip, pinch, and trunk muscles strength in subjects with subacute stroke: reliability and different number of trials.Strength deficits of the paretic lower extremity muscles were the impairment variables that best explained restrictions in participation after stroke.Measurement of scapular kinematics with the moiré fringe projection technique.Comparison of quality-of-life instruments for assessing the participation after stroke based on the International Classification of Functioning, Disability and Health (ICF).Efficacy of Task-Specific Training on Physical Activity Levels of People With Stroke: Protocol for a Randomized Controlled Trial.Previous lower limb dominance does not affect measures of impairment and activity after stroke.Reproducibility of the items on the Stroke Specific Quality of Life questionnaire that evaluate the participation component of the International Classification of Functioning, Disability and Health.Quality of life and associated characteristics: application of WHOQOL-BREF in the context of Primary Health Care.Performance and capacity-based measures of locomotion, compared to impairment-based measures, best predicted participation in individuals with hemiparesis due to stroke.Construct validity of the items on the Stroke Specific Quality of Life (SS-QOL) questionnaire that evaluate the participation component of the International Classification of Functioning, Disability and Health.Assessing Timed Up and Go in Parkinson's disease: Reliability and validity of Timed Up and Go Assessment of biomechanical strategies.Trunk strength is associated with sit-to-stand performance in both stroke and healthy subjects.Influence of socio-demographic, clinical and functional factors on the severity of dementia.Lower-limb motor coordination is significantly impaired in ambulatory people with chronic stroke: A cross-sectional study.Content comparisons of stroke-specific quality of life based upon the international classification of functioning, disability, and health.Effects of aerobic training on physical activity in people with stroke: protocol for a randomized controlled trialAre functional mobility tests responsive to group physical therapy intervention in individuals with Parkinson's disease?Scapular muscle recruitment patterns and isokinetic strength ratios of the shoulder rotator muscles in individuals with and without impingement syndromeComparisons of electromyographic activity of scapular muscles between elevation and lowering of the armsExpanded timed up and go test with subjects with stroke: reliability and comparisons with matched healthy controlsApplicability of the coactivation method in assessing synergies of the scapular stabilizing musclesDevelopment and validation of an innovative tool for the assessment of biomechanical strategies: the Timed "Up and Go" - Assessment of Biomechanical Strategies (TUG-ABS) for individuals with strokeClinical testing of an innovative tool for the assessment of biomechanical strategies: the Timed “Up and Go” Assessment of Biomechanical Strategies (TUG-ABS) for individuals with strokeMeasurement properties of the lower extremity motor coordination test in individuals with strokeReference values and psychometric properties of the lower extremity motor coordination testStrength of the lower limb and trunk muscles is associated with gait speed in individuals with sub-acute stroke: a cross-sectional studyTrunk kinematics related to generation and transfer of the trunk flexor momentum are associated with sit-to-stand performance in chronic stroke survivorsReference values for muscle strength: a systematic review with a descriptive meta-analysisDeficits in motor coordination of the paretic lower limb best explained activity limitations after strokeTrunk flexor and extensor muscle performance in chronic stroke patients: a case-control study
P50
Q34280660-D856D728-5A14-45BD-A161-2F8BDB10B257Q34280668-D225779C-16B0-4853-BB1F-5FEBD93C3D05Q34282047-1485B83F-D2B8-4296-8D33-D20102F02202Q34465152-6544F4AE-B2A0-438C-84D4-9F7F2ABF173DQ36241581-50790876-5B0F-4F1E-B866-52340F2C336CQ36279428-D6A5B4A6-54A9-43D1-BC4E-36266A2EB8BFQ36343240-4E2C8B49-7D72-4863-95FF-85E948E452C3Q36904433-77B1A073-48C1-48E5-A187-A9694D2E7D38Q37241459-A2710297-016C-40C8-ADD3-1ECCDE8E6510Q37382074-C046A688-8D86-443C-8D65-D380C5250457Q37440192-2FD05817-C7C6-43B8-8F5C-005F4629EDDEQ38823999-EBD0FF04-4FB9-43FA-9C11-C323D7065397Q39916150-BCFDEC5D-9193-4859-968F-74C317DC7A19Q46422046-963D212E-9480-4668-ABCF-470E4AAD213AQ47567307-2C9EFF0E-DC45-4FD4-BA10-914048D1C0E0Q47656749-CD0209D2-C46A-4337-BBC2-6DF7FD5F3911Q47824935-0C108CF9-833F-4B81-8316-7E89EAF844F5Q47857731-1DBAA596-9D1B-4984-BAD4-0978F2ECA195Q47918393-3C7F1885-DC24-4EF3-B4AE-D9DD460D5C0AQ48743750-BD2B80BF-9AEB-4E92-82AF-9B4C309DF82AQ49798014-D920A42E-BA56-4BF1-9B51-328AE1B1CE99Q50586190-EECDAFE3-5745-402A-A82A-86F4C3DF896DQ51827171-8E54C93A-6B72-49A1-95D4-16AA948A0CB3Q52885817-68B53BEC-23C3-4A7C-8C62-C6FB5D27AC48Q53104223-0B261326-87C2-4B4A-B903-2AB600A0EF15Q58770449-F333E329-24C8-4F92-BF83-1293C4D22821Q64895660-3D8D48B1-81BF-4A53-9BDB-0851CE4592F0Q80507230-838BDC0B-C0B0-4282-BD8F-991678BB46E2Q82096576-DA309938-3C41-4DA4-8182-8F09A899F937Q83550384-0E66DFA5-72BB-40BF-A410-2F25CF878523Q83842346-B5E1DF0D-4645-485C-9CB9-DA31D61F0677Q86076479-0829E84F-03E2-4752-908E-53C7FF5E4D3FQ86281994-9CCC036E-B7FC-41CD-B2CC-DDDBAAFB81F8Q87131409-23EAAFD6-D3FF-423E-86A5-6067543D0A5AQ87555507-758F7C63-6B79-4352-90DE-12F050D7A200Q88194006-2AA49ADA-6DC6-491D-B39C-564CD2D791FFQ88646696-BC00AEEA-5980-4EBC-984D-D590E037525FQ88682907-70EE2B6F-7696-4F83-9CFF-009FFF2C903DQ89176274-B8824119-0CA0-4291-9162-B7E83AF44A02Q89686203-078FD51A-3704-4646-9174-6C237249945F
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Christina D C M Faria
@en
Christina D C M Faria
@nl
type
label
Christina D C M Faria
@en
Christina D C M Faria
@nl
prefLabel
Christina D C M Faria
@en
Christina D C M Faria
@nl
P31
P496
0000-0001-9784-9729