H. Raffler scite author profile

H. Raffler

4Publications

66Citation Statements Received

29Citation Statements Given

How they've been cited

131

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Affiliations

University of Ulm, München Klinik Schwabing

Publications

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Estimation of kinetic parameters of neutrophilic, eosinophilic, and basophilic granulocytes in human blood

Steinbach

Schick

Trepel

et al. 1979

Blut

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Two hematologically normal patients with glioblastoma and six patients with chronic lymphocytic leukemia received continuous 3H-thymidine infusions for 3--10 days. In autoradiographs of blood cell smears taken for 25 days or more after the beginning of 3H-thymidine administration the labeling index and the labeling intensity of granulocytes were determined. A sufficiently high labeling intensity, i.e. a sufficiently long autoradiographic exposure time was found to be critical for obtaining valid and reproducible results. On the basis of certain assumptions discussed in detail, complete labeling of cells with 3H-thymidine followed by autoradiographic evaluation and mathematical analysis of the labeling patterns seems to be a suitable method for estimation of kinetic parameters of postmitotic granulocytes in vivo. The mean intramedullary maturation and storage time was observed to be 115 +/- 7 h or neutrophils, 103 +/- 4 h for eosinophils and 103 +/- 11 h for basophils. The mean relative inflow rate into the blood (or relative turnover rate in the blood) was found to be 4.2 +/- 0.4/h for neutrophils, 4.0 +/- 0.4%/h for eosinophils and 1.2 +/- 0.3%/h for basophils. The mean blood transit time (or blood sojourn time) was estimated to be 25 +/- 2 h or neutrophils, 26 +/- 3 h for eosinophils and 89 +/- 21 h for basophils. Accordingly the half lifes (T 1/2) of granulocytes in the blood were 17.3 +/- 1.4 h for neutrophils, 18.0 +/- 2.1 for eosinophils and 62 +/- 15 h for basophils. Under the quasi steady state conditions of this study the kinetics of granulocytes in the present CLL patients appeared to be normal, despite a marked lymphocytic infiltration of the bone marrow. The apparent discrepancy between these findings and the data obtained with autotransfusion of DFP-labeled granulocytes is discussed.

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A mathematical model of canine granulocytopoiesis

et al. 1980

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The granulocyte cell renewal system of the dog is represented by a mathematical model consisting of the following compartments: The pool of pluripotential stem cells, the committed stem cell pool, divided into a blood and a bone marrow compartment, the proliferation pool, the maturation pool, the reserve pool and the blood pool of functional granulocytes. This chain of compartments is described by a system of non-linear differential equations. Cell losses anyplace in the system provoke increased production in all pools containing cells capable to divide. A reduced number of granulocytes in the blood pool stimulates production of a "granulocyte releasing factor" which mobilizes a rising number of cells to transit from the marrow reserve into the blood pool. The model was simulated on a digital computer. It was found to be capable to reproduce the steady state conditions and it also fits the data of two distinct experimental perturbations of the system both equally well. These perturbations are a loss of proliferating cells as it occurs after the administration of cytostatic drugs and losses of functional cells as they are induced by leukapheresis experiments of differing leukapheresis rates.

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Effect of Starvation on Small Intestinal Enzyme Activity in Germ-Free Rats

Ecknauer¹,

Raffler²

1978

Digestion

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Starvation overnight and starvation for 48 h reduced the weight and the protein content of mucosal scrapings, but only minimally reduced the DNA content of the mucosal scrapings. The activity of sucrase and maltase was reduced by both periods of starvation. The activity of lactase and of acid and alkaline phosphatase, however, was less subject to starvation. There were striking differences in the response to starvation between the proximal, mid and distal third of the small intestine. The importance of the proper reference system was discussed.

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Ligation or External Fistulation of the Common Bile Duct in the Rat. I. Intestinal Sucrose Hydrolysis and Absorption <i>in vivo</i>

Böhmer¹,

Raffler²

1979

Digestion

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72 h after ligation of the common bile duct in the rat the sucrose hydrolysis in vivo was greater than in sham-operated animals, whereas the absorption of the split products, glucose and fructose, was not altered. In bile-depleted rats the sucrose hydrolysis did not differ from that in the control group. The absorption of the split products, glucose and fructose, was diminished. The alterations of the sucrose assimilation were – though statistically significant – rather small. Thus, the presence of bile in the intestinal contents does not seem to be very important for the hydrolysis and absorption of sucrose in vivo.

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H. Raffler

Estimation of kinetic parameters of neutrophilic, eosinophilic, and basophilic granulocytes in human blood

A mathematical model of canine granulocytopoiesis

Effect of Starvation on Small Intestinal Enzyme Activity in Germ-Free Rats

Ligation or External Fistulation of the Common Bile Duct in the Rat. I. Intestinal Sucrose Hydrolysis and Absorption <i>in vivo</i>

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