S. O. Raab scite author profile

When granulocytes are labeled with diisopropylfluorophosphate (DFP32) and then returned to the circulation of the donor, the labeled granulocytes are distributed in a pool of cells which is approximately two times larger than that calculated from the blood volume and the concentration of granulocytes in the circulating venous blood (1, 2).This pool has been referred to as the total blood granulocyte pool (TBGP) and it consists of two subcompartments or pools. These pools have been designated the circulating granulocyte pool (CGP) and the marginal granulocyte pool (MGP). The size of the CGP can be calculated from the blood volume and the absolute granulocyte count. Equilibration between the granulocytes in the CGP and in the "noncirculating" or MGP is sufficiently rapid and complete to allow these two pools to be considered as one kinetically, and the size of the TBGP can be determined by the isotope dilution principle. Since the cells are removed from the TBGP in an exponential fashion with a mean half-time disappearance (Ti) of 6.6 hours, the granulocyte turnover rate (GTR), that is, the number of granulocytes turned over through the blood in a unit of time, can be calculated.The purpose of this paper is to present data on the GTR in normal subjects, as well as additional data on the size of the TBGP, CGP and MGP in normal subjects. The influence of steroids, physical exercise, epinephrine and bacterial endotoxin on these parameters in normal subjects has also been studied.

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Leukokinetic Studies. Iii. The Distribution of Granulocytes in the Blood of Normal Subjects*

Athens¹,

Raab²,

Haab³

et al. 1961

J. Clin. Invest.

267

125

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In a previous publication (1) it was noted that when granulocytes were labeled in vitro with radioactive diisopropylfluorophosphate (DFP32 ) and then returned to the circulation of the donor, about half of the labeled cells could not be found in the circulation at the completion of the infusion (T0). Thereafter the remaining labeled cells left the circulation in a random fashion with a mean halftime disappearance (T.) of 6.6 hours.Since cell damage and significant elution of the label could not be demonstrated tinder the conditions of the study, it was suggested that the immediate disappearance of half the infused cells was due to their rapid dilution in a larger pool than that calculated from the blood volume and the venous granulocyte count.The concept that the circulating granulocyte pool (CGP) does not constitute all of the intravascular leukocytes is not new. Vejlenis (2)

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Leukokinetic Studies. XI. Blood Granulocyte Kinetics in Polycythemia Vera, Infection, and Myelofibrosis*

Athens¹,

Haab²,

Raab³

et al. 1965

J. Clin. Invest.

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Although it seems evident that the neutrophilic leukocytosis commonly encountered in patients with purulent infections, polycythemia rubra vera, and a variety of other clinical disorders probably indicates an increased mass of neutrophils in the blood and increased neutrophil production, turnover, and utilization, it has not been possible to quantify these processes directly until recently. In normal subjects it was demonstrated that approximately one-half of the neutrophilic granulocytes in the blood are circulating freely [circulating granulocyte pool (CGP)], whereas the remainder adhere to the walls of small venules [marginal granulocyte pool (MGP)] (1). Since these two pools were shown to be in rapid equilibrium with each other they may be considered to form a single total blood granulocyte pool (TBGP) for kinetic purposes. These facts together with the finding that neutrophilic granulocytes disappear from the blood in a random manner (2) have made it possible to approximate the rate of production and destruction of neutrophils in normal man.In the present study the size of the TBGP, the distribution of cells in the two subcompartments, the CGP and the MGP, the blood granulocyte half disappearance time (tj), and the granulocyte turnover rate (GTR) were measured in patients with polycythemia vera, myelofibrosis, chronic infections, and diseases of other kinds. Studies in patients with chronic myelocytic leukemia are the

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Leukokinetic Studies. X. Blood Granulocyte Kinetics in Chronic Myelocytic Leukemia*

Athens¹,

Raab²,

Haab³

et al. 1965

J. Clin. Invest.

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Granulokinetics in normal dogs

Raab

Athens

Haab

et al. 1964

American Journal of Physiology-Legacy Content

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Dog granulocytes were labeled in vitro with radioactive diisopropylfluorophosphate (DFP32) and then returned to the circulation of the donor. Granulocytes were separated from whole blood by utilizing hexadimethrine bromide as the sedimenting agent and saponin as a lysing agent. The labeled granulocytes disappeared from the circulation in an exponential fashion with a mean (±1 sd) half-time disappearance of 5.6 ± 0.95 hr. The size of the total blood granulocyte ( TBGP), circulating granulocyte ( CGP), and marginal granulocyte ( MGP) pools, and the granulocyte turnover rate ( GTR) were measured in 31 normal, unanesthetized dogs. The mean values ± 1 sd, expressed as number of cells x107/kg body wt., were as follows: TBGP, 102 ± 34.8; CGP, 54 ± 20.7; MGP, 48 ± 23.4; and GTR, 305 ± 111.5 cells/kg day. The values observed in anesthetized and in unanesthetized, splenectomized dogs were not significantly different from the above values.

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S. O. Raab

Leukokinetic Studies. Iv. The Total Blood, Circulating and Marginal Granulocyte Pools and the Granulocyte Turnover Rate in Normal Subjects*

Leukokinetic Studies. Iii. The Distribution of Granulocytes in the Blood of Normal Subjects*

Leukokinetic Studies. XI. Blood Granulocyte Kinetics in Polycythemia Vera, Infection, and Myelofibrosis*

Leukokinetic Studies. X. Blood Granulocyte Kinetics in Chronic Myelocytic Leukemia*

Granulokinetics in normal dogs

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