Effects of Nebivolol Versus Carvedilol on Cardiopulmonary Function at High Altitude in Healthy Subjects.
Primary Purpose
Hypoxia, Altitude, Heart Failure
Status
Completed
Phase
Phase 4
Locations
Italy
Study Type
Interventional
Intervention
placebo
Carvedilol
Nebivolol
Sponsored by
About this trial
This is an interventional treatment trial for Hypoxia focused on measuring hypoxia, autonomic nervous system, blood pressure, heart rate, exercise, heart failure, receptors, adrenergic, beta.
Eligibility Criteria
Inclusion Criteria
- Men or women of any racial background
- healthy
- sealevel resident
- age >= 18 years, =< 65 years
- SBP< 130 mmHg and DBP< 80 mmHg, average of two measures at the sceening visit
- FG < 100 mg/dl (5.6 mmol/l)
- BMI < 25
- written informed consent signed
Exclusion Criteria
- engagement in regular exercise training
- smoking habit
- being enrolled in another research study
- any current or previous cardiovascular, metabolic disease or any other cronic disease
- any current treatment for any medical condition
- any medical condition preventing or contraindication exposure to altitude hypoxia
- any gastrointestinal disorder interfering with drug absorption
- known allergy or contraindications to beta-blockers
- pregnant or lactating women; women in reproductive age not using recognized contraceptive methods.
- malignancy within the last 5 years
- drug abuse or alcohol abuse within the last 5 years
- history of noncompliance to medical regimens
- incapacity or unwillingness to sign the informed consent
- participation in any investigational clinical trial within the last 3 months
Sites / Locations
- Laboratorio Ricerche Cardiologiche. Istituto Auxologico Italiano. Ospedale S. Luca. Via Spagnoletto, 3. Regina Margherita Hut (Monte Rosa, Italian Alps, 4559 m)
Arms of the Study
Arm 1
Arm 2
Arm 3
Arm Type
Placebo Comparator
Active Comparator
Active Comparator
Arm Label
placebo
2: Carvedilol
3: Nebivolol
Arm Description
Placebo tablets. One tablet twice daily.
Carvedilol 25 mg tablets. One tablet twice daily.
Nebivolol 5 mg tablets. One nebivolo tablet daily. One placebo tablet daily.
Outcomes
Primary Outcome Measures
Peak Exercise Oxygen Consumption
Oxygen consumption at peak of exercise
Delta Peak Exercise Oxygen Consumption Time 1 Versus Time 3
Difference in peak exercise oxygen consumption between Time 1 and Time 3 (Time 3 - Time 1)
Peak Exercise Minute Ventilation
Minute ventilation at peak of exercise. Minute ventilation = tidal volume (ml) multiplied by the respiratory rate (breaths/min)
Delta Peak Exercise Minute Ventilation Time 1 Versus Time 3.
Difference in peak exercise minute ventilation between Time 1 and Time 3 (Time 3 - Time 1.
Minute ventilation = tidal volume (ml) multiplied by the respiratory rate (breaths/min).
Secondary Outcome Measures
Peak Exercise Oxygen Saturation
Oxygen saturation by pulse oxymetry at peak of exercise
Systolic Pulmonary Artery Pressure.
Resting Energy Expenditure
Sitting Blood Pressure and Heart Rate
Mean 24 Hour/Daytime/Night-time Blood Pressure and Heart Rate
Full Information
NCT ID
NCT00924833
First Posted
February 19, 2009
Last Updated
September 1, 2009
Sponsor
Istituto Auxologico Italiano
Collaborators
Menarini Group
1. Study Identification
Unique Protocol Identification Number
NCT00924833
Brief Title
Effects of Nebivolol Versus Carvedilol on Cardiopulmonary Function at High Altitude in Healthy Subjects.
Official Title
Comparison of the Cardiovascular, Metabolic and Respiratory Effects of Nebivolol and Carvedilol at High Altitude in Healthy Subjects.
Study Type
Interventional
2. Study Status
Record Verification Date
February 2009
Overall Recruitment Status
Completed
Study Start Date
May 2006 (undefined)
Primary Completion Date
November 2006 (Actual)
Study Completion Date
November 2006 (Actual)
3. Sponsor/Collaborators
Name of the Sponsor
Istituto Auxologico Italiano
Collaborators
Menarini Group
4. Oversight
Data Monitoring Committee
Yes
5. Study Description
Brief Summary
Exposure of healthy subjects to high altitude hypoxia elicits changes in cardiovascular, respiratory and metabolic features as weel as in exercise performance similar, for some aspects, to those observed in chronic heart failure. Exposure to high altitude hypoxia represents a suitable model to assess different treatments proposed for this pathological condition. Our aim was to evaluate the impact of two different third-generation beta-blockers used in heart failure (carvedilol and nebivolol) on cardiovascular, respiratory, metabolic profile and on exercise performance at high altitude.
Detailed Description
Methods. Study Subjects. Adults, males and females, non smoking healthy volunteers, sea-level residents not engaged in regular endurance exercise training, taking no medications will be recruited. As there are no studies comparing the effects of beta-blockers on exercise performance at high altitude, the sample size set for each treatment arm was defined on the basis of the sample size of previous investigations showing significant changes in exercise performance in normal subjects taking no medications.
Study design. Time 0. Screening, enrollement and randomization. Subjects meeting the inclusion/exclusion criteria will undergo at sea-level, general laboratory investigations and physical examination. Eligible subjects will be double blindly randomized to either placebo (one tablet twice daily), carvedilol (one 25 mg tablets twice daily), or to nebivolol (one 5 mg tablet in the morning and one placebo tablet in the evening).
Time 1. Before starting the medications, at sea level after an overnight fast, subject will undergo: blood pressure and heart rate measurement, 24 hour ambulatory blood pressure monitoring, Doppler heart ultrasound, cardiopulmonary exercise test, resting energy expenditure measurement.
Time 2. After three weeks of allocated treatment, at sea-level, after an overnight fast, subjects will undergo: blood pressure and heart rate measurement, 24 hour ambulatory blood pressure monitoring, Doppler heart ultrasound, cardiopulmonary exercise test, resting energy expenditure measurement.
Time 3. Under treatment within the first two days of high altitude exposure (Regina Margherita hut, Monte Rosa, altitude 4559 m), subjects will undergo after an overnight fast to blood pressure and heart rate measurement, 24 hour ambulatory blood pressure monitoring, Doppler heart ultrasound, cardiopulmonary exercise test, resting energy expenditure measurement, acute mountain sickness quantification by the Lake Louise Score.
Protocol for blood pressure and heart rate measurement. Blood pressure and heart rate were measured according to current European guidelines(Task Force for the Management of Arterial Hypertension of the European Society of Hypertension(ESH) and of the European Society of Cardiology (ESC). 2007 Guidelines for the Management of Arterial Hypertension. J Hypertens 2007; 25:1105-1187.
Protocol for 24 hour ambulatory blood pressure monitoring. Ambulatory blood pressure monitoring was performed according to current European guidelines(O'Brien E, et al. Practice guidelines of the European Society of Hypertension for clinic, ambulatory and self blood pressure measurement. J Hypertens 2005; 23: 1697-701).
Protocol for Doppler heart ultrasound. All echographic-Doppler examinations will be performed by the same two operators using a portable device (Vivid I, GE Ultrasound) according to current guidelines (Lang RM, et al. Recommendations for chamber quantification. Eur J Echocardiogr 2006; 7 : 79-108
Protocol for cardiopulmonary exercise test. Tests will be performed and evaluated according to current European Society of Cardiology guidelines (Eur J Cardiovasc Prev Rehabil 13:150-164 2006; Eur J Cardiovasc Prev Rehabil 2006; 13:300-311). All tests will be performed using the same cyclo-ergometer (Ergometrics 100, Ergoline, Bitz, Germany)and metabolic cart (Oxycon Mobile software v. 4.6, VIASYS Healthcare GmbH, Wurburg, Germany). The exercise protocol will include 10 minutes of monitored sitting rest, followed by 3 minutes of unloaded pedalling and by 30 W load increments every 2 minutes up to exhaustion. Breath-by-breath ventilation, respiratory gases, one-lead ECG and pulse oxymetry (SpO2) will be recorded throughout each test. Arterial blood pressure will be measured by a mercury sphygmomanometer in duplicate at the end of the resting phase and of each 30 W step, and at peak exercise. Cardiopulmonry exercise tests will be blindly and independently evaluated by two expert readers. The anaerobic threshold will be identified by the standard technique (Wasserman K. Breathing during exercise. N Engl J Med 1978; 298:780-785. VE/VCO2 slope will be calculated as the slope of the linear relationship between VE and VCO2 measured up to the respiratory compensation point.
Protocol for resting energy expenditure measurement. The energy expenditure was calculated according to the abbreviated formula provided by Weir (Weir JB. New methods for calculating metabolic rate with special reference to protein metabolism. J Physiol Lond 1949; 55:14-21). O2 consumption and CO2 production (integrated over 1 min) were measured for 30 min. Baseline values were calculated by averaging the readings taken during the last 10 min.
Protocol for assessment of acute mountain sickness. Acute mountain sickness (AMS) will be assessed by means of the Lake Louise AMS Scoring system (Roach RC, Bärtsch P et al. The Lake Louise AMS Scoring Consensus Committee. The Lake Louise acute mountain sickness scoring system. In: Sutton JR, Houtson CS, Coates G, eds. Hypoxia and Molecular Medicine. Burlington, VT: Queen City Printers; 1993:272-274).
Statistical analysis. Data will be reported as means ± SD. Data management and analysis will be performed with SPSS version 13.0 (SPSS Inc, Chicago, IL, USA). Differences among groups, changes over time within each group (time effect), and any interaction (differing trends over time among groups), will be assessed by two-way repeated measures ANOVA with unpaired Student's t-test with Bonferroni correction whenever needed. For all parameters during cardiopulmonary exercise test, mean values will be computed over 20 seconds. Spearman correlations will be used to assess the relationship between peak VO2 and other respiratory and haemodynamic variables at altitude. A P level of < 0.05 was considered statistically significant.
6. Conditions and Keywords
Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Hypoxia, Altitude, Heart Failure
Keywords
hypoxia, autonomic nervous system, blood pressure, heart rate, exercise, heart failure, receptors, adrenergic, beta.
7. Study Design
Primary Purpose
Treatment
Study Phase
Phase 4
Interventional Study Model
Parallel Assignment
Masking
ParticipantInvestigatorOutcomes Assessor
Allocation
Randomized
Enrollment
27 (Actual)
8. Arms, Groups, and Interventions
Arm Title
placebo
Arm Type
Placebo Comparator
Arm Description
Placebo tablets. One tablet twice daily.
Arm Title
2: Carvedilol
Arm Type
Active Comparator
Arm Description
Carvedilol 25 mg tablets. One tablet twice daily.
Arm Title
3: Nebivolol
Arm Type
Active Comparator
Arm Description
Nebivolol 5 mg tablets. One nebivolo tablet daily. One placebo tablet daily.
Intervention Type
Drug
Intervention Name(s)
placebo
Intervention Description
placebo tablet BID
Intervention Type
Drug
Intervention Name(s)
Carvedilol
Intervention Description
Carvedilol 25 mg tablets. One tablet twice daily.
Intervention Type
Drug
Intervention Name(s)
Nebivolol
Intervention Description
nebivolol 5 mg tablets. One nebivolol tablet daily. One placebo tablet daily.
Primary Outcome Measure Information:
Title
Peak Exercise Oxygen Consumption
Description
Oxygen consumption at peak of exercise
Time Frame
Time 1: sea level, baseline, no treatment. Time 2: sea level, after three weeks of allocated treatment. Time 3: within the first two days of high altitude exposure, under treatment.
Title
Delta Peak Exercise Oxygen Consumption Time 1 Versus Time 3
Description
Difference in peak exercise oxygen consumption between Time 1 and Time 3 (Time 3 - Time 1)
Time Frame
Time 1: sea level, baseline, no treatment. Time 3: within the first two days of high altitude exposure, under treatment.
Title
Peak Exercise Minute Ventilation
Description
Minute ventilation at peak of exercise. Minute ventilation = tidal volume (ml) multiplied by the respiratory rate (breaths/min)
Time Frame
Time 1: sea level, baseline, no treatment. Time 2: sea level, after three weeks of allocated treatment. Time 3: within the first two days of high altitude exposure, under treatment.
Title
Delta Peak Exercise Minute Ventilation Time 1 Versus Time 3.
Description
Difference in peak exercise minute ventilation between Time 1 and Time 3 (Time 3 - Time 1.
Minute ventilation = tidal volume (ml) multiplied by the respiratory rate (breaths/min).
Time Frame
Time 1: sea level, baseline, no treatment. Time 3: within the first two days of high altitude exposure, under treatment.
Secondary Outcome Measure Information:
Title
Peak Exercise Oxygen Saturation
Description
Oxygen saturation by pulse oxymetry at peak of exercise
Time Frame
Time 1: sea level, baseline, no treatment. Time 2: sea level, after three weeks of allocated treatment. Time 3: within the first two days of high altitude exposure, under treatment.
Title
Systolic Pulmonary Artery Pressure.
Time Frame
Time 1: sea level, baseline, no treatment. Time 2: sea level, after three weeks of allocated treatment. Time 3: within the first two days of high altitude exposure, under treatment.
Title
Resting Energy Expenditure
Time Frame
Time 1: sea level, baseline, no treatment. Time 2: sea level, after three weeks of allocated treatment. Time 3: within the first two days of high altitude exposure, under treatment.
Title
Sitting Blood Pressure and Heart Rate
Time Frame
Time 1: sea level, baseline, no treatment. Time 2: sea level, after three weeks of allocated treatment. Time 3: within the first two days of high altitude exposure, under treatment.
Title
Mean 24 Hour/Daytime/Night-time Blood Pressure and Heart Rate
Time Frame
Time 1: sea level, baseline, no treatment. Time 2: sea level, after three weeks of allocated treatment. Time 3: within the first two days of high altitude exposure, under treatment.
10. Eligibility
Sex
All
Minimum Age & Unit of Time
18 Years
Maximum Age & Unit of Time
65 Years
Accepts Healthy Volunteers
Accepts Healthy Volunteers
Eligibility Criteria
Inclusion Criteria
Men or women of any racial background
healthy
sealevel resident
age >= 18 years, =< 65 years
SBP< 130 mmHg and DBP< 80 mmHg, average of two measures at the sceening visit
FG < 100 mg/dl (5.6 mmol/l)
BMI < 25
written informed consent signed
Exclusion Criteria
engagement in regular exercise training
smoking habit
being enrolled in another research study
any current or previous cardiovascular, metabolic disease or any other cronic disease
any current treatment for any medical condition
any medical condition preventing or contraindication exposure to altitude hypoxia
any gastrointestinal disorder interfering with drug absorption
known allergy or contraindications to beta-blockers
pregnant or lactating women; women in reproductive age not using recognized contraceptive methods.
malignancy within the last 5 years
drug abuse or alcohol abuse within the last 5 years
history of noncompliance to medical regimens
incapacity or unwillingness to sign the informed consent
participation in any investigational clinical trial within the last 3 months
Facility Information:
Facility Name
Laboratorio Ricerche Cardiologiche. Istituto Auxologico Italiano. Ospedale S. Luca. Via Spagnoletto, 3. Regina Margherita Hut (Monte Rosa, Italian Alps, 4559 m)
City
Milan
ZIP/Postal Code
20148
Country
Italy
12. IPD Sharing Statement
Citations:
PubMed Identifier
16982943
Citation
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Results Reference
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PubMed Identifier
16533619
Citation
Agostoni P, Contini M, Magini A, Apostolo A, Cattadori G, Bussotti M, Veglia F, Andreini D, Palermo P. Carvedilol reduces exercise-induced hyperventilation: A benefit in normoxia and a problem with hypoxia. Eur J Heart Fail. 2006 Nov;8(7):729-35. doi: 10.1016/j.ejheart.2006.02.001. Epub 2006 Mar 13.
Results Reference
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PubMed Identifier
17563527
Citation
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Citation
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Citation
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Results Reference
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Effects of Nebivolol Versus Carvedilol on Cardiopulmonary Function at High Altitude in Healthy Subjects.
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