The EPOC analyzer shows good performance with camelid blood. A lack of complete agreement with automated chemistry analyzers highlights the importance of interpreting patient data using instrument-specific RIs.
Background Mycoplasma haemolamae (Mhl) and gastrointestinal nematodes can cause anemia in camelids. Control programs aim to suppress parasitism without promoting anthelminthic resistance, but few evidence‐based guidelines define acceptable parasite loads in camelids. Hypothesis/Objectives In clinically healthy nonanemic camelids, compare erythrocyte variables to Mhl real‐time PCR status and to fecal egg count (FEC). Determine the FEC threshold above which erythrocyte variables are consistently below reference interval medians. Animals One hundred fourteen client‐owned adult alpacas and llamas. Methods In a cross‐sectional study, whole blood in ethylenediaminetetraacetic acid (EDTA) was assessed for packed cell volume (PCV) by centrifugation, erythrocyte count (RBC), and hemoglobin concentration (HGB) using an ADVIA120 analyzer, and Mhl using real‐time PCR. Trichostrongyle eggs per gram (epg) were counted by modified McMaster test on freshly collected feces. Significant differences in erythrocyte variables based on Mhl status and FEC thresholds were assessed by independent t test and one‐way ANOVA, respectively. Results Packed cell volume, RBC, and HGB were not significantly different between Mhl‐positive and Mhl‐negative animals, but were significantly lower in animals with FEC >1000 epg compared to those with <500 epg. All animals with FEC >600 epg had RBC and HGB below the reference interval median. All animals with FEC >750 epg had PCV below the reference interval median. Conclusions and Clinical Importance In healthy nonanemic camelids, positive Mhl PCR is not associated with lower erythrocyte variables and such animals may not warrant treatment. Fecal egg count >600‐750 epg has a negative effect on erythrocyte variables, and may be a guide for deworming protocols.
The objective of our study was to characterize the diagnostic performance of cytology for assessing hepatic lipid content (HLC) in dairy cows by comparing microscopic evaluation of lipid vacuolation in touch imprint slide preparations of liver biopsies with quantitative measurement of triglyceride concentration ([TG]; mg/mg of wet weight) in paired biopsy samples. Our study also sought to compare the diagnostic performance of liver cytology, plasma nonesterified fatty acid concentration ([NEFA]), and plasma β-hydroxybutyrate concentration ([BHB]) derived from a measurement performed on whole blood, for assessing HLC. Chemical extraction of TG from liver tissue remains the gold standard for quantifying HLC, largely because available blood tests, although useful for detecting some types of pathology, such as increased lipid mobilization, ketosis, or hepatocellular injury, are nonspecific as to etiology. Veterinary practitioners can sample bovine liver for cytological evaluation in a fast, minimally invasive, and inexpensive manner. Thus, if highly predictive of HLC, cytology would be a practical diagnostic tool for dairy veterinarians. In our study, liver biopsy samples from Holstein cows (219 samples from 105 cows: 52 from cows 2 to 20 d prepartum, 105 from cows 0 to 10 d in milk, 62 from cows 18 to 25 d in milk) were used to prepare cytology slides and to quantify [TG] using the Folch extraction method followed by the Hantzch condensation reaction and spectrophotometric measurement. An ordinal scale (0-4) based on amount of hepatocellular cytoplasm occupied by discrete clear vacuoles was used by 3 blinded, independent observers to rank HLC in Wright-Giemsa-stained slides. Interobserver agreement in cytology scoring was good. Corresponding plasma [NEFA] and [BHB] measurements were available for 187 and 195 of the 219 samples, respectively. Liver [TG] correlated more strongly with cytology score than with NEFA or BHB, and receiver operating characteristic curve analysis showed that cytology had better diagnostic performance than either NEFA or BHB for correctly categorizing [TG] at thresholds of 5, 10, and 15%. Hepatic lipidosis in high-producing dairy cows is of major clinical and economic importance, and this study demonstrates that cytology is an accurate means of assessing HLC. Additional work is indicated to evaluate the diagnostic utility of liver cytology.
Background: Accurate erythrocyte measurements with ADVIA hematology analyzers require isovolumetric cell sphering in one reaction and hemolysis in another.However, camelid erythrocytes are resistant to sphering and osmotic lysis, and no published evaluation of ADVIA methods for camelids exists. Objectives:The objectives were to demonstrate whether camelid erythrocytes sphere in the ADVIA red blood cell/platelet (RBC/PLT) reagent and lyse in the ADVIA cyanide HGB reagent, and to determine optimal ADVIA settings for camelids.Methods: Camelid and canine blood were diluted to 1:625 in RBC/PLT reagent and evaluated microscopically for erythrocyte sphering. A camelid sample was incubated with the hemoglobin (HGB) reagent at varying dilutions to evaluate hemolysis.The RBC, hematocrit (HCT), mean cell volume (MCV), and mean corpuscular hemoglobin concentration (MCHC) using three ADVIA species settings (equine, bovine, and caprine) were compared to their respective reference methods: Z2 Coulter impedance counter, packed cell volume, calculated MCV (PCV × 10/Coulter RBC), and calculated MCHC (HGB × 100/PCV). Reference MCV was also compared to MCV calculated using the ADVIA equine RBC count. Comparisons were assessed using Passing-Bablok regression and Bland-Altman difference plots.Results: Camelid erythrocytes did not sphere in the RBC/PLT reagent, but did lyse in the HGB reagent. The ADVIA equine setting RBC count was acceptably close to the Coulter count. Hematocrit, MCV, and MCHC from all settings were significantly different from the reference methods. Mean cell volumes calculated using the equine setting RBC counts were acceptably close to the reference MCV. Conclusions:Camelid ADVIA erythrogram results should be reported as follows: RBC counts and HGB concentrations using the equine setting, spun PCVs, MCVs calculated using the PCV and equine setting RBC, and MCHCs calculated using the PCV and equine setting HGB. K E Y W O R D Sallowable total error, alpaca, bias, llama, red blood cells | INTRODUC TI ONCamelid erythrocytes are small, flat, and elliptical, with rigid cell membranes. 1-3 Small and flat erythrocytes have a higher surface area to volume ratio than larger and thicker erythrocytes. This high surface to volume ratio allows for more efficient gas exchange at the cell surface, which can be important for New World camelids in the high altitude, decreased oxygen environment of the Andes
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