This study analyzed the effect of time of trot on hematology and blood chemistry values of the Jeju Pony crossbreed horses that are commonly used for riding (14.1±1.4 years old, Gelding). A total of 28 parameters including vital signs as well as stress hormones such as cortisol and lactic acid levels were examined as the time of the trot exercise progressed. Vital signs such as heart rate (38.0→81.0 times/min) and respiratory rate (11.7→35.7 times/min) increased significantly within 30 minutes of exercise. However, difference in the body temperature was not observed before and after exercise. The hematology including white blood cell count (8.03→9.52×103 cells/μL), red blood cell count (5.94×103→7.23–7.32×103 cells/μL), hemoglobin levels (11.82→14.65–14.78 g/dL), and hematocrit levels (25.04→30.27%) significantly increased 30 minutes after the start of the exercise (p<0.05). The blood chemistry value of albumin (3.25→3.47 g/dL) (p<0.05) only showed a significant increase after the exercise. However, the other blood chemistry levels such as, Na+, K+, Ca2+, total CO2, creatine kinase, glucose, blood urea nitrogen, creatinine, aspartate transaminase, total bilirubin, gamma–glutamyl transpeptidase, and total plasma protein did not change. Also, cortisol and lactic acid levels did not show significant difference. The middle-aged Jeju pony crossbreed horses were not stressed by the 30-minute exercise; therefore, it can be concluded that there is no problem regarding the safety of both the rider and the animal.
General blood tests and leukocyte differential count are very useful in diagnosing, treating and managing patient’s diseases. This study was conducted to reduce errors caused by the manual method as much as possible by using an automated hematology analyzer (Sysmex K-4500), and to alleviate work burden of the laboratory. The T1 and T2 values calculated from leukocyte differential count that was obtained from the automated hematology analyzer Sysmex K-4500, and the results measured from the manual method were compared and analyzed by using the blood samples of 400 patients who were commissioned in the diagnostic laboratory of the hospital with 120 beds. Upon the results of the study, T1 and T2 obtained from lymphocyte differential count of the automated hematology analyzer Sysmex K-4500 demonstrated high correlation compared to manual method, and the analysis of monocyte, eosinophil, basophil and band cell obtained from T1, T2 and manual method enabled percentile calculation, even though it was difficult to predict the exact monocyte, eosinophil, basophil and band cell. Therefore, it is regarded that the optimal patient results can be reported if manual method observation is selectively combined while referring to T1 and T2 obtained from lymphocyte differential count of the automated hematology analyzer Sysmex K-4500.
In this study 300 weaned pigs (Landrace × Yorkshire × Duroc, 23±3 d of age, 5.56± 1.21 kg initial body weight) were used to study the effect of fungal (Aspergillus oryzae, FSP-A) and fungal + bacteria (Aspergillus oryzae + Bacillus subtilis, FSP-B) fermented soya proteins on their blood hematology, enzymes and immune cell populations. Pigs were allotted to 5 treatments, each comprising of 4 pens with 15 pigs. Basal diets consisted of 15% soyabean meal (Control diet) while for treatment diets SBM was replaced with 3 and 6% of each FSP-A and FSP-B, respectively. The experimental diets were fed from 0 to 14 day after weaning and then a common commercial diet was fed from 15 to 35 day. Blood was collected on 14 and 35 day of experiment and analyzed for hematology, aspartate transaminase (AST), alanine transaminase (ALT) and immune cell populations. At d 14, lower RBC count, Hb and HCT values and higher AST values were noted in pigs fed FSP-A diets when compared with Control and FSP-B fed pigs.Also at d 14 pigs fed 6% FSP-A had lower NE (P<0.05) when compared with those fed 6% FSP-B. The level of FSP influenced the RDW on d 14 and MCHC, MO and MPV on d 35. In addition on d 35, pigs fed 3% FSP-A had lesser NE than those fed 6% FSP -A and Control diet, while pigs fed 6% FSP-B had the highest number of MO compared to other treatments. But there were no differences in the plasma AST and ALT values on d 35. Thus it may be concluded that the FSP either by fungal or fungal + bacterial sources had an influence on the blood hematological status and the populations of immune cells.
This study was conducted to develop the Korean traditional tea and investigate the effects of Shan-shu-yu, Gugiga, Ginseng, Younggi and coffee on the hematology of rat. Gugiga, Shan-shu-yu, Younggi and Ginseng tea were adimistrated 3g/day/rat with feeding, respectively. Coffee was adminstrated 1.8g/day/rat. The mixing ratio of mixed tea were 1:1 (w/w). According to the feeding days (10, 20, 30), enzyme activities and chemical components in serum and change in whole blood were determined. 1. The activities of s-GOT and s-GPT of rat administrated Shan-shu-yu, Young-gi, Gugiga, Ginseng and their mixed tea were increased at the normal ranges, and coffee and it's mixed tea were significantly increased other, group (p〈0.05). 2. In coffee and it's mixture groups, the content of s-glucose and s-cholesterol were remarkably increased (p〈0.05), but in others (except coffee additive group) were decreased than coffee and it's mixture groups. 3. In all groups (except coffee addivite groups), the range of WBC, RBC, Ht and Hb was 7.30-8.00 (×103/mm3), 8.18-9.00 ((×106/mm3), 50-60 (%) and 16.10-17.40 (g/d), respectively and in strict coffee group, the level of WBC, RBC, Ht and Hb was 8.90±0.40, 8.10±0.37, 49±0.38 and 14.90±0.44 (p〈0.05), respectively.