Validation of Oxygen Uptake Efficiency Slope in Patients With Stroke

Not Applicable

• Conditions: Exercise Therapy; Stroke; Physical Fitness

• Registration Number: NCT03960918
• Lead Sponsor: Chang Gung Memorial Hospital

Brief Summary

Background: Stroke is a cerebrovascular disease which leads to ischemic damage of brain tissue and subsequent neurologic impairment. Aerobic capacity has become an effective prognosis for overall and cardiovascular mortality, but current protocols using in cardiopulmonary test (CPET) are not feasible for the hemiplegics due to balance or coordination deficit. The peak oxygen uptake should be underestimated for survival prediction. The calculation of the oxygen uptake efficiency slope (OUES) is independent of incremental exercise protocol, and patient effort, and is, therefore, suitable for patients who are not able or willing to attain maximal exercise values, just like stroke population.

Study Purpose: This project will enroll stroke patients to evaluate their aerobic capacity by CPET. Compared retrospectively with previous data from heart failure patients and healthy subjects, the investigators may know the aerobic capacity of stroke patients is underestimated or not. By collecting other parameters from exercise test (cardiac output and local tissue perfusion and oxygenation), the investigators could investigate the exercise intolerance of stroke patients is contributed from neurological origin mainly or several factors synergically.

Detailed Description

Background: Stroke is a cerebrovascular disease which leads to ischemic damage of brain tissue and subsequent neurologic impairment. Hence, the brain circulation is impaired after stroke which also play a possible cause for exercise intolerance not only neurogenic origin. The peak oxygen uptake in stroke patients was about half in healthy adults with the same age about 30 days after the disease occurrence. Aerobic capacity has become an effective prognosis for overall and cardiovascular mortality, but current protocols using in cardiopulmonary test (CPET) are not feasible for the hemiplegics due to balance or coordination deficit. The peak oxygen uptake should be underestimated for survival prediction. The calculation of the oxygen uptake efficiency slope (OUES) is independent of incremental exercise protocol, and patient effort, and is, therefore, suitable for patients who are not able or willing to attain maximal exercise values, just like stroke population. So it can be regarded as a single index of aerobic capacity that can be determined from submaximal exercise data. In healthy subjects, the OUES has a test-retest reliability similar to VO2peak (intra-class correlation coefficient (ICC) = 0.890 vs ICC = 0.910). The above properties make the OUES a possible alternative for VO2peak in patients with stroke who are unable to attain maximal exercise, and may provide clinicians with a better estimate of aerobic capacity in these patients.

Study purpose: This project will enroll stroke patients under new onset stage, late stage, and exercise intervention, to evaluate their aerobic capacity by CPET. Compared retrospectively with previous data from heart failure patients and healthy subjects, the investigators may know the aerobic capacity of stroke patients is underestimated or not. By collecting other parameters from exercise test (cardiac output and local tissue perfusion and oxygen), the investigators could investigate the exercise intolerance of stroke patients is contributed from neurological origin mainly or several factors synergically.

Methods: This is prospective (for stroke), randomized, parallel-group (for exercise) design with a 1:1 allocation ratio. 120 stroke patients will be randomly assigned to traditional rehabilitation training group(control) and traditional rehabilitation combined with aerobic training group (experiment). All enrolled subjects will perform a CPET before the training initiation. After CPET, the patients in the experimental group need to perform an additional bicycle training program with the intensity of 60 % maximal workload in the previous CPET (three days per week, for 12 weeks with a total of 36 times). When the training course completed, another CPET will be performed to evaluate the aerobic capacity again. In two CPET, a comprehensive cognitive and functional assessment will be also performed.

Measurable parameters: maximal oxygen uptake, maximal cardiac output, cerebral blood flow, oxygen uptake efficiency slope, limb muscle strength and function, and cognitive function was assessed.

Study Timeline

• Study Start: 2018-01-01
• Status Verified: 2019-05
• Study First Submitted: 2019-05-17
• Study First Submitted QC: 2019-05-21
• Study First Posted: 2019-05-23
• Last Update Submitted: 2020-01-03
• Last Update Posted: 2020-01-06
• Primary Completion: 2020-12-30
• Study Completion: 2020-12-31

Recruitment & Eligibility

• Status: UNKNOWN
• Sex: All
• Target Recruitment: 120

Inclusion Criteria

• Clinical diagnosis of Cerebrovascular accident, confirmed by a neurologist

Exclusion Criteria

There are other diseases or behavioral restrictions that prevent exercise training, list below:

1. dementia(MMSE<24), and etc.

2. musculoskeletal disease

3. Other exercise contraindications:

   1. unstable angina
   2. resting systolic blood pressure greater than 200 mmHg or diastolic blood pressure greater than 110 mmHg
   3. orthostatic blood pressure drop greater than 20 mmHg with symptoms
   4. Symptomatic severe aortic stenosis
   5. Acute systemic infection, accompanied by fever, body aches, or swollen lymph glands
   6. Uncontrolled cardiac dysrhythmias causing symptoms or hemodynamic compromise
   7. Uncontrolled symptomatic heart failure
   8. High-degree atrioventricular blocks
   9. Acute myocarditis or pericarditis
   10. Acute pulmonary embolus or pulmonary infarction
   11. a recent significant change in the resting electrocardiogram suggesting significant ischemia,
   12. recent myocardial infarction (within 2 d), or other acute cardiac events

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Primary Outcome Measures

Name	Time	Method
physical fitness (peak oxygen consumption)	after 36 session exercise training, up to 12 weeks	oxygen consumption in cc/min/kg measured by Carefusion(TM) in CPET
physical fitness (maximal cardiac output)	after 36 session exercise training, up to 12 weeks	maximal cardiac output in L/min measured by NICOM(TM) in CPET
physical fitness(oxygen uptake efficiency slope)	after 36 session exercise training, up to 12 weeks	oxygen uptake efficiency slope was calculated with oxygen consumption and workload in CPET
physical fitness(limb muscle strength)	after 36 session exercise training, up to 12 weeks	limb muscle strength was measured by manual muscle test with (0-5) scales
physical fitness (cerebral blood flow)	after 36 session exercise training, up to 12 weeks	cerebral blood flow in cc/min measured by Near-Infrared spectrometry

Secondary Outcome Measures

Name	Time	Method
neuro-function(cognitive function)	after 36 session exercise training, up to 12 weeks	cognitive function was measured by MMSE ( Mini-Mental State Examination)
neuro-function(limbs function)	after 36 session exercise training, up to 12 weeks	limbs function was measured by brunnstrom stage of stroke recovery with (1-6) scales

Trial Locations

Locations (1)

Department of Physical Medicine and Rehabilitation of Keelung Chang Gung Memorial hospital; 🇨🇳 Keelung, Taiwan