Affiliation:
1. TVES’s, Hon. Loksevak Madukarrao Chaudhari College of Pharmacy, Faizpur, Jalgaon- 425503, Maharashtra, India
Abstract
ABSTRACT: "Diuretics," like spirolactone and furosemide, help the kidneys eliminate excess water. It also reduces fluid-induced hypertension and maintains blood potassium levels. Both Furosemide (FRU) and Spironolactone (SPL) can be measured at the same time with the help of HPTLC chromatographic method that have been shown to be very selective and accurate. There are a number of causes of edema, and FRU can help with all of them, including hepatic cirrhosis, chronic congestive heart failure, and excessive blood pressure. Heart failure and ascites caused by hepatic diseases are commonly treated with spironolactone due to its properties as an aldosterone antagonist and potassium-sparing diuretic. HPTLC methods were developed in this research to determine FRU and SPL simultaneously without using the solvents generally needed in chromatographic procedures. The proposed HPTLC approach stood out as an analytical method for quality control laboratories due to its speed, low cost, and ability to concurrently determine the target chemicals with a small number of solvents. The selectivity, accuracy, and reproducibility of the procedures for the simultaneous determination of the pure and mixed drug forms studied were further confirmed by statistical analysis.
Publisher
Oriental Scientific Publishing Company
Subject
Drug Discovery,Agronomy and Crop Science,Biotechnology
Reference25 articles.
1. 1. Karunakaran A, Sudharsan SI, Jayaprakash R, Vekatachalam S, Raju SK, Elampulakkadu A. Analytical method development and validation for the estimation of Furosemide an anti-diuretic in Furosemide injection diluted with normal saline in presence of impurities by RP-HPLC. Brazilian Journal of Biological Sciences. 2021 Apr 30;8(18):35-56.
2. 2. Wenk M, Haegeli L, Brunner H, Krähenbühl S. Determination of furosemide in plasma and urine using monolithic silica rod liquid chromatography. Journal of pharmaceutical and biomedical analysis. 2006 Jun 16;41(4):1367-70.
3. 3. Ahire ED, Sonawane VN, Surana KR. Role of drug repurposing in current treatment strategies against COVID-19; systemic review. Pharm Reson. 2020:24-9.
4. 4. Abdel-Hamid ME. High-performance liquid chromatography–mass spectrometric analysis of furosemide in plasma and its use in pharmacokinetic studies. Il Farmaco. 2000 Jul 1;55(6-7):448-54.
5. 5. Wolf-Coporda A, Lovrić Z, Huić M, Francetić I, Vrhovac B, Plavsić F, Skreblin M. Determination of bioequivalence of two furosemide preparations; the effect of high doses of furosemide on some pharmacokinetic parameters. International journal of clinical pharmacology research. 1996 Jan 1;16(4-5):83-8.