Coronary Artery Disease Clinical Trial
Official title:
Efficacy of Early Short-term Training on Thrombogenesis in Patients Following Coronary Bypass Surgery
Although the benefit of cardiac rehabilitation following coronary artery bypass graft (CABG)
is well-established, it is underused. The current investigation will adopt an early,
intensive, short-term and supervised aerobic training at moderate-intensity. The inclusion
criteria are diagnosed coronary artery disease (CAD) and clinical indication for elective
first-time CABG.
Regular physical exercise is associated with overall reduced risk of primary cardiac arrest.
Previous study demonstrated that moderate-intensity exercise training reduced resting and
strenuous exercise-induced activation of platelet and possibly coagulation. Our main
research question is that whether the short-term CR program in the present investigation
will ameliorate hemostatic imbalance at rest and platelet coagulation activation at maximal
stress exercise.
This is designed to be a prospective randomized controlled study. Sixty men who are
scheduled to receive elective CABG in Chang Gung Memorial Hospital at Linkuo will be
enrolled in the study. They will be randomized into two groups: intensive training (IT) and
usual rehabilitation (UR). Participants in the IT group will receive intensive aerobic
training at moderate intensity after CABG. A submaximal exercise test will be performed for
intensity prescription. They will receive two training sessions per day and at least 20
sessions in total. The CR group will receive usual CR program. After intervention, each
participant will receive a maximal exercise test. Additionally, six-minute walk test,
generic and disease-specific quality of life, will be collected before and after training.
Additional 20 age-matched non-sedentary and healthy men without training will be recruited
as control group.
Venous blood will be sampled three times (before and after rehabilitation and maximal stress
test) for the assessment of platelet activation by flow cytometer and activity of
coagulation factors. Mean platelet volume, and platelet activation markers (platelet-bound
CD62P%G, CD63%G, CD40L%G) will be analyzed. Various coagulation and fibrinolysis factors
will be quantified.
We hypothesized that this training program will ameliorate the prothrombotic state and
attenuate platelet reactivity and coagulation induced by strenuous exercise in patients
after CABG. Hopefully, this clinical investigation will establish an early short-term
rehabilitation model following CABG and its efficacy for clinical use.
Introduction
The American College of Cardiology/American Heart Association guidelines suggested that
cardiac rehabilitation (CR) should be offered to all eligible patients after coronary bypass
surgery (CABG).[1] However, CR use in America is relatively low among Medicare beneficiaries
despite convincing evidence of its benefits and recommendations for its use by professional
organizations.[2] This neglect is as well evident in Taiwan. Traffic inconvenience and
unavailability due to working hours are the common causes. There are ways to mend this
situation. One of them is to develop an early, intensive and short-term CR program. The
current investigation will adopt an early, intensive and supervised training for male
patients following elective CABG due to old myocardial infarction and/or angina pectoris.
Meta-analyses of randomized controlled trials have consistently shown that participation in
CR programs improves mortality and morbidity outcomes. It also benefits cardiopulmonary
fitness, quality of life, lipid profile, etc.[3] Nonetheless, research regarding its effect
on balance of thrombogenesis at rest or in response to vigorous exercise is either
incomplete or controversial.
Previous studies found that acute physical exertion may trigger an acute coronary syndrome.
The relative risk of cardiac events was 2-6 times higher during strenuous physical exertion
(>6 METs) compared with during mild to moderate intensity activities in cardiac patients.[4]
One of the possible explanations for this is that acute physical exertion may acutely change
the hemostatic milieu in favor of increased coagulation and activation of platelet.[5]
Available evidence suggests that strenuous exercise, in both healthy subjects and in various
cardiovascular disease states, is associated with activation of platelets and blood
coagulation, leading to a prothrombotic or hypercoagulable state.[6, 7] Aspirin is
ineffective in attenuating enhanced platelet aggregation and activation induced by
exercise.[8]
Regular physical exercise is associated with overall reduced risk of primary cardiac
arrest.[4] D Wosornu et al. showed that a three-month aerobic training program (3 sessions
per week) decreased resting fibrinogen concentration.[9] A meta-analysis showed that an
exercise intervention over 2 weeks is associated with reduced inflammatory activity in
patients with coronary artery disease (CAD). C-reactive protein and fibrinogen have provided
the strongest evidence.[10] Platelet activation by strenuous exercise has been studied in 12
physically active and 12 sedentary individuals before and after a standardized treadmill
exercise test. Among sedentary subjects, exercise caused an augmentation of the platelet
activation and reactivity. In contrast, in physically active subjects exercise failed to
induce alteration in platelet activation state.[11] Our previous study identified that
moderate-intensity exercise training (60% maximal oxygen consumption for 30 min per day, 5
days/week for 8 weeks) reduced resting and strenuous exercise-induced platelet aggregation
and platelet adhesion under shear flow in healthy men,[12] which were accompanied by
decreased vWF binding to platelets and expression of P-selectin on platelets.[13]
Accordingly, our main research question is that whether the short-term CR program in the
current investigation ameliorates hemostatic imbalance at rest and platelet and coagulation
activation at maximal stress exercise.
This is a prospective randomized controlled study. Sixty men who are scheduled to receive
elective CABG in Chang Gung Memorial Hospital at Linkuo will be enrolled in the study. They
will be randomized into two groups: intensive training (IT) and usual rehabilitation (UR).
Participants in the IT group will receive education, reconditioning exercise and early
intensive aerobic training at moderate intensity after CABG. A submaximal exercise test will
be performed for prescription. They will receive two training sessions per day and at least
22 sessions in total. The CR group will receive usual CR program. After intervention, the
participant will receive a maximal exercise test. In addition, six-minute walk test, generic
and disease-specific quality of life will be collected before and after rehabilitation.
Additional 20 age-matched, non-sedentary healthy participants without training will be
recruited as control group.
Venous blood will be sampled three times (before and after rehabilitation and maximal stress
test) for the assessment of platelet activation by flow cytometer and hemorheological
profile by coagulation analyzer. Mean platelet volume, and platelet activation markers
(platelet-bound CD62P%G, CD63%G, CD40L%G) will be analyzed. Various coagulation and
fibrinolysis factors will be quantified including PT, aPTT, fibrinogen, thrombin time,
FVIII:C, antithrombin, plasminogen, antiplasmin, anti-Xa and thrombin generation, D-Dimer,
vWF etc.
We hypothesized that this training program will ameliorate the prothrombotic state and
attenuate platelet reactivity and coagulation induced by strenuous exercise in patients
after CABG. Hopefully, this clinical investigation will establish an early short-term
rehabilitation model following CABG and its efficacy for clinical use.
Methodology
Participants A prospective study will be performed within the Cardiovascular Ward of Chang
Gung Memorial Hospital, Linkuo. The inclusion criteria is diagnosed CAD and scheduled to
receive elective CABG. Patients awaiting first-time elective CABG will be invited to
participate in the study, and enrolled after giving written informed consent. Sixty patients
will be enrolled. Exclusion criteria are musculoskeletal or neurological impairment
precluding performance of cycling and walking assessment, atrial fibrillation, receiving
anticoagulation therapy, inability to complete questionnaires, planned concomitant surgery,
and a clinical status which requires emergent CABG. Additional 20 non-sedentary, age-matched
healthy subjects without cardiovascular illness will be recruited as the control group.
Non-sedentary life style is defined as walking more than 25 minutes in average per day
according to the National Population Health Surveys of Canada. [14]
Randomization The patients will be randomized to two treatment groups (see Table 1 below)
following assessment of study eligibility but prior to initial physiotherapy assessment.
Randomization will be performed by means of random number generator based on their medical
chart number. Thirty patients will be allocated to receive usual rehabilitation (UR); 30 to
intensive training (IT).
Intervention protocol Physiotherapy interventions received by the two study groups are
documented in Table 1. The IT group will receive physiotherapy twice daily with longer
duration and higher intensity. After postoperative day5th, the training intensity will be
prescribed at ventilatory anaerobic threshold (VAT) based on the submaximal exercise test in
which the end point is supra-VAT. All physiotherapy interventions will be undertaken by one
physiotherapist, specifically trained in the education and treatment methods used in the
study.[15-17]
Supplemental oxygen will be used for all supervised/assisted walks if resting oxygen
saturations is <92%. If patients are in sinus tachycardia (defined as >120 beats/min at
rest) without hemodynamic compromise, exercise will be undertaken at a "comfortable" pace
rather than at a "moderate" or "somewhat strong" level of perceived exertion. Patients will
be counseled not to do walking training outside of physiotherapy sessions.
All patients will receive outcome assessment including cardiopulmonary exercise test,
6-minute-walk, quality of life, and hemorheological profile at basal and after strenuous
exercise (Figure 1).
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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