The Effects of Aerobic Exercise Training on Vascular, Cardiac and Cerebral Vascular Function in COPD
2016年8月17日 更新者:University of British Columbia
The Effects of Aerobic Exercise Training on Peripheral Vascular, Cardiac and Cerebral Vascular Function in Patients With Chronic Obstructive Pulmonary Disease
The primary cause of chronic obstructive pulmonary disease is smoking, which can lead to inflammation in the lungs and blood vessels that can lead to secondary problems such as blood vessel disease, high blood pressure and heart disease.
Aerobic exercise training has been shown to reduce the risk of heart and brain disease; however, it is currently unknown whether exercise training can have the same affect in patients with COPD.
The aim of this study is to investigate how eight weeks of aerobic exercise training improves blood vessel and heart function and brain blood flow in patients with COPD.
調査の概要
詳細な説明
Chronic obstructive pulmonary disease (COPD) is a treatable respiratory condition that is only partially reversible.
The primary cause of COPD is smoking which leads to airway inflammation and oxidative damage to the lungs, which has been linked to the development and progression of the disease.
The inflammation is not isolated to the lungs as patients with COPD also have systemic inflammation that has been linked to a number of cardiovascular comorbidities such as endothelial dysfunction, cardiovascular disease and stroke.
Evidence demonstrates that COPD patients have a greater incidence of vascular dysfunction and adverse vascular remodeling, which worsens with disease severity.
In fact, patients with COPD are at 35 times greater risk of developing cardiovascular disease and stroke than healthy aged matched individuals.
In healthy individuals and a number of chronic conditions, aerobic exercise training is well established to reduce the risk of cardiovascular and cerebrovascular disease.
The benefits of exercise are likely through improvements in endothelial function, systemic inflammation, and cardiac and cerebral vascular function.
However, whether exercise training can have the same effects in a chronic inflammatory condition like COPD has not been studied.
The purpose of this study is to determine the effectiveness of an 8 week aerobic exercise training program in patient's chronic obstructive pulmonary disease as determined by improvements in endothelial function, systemic inflammation and cardiac and cerebral vascular function.
研究の種類
介入
入学 (実際)
58
段階
- 適用できない
連絡先と場所
このセクションには、調査を実施する担当者の連絡先の詳細と、この調査が実施されている場所に関する情報が記載されています。
研究場所
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British Columbia
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Kelowna、British Columbia、カナダ、V1V 1V7
- University of British Columbia
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参加基準
研究者は、適格基準と呼ばれる特定の説明に適合する人を探します。これらの基準のいくつかの例は、人の一般的な健康状態または以前の治療です。
適格基準
就学可能な年齢
40年~80年 (大人、高齢者)
健康ボランティアの受け入れ
はい
受講資格のある性別
全て
説明
Inclusion Criteria:
- Non-smokers (>6 months);
- Forced expiratory volume in one second/ forced vital capacity (FEV1/FVC) < 0.7 and FEV1/FVC <lower limit of normal
- Stable (>3 months exacerbation free)
Exclusion Criteria:
- On supplemental oxygen;
- Known cardiac or cerebral vascular disease, diabetes, obstructive sleep apnea;
- Uncontrolled hypertension;
- BMI >30kg/m2
- Currently performing pulmonary rehabilitation or structured exercise training;
- Desaturate during exercise (SpO2<85%)
- Cardiovascular contraindications to exercise in the incremental test used for screening
研究計画
このセクションでは、研究がどのように設計され、研究が何を測定しているかなど、研究計画の詳細を提供します。
研究はどのように設計されていますか?
デザインの詳細
- 主な目的:処理
- 割り当て:非ランダム化
- 介入モデル:並列代入
- マスキング:独身
武器と介入
参加者グループ / アーム |
介入・治療 |
|---|---|
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実験的:Patients with COPD
Stable patients with COPD participated in an 8-week (24 session) individualized, non-linear aerobic exercise training program consisting of upper and lower body cycle ergometry.
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Aerobic exercise performed on lower body stationary ergometer and an upper extremity arm crank.
Intensity (50-95% workload maximum) and durations (20-45 min) are fluctuated daily to optimize training stress and adaptation
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アクティブコンパレータ:Healthy Controls
Age, sex, BMI and activity matched controls participated in an 8-week (24 session) individualized, non-linear aerobic exercise training program consisting of upper and lower body cycle ergometry.
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Aerobic exercise performed on lower body stationary ergometer and an upper extremity arm crank.
Intensity (50-95% workload maximum) and durations (20-45 min) are fluctuated daily to optimize training stress and adaptation
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この研究は何を測定していますか?
主要な結果の測定
結果測定 |
メジャーの説明 |
時間枠 |
|---|---|---|
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Endothelial Function
時間枠:8-weeks (following 24 sessions of exercise training)
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The change in brachial artery flow mediated dilation measured using reactive hyperaemia
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8-weeks (following 24 sessions of exercise training)
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二次結果の測定
結果測定 |
メジャーの説明 |
時間枠 |
|---|---|---|
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Arterial Stiffness
時間枠:8-weeks (following 24 sessions of exercise training)
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The change in pulse wave velocity measured using tonometry
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8-weeks (following 24 sessions of exercise training)
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Carotid intima-medial thickness
時間枠:8-weeks (following 24 sessions of exercise training)
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The change in carotid intima-medial thickness measured by ultrasound
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8-weeks (following 24 sessions of exercise training)
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Carotid Compliance
時間枠:8-weeks (following 24 sessions of exercise training)
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The change in carotid compliance measured using tonometry and ultrasound for the carotid arteries
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8-weeks (following 24 sessions of exercise training)
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Inflammatory Biomarkers
時間枠:8-weeks (following 24 sessions of exercise training)
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The change in serum levels of CRP, IL-6, IL-10 and TNF-alpha measured using Luminex multiplex bead-based technology
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8-weeks (following 24 sessions of exercise training)
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Systolic function
時間枠:8-weeks (following 24 sessions of exercise training)
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The change in stroke volume using echocardiography
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8-weeks (following 24 sessions of exercise training)
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Diastolic function
時間枠:8-weeks (following 24 sessions of exercise training)
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The change in left ventricular end-diastolic volume using echocardiography
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8-weeks (following 24 sessions of exercise training)
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Cerebral Blood Flow
時間枠:8-weeks (following 24 sessions of exercise training)
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The change in cerebral and neck blood flow using ultrasound
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8-weeks (following 24 sessions of exercise training)
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Cerebrovascular Reactivity
時間枠:8-weeks (following 24 sessions of exercise training)
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The change in middle cerebral artery velocity in response to carbon dioxide
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8-weeks (following 24 sessions of exercise training)
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Cerebrovascular Autoregulation
時間枠:8-weeks (following 24 sessions of exercise training)
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The change in phase delay measured by transfer function analysis
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8-weeks (following 24 sessions of exercise training)
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協力者と研究者
ここでは、この調査に関係する人々や組織を見つけることができます。
捜査官
- 主任研究者:Neil Eves, PhD、University of British Columbia
出版物と役立つリンク
研究に関する情報を入力する責任者は、自発的にこれらの出版物を提供します。これらは、研究に関連するあらゆるものに関するものである可能性があります。
一般刊行物
- Gelinas JC, Lewis NC, Harper MI, Ainslie PN, Rolf JD, Eves ND. Aerobic Exercise Training on Peripheral Vascular Structure and Function in Patients with Chronic Obstructive Pulmonary Disease. American Journal of Respiratory and Critical Care Medicine, 191:A5305, 2015.
研究記録日
これらの日付は、ClinicalTrials.gov への研究記録と要約結果の提出の進捗状況を追跡します。研究記録と報告された結果は、国立医学図書館 (NLM) によって審査され、公開 Web サイトに掲載される前に、特定の品質管理基準を満たしていることが確認されます。
主要日程の研究
研究開始
2012年1月1日
一次修了 (実際)
2015年5月1日
研究の完了 (実際)
2015年5月1日
試験登録日
最初に提出
2016年8月4日
QC基準を満たした最初の提出物
2016年8月17日
最初の投稿 (見積もり)
2016年8月23日
学習記録の更新
投稿された最後の更新 (見積もり)
2016年8月23日
QC基準を満たした最後の更新が送信されました
2016年8月17日
最終確認日
2016年8月1日
詳しくは
本研究に関する用語
追加の関連 MeSH 用語
その他の研究ID番号
- H11-02770
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