How Noodle Delineation Influences the Urine pH

The intent of the present study was to associate the urine pH with the noodles rendering. The pH of urine is acidic, alkaline, or neutral. If the pH of your urine is less than seven, the pH is acidic. If the pH is more than seven, the pH shows alkalinity. However, if the pH is seven, the pH is neutral. The pH in the body is maintained by the kidney. The glomerular filtrate of blood is usually acidified by the kidneys from a pH of approximately 7.4 to a pH of about 6 in urine. Normally, the pH in our body is maintained by the kidney primarily through the reabsorption of sodium, hydrogen, and ammonium ions. If the amount of sodium is more than the pH of urine, it is acidic. If the amount of bicarbonate-carbonic acid is excess, the pH of urine is basic or alkali. Noodles are mostly used in China as a most favorite dish. Noodles are a good source of vitamins, minerals, carbohydrates, and lipids. It is closured from the present study that there is no influence of noodle delineation on urine pH.

How Blood Groups Correlate with Capacity of Drinking Water?

The objective of the present study was to correlate the blood grouping with the capacity of drinking water. Total of 172 subjects participated in the present study. The subjects were students of Bahauddin Zakariya University Multan, Pakistan. For determining the blood type a slide with 3 drops of antiserum A, B and D was taken. The 3 blood drops were mixed with drops of antiserum A, B, and D respectively on the slide. Blood clusters together with antisera D shows the +ve Rh factor. Our variable was capable of drinking water per day and our work was to correlate the variable with blood group. All the subjects were questioned about how many glasses of water they drink per day according to blood group. It was concluded from the present study that female who had blood group AB- have greatest mean value and had a maximum capacity of intake of water and in males who had blood group O+ have a maximum value of mean that showed that O+ male had the greatest capacity of drinking water.

Determination of phytoconstituents of n-hexane extract of leaves of Morus nigra and evaluation of their effects on biochemical and histopathological parameters in paracetamol intoxicated mice liver

In-vitro investigation of Morus nigra L. (Moraceae) has demonstrated the evidence of several antioxidant compounds. Current study was aimed to determine the phytoconstituents and hepatoprotective potential of n-hexane extract of Morus nigra. Swiss albino mice were divided into five groups: normal control, paracetamol control, silymarin control, 250 mg/kg p.o. extract for 7 days plus paracetamol 3 h later, 500 mg/kg p.o. extract for 7 days plus paracetamol 3 h later. Serum levels of liver enzymes and total bilirubin were assessed and compared between the groups by using one-way ANOVA to confirm hepatoprotective activity. HPLC analysis revealed the presence quercetin, oleanolic acid, luteolin, apigenin, vitamin C and kuwanon C. n-hexane extract of Morus nigra at dose of 250 mg/kg reduced elevated ALT by 54.3% (p<0.001), AST by 55.1% (p<0.01), ALP by 28.5% (p<0.01) and TBR by 56.4% (p<0.01) as compared to paracetamol control. The dose of 500 mg/kg of the extract reduced the ALT levels by 62.9% (p<0.001), AST by 56.7% (p<0.01), ALP by 33.6% (p<0.01) and TBR by 54.5% (p<0.01), as compared to paracetamol group. However, the reduction of liver enzymes and total bilirubin after administration of extract was comparable to the silymarin. Current study demonstrated potential hepatoprotective activity of n-hexane extract of Morus nigra

Phage therapy: progress in pharmacokinetics

ABSTRACT The concept of phage therapy exists in the history and it has been ignored for a long time, but the consequence of drug resistance in pathogen bacteria has forced the forgotten kingdom of phage therapy to be re-explored. However, for the successful implementation and acceptance of phage therapy worldwide, the number of factors need to be addressed. In pharmacology of phage therapy, pharmacodynamics is a straightforward concept, on the other hand, owing to the unique feature of phages to replicate and their high sensitivity, pharmacokinetics is rather complex. In this review, we have discussed pharmacokinetics and some recent advances in delivery systems as to achieve the therapeutically effective concentrations of phage in their activated form.