Your search keyword '"Gould SA"' showing total 9 results

1. Acute dilutional anemia and critical left anterior descending coronary artery stenosis impairs end organ oxygen delivery.

Author

Levy PS, Quigley RL, and Gould SA

Subjects

Anemia complications, Animals, Constriction, Pathologic, Coronary Disease complications, Disease Models, Animal, Dogs, Female, Hemodilution, Male, Oxygen Consumption, Regional Blood Flow, Vasoconstriction, Anemia metabolism, Coronary Disease metabolism, Oxygen metabolism

Abstract

Objective: Limited cardiac reserve, secondary to coronary disease, may be associated with end organ morbidity. In this study, we investigate the significance of anemia in the pathogenesis of this phenomenon., Design: Nonrandomized controlled animal trial., Settings: Animal laboratory in a university hospital., Subject: Anesthetized dogs. INTERVENTIONS/MEASUREMENTS: Fourteen anesthetized dogs underwent isovolemic hemodilution with 6% hetastarch from a baseline hematocrit of 40 to 20%. Radioactive microspheres were used to evaluate regional blood flow and cardiac index. Systemic oxygen delivery, consumption, serum lactate, and systemic vascular resistance were recorded during each experiment. Arterial venous oxygen difference was determined from arterial and mixed venous blood. Seven dogs had an iatrogenic critical stenosis of their left anterior descending coronary artery (experimental group); seven dogs did not (control)., Main Results: Only in the control animals, the cardiac index increased by 35% with hemodilution to 20%. Systemic oxygen delivery decreased in both the control and the experimental animals. Systemic oxygen consumption and lactate levels were unchanged in both groups. In the renal cortex, spleen, distal colon, ileum, gallbladder, and stomach body, regional O2 delivery was significantly decreased with hemodilution to 20% in both groups. This finding was also observed in the left ventricle and cervical spinal cord in the experimental group. In addition, regional O2 delivery was reduced in the spleen, distal colon, and gallbladder with hemodilution to only 30%. Regional blood flow in the stomach body, gallbladder, ileum, renal cortex, and distal colon, in both groups, and the spleen in the control group was unchanged from baseline with hemodilution to 20%. However, regional blood flow under all other circumstances (control or experimental) was significantly increased with hemodilution to 20% with the exception of the spleen, which showed significant regional blood flow decrease in the experimental group only., Conclusions: These data suggest that with limited cardiac reserve, anemia may compromise aerobic splanchnic circulation. These observations may further our understanding of the pathogenesis of cholecystitis, gastric stress ulcers, ileal endotoxin translocation, and ischemic colitis in critically ill patients with coronary artery disease.

Published

1996

2. Effects of recombinant human erythropoietin and interleukin-3 on erythropoietic recovery from acute anemia.

Author

Rosen BS, Levine EA, Egrie JC, Sehgal LR, Greenberg R, Rosen AL, Levine HD, and Gould SA

Subjects

Acute Disease, Analysis of Variance, Anemia drug therapy, Animals, Blood Cell Count drug effects, Disease Models, Animal, Drug Therapy, Combination, Erythropoietin therapeutic use, Interleukin-3 therapeutic use, Male, Papio, Recombinant Proteins pharmacology, Recombinant Proteins therapeutic use, Anemia blood, Erythropoiesis drug effects, Erythropoietin pharmacology, Interleukin-3 pharmacology

Abstract

The risks inherent in the use of homologous blood products have increased efforts toward identifying alternatives to transfusion. We have previously shown that the administration of recombinant human erythropoietin (rhEpo) enhances the erythropoietic response to acute blood loss. Recombinant human interleukin-3 (rh-IL-3) is a hematopoietic growth factor that has been shown to act synergistically with rhEpo in accelerating erythropoiesis in vitro. The purpose of this study in a primate model was to determine if the administration of rhIL-3 in combination with rhEpo could augment the erythropoietic response to acute blood loss more than rhEpo therapy alone. Twenty-four adult male baboons were randomized into four groups. The induction of acute normovolemic anemia to a hematocrit of 20% was accomplished via exchange-transfusion with 6% hetastarch. The groups were then treated for 7 consecutive days with the following growth factors: group I (n = 7), no growth factors; group II (n = 5), rhIL-3 alone (100 micrograms/kg/d); group III (n = 6), rhEpo alone (1000 U/kg/d); group IV (n = 6), rhEpo (1000 U/kg/d) plus rhIL-3 (100 micrograms/kg/d). All animals received folate, vitamin B12, and intravenous iron-dextran immediately following the exchange-transfusion. Response to therapy was monitored for 35 days. There were no adverse reactions following growth factor administration. The analysis of erythropoietic rates between study days 1 through 11, as determined via linear regression analysis, revealed that hematocrits increased significantly faster in the groups receiving rhEpo compared to controls. The administration of rhIL-3, however, did not increase the rate of erythropoiesis when compared to controls, nor did it augment response when added to the rhEpo regimen. The results of this study demonstrate that the administration of rhIL-3 alone had no significant effect on erythropoiesis in this setting of acute blood loss. Further, despite promising in vitro data, rhIL-3 provided no additional stimulation of erythropoiesis in animals receiving rhEpo. Nevertheless, the study confirms that the pharmacologic acceleration of erythropoiesis by rhEpo alone remains an attractive alternative to homologous transfusion.

Published

1993

3. Oxygen extraction ratio: a valid indicator of transfusion need in limited coronary vascular reserve?

Author

Levy PS, Chavez RP, Crystal GJ, Kim SJ, Eckel PK, Sehgal LR, Sehgal HL, Salem MR, and Gould SA

Subjects

Anemia complications, Anemia therapy, Animals, Cardiac Output, Low etiology, Coronary Circulation, Coronary Disease complications, Coronary Disease physiopathology, Disease Models, Animal, Dogs, Evaluation Studies as Topic, Hematocrit, Lactates blood, Reproducibility of Results, Anemia blood, Coronary Disease metabolism, Exchange Transfusion, Whole Blood standards, Hemorrhage complications, Oxygen Consumption

Abstract

We have described whole body oxygen (O2) extraction ratio (ER) as a reliable indicator of transfusion need in acute normovolemic anemia. In normal hearts, myocardial lactate production (-LACT), indicating anaerobic metabolism, does not occur until the ER greater than 50% and Hct less than 10%. It is not known if the ER is valid in the setting of limited coronary vascular reserve. This study assesses the effect of a critical left anterior descending (LAD) coronary stenosis on the compensation to acute blood loss anemia. Adult dogs were anesthetized, paralyzed, and mechanically ventilated. A critical LAD stenosis was created in seven animals (STEN). There were seven controls (CON). Animals underwent isovolemic exchange transfusion with 6% HES until cardiac failure (CF). Catheters were placed in the aorta, pulmonary artery, and anterior interventricular coronary vein. Cardiac failure occurred at Hct = 8.6% +/- 0.4% in the CON and 17.0% +/- 0.5% in the STEN animals. Cardiac output increased in the CON, but not in the STEN animals. Blood flow in the LAD increased in the CON but not the STEN animals. -LACT began in the CON and STEN animals at Hct less than 20% and coincided with an ER greater than 50% in both groups. We conclude that CF occurs at a higher hematocrit with a critical LAD stenosis. The whole body ER greater than 50% remains a valid indicator of myocardial metabolism in anemia in the presence of limited coronary vascular reserve. The ER may be a useful guide to transfusion therapy.

Published

1992

4. Erythropoietic response to acute anemia.

Author

Rosen AL, Gould SA, Sehgal LR, Levine EA, Sehgal HL, Goldwasser E, Beaver CW, and Moss GS

Subjects

Acute Disease, Animals, Blood Substitutes administration & dosage, Dextrans administration & dosage, Fluorocarbons administration & dosage, Fluorocarbons pharmacology, Hematocrit, Hemorrhage physiopathology, Iron-Dextran Complex administration & dosage, Male, Oxygen Inhalation Therapy, Papio, Anemia physiopathology, Erythropoiesis

Abstract

Reliance on a brisk erythropoietic response to untreated blood loss is an alternative to transfusion of homologous blood. Slow erythropoiesis has been observed in ICU patients who refused blood. Many of these patients received supplemental oxygen therapy and Fluosol-DA, a temporary red cell substitute. This study reports the erythropoietic response, in the baboon, to moderate (Hct 20%) and severe (Hct 10%) anemia. In addition, the effect of oxygen therapy (FIO2 0.6 for 1 wk) and fluorocarbon emulsions (Oxypherol) on erythropoiesis was evaluated. Baboons uniformly survived acute normovolemic anemia with Hct 10%. In all cases, the response to anemia was characterized by a lag period (with no change in Hct), and a nonlinear recovery period. A lag period of 3 days was observed in both moderate and severe anemia for baboons breathing room air or FIO2 0.6. The lag period was prolonged to 1 wk in the presence of Oxypherol. The recovery period exhibited a uniform and negative correlation between the rate of Hct change and the Hct, in all cases. The theoretical maximum rate of increase of Hct was 2.6%/day. In untreated blood loss, shortening the lag period and increasing the slope of the recovery period will decrease the length of time that the patient is anemic.

Published

1990

5. Effect of hemoglobin solution on compensation to anemia in the erythrocyte-free primate.

Author

Rosen AL, Gould SA, Sehgal LR, Sehgal HL, Levine HD, DeWoskin RD, and Moss GS

Subjects

Anemia blood, Anemia physiopathology, Animals, Blood Substitutes administration & dosage, Cardiac Output, Evaluation Studies as Topic, Exchange Transfusion, Whole Blood, Female, Hemoglobins administration & dosage, Hemoglobins metabolism, Oxygen blood, Papio, Solutions, Anemia therapy, Blood Substitutes therapeutic use

Abstract

Hemoglobin solutions are undergoing clinical trials as erythrocyte substitutes. Some of these solutions have higher O2 affinities compared with normal erythrocyte hemoglobin. Also, they appear to interact with endothelial-derived smooth muscle relaxation. The purpose of this study was to evaluate the nature and limits of compensation to acute normovolemic anemia in the erythrocyte-free primate maintained with a hemoglobin solution. The experimental group consisted of six anesthetized paralyzed adult baboons (Papio anubis) that were exchange transfused (ET) with a pyridoxylated polymerized hemoglobin solution [hemoglobin concentration [( Hb]) = 14 g/dl, O2 half-saturation pressure of hemoglobin (P50) = 19.6 Torr] until a hematocrit less than 1% was achieved. They underwent a second ET with Dextran-70 until [Hb] = 1 g/dl. A control group (n = 6) underwent an ET with Dextran-70 until [Hb] = 1 g/dl. Both groups maintained O2 consumption (VO2) until [Hb] = 3 g/dl. Both groups were stable until [Hb] less than 1 g/dl, and both groups increased their cardiac output. The relation between VO2 and O2 delivery was similar for both groups. In vivo P50 and mixed venous O2 tension were significantly lower in the experimental group. The nature and limits of compensation to diminished O2 delivery due to anemia were similar in the two groups.

Published

1990

6. Oxygen extraction ratio: a valid indicator of myocardial metabolism in anemia.

Author

Wilkerson DK, Rosen AL, Gould SA, Sehgal LR, Sehgal HL, and Moss GS

Subjects

Animals, Exchange Transfusion, Whole Blood, Hematocrit, Hemodilution, Lactates metabolism, Papio, Anemia metabolism, Cardiac Output, Myocardium metabolism, Oxygen Consumption

Abstract

We have shown that primates adequately compensate for acute normovolemic anemia to hematocrits (HCT) of 10%. We have described a whole-body extraction ratio (O2 consumption/O2 delivery; ER) of 50% as a reliable physiologic indicator of transfusion need. There is concern that whole-body ER may not accurately reflect impaired myocardial metabolism. The onset of significant lactate production by the left ventricle is an indicator of anaerobic metabolism. Our purpose is to compare left ventricular lactate metabolism (arterial-coronary sinus lactate; delta [L]) to ER in acute normovolemic anemia. Fourteen adult baboons were anesthetized, paralyzed, and ventilated on room air. Left atrial, coronary sinus, aortic, and Swan-Ganz catheters were inserted. Experimental animals (N = 7) were hemodiluted, at constant left atrial pressure (LAP), with 5% human serum albumin (HSA) to a HCT below 4%. Control animals (N = 7) underwent similar volume exchanges, also at constant LAP, with homologous RBCs resuspended in HSA. Whole-body extraction ratio and left ventricular lactate production were measured at baseline and at hematocrits of 20, 10, 6, and 4% in the experimental group. Data were obtained at similar volume exchange points in the control group. Significant lactate production occurred only in the experimental animals (P less than 0.05) when extraction ratio exceeded 50%. Significant lactate production does not occur before the whole-body ER exceeds 50%. ER appears to be a valid indicator of myocardial metabolism in anemia, in this setting.

Published

1987

7. Whole body oxygen extraction ratio as an indicator of cardiac status in anemia.

Author

Wilkerson DK, Rosen AL, Gould SA, Sehgal LR, Sehgal HL, and Moss GS

Subjects

Anemia physiopathology, Animals, Cardiac Output, Hematocrit, Hemodilution, Papio, Plasma Exchange, Serum Albumin metabolism, Anemia metabolism, Lactates metabolism, Myocardium metabolism, Oxygen Consumption

Published

1988

8. Limits of cardiac compensation in anemic baboons.

Author

Wilkerson DK, Rosen AL, Sehgal LR, Gould SA, Sehgal HL, and Moss GS

Subjects

Adaptation, Physiological, Anemia blood, Anemia metabolism, Anemia therapy, Animals, Blood Transfusion, Cardiac Output, Exchange Transfusion, Whole Blood, Hematocrit, Lactates metabolism, Myocardium metabolism, Oxygen blood, Oxygen Consumption, Papio, Serum Albumin administration & dosage, Vascular Resistance, Anemia physiopathology, Heart physiopathology

Abstract

The risk of homologous blood may cause physicians to withhold red cell treatment after acute blood loss. We believe that in the euvolemic patient with acute anemia, the heart is the principal organ at risk. The cardiac compensation to extreme anemia is unknown and is the purpose of this report. Fourteen adult baboons were anesthetized, paralyzed, and ventilated with room air. Left atrial and coronary sinus catheters were inserted surgically. Experimental animals (n = 7) were hemodiluted at constant left atrial pressure with 5% human serum albumin. Control animals (n = 7) underwent similar volume exchanges with fresh, cross-matched, homologous red blood cells resuspended in human serum albumin, also at constant left atrial pressure. Six of seven experimental animals survived until hematocrit levels were 4%. Adequate cardiac compensation was observed until hematocrit levels were less than 10%. Increased flow, without increases in the O2 extraction ratio, was the mechanism of compensation used by the healthy heart with patent coronary vessels.

Published

1988

9. Treatment of acute postoperative anemia with recombinant human erythropoietin.

Author

Levine EA, Rosen AL, Sehgal LR, Gould SA, Egrie JC, Sehgal HL, and Moss GS

Subjects

Anemia blood, Animals, Biopsy, Blood Cell Count drug effects, Bone Marrow pathology, Drug Evaluation, Preclinical, Erythrocyte Indices drug effects, Erythropoietin adverse effects, Exchange Transfusion, Whole Blood, Hematocrit, Humans, Papio, Postoperative Complications blood, Recombinant Proteins adverse effects, Recombinant Proteins therapeutic use, Time Factors, Anemia drug therapy, Erythropoietin therapeutic use, Postoperative Complications drug therapy

Abstract

Risks inherent in the administration of blood products have increased efforts to avoid homologous transfusion. Although this has increased interest in autologous transfusion and intraoperative salvage, little attention has been focused on efforts to enhance endogenous erythropoiesis as a method of minimizing exposure to homologous blood. Recombinant human erythropoietin (rHuEPO) has been shown to enhance erythropoiesis. The purpose of this study is to evaluate the effect of rHuEPO, administered postoperatively, on a model of acute blood loss. Eleven adult male baboons were randomized into two groups. All animals underwent a laparotomy and an exchange transfusion, with 6% hetastarch, to a final hematocrit of 15%. Group I (N = 6) received 1,000 units/kg of recombinant human erythropoietin daily for the first 14 postoperative days. Group II (N = 5) received an equivalent volume of placebo. All animals were given supplemental vitamin B12, folate and 200% of shed iron, as iron dextran IV, after exchange transfusion. Response was observed for a period of 35 days. All animals survived the protocol. There were no adverse reactions to rHuEPO or surgical complications. The hematocrits were similar between groups at baseline and after exchange transfusion. The maximal rate of erythropoiesis was significantly faster in the rHuEPO group (2.1 vs. 1.3%/day; p less than 0.01). The time required to return to hematocrits of 30% (9.9 vs. 17.4 days, p less than 0.001) and to baseline hematocrits (11.9 vs. 32.1 days, p less than 0.01) were both significantly shorter in the rHuEPO group. The data show that rHuEPO accelerates the recovery from anemia in the postoperative setting. Acceleration of erythropoiesis represents another alternative to homologous transfusion.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1989