Coronary heart disease in individuals with spinal cord injury: assessment of risk factors.
about
Effects of Use and Disuse on Non-paralyzed and Paralyzed Skeletal MusclesActivity-Based Restorative Therapies after Spinal Cord Injury: Inter-institutional conceptions and perceptionsInternational spinal cord injury cardiovascular function basic data set.Effects of Testosterone and Evoked Resistance Exercise after Spinal Cord Injury (TEREX-SCI): study protocol for a randomised controlled trialCan intervals enhance the inflammatory response and enjoyment in upper-body exercise?Relationship of spasticity to soft tissue body composition and the metabolic profile in persons with chronic motor complete spinal cord injury.Skeletal muscle hypertrophy and decreased intramuscular fat after unilateral resistance training in spinal cord injury: case reportSexual rehabilitation in women with spinal cord injury: a critical review of the literature.The relationship between the postprandial lipemic response and lipid composition in persons with spinal cord injury.Cardiometabolic changes and disparities among persons with spinal cord injury: a 17-year cohort study.State of the science on cardiometabolic risk after spinal cord injury: recap of the 2013 Asia pre-conference on cardiometabolic disease.Effects of circuit resistance training and timely protein supplementation on exercise-induced fat oxidation in tetraplegic adultsFactors associated with free adult preventive health care utilization among physically disabled people in Taiwan: nationwide population-based study.Influence of motor complete spinal cord injury on visceral and subcutaneous adipose tissue measured by multi-axial magnetic resonance imagingComparison of coronary artery calcification scores and National Cholesterol Education program guidelines for coronary heart disease risk assessment and treatment paradigms in individuals with chronic traumatic spinal cord injury.The effects of electrical stimulation on body composition and metabolic profile after spinal cord injury--Part II.Clinical assessment of obesity in persons with spinal cord injury: validity of waist circumference, body mass index, and anthropometric indexAn effective oral vitamin D replacement therapy in persons with spinal cord injury.Overview of the Spinal Cord Injury--Quality of Life (SCI-QOL) measurement system.A report of anticipated benefits of functional electrical stimulation after spinal cord injury.Chronic activity-based therapy does not improve body composition, insulin-like growth factor-I, adiponectin, or myostatin in persons with spinal cord injuryAssessment of In-Hospital Walking Velocity and Level of Assistance in a Powered Exoskeleton in Persons with Spinal Cord InjuryEffects of prandial challenge on triglyceridemia, glycemia, and pro-inflammatory activity in persons with chronic paraplegia.Evidence-based and heuristic approaches for customization of care in cardiometabolic syndrome after spinal cord injury.International spinal cord injury endocrine and metabolic extended data set.The role of nutrition in health status after spinal cord injuryMuscle activity and mood state during simulated plant factory work in individuals with cervical spinal cord injury.The influence of a home-based exercise intervention on human health indices in individuals with chronic spinal cord injury (HOMEX-SCI): study protocol for a randomised controlled trialCardiometabolic risk clustering in spinal cord injury: results of exploratory factor analysis.Cardiovascular disease and spinal cord injury: results from a national population health survey.Fundamental hemodynamic mechanisms mediating the response to myocardial ischemia in conscious paraplegic mice: cardiac output versus peripheral resistance.Cardiovascular disease, SCI and exercise: unique risks and focused countermeasures.Cardiovascular and urological dysfunction in spinal cord injury.Hypertension and antihypertensive treatment in veterans with spinal cord injury and disorders.Body Composition changes with Testosterone Replacement Therapy following Spinal Cord Injury and Aging. A Mini Review.Impact of Exercise on Cardiometabolic Component Risks in Spinal Cord-injured Humans.Cardiovascular disease risk in people with spinal cord injury: is there a possible association between reduced lung function and increased risk of diabetes and hypertension?Within-session responses to high-intensity interval training in spinal cord injury.Interval training elicits higher enjoyment versus moderate exercise in persons with spinal cord injury.Reliability and relatedness of peak VO2 assessments during body weight supported treadmill training and arm cycle ergometry in individuals with chronic motor incomplete spinal cord injury.
P2860
Q26773992-58963B91-C100-46C5-AA96-FD57A6197529Q26799907-BFBA714B-AB5A-48BE-8FCC-8E2DD8F277A5Q33526543-79BC849F-AE31-4B5F-9ED9-A456B13828EDQ33552627-6B245A97-C410-457B-8A70-C73F02CDFD30Q33665772-A35E2A98-F45E-4399-B602-E2ACBE6BCAE2Q33784068-95D893BA-F7FE-4163-8CB2-D687885C68C6Q33784097-76CCFAB4-F33C-4AB9-B063-5C296D5A22C4Q34109806-FCD38597-2AE3-440B-8305-8A11D34E7048Q34511034-FBD02B54-596A-4DC9-A310-E97050E21C67Q34612699-FA793CB6-2501-42C3-8172-F6267C83314CQ34612706-A0D31304-EE99-4AB6-AEB1-E6AF2DF6A07AQ34612714-669D82F6-4381-4780-A26A-1F648D9EA6B2Q34677586-C3C8E0CA-248C-48CD-A9D1-D0A4B59DEDBFQ34734471-6EB6F124-831D-47A5-BCB3-61127087B749Q34734526-50260A11-BEC4-45B5-9130-F321B8DA09C3Q34947718-BC636B5B-28D9-4D3B-8B40-68B25B319E37Q35154699-85E0F0DD-A710-4C72-8B5C-B0200C41A418Q35251342-41F59973-568A-45F4-99C1-3CDCE898ABB8Q35651149-6B00A64C-5D6C-4D46-A31A-6A5D39BA8E44Q35832865-AB9DAD56-96B2-418E-9085-F52BCB8C71BEQ35951326-64369F1F-275F-47B9-B02F-82F66FCFEFC6Q36054936-FC04E5D5-8132-49A5-9074-5FFB40802B11Q36181011-F60DA867-7F14-429A-90BB-7D77D850D55EQ36283606-057FF5A6-5E6F-4D90-A378-7E296D0609D6Q36315948-DD0C0E13-7320-4FB7-ADA3-EF1251EC3066Q36603638-5B61EF61-2CD4-4116-8419-761EF3C1E721Q36829420-1827D099-5C7B-424F-A8B1-16FCBF2AE212Q36982379-F808DA7E-8A14-4965-8360-2032B61D76C4Q37096356-0FAF9F7F-C478-4E27-B659-7A4FD9AF7505Q37180913-FCB4A1F9-83EF-496D-BEA9-B302695FE53BQ37727422-3438D32B-3812-4BAB-BD78-381EF14D7ACBQ37762838-B4C4FFE1-E74C-4D40-8843-408AB6E58948Q37895319-6EC47FB9-7E06-4796-A64D-E9C9F8CB02AFQ38059379-A8ED6D49-CF8B-4AF1-84D6-CC18C0DBAB57Q38645004-21BF649A-896F-4AC1-960F-3235B2CD75CFQ38655521-250493D0-097B-4051-8D6B-2B4603D818B0Q38845392-45C440D7-F493-4362-888E-37D6938E328BQ39119562-2EEF0304-B881-4D30-ACBC-647AC1400ABAQ39221602-47916ABD-3166-4663-BFF2-D2485A2BC11BQ39249269-EE0D926D-4391-48F0-B930-1F098E134474
P2860
Coronary heart disease in individuals with spinal cord injury: assessment of risk factors.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 08 January 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Coronary heart disease in indi ...... y: assessment of risk factors.
@en
Coronary heart disease in indi ...... y: assessment of risk factors.
@nl
type
label
Coronary heart disease in indi ...... y: assessment of risk factors.
@en
Coronary heart disease in indi ...... y: assessment of risk factors.
@nl
prefLabel
Coronary heart disease in indi ...... y: assessment of risk factors.
@en
Coronary heart disease in indi ...... y: assessment of risk factors.
@nl
P2860
P356
P1433
P1476
Coronary heart disease in indi ...... y: assessment of risk factors.
@en
P2093
A M Spungen
W A Bauman
P2860
P2888
P304
P356
10.1038/SJ.SC.3102161
P577
2008-01-08T00:00:00Z