Impurities profiling of brands of ceftriaxone sodium injection marketed in Ibadan, Southwest Nigeria

Main Article Content

Olajire A. Adegoke
Aderonke O. Korede
Adosraku R. Kwame
Cecilia I. Igwilo

Abstract

 Background: Several factors can affect the effectiveness of a drug in therapy. One of such is the presence of impurities.


Objectives: Based on the current useful utility status of ceftriaxone injection as an antibacterial agent, a comprehensive impurity profiling of thirteen brands was carried out in order to provide a basis for specifying appropriate storage conditions.


Methods: The profiling was carried out by developing a new liquid chromatographic method with UV detection. Factors that could affect the separation method such as elution mode, pH, flow rate, detection wavelength and type of organic modifier were studied. Validation studies comprising calibration curve, LOD and LOQ determination, accuracy and repeatability were determined. The method was successfully applied to the determination of ceftriaxone and impurities in 13 brands of ceftriaxone injections.


Results: The developed method involved separation of ceftriaxone and major impurities within 15 minutes using gradient elution with KH2PO4 (pH 7.5) and methanol (flow rate, 1 mL/min). Separation was achieved on 2 a C-18 column at 220 nm. Linearity was obtained within the range 7.8–250 μg/mL (r = 0.9996) with LOD and LOQ as 74.56 and 225.9 ng/mL respectively. Relative errors from the intra- and inter-day assessment were generally less than 2%. All the brands complied with the content BP specification of 92-108% of ceftriaxone. However, the impurities content in all the 13 brands were far higher than the 0.2% specified by ICH for the dose of the drug.


Conclusion: There is need for measures to adequately control storage conditions of the injection in order to limit impurities content.

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How to Cite
Adegoke, O. A., Korede, A. O., Kwame, A. R., & Igwilo, C. I. (2023). Impurities profiling of brands of ceftriaxone sodium injection marketed in Ibadan, Southwest Nigeria. West African Journal of Pharmacy, 28(2), 35-51. https://doi.org/10.60787/wapcp-28-2-151
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Author Biography

Olajire A. Adegoke, Department of Pharmaceutical Chemistry, Faculty of Pharmacy, University of Ibadan, Ibadan, Nigeria,

Multidisciplinary Central Research Laboratory, University of Ibadan, Ibadan, Nigeria,

 

How to Cite

Adegoke, O. A., Korede, A. O., Kwame, A. R., & Igwilo, C. I. (2023). Impurities profiling of brands of ceftriaxone sodium injection marketed in Ibadan, Southwest Nigeria. West African Journal of Pharmacy, 28(2), 35-51. https://doi.org/10.60787/wapcp-28-2-151

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References

British Pharmacopoeia (2013). British Pharmacopoeia Commission. Her Majesty's Stationery Office, London

Drug Bank (2016).http://www.drugbank.ca/drugs/DB01212. Accessed July 2016.

Bari SB, Kadam BR, Jaiswal YS and Shirkhedkar AA (2007). Impurity profile: Significance in Active Pharmaceutical Ingredient. Eurasian Journal of Chemistry 2 (1): 32-53.

Alsante KM, Boutres P, Couturier MA, Fridmann RC, Harwood JW, Horan GJ, Jensen AJ, Liu Q, Lohr LL, Morris R, et al. (2004). Pharmaceutical Impurity Identification: A Case Study Using a Multidisciplinary Approach. Journal of Pharmaceutical Sciences 93 (9): 2296.

Gorog S (2000). Identification and Determination of Impurities in Drugs. Amsterdam: Elsevier Science Publishing Company.

United States Pharmacopeia 29, USP Convention Inc., Rockville, MD, USA, 2006.

Ahuja S. Impurities Evaluation of Pharmaceuticals. New York: Marcel Dekker; 1998.

Hovorka SW and Schoneich C (2001). Oxidative degradation of pharmaceuticals: theory, mechanisms and inhibition. Journal of Pharmaceutical Science 90: 253-269.

Roy J (2002). Pharmaceutical impurities—a minireview. AAPS PharmSciTech 3 (2) (article 6 (http://www.aapspharmscitech.org).

ICH Harmonised Tripartite Guidelines: Impurities in New Drug Substances Q3A(R), 10 February 2003; Impurities in New Drug Products Q3B(R), November 2003; Impurities:

Gimeno P, Besacier F, Bottex M ,Dujourdy L , Chaudron-Thozet H (2005). A Study of Impurities in Intermediates and 3 , 4 Methylenedioxymethamphetamine (MDMA) Samples Produced via Reductive Amination Routes. Forensic Sci Int 155 (2-3), 141-157.

Ayad MM, Shalaby AA, Abdellatef HE and Elsaid HM (1999). Spectrophotometric and atomic absorption spectrometric determination of certain cephalosporins. Journal of Pharmaceutical and Biomedical Analysis 18: 975-983.

Saleh GA, Askal HF Radwan MF and Omar MA (2001). Use of charge-transfer complexation in the spectrophotometric analysis of certain

cephalosporins. Talanta 54: 1205-1215.

Saleh GA, Askal HF, Darwish IA and El-Shorbagi ANA (2003). Spectroscopic analytical study for the charge-transfer complexation of certain

cephalosporins with chloranilic acid. Analytical Sciences 19: 281-287.

Aly FA, Hefnawy MM and Belal FA (1996). Selective spectrofluorimetric method for the determination of some α-aminocephalosporins in formulations and biological fluids. Analytical Letters 29: 117-130.

Misztal G (1998). Determination of cefotaxime and ceftriaxone in pharmaceuticals by HPLC. Pharmazie 53: 723-724.

Moore CM and Sato K (1991). High-performance liquid chromatographic determination of cephalosporin antibiotics using 0.3 mm I.D.

columns. Journal of Chromatography A 539: 215-220.

Baranowska I, Markowski P and Baranowski J (2006). Simultaneous determination of 11 drugs belonging to four different groups in human urine samples by reversed-phase high-performance liquid chromatography method. Analytica Chimica Acta 570: 46-58.

Tsai TH and Chen YF (2000): Simultaneous determination of cefazolin in rat blood and brain by microdialysis and microbore liquid

chromatography. Biomedical Chromatography 14: 274-278.

De Diego Glaría M, Moscciati GG and Ramos RG (2005). Determination of ceftriaxone in cerebrospinal fluid by ion-pair liquid chromatography. Journal of AOAC International 88: 436-439.

Sørensen LK and Snor LK (2000). Determination of cephalosporins in raw bovine milk by highperformance liquid chromatography. Journal of Chromatography A 882: 145-151.

Chen X, Zhong D, Huang B and Cui J (2003). Determination of cefaclor in human plasma by a sensitive and specific liquid chromatographictandem mass spectrometric method. Journal of Chromatography B: Analytical Technologies in the Biomedical and Life Sciences 784: 17-24.

Lima JLFC, Montenegro MCBSM and Sales MGF (1998). Cefuroxime selective electrodes for batch and FIA determinations in pharmaceutical preparations. Journal of Pharmaceutical and Biomedical Analysis 18: 93-103.

Özkan SA, Erk N, Uslu B, Yilmaz N and Biryol I (2000). Study on electrooxidation of cefadroxil monohydrate and its determination by differential pulse voltammetry. Journal of Pharmaceutical and Biomedical Analysis 23: 263-273.

El-Obeid HA, Gad-Kariem EA and Al-Rashood KAb (1999). A selective colorimetric method for the determination of penicillins and cephalosporins with α-aminoacyl functions. Analytical letters 32: 2809-2823.

Jin H-E, Jin S-E and Maeng H-J (2014). Recent bioanalytical methods for quantification of third- generation cephalosporins using HPLC and LCMS/MS and their applications in pharmacokinetic studies. Biomedical Chromatography 28: 1565-1587.

El-Shaboury SR (2007). Analysis of cephalosporin antibiotics. Journal of Pharmaceutical and Biomedical Analysis 45: 1-19.

Kumar NR, Rao GN and Naidu PY (2010). Stability indicating fast LC method for determination of ceftriaxone and tazobactam for injection related substances in bulk and pharmaceutical formulation. International Journal of Applied Biology and Pharmaceutical Technology 1:145-

Lu L, Li J, Jin S and Hu C (2014). Combination of reversed phase liquid chromatography and zwitterion exchange-reversed phasehydrophilic interaction mixed-mode liquid chromatography coupled with mass spectrometry for the analysis of antibiotics and their impurities. Journal of Chinese Pharmaceutical Sciences 23(2):106-117.

Adegoke OA and Quadri MO (2016). Novel spectrophotometric determinations of some cephalosporins following azo dye formation with pDimethylaminobenzaldehyde. Arabian Journal of Chemistry 9 (Supplement 2): S1272-1282

ChemDraw Ultra software (2003). Cambridgesoft Corporation, 100 Cambridge Park Drive, Cambridge, MA 02140 USA.

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