Blood Pressure and the Brain: How Low Can You Go?

There are occasionally intraoperative circumstances in which reduction of mean arterial pressure (MAP) to levels well below those that occur in nonanesthetized adults is necessary or unavoidable. In these situations, clinicians are inevitably concerned about the limits of the tolerance of the brain...

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Published in	Anesthesia and analgesia Vol. 128; no. 4; pp. 759 - 771
Main Author	Drummond, John C.
Format	Journal Article
Language	English
Published	United States International Anesthesia Research Society 01.04.2019
Subjects	Arterial Pressure Blood Pressure Blood Pressure Determination Brain - pathology Brain Ischemia - pathology Cerebrovascular Circulation Homeostasis - physiology Humans Hypotension - physiopathology Intraoperative Period Monitoring, Intraoperative Oximetry Patient Positioning Reproducibility of Results
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Abstract	There are occasionally intraoperative circumstances in which reduction of mean arterial pressure (MAP) to levels well below those that occur in nonanesthetized adults is necessary or unavoidable. In these situations, clinicians are inevitably concerned about the limits of the tolerance of the brain for hypotension. Reference to the phenomenon of cerebral blood flow autoregulation is frequently made in discussions of safe MAP limits. However, in several respects, prevalent conceptions about cerebral blood flow autoregulation may be incomplete or inaccurate. The principal theses offered by this review are(1) that the average lower limit of cerebral blood flow autoregulation in normotensive adult humans is not less than a MAP of 70 mm Hg; (2) that there is considerable intersubject variability in both the lower limit of cerebral blood flow autoregulation and the efficiency of cerebral blood flow autoregulation; (3) that there is a substantial blood flow reserve that buffers the normal central nervous system against critical blood flow reduction in the face of hypotension; (4) that there are several common clinical phenomena that have the potential to compromise that buffer, and that should be taken into account in decision making about minimum acceptable MAPs; and (5) that the average threshold for the onset of central nervous system ischemic symptoms is probably a MAP of 40–50 mm Hg at the level of the circle of Willis in a normotensive adult in a vertical posture and 45–55 mm Hg in a supine subject. However, these MAPs should probably only be approached deliberately when the exigencies of the surgical situation absolutely require it.
AbstractList	There are occasionally intraoperative circumstances in which reduction of mean arterial pressure (MAP) to levels well below those that occur in nonanesthetized adults is necessary or unavoidable. In these situations, clinicians are inevitably concerned about the limits of the tolerance of the brain for hypotension. Reference to the phenomenon of cerebral blood flow autoregulation is frequently made in discussions of safe MAP limits. However, in several respects, prevalent conceptions about cerebral blood flow autoregulation may be incomplete or inaccurate. The principal theses offered by this review are: (1) that the average lower limit of cerebral blood flow autoregulation in normotensive adult humans is not less than a MAP of 70 mm Hg; (2) that there is considerable intersubject variability in both the lower limit of cerebral blood flow autoregulation and the efficiency of cerebral blood flow autoregulation; (3) that there is a substantial blood flow reserve that buffers the normal central nervous system against critical blood flow reduction in the face of hypotension; (4) that there are several common clinical phenomena that have the potential to compromise that buffer, and that should be taken into account in decision making about minimum acceptable MAPs; and (5) that the average threshold for the onset of central nervous system ischemic symptoms is probably a MAP of 40-50 mm Hg at the level of the circle of Willis in a normotensive adult in a vertical posture and 45-55 mm Hg in a supine subject. However, these MAPs should probably only be approached deliberately when the exigencies of the surgical situation absolutely require it. There are occasionally intraoperative circumstances in which reduction of mean arterial pressure (MAP) to levels well below those that occur in nonanesthetized adults is necessary or unavoidable. In these situations, clinicians are inevitably concerned about the limits of the tolerance of the brain for hypotension. Reference to the phenomenon of cerebral blood flow autoregulation is frequently made in discussions of safe MAP limits. However, in several respects, prevalent conceptions about cerebral blood flow autoregulation may be incomplete or inaccurate. The principal theses offered by this review are: (1) that the average lower limit of cerebral blood flow autoregulation in normotensive adult humans is not less than a MAP of 70 mm Hg; (2) that there is considerable intersubject variability in both the lower limit of cerebral blood flow autoregulation and the efficiency of cerebral blood flow autoregulation; (3) that there is a substantial blood flow reserve that buffers the normal central nervous system against critical blood flow reduction in the face of hypotension; (4) that there are several common clinical phenomena that have the potential to compromise that buffer, and that should be taken into account in decision making about minimum acceptable MAPs; and (5) that the average threshold for the onset of central nervous system ischemic symptoms is probably a MAP of 40-50 mm Hg at the level of the circle of Willis in a normotensive adult in a vertical posture and 45-55 mm Hg in a supine subject. However, these MAPs should probably only be approached deliberately when the exigencies of the surgical situation absolutely require it.There are occasionally intraoperative circumstances in which reduction of mean arterial pressure (MAP) to levels well below those that occur in nonanesthetized adults is necessary or unavoidable. In these situations, clinicians are inevitably concerned about the limits of the tolerance of the brain for hypotension. Reference to the phenomenon of cerebral blood flow autoregulation is frequently made in discussions of safe MAP limits. However, in several respects, prevalent conceptions about cerebral blood flow autoregulation may be incomplete or inaccurate. The principal theses offered by this review are: (1) that the average lower limit of cerebral blood flow autoregulation in normotensive adult humans is not less than a MAP of 70 mm Hg; (2) that there is considerable intersubject variability in both the lower limit of cerebral blood flow autoregulation and the efficiency of cerebral blood flow autoregulation; (3) that there is a substantial blood flow reserve that buffers the normal central nervous system against critical blood flow reduction in the face of hypotension; (4) that there are several common clinical phenomena that have the potential to compromise that buffer, and that should be taken into account in decision making about minimum acceptable MAPs; and (5) that the average threshold for the onset of central nervous system ischemic symptoms is probably a MAP of 40-50 mm Hg at the level of the circle of Willis in a normotensive adult in a vertical posture and 45-55 mm Hg in a supine subject. However, these MAPs should probably only be approached deliberately when the exigencies of the surgical situation absolutely require it.
Author	Drummond, John C.
AuthorAffiliation	From the Department of Anesthesiology, the University of California San Diego, La Jolla, California; and Anesthesia Service, VA Medical Center, San Diego, California
AuthorAffiliation_xml	– name: From the Department of Anesthesiology, the University of California San Diego, La Jolla, California; and Anesthesia Service, VA Medical Center, San Diego, California
Author_xml	– sequence: 1 givenname: John C. surname: Drummond fullname: Drummond, John C. organization: From the Department of Anesthesiology, the University of California San Diego, La Jolla, California; and Anesthesia Service, VA Medical Center, San Diego, California
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/30883421$$D View this record in MEDLINE/PubMed
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Snippet	There are occasionally intraoperative circumstances in which reduction of mean arterial pressure (MAP) to levels well below those that occur in nonanesthetized...
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SubjectTerms	Arterial Pressure Blood Pressure Blood Pressure Determination Brain - pathology Brain Ischemia - pathology Cerebrovascular Circulation Homeostasis - physiology Humans Hypotension - physiopathology Intraoperative Period Monitoring, Intraoperative Oximetry Patient Positioning Reproducibility of Results
Title	Blood Pressure and the Brain: How Low Can You Go?
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