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Jigar N. Shah,Kashyap N. Shah,Tejal A. Mehta 한국약제학회 2015 Journal of Pharmaceutical Investigation Vol.45 No.1
Promethazine hydrochloride (PMZ-HCl) is a classical anti-motion sickness drug which has oral bioavailability (25 %) due to extensive hepatic first pass metabolism. To overcome this drawback, novel, fast dissolving sublingual film (FDSF) of drug was developed. FDSF was formulated using pullulan and propylene glycol (PG) by solvent casting method. Complete taste masking was successfully obtained with HP β-CD, aspartame and grape fruit flavour. Complex of drug was proved using Fourier transfer infrared spectroscopy, differential scanning calorimetry and X-ray diffraction studies. Optimization of concentration of pullulan and PG was done using 32 full factorial design. Batches were evaluated for the parameters like elongation, tensile strength, folding endurance and in vitro disintegration studies. In vitro dissolution indicated 100 % drug release within 7.5 min. Environmental scanning electron microscopy studies also showed uniform drug distribution and integrity of film. In vivo sublingual absorption in human indicated that 70 % of drug absorbed in 10 min. The stability studies indicated that label should state ‘‘Store at cool, dry place’’ at temperature 25 ˚C. So by formulating the taste masked FDSF of PMZ-HCl will give faster onset of action and avoid unnecessary drug intake leading to traveller friendly formulation.
Soumya Dash,A. K. Chakravarty,V. Sah,V. Jamuna,R. Behera,N. Kashyap,B. Deshmukh 아세아·태평양축산학회 2015 Animal Bioscience Vol.28 No.7
Heat stress has adverse effects on fertility of dairy animals. Decline in fertility is linearly associated with an increase in combination of both temperature and humidity. The purpose of this study was to investigate the relationship between temperature humidity index (THI) and the pregnancy rate of Murrah buffaloes in a subtropical climate. The effects of genetic and non-genetic factors viz., sire, parity, period of calving and age group at first calving were found non-significant on pregnancy rate. The effect of THI was found significant (p<0.001) on pregnancy rate of Murrah buffaloes calved for first time and overall pregnancy rate. The threshold THI affecting the pregnancy rate was identified as THI 75. The months from October to March showed THI<75 and considered as non heat stress zone (NHSZ), while months from April to September were determined as heat stress zone (HSZ) with THI≥75. The lowest overall pregnancy rate (0.25) was obtained in July with THI 80.9, while the highest overall pregnancy rate (0.59) was found in November with THI 66.1. May and June were identified as critical heat stress zone (CHSZ) within the HSZ with maximum decline (−7%) in pregnancy rate with per unit increase in THI. The highest overall pregnancy rate was estimated as 0.45 in NHSZ with THI value 56.7 to 73.2. The pregnancy rate was found to have declined to 0.28 in HSZ with THI 73.5 to 83.7. However, the lowest pregnancy rate was estimated as 0.27 in CHSZ with THI value 80.3 to 81.6.
Dash, Soumya,Chakravarty, A.K.,Sah, V.,Jamuna, V.,Behera, R.,Kashyap, N.,Deshmukh, B. Asian Australasian Association of Animal Productio 2015 Animal Bioscience Vol.28 No.7
Heat stress has adverse effects on fertility of dairy animals. Decline in fertility is linearly associated with an increase in combination of both temperature and humidity. The purpose of this study was to investigate the relationship between temperature humidity index (THI) and the pregnancy rate of Murrah buffaloes in a subtropical climate. The effects of genetic and non-genetic factors viz., sire, parity, period of calving and age group at first calving were found non-significant on pregnancy rate. The effect of THI was found significant (p<0.001) on pregnancy rate of Murrah buffaloes calved for first time and overall pregnancy rate. The threshold THI affecting the pregnancy rate was identified as THI 75. The months from October to March showed THI<75 and considered as non heat stress zone (NHSZ), while months from April to September were determined as heat stress zone (HSZ) with $THI{\geq}75$. The lowest overall pregnancy rate (0.25) was obtained in July with THI 80.9, while the highest overall pregnancy rate (0.59) was found in November with THI 66.1. May and June were identified as critical heat stress zone (CHSZ) within the HSZ with maximum decline (-7%) in pregnancy rate with per unit increase in THI. The highest overall pregnancy rate was estimated as 0.45 in NHSZ with THI value 56.7 to 73.2. The pregnancy rate was found to have declined to 0.28 in HSZ with THI 73.5 to 83.7. However, the lowest pregnancy rate was estimated as 0.27 in CHSZ with THI value 80.3 to 81.6.