Cardiac Surgery Clinical Trial
Official title:
Optimizing Cerebral Oxygenation in Cardiac Surgery
The purpose of this study is to test whether keeping the amount of oxygen delivered to the
brain above a certain level during surgery and 24-hours after surgery improves recovery.
Hypothesis 1: keeping the amount of oxygen delivered to the brain above a certain level
during surgery and 24-hours after surgery improves cognitive and neurological outcomes after
cardiac and aortic surgery.
Hypothesis 2: keeping the amount of oxygen delivered to the brain above a certain level
during surgery and 24-hours after surgery helps reduce major organ problems after cardiac
and aortic surgery.
To test our hypotheses, the investigators will conduct a randomized control trial. Patients
will be randomly assigned to one of two possible study groups. In the Treatment Group, the
brain oxygen level will be watched by doctors and used to guide care in the operating room
and the first day in the intensive care unit after surgery. Doctors will try to keep the
brain oxygen level in a normal range by adjusting your blood pressure, carbon dioxide and
blood acidity levels, and blood count. In the Control Group, the doctors will not be aware
of the brain oxygen level unless it falls below a level that may be dangerous. If a
patient's brain oxygen falls below such a level, the doctors will adjust the blood pressure,
carbon dioxide and blood acidity levels, and blood count to increase the brain oxygen level.
All other procedures will be part of regular medical care and will be performed according to
the standard of care.
Background
There is a high incidence of cognitive dysfunction, neurological dysfunction, and
multi-system organ dysfunction syndrome following cardiac surgery. There is preliminary
evidence that optimization of cerebral oxygenation is associated with improved neurological
and clinical outcomes.
Cerebral oximetry using near infrared spectroscopy (NIRS) is based on the ability of
near-infrared light to penetrate scalp and skull, and its differential intracranial
absorbance by oxyhemoglobin (HbO2) and deoxyhemoglobin (Hb). Cerebral oximetry measures
regional cerebral tissue oxygen saturation (SctO2) at the microvascular level (arterioles,
venules, and capillaries) and provides information on the availability of oxygen in brain
tissue. Unlike digital pulse oximetry, SctO2 reflects regional cerebral metabolism and the
regional balance of cerebral oxygen supply and demand. NIRS SctO2 is the most promising
monitoring technology for the purpose of guiding interventions targeted to improve brain and
other organ preservation. The reasons for this include: (1) SctO2 is continuous,
non-invasive, and available at the point of care; and (2) SctO2 is a sensitive index of
cerebral hypoxia and/or cerebral ischemia, which are the main causes of brain injury in
clinical settings. The preliminary work of Murkin strongly suggests that optimizing tissue
perfusion using protocol-based treatments that optimize SctO2 decrease end-organ dysfunction
in cardiothoracic surgical patients.
Recruitment Methods
Potential subjects are patients who are planned to undergo elective cardiac surgery at Mount
Sinai Hospital. Potential subjects will be identified by checking the pre-admission schedule
f or cardiothoracic surgery on a daily basis. Patients will be recruited at the surgical
pre-admission screening; written informed consent will be obtained.
Risks to Subjects
Cerebral oximetry and computerized neurocognitive testing pose no known risk of harm to
subjects.
Cerebral oximetry is an evolving technology that is not currently or imminently becoming a
standard of care in monitoring for cardiothoracic surgical patients. The expense and the
lack of outcome data make this a discretionary monitoring technology that is advocated by
some, but that is not incorporated into any evidence-based guidelines or practice
parameters. Therefore, compared with the existing standards of care, patients are not
exposed to additional risk by withholding cerebral oximetry information from the
practitioners.
Interventions to maintain cerebral oximetry above threshold values could be potentially
injurious (e.g., initiating a red blood cell transfusion when it would not otherwise be
given), however, any potential risk that is imparted by the interventions to maintain
cerebral oximetry values are justified by the benefits of averting low or very low period of
cerebral oximetry within the context of this research protocol.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Subject), Primary Purpose: Prevention
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