FTIR Method for Simultaneous determination of Captopril and Hydrochlorothiazid in Raw material and Pharmaceutical Dosage Form

Ali Mhammad; Saleh Trefi; Faten Sliman; Yaser Bitar

doi:10.52711/0974-360X.2023.00638

Research Journal of Pharmacy and Technology

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0974-360X (Online)
0974-3618 (Print)

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FTIR Method for Simultaneous determination of Captopril and Hydrochlorothiazid in Raw material and Pharmaceutical Dosage Form

Author(s): Ali Mhammad, Saleh Trefi, Faten Sliman, Yaser Bitar

Email(s): alialtter@gmail.com

DOI: 10.52711/0974-360X.2023.00638

Address: Ali Mhammad*1, Saleh Trefi1, Faten Sliman2, Yaser Bitar1
1Department of Pharmaceutical Chemistry and Quality Control, Faculty of Pharmacy, Aleppo University, Aleppo.
2Department of Pharmaceutical Chemistry and Quality Control, Faculty of Pharmacy, Tartous University, Tartous, Syria.
*Corresponding Author

Published In: Volume - 16, Issue - 8, Year - 2023

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ABSTRACT:
A New FTIR method was developed and validated to simultaneous determination of Captopril (CAP) and Hydrochlorothiazid (HCTZ) in raw material and pharmaceutical dosage forms. The method includes preparation of solid pellets of hydrochlorothiazide and captopril using KBr and the quantitative determination peaks were chosen after conducting an excipient interference study. Then, the validation method was carried out according to the ICH guidelines. The calibration curve was developed using spectral region from 3115.92-3222.1 cm-1 for HCTZ and 1689.91-1800.73 cm-1 for CAP by plotted the peak height (intensity) for the selected peaks against the concentrations where, there are no overlapping with excipients used in the preparation of tablet dosage form. Captopril and Hydrochlorothiazid were detected in the following linear ranges: (0.4-2% w/w) and (0.4-2% w/w); respectively with excellent coefficeients of determination (R2), 0.9989 and 0.9982. Accuracy was found with excellent mean recovery values (98.0–102.0%). The precision showed RSD% was in a satisfactory range (< 2), evidencing the precision of the developed method. In Conclusion this method was inexpensive, environmental friendly and can be employed for simultaneous estimation of CAP and HCTZ in solid dosage forms.

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Cite this article:
Ali Mhammad, Saleh Trefi, Faten Sliman, Yaser Bitar. FTIR Method for Simultaneous determination of Captopril and Hydrochlorothiazid in Raw material and Pharmaceutical Dosage Form. Research Journal of Pharmacy and Technology. 2023; 16(8):3869-4. doi: 10.52711/0974-360X.2023.00638

Cite(Electronic):
Ali Mhammad, Saleh Trefi, Faten Sliman, Yaser Bitar. FTIR Method for Simultaneous determination of Captopril and Hydrochlorothiazid in Raw material and Pharmaceutical Dosage Form. Research Journal of Pharmacy and Technology. 2023; 16(8):3869-4. doi: 10.52711/0974-360X.2023.00638 Available on: https://rjptonline.org/AbstractView.aspx?PID=2023-16-8-58

REFERENCES:
1.   British pharmacopoeia, The Stationery Office, London, UK,2009: pp.1020.
2.   Florey K . Analytical profiles of drug substances. Academic Press, New York 1982.
3.   Goodman A. Goodman LS. and Murad F. Les Bases Farmacologicas de la Terapeutica. Panamericana, Madrid 1989; 7th ed.
4.   Duchin KL. McKinstry DN.Cohen AI. et al. Pharmacokinetics of captopril in healthy subjects and in patients with cardiovascular diseases. Clinical Pharmacokinetics. 1988; 14(4):241-259.‏doi.org/10.2165/00003088-198814040-00002
5.   Kaya A. Tatlisu MA. Kaya TK.etal. Sublingual vs. oral captopril in hypertensive crisis. The Journal of Emergency Medicine. 2016; 50(1):108-115.‏doi.org/10.1016/j.jemermed.2015.07.017
6.   British pharmacopoeia, The Stationery Office, London, UK, 2009: pp.2982.
7.   Peter P. RobinderSG. Michael S.et al. Inhibition of carbonic anhydrase accounts for the direct vascular effects of hydrochlorothiazide. Hypertension. 1999; 33(4): 1043-1048.doi.org/10.1161/01.HYP.33.4.1043
8.   Panderi I. and Parissi-Poulou M. Determination of captopril and captopril hydrochlorothiazide combination in tablets by derivative UV spectrophotometry. Int. J. Pharm. 1992; 86(2-3): 99–106. doi.org/10.1016/0378-5173(92)90185-5
9.   Rao K. Panda M. Keshar N. and Yadav S. Simultaneous estimation of captopril and hydrochlorothiazide in combined dosage forms. Chronicles of Young Scientists. 2012; 3(1): 37-37. doi: 10.4103/2229-5186.94312‏‏
10.   Salem H. El-Maamli M. El-Sadek M. et al. UV and UV derivative spectrophotometric determination of two-component mixtures. Spectroscopy Letters. 1991; 24(3): 451-470. ‏doi.org/10.1080/00387019108020669
11.   DaharwalS J. and Singh VD. Estimation of binary mixtures of captopril and hydrochlorthiazide by using chemometric assisted method. Asian Journal of Pharmacy and Technology. 2015; 5(2): 79-82. doi: 10.5958./2231-5713.2015.00018.5‏
12.   AbsalanG. Akhond M., KarimiR. et al. Simultaneous determination of captopril and hydrochlorothiazide by using a carbon ionic liquid electrode modified with copper hydroxide nanoparticles. Microchimica Acta. 2018; 185(2): 1-8. doi.org/10.1007/s00604-017-2630-4‏
13.   CardosoMA. Hess BS. Gasparetto JC. et al . Simultaneous determination of captopril, hydrochlorothiazide and their related compounds in a single pharmaceutical tablet using validated HPLC method. Latin American Journal of Pharmacy. 2012; 30(10): 1901-1909.
14.   Ivanovic D. Medenica M. Malenovic A. et al. Validation of the RP–HPLC method for analysis of hydrochlorothiazide and captopril in tablets. Accreditation and quality assurance. 2004; 9(1): 76-81.doi.org/10.1007/s00769-003-0722-9
15.   Sultana N. Arayne M S. and Naveed S. RP-HPLC method for simultaneous determination of captopril and diuretics: application in pharmaceutical dosage forms and human serum. J Chromatograph Separat Techniq. 2011; 2(2): 1-4. doi.org/10.4172/2157-7064.1000109
16.   Kirschbaum J. and Perlman S. Analysis of captopril and hydrochlorothiazide combination tablet formulations by liquid chromatography. Journal of Pharmaceutical Sciences. 1984; 73(5): 686-687. doi.org/10.1002/jps.2600730524‏
17.   Huang T. He Z. Yang B. et al. Simultaneous determination of captopril and hydrochlorothiazide in human plasma by reverse-phase HPLC from linear gradient elution. Journal of Pharmaceutical and Biomedical Analysis. 2006; 41(2): 644-648.‏ doi.org/10.1016/j.jpba.2005.12.007
18.   Kumaraswamy G. Lalitha G. Ravindra N. et al. Simultaneous estimation of Amlodipine, Atenolol and Hydrochlorothiazide in bulk and tablet dosage form by RP-HPLC method. Asian Journal of Pharmaceutical Analysis. 2014; 4(4):131-136.‏
19.   Patel SR. and Patel CN. Development and validation of spectrophotometric method for determination of aliskiren, amlodipine and hydrochlorothiazide in combined pharmaceutical dosage forms. Asian Journal of Pharmaceutical Analysis. 2014; 4(4): 162-167.‏
20.   Savaj BV. Patidar AK. and Raj HA. Simultaneous determination of Propranolol hydrochloride and Hydrochlorothiazide in Tablets formulation using spectrophotometric technique (Simultaneous Equation Method). Asian Journal of Pharmaceutical Research. 2015; 5(1): 31-36. doi.org/10.595‏8/2231-5675.2015.00007.1
21.   Pappula N. Ravichandra S. Sindhura SL. et al. Simultaneous Estimation of Candesartan and Hydrochlorothiazide in Combined Tablet Dosage Form by RP-HPLC. Asian Journal of Pharmaceutical Analysis. 2019; 9(4): 224-8. ‏doi.org/10.595‏8/2231-5657.2019.00038.3
22.   Tarte PS. Wate SP. Khedikar PB. et al. Absorption correction method for estimation of nebivolol and hydrochlorothiazide in combined tablet dosage form. Asian Journal of Research in Chemistry. 2008, 1(2): 74-76.‏
23.   Kumar P. Saini B. Dahiya R. et al. Development and validation of UV spectrophotometric method for simultaneous estimation of hydrochlorothiazide and lisinopril in bulk drug and its formulations. Research Journal of Pharmacy and Technology. 2013; 6(2):212-215.‏
24.   Landge KR. SiddheshwarS. and Ghogare R. Analytical method development and validation of ramipril and hydrochlorothiazided review. Research Journal of Science and Technology. 2020; 12(3): 211-221. doi.org/10.595‏8/2349-2988.2020.00029.7
25.   Robinson JW. Practical Handbook of Spectroscopy. CRC Press.1991 .‏
26.   Silverstein RM. Bassler GC. Spectrometric identification of organic compounds. Wiley, New York. 2001; 6th ed:pp.66–84.
27.   Sherazi ST. AliM. and Mahesar SA. Application of Fourier-transform infrared (FT-IR) transmission spectroscopy for the estimation of roxithromycin in pharmaceutical formulations. Vibrational Spectroscopy. 2011; 55(1): 115-118. doi.org/10.1016/j.vibspec.2010.09.010‏
28.   Fanelli S. Zimmermann A. Totoli EG. et al. FTIR spectrophotometry as a green tool for quantitative analysis of drugs: practical application to amoxicillin. Journal of Chemistry. 2018; 1-8 doi.org/10.1155/2018/3920810
29.   Nugrahani I. and MusaddahM. Development and validation analysis of acyclovir tablet content determination method using FTIR. Int. J. Appl. Pharm. 2016; 8(3):43-47.‏
30.   Gallignani M. Rondón RA. Ovalles JF. et al. Transmission FTIR derivative spectroscopy for estimation of furosemide in raw material and tablet dosage form. Acta Pharmaceutica Sinica B. 2014; 4(5):376-383.doi.org/10.1016/j.apsb.2014.06.013
31.   Singh A. Baghel US. Sinha M. et al . Quantitative analysis of rosuvastatin calcium in bulk and solid pharmaceutical dosage forms using green and rapid fourier-transform infrared spectroscopic method. Indian Journal of Pharmaceutical Sciences. 2020; 82(4): 632-639. doi.org/10.36468/pharmaceutical-sciences.689‏
32.   Mallah MA. Sherazi STH. MahesarSA. et al. Simultaneous quantification of ibuprofen and paracetamol in tablet formulations using transmission Fourier transform infrared spectroscopy. Am J Anal Chem. 2012; 3(8):503-511‏.doi.org/10.4236/ajac.2012.38067
33.   Moreno DH. and Salgado HR. Development and validation of the quantitative analysis of ceftazidime in powder for injection by infrared spectroscopy. Phys. Chem. 2012; 2(1): 6-11. doi: 10.5923/j.pc.20120201.02
34.   Tótoli EG. and Salgado HRN. Development and validation of the quantitative analysis of ampicillin sodium in powder for injection by Fourier-transform infrared spectroscopy (FT-IR). Physical Chemistry. 2012; 2(6):103-108.doi:10.5923/j.pc.20120206.04‏
35.   Padmavathi Y. Anjali A. Babu NR. et al. Development and validation of new FTIR method for quantitative analysis of gliclazide in bulk and pharmaceutical dosage forms. Asian Journal of Research in Chemistry. 2017; 10(3):377-382.‏
36.   PrajapatiP. and Chandarana C. Fourier Transform Infrared Spectrophotometry: An Eco-friendly green tool for quantification of Omeprazole in Pharmaceutical formulation. Research Journal of Pharmacy and Technology. 2022; 15(8): 3531-3534.‏ doi:10.52711/0974-360X.2022.00592
37.   The United States Pharmacopeia, National Formulary, The Official Compendia of Standards.Rockville, MD, United States Pharmacopeial Convention Inc.2011;34th ed.
38.   Validation of analytical procedures Q28, in: International Conference on Harmonization, I., Geneva. 2003.
39.   Holzgrabe U. Brinz D. Kopec S. et al. Why not using capillary electrophoresis in drug analysis?. Electrophoresis. 2006; 27(12): 2283-2292. ‏doi.org/10.1002/elps.200600016
40.   BitarY. andHolzgrabe U. Impurity profiling of atropine sulfate by microemulsion electrokinetic chromatography. Journal of Pharmaceutical and Biomedical Analysis. 2007; 44(3):623-633.‏ doi.org/10.1016/j.jpba.2006.07.039