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Physiological Changes and Blood Flow in Murrah Buffaloes during Summer and Winter Season
Pages 63-69
A.K. Singh, Rajni Devi, Y. Kumar, Parveen Kumar and R.C. Upadhyay

DOI: http://dx.doi.org/10.6000/1927-520X.2014.03.02.6

Published: 18 June 2014

 


Abstract: Present study was designed to investigate the changes in physiological reactions and blood flow during different seasons in Murrah buffaloes. Six Murrah buffalo heifers of 18-24 months were selected as experimental animals. The respiration rate (RR), heart rate (HR) and blood pressure was measured through BPL-Excello multi parameter monitor. Rectal temperatures were recorded with electronic thermometer. Skin surface temperatures at the different body sites were recorded using infrared thermometer (Metravi MT-2). The blood flow was measured on Perimed Multichannel Laser Doppler system using skin perfusion probe 408 at dorsal region, abdomen region and middle ear. Results showed a significant difference for respiration rate (P<0.001); rectal temperature (P<0.05) and heart rate (P<0.001) during summer and winter season. The mean blood pressure was 93.74/186.36 mmHg in summer and 97.40/198.08 mmHg in winter, respectively. In the present experiment, both diastolic and systolic pressure differed significantly (P<0.001) during different seasons. The mean skin surface temperature in summer was 37.03±0.39, 36.12±0.27 and 33.15±0.98°C at dorsal, abdomen and middle ear, respectively; whereas, during winter it was 29.87±0.69, 29.92±0.40 and 23.82±1.12°C at dorsal, abdomen and middle ear, respectively. The skin surface temperature among the different parts of the body differed significantly (P<0.001). During summer, the mean blood flow was 4.71±0.49, 14.85±1.63 and 16.72±1.47 PU; whereas, during winter, it was low, 1.10±0.16, 8.96±0.58 and 12.16±0.95 PU at dorsal, abdomen and middle ear, respectively. The difference in the blood flow among the different parts of the body differed significantly (P<0.001) in summer and winter. The results indicated that blood flow was positively correlated with temperature of the body parts and it varied in different seasons. This study concluded that, summer stress evokes a series of physiological changes in the Murrah buffalo’s, which affects productionduring summer season.

Keywords: Blood flow, Murrah buffalo, Physiological responses, Summer, Winter.

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Current View of the Buffalo Industry 
Pages 1-2
M. Zava and J. Berdugo

DOI: http://dx.doi.org/10.6000/1927-520X.2014.03.01.1

Published: 21 March 2013

 


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Effect of Methyl-B-Cyclodextrin (MBCD) on In Vitro Capacitation of Buffalo Frozen/Thawed Sperm
Pages 12-17
A.R. Elkhawagah, V. Longobardi, B. Gasparrini, G.A. Sosa, A. Salzano, M.E.A. Aboul-roos, A.E. Abd El-Gaffar and L. Zicarelli

DOI: http://dx.doi.org/10.6000/1927-520X.2014.03.01.3

Published: 21 March 2014

 


Abstract: The aim of this study was to determine the effect of Methyl-B-Cyclodextrin (MBCD) on capacitation of buffalo sperm. Frozen/thawed semen was incubated in the absence of capacitating agents (negative control), in the presence of 10 µg/ml heparin (positive control) and of 1, 2, 4 and 8 mg/ml MBCD for 2 and 4h. At each incubation time, sperm motility was evaluated by phase contrast microscopy. Capacitation was assessed by the sperm ability to undergo acrosome reaction after lysophosphatidylcholine treatment, evaluated with viability by Trypan blue-Giemsa. After 2 h capacitation increased (P<0.01) in MBCD groups (39.2±1.4, 44.5±3.3, 56.7±1.5 and 62.5±3.8, with 1, 2, 4 and 8 mg/ml MBCD, respectively) compared to the negative and positive controls (27.5±1.0 and 28.0±0.8, respectively). Likewise, after 4 h the percentage of live capacitated sperm was higher at increasing concentration of MBCD (31.0±0.7, 34.5±1.7, 42.0±1.9, 49.2±2.8, 62.3±1.5 and 70.8±1.7 in negative control, positive control and with 1, 2, 4 and 8 mg/ml MBCD, respectively; P<0.01). After 2 h sperm motility was lower (P<0.01) in 4 and 8 mg/ml MBCD groups (43.3±2.1 and 25.0±3.2, respectively) than in negative control, positive control, 1 and 2 mg/ml MBCD groups (55.0±1.8, 48.3±2.8, 61.7±2.8, 56.7±1.1, respectively). After 4 h the lowest sperm motility was observed with higher MBCD concentrations (40.0±0.0, 46.7±4.2, 51.7±4.6, 50.0±0.0, 40.0±3.7 and 6.7±1.1, in negative control, positive control, 1, 2, 4 and 8 mg/ml MBCD, respectively; P<0.01). In conclusion, MBCD improved sperm capacitation in a dose-dependent manner while decreasing the sperm motility at higher concentrations.

Keywords: Buffalo, Frozen semen, Methyl-B-Cyclodextrin, capacitation.
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Evaluation of In Vitro Capacitation of Buffalo Frozen/Thawed Sperm by Different Techniques
Pages 3-11
A.R. Elkhawagah, V. Longobardi, B. Gasparrini, G.A. Sosa, G. Bifulco, M.E.A. Abouelroos, A.E. Abd el-ghafar and G. Campanile

DOI: http://dx.doi.org/10.6000/1927-520X.2014.03.01.2

Published: 21 March 2014

 


Abstract: This study aimed to determine the most reliable method to evaluate capacitation of buffalo frozen/thawed sperm. Frozen/thawed sperm cells were incubated in Tyrode albumin lactate pyruvate medium (TALP) in absence of capacitating agents (control) and in presence of 10 µg/ml heparin for 2 and 4 h. Capacitation was assessed by Trypan blue/Giemsa after lysophosphatidylcholine (LPC) exposure, chlortetracycline (CTC) fluorescence assay and immune-localization of tyrosine phosphorylated protein. Furthermore, we evaluated the effect of heparin on penetration, cleavage rates and kinetics of embryo development after heterologous IVF. The percentage of LPC-induced acrosome reacted (AR)-sperm increased (P<0.05) with heparin compared to the control after 2 h (28.2 vs 24.4%, respectively) and 4 h (35.1 vs 32.0 %, respectively). No differences in CTC pattern B (capacitated sperm) were found between groups and incubation times (on average 63%). On the contrary, heparin decreased (P<0.01) the percentage of tyrosine phosphorylation pattern A after 2 and 4 h (34.3 and 35.3%, respectively) compared to the control (54.5 and 51.8%, respectively) and increased (P<0.01) that of pattern EA after 2 and 4 h (59.2 and 54.2 %, respectively) compared to the control group (44.7 and 45.2 %, respectively). Both cleavage and penetration rates, as well as the percentage of fast developing embryos, were higher (P<0.01) in the heparin-treated group (77.2, 80.4 and 74.0 %, respectively) compared to the control (56.6, 58.0 and 55.2 %, respectively). In conclusion, Trypan blue/Giemsa staining to evaluate LPC-induced AR and tyrosine protein phosphorylation assay can be successfully used to evaluate capacitation of buffalo frozen/thawed semen.

Keywords: Buffalo, Frozen semen, capacitation, Trypan blue/Giemsa, chlortetracycline.
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Effect of Saccharomyces cerevisiae Live Cellson In Vivo Digestibility and Nitrogen Excretion in Lactating Buffaloes
Pages 18-24
Felicia Masucci, Pinar Uzun,Fernando Grasso, Giuseppe De Rosa and Antonio Di Francia

DOI: http://dx.doi.org/10.6000/1927-520X.2014.03.01.4

Published: 21 March 2014

 


Abstract: The effects of dietary inclusion of Saccharomyces cerevisiae cultureon intake, in vivo digestibility, and fecal nitrogen excretion were examined in dairy buffalo. Forty lactating buffalo cows were equally divided into Control and Saccharomycesgroups, balanced for milk production, parity, and days in milk. Two subsequent 16-d experimental phases were carried out. For both groups during the first experimental period a TMR based on maize silage (maize-TMR) was used, whereas in the second period an alfalfa haylage (alfalfa-TMR) was administered to the animals. In each experimental period, Saccharomyces group was supplemented with 50 g/head/day of yeast (Biocell®, Limena, Padova, Italy), corresponding to 20×109 CFU/head/day Saccharomyces cerevisiae NCYC Sc47 strain. The yeast supplement was top-dressed onto the morning feed. Dry matter intake (DMI) was assessed for 6 consecutive d on group basis, by the difference between feed offered and refused. In the last 3 days of experimental period in vivo digestibility was determined by using acid-insoluble ash (AIA) as an intrinsic digestibility marker. Saccharomyces supplemented buffalo cows presented greater DMI of maize-TMR, whereas no statistical differences between the groups were observed for alfalfa-TMR. Saccharomyces supplementation significantly improved in vivo digestibility of both TMR. Fecal nitrogen excretion was significantly reduced by the use of yeast supplementation. Results suggest that the inclusion of Saccharomyces cerevisiae culture in the diet for lactating buffaloes can be recommended for its effects on cow’s digestive efficiency and fecal nitrogen excretion.

Keywords: Buffalo cows, Yeast, Dry matter intake, Digestibility, Fecal nitrogen excretion.
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