Dennis M. Fisher scite author profile

Context.-Although concern over the risks of red blood cell transfusion has resulted in several practice guidelines for transfusion, lack of data regarding the physiological effects of anemia in humans has caused uncertainty regarding the blood hemoglobin (Hb) concentration requiring treatment.Objective.-To test the hypothesis that acute isovolemic reduction of blood Hb concentration to 50 g/L in healthy resting humans would produce inadequate cardiovascular compensation and result in tissue hypoxia secondary to inadequate oxygen transport.Design.-Before and after interventional study.Setting.-Academic tertiary care medical center.Participants.-Conscious healthy patients (n=11) prior to anesthesia and surgery and volunteers not undergoing surgery (n=21).Interventions.-Aliquots of blood (450-900 mL) were removed to reduce blood Hb concentration from 131 (2) g/L to 50 (1) g/L [mean (SE)]. Isovolemia was maintained with 5% human albumin and/or autologous plasma. Cardiovascular parameters, arterial and mixed venous oxygen content, oxyhemoglobin saturation, and arterial blood lactate were measured before and after removal of each aliquot of blood. Electrocardiogram and, in a subset, Holter monitor were monitored continuously.Main Outcome Measures.-"Critical" oxygen delivery (TO 2 ) as assessed by oxygen consumption (V O 2 ), plasma lactate concentration, and ST changes on electrocardiogram.Results.-Acute, isovolemic reduction of Hb concentration decreased systemic vascular resistance and TO 2 and increased heart rate, stroke volume, and cardiac index (each PϽ.001). We did not find evidence of inadequate oxygenation: V O 2 increased slightly from a mean (SD) of 3.07 (0.44) mL of oxygen per kilogram per minute (mL O 2 •kg −1 •min −1 ) to 3.42 (0.54) mL O 2 •kg −1 •min −1 (PϽ.001) and plasma lactate concentration did not change (0.81 [0.11] mmol/L to 0.62 [0.19] mmol/L; P=.09). Two subjects developed significant ST changes on Holter monitor: one apparently related to body position or activity, the other to an increase in heart rate (at an Hb concentration of 46-53 g/L); both occurred in young women and resolved without sequelae.Conclusions.-Acute isovolemic reduction of blood Hb concentration to 50 g/L in conscious healthy resting humans does not produce evidence of inadequate systemic TO 2 , as assessed by lack of change of V O 2 and plasma lactate concentration. Analysis of Holter readings suggests that at this Hb concentration in this resting healthy population, myocardial ischemia would occur infrequently.

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Melatonin agonist tasimelteon (VEC-162) for transient insomnia after sleep-time shift: two randomised controlled multicentre trials

Rajaratnam¹,

Polymeropoulos²,

Fisher³

et al. 2009

The Lancet

183

136

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Gender Differences in Opioid-mediated Analgesia

et al. 2000

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Postoperative Pharmacokinetics and Sympatholytic Effects of Dexmedetomidine

Talke

Richardson

Scheinin

et al. 1997

Anesthesia & Analgesia

136

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Are Estimates of MAC Reliable?

Paul

Fisher

2001

115

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Human Cardiovascular and Metabolic Response to Acute, Severe Isovolemic Anemia

Weiskopf

Viele

Feiner

et al. 1998

Survey of Anesthesiology

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Tasimelteon for non-24-hour sleep–wake disorder in totally blind people (SET and RESET): two multicentre, randomised, double-masked, placebo-controlled phase 3 trials

et al. 2015

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Twenty-four-Hour Pharmacokinetics of Rectal Acetaminophen in Children

Birmingham¹,

Tobin²,

Henthorn³

et al. 1997

172

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Dennis M. Fisher

Human Cardiovascular and Metabolic Response to Acute, Severe Isovolemic Anemia

Melatonin agonist tasimelteon (VEC-162) for transient insomnia after sleep-time shift: two randomised controlled multicentre trials

Gender Differences in Opioid-mediated Analgesia

Postoperative Pharmacokinetics and Sympatholytic Effects of Dexmedetomidine

Are Estimates of MAC Reliable?

Human Cardiovascular and Metabolic Response to Acute, Severe Isovolemic Anemia

Tasimelteon for non-24-hour sleep–wake disorder in totally blind people (SET and RESET): two multicentre, randomised, double-masked, placebo-controlled phase 3 trials

Twenty-four-Hour Pharmacokinetics of Rectal Acetaminophen in Children

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