Victor Perman

Cytochemical Reactions in Cells from Leukemic Dogs

Leukemic cells from 17 dogs with spontaneous leukemia were stained with leukocyte alkaline phosphatase, alpha naphthyl acetate esterase with and without fluoride, peroxidase, and periodic acid-Schiff. Cytochemistry was necessary for identification or confirmation of leukemic cell type in most dogs and resulted in changing the light microscopic morphologic diagnosis in eight of 17 dogs. Leukemic cell types diagnosed were myclomonocytic leukemia in seven dogs, monocytic leukemia in five dogs, lymphocytic leukemia in four dogs, and myelocytic leukemia in one dog.

Hematologic and serum chemistry reference values for adult brown mink.

Hematologic and serum chemistry reference values were determined for 160 12-month-old brown untamed captive mink (Mustela vison). Blood was obtained by jugular venipuncture after administration of ketamine and xylazine. There were no statistically significant differences between male and female mink. The packed cell volume, hemoglobin, and red blood cell count were 10 to 20% lower than previously reported for non-anesthesized mink. Serum glucose, alanine aminotransferase and aspartate aminotransferase values also were lower than previously reported values.

Assessment of the hematopoietic system in ruminants.

The hemic system is examined to evaluate clinical signs referable to the hemic system, establish a data base, or monitor the course of disease processes. Clinical signs of hemic disorders include pale mucous membranes, icterus, hemorrhage, hemoglobinuria, and tachycardia. Compared to other species, ruminants have small red blood cells, respond to anemia by releasing stippled red blood cells, commonly become neutropenic during acute bacterial sepsis, and fail to develop marked neutrophilia or left shift in response to inflammation.

The comparative metabolism of diisopropyl methylphosphonate in mink and rats.

This study reports the metabolism of carbon-14labeled diisopropyl methylphosphonate (DIMP) in mink and rats, undertaken to better understand the dose-related mortality reported for mink in a previous study. In both male and female mink and rats, DIMP was rapidly absorbed after oral administration; it was metabolized by a saturable pathway to a single metabolite, isopropyl methylphosphonate (IMPA), which was rapidly excreted, primarily in the urine (90%). Fecal radioactivity, also identified as IMPA, was 1.7–3.1% of the administered dose. Female rats had a slower rate of conversion of DIMP to IMPA and less total excretion of IMPA than male rats. Metabolism of DIMP administered intravenously was not very different from that given orally in both species. These data indicate that mink absorb, metabolize, and excrete DIMP (as IMPA) in a manner very similar to mice, rats, and dogs.