Utility of Gold Nanoparticles for Spectrofluorimetric and Spectrophotometric Determination of Ceftobiprole in Dosage form and Biological Fluids
محورهای موضوعی : Journal of NanoanalysisHesham Salem 1 , Mahmoud Omar 2 , Dina Zein 3 , Deena Mokhater 4
1 - faculty of pharmacy, Deraya university, minia, Egypt
2 - Faculty of pharmacy, Minia University
3 - Faculty of pharmacy, Deraya University
4 - Minia University
کلید واژه: Gold nanoparticles, Spectroscopy, Ceftobiprole, dosage forms, biological fluids,
چکیده مقاله :
Two simple, fast and novel delicate fluorimetric and spectrophotometric strategies were examined for the measure of ceftobiprole (CEF) utilizing gold nanoparticles (Au NPs). On spectrofluorimetric strategy, gold nanoparticles were utilized as a fluorescence test. The expansion of CEF to Au-NPs arrangement caused significant quenching of the outflow band of Au-NPs, which was likely due to the complexation of the medicate to gold NPs. Beneath the ideal conditions, the extinguished fluorescence (FL) escalated was straight with the examined concentration. The extinguishing instrument of CEF on the outflow band of Au-NPs was clarified by Stern-Volmer law. The moment spectrophotometric strategy was based on conglomeration of synthesized gold nanoparticles. Gold nanoparticles appeared retention at 522 nm. Upon interaction with the CEF, the band at 522 nm vanished with arrangement of a unused ruddy moved band at 673. Distinctive exploratory variables were optimized for higher affectability. The calibration bands were straight with concentration extend of 0.1-12 µg/mL for the examined medicate. The methods were connected effectively to decide the studiedddrug in minor concentrations in immaculate frame, pharmaceutical measurement shapes and organic liquids (human serum and urine samples).
Two simple, fast and novel delicate fluorimetric and spectrophotometric strategies were examined for the measure of ceftobiprole (CEF) utilizing gold nanoparticles (Au NPs). On spectrofluorimetric strategy, gold nanoparticles were utilized as a fluorescence test. The expansion of CEF to Au-NPs arrangement caused significant quenching of the outflow band of Au-NPs, which was likely due to the complexation of the medicate to gold NPs. Beneath the ideal conditions, the extinguished fluorescence (FL) escalated was straight with the examined concentration. The extinguishing instrument of CEF on the outflow band of Au-NPs was clarified by Stern-Volmer law. The moment spectrophotometric strategy was based on conglomeration of synthesized gold nanoparticles. Gold nanoparticles appeared retention at 522 nm. Upon interaction with the CEF, the band at 522 nm vanished with arrangement of a unused ruddy moved band at 673. Distinctive exploratory variables were optimized for higher affectability. The calibration bands were straight with concentration extend of 0.1-12 µg/mL for the examined medicate. The methods were connected effectively to decide the studiedddrug in minor concentrations in immaculate frame, pharmaceutical measurement shapes and organic liquids (human serum and urine samples).
[1] Scheeren, T. W. Ceftobiprole Medocaril in the Treatment of Hospital-Acquired Pneumonia. Future Microbiol 2015, 10, 1913–1928.
[2] Kisgen, J.; Whitney, D. Ceftobiprole, a Broad-Spectrum Cephalosporin with Activity against Methicillin-Resistant Staphylococcus aureus (MRSA). P T 2008, 33, 631–641.
[3] Pillar, C.; Aranza, M.; Shah, D.; Sahm, D. In Vitro Activity Profile of Ceftobiprole, an anti MRSA Cephalosporin, against Recent Gram-Positive and Gram-Negative Isolates of European Origin. J Antimicrob Chemother. 2008, 61, 595–602
[4] National Center for Biotechnology Information (2021). PubChem Compound Summary for CID 135413542, Ceftobiprole. Retrieved March 15, 2021 from https://pubchem.ncbi.nlm.nih.gov/compound/Ceftobiprole.
[5] Lima, B., S. Bodeau, M.-C. Quinton, C. Leven, A.-S. Lemaire-Hurtel, and Y. Bennis, Validation and Application of an HPLC-DAD Method for Routine Therapeutic Drug Monitoring of Ceftobiprole. Antimicrobial agents and chemotherapy, 2019. 63(7): p. e00515-19.
[6] Hesham S., A. Omar, D. Z. Mazen and D. A. M. Nour El-Deen. Utilization of a complex arrangement approach for spectroscopic examination with Eosin Y of various cephalosporins in their pure or pharmaceutical dosage forms, and in human plasma. Luminescence. 2021;36:1572–1583.
[7] Karim MM, Lee SH. Determination of Enoxacin Using Tb Composite Nanoparticles Sensitized Luminescence Method. J. Flu. 2008; 18(5): 827-833.
[8] Karim MM, Alam SM, Lee SH. Spectroflurimetric estimation of norepinephrine using ethylenediamine condensation method. J. Flu. 2007; 17: 427-436.
[9] Karim MM, Jeon CW, Lee HS, Alam SM, Lee SH, Choi JH, Jin SO, Das AK. Simultaneous determination of acetylsalicylic acid and caffeine in pharmaceutical formulation by first derivative synchronous fluorimetric method. J. Flu. 2006; 16(5): 713-721.
[10] Wang L, Wang L, Zhu C, Wei XW, Kan X. Preparation and application of functionalized nanoparticles of CdS as a flurescence probe. Anal. Chim. Acta 2002; 468(1): 35-41.
[11] Radziuk D, Shchukin DG, Skirtach A, Mohwald H, Sukhorukov G. Synthesis of silver nanoparticles for remote opening of polyelectrolyte microcapsules. Langmuir 2007; 23(8): 4612-4617.
[12] Gao W, Xi J, Chen Y, Xiao S, Wang X, Li J, Xiao J, Chen Y. Hydrogen bonding recognition induced colorimetric determination of hydrazine based on the tryptophan capped gold nanoparticles. J. Spec. 2013; 1-7.
[13] Apyari VV, Arkhipova VV, Dmitrienko SG, Zolotov YA. Using gold nanoparticles in spectrophotometry. J. Anal. Chem. 2014; 69(1): 1-11.
[14] Zielinski MV. Determination of thiamine in solution by UV-Visible spectrophotometry: The effect of interactions with gold nanoparticles. Thesis submitted to the Department of Chemistry, Eastern Michigan University, in partial fulfillment of requirements for the degree of Master of Science in chemistry 2014.
[15] Xu Q, Du S, Jin G, Li H, Hu XH. Determination of acetamiprid by a colorimetric method based on the aggregation of gold nanoparticles. Micro. Acta 2011; 173: 323-329.
[16] The British pharmacopoeia. Vol. II, III. Her Majesty’s Stationery Office, 2009: 738 (a), 836 (b) and 2119 (c).
[17] Hormozi-Nezhad MR, Seyedhosseini E, Robatjazi H. Spectrophotometric determination of glutathione and cysteine based on aggregation of colloidal gold nanoparticles. Sci. Iran. F 2012; 19(3): 958-963.
[18] Ayad MM, Abdellatef HE, Hosny MM, Kabil NA. Aggregation of gold nanoparticles for spectrophotometric determination of bisoprolol hemifumarate, buspiroone HCL and doxazosin mesylate. Nan. Biomed. Eng. 2019; 11(1): 1-10.
[19] ICH Expert Working Group, ICH Harmonized Tripartite Guidelines: Validation of Analytical Procedures: Text and Methodology Q2 (R1), Current Step 4 version. Parent Guideline dated 27 October 1994 (Complementary Guideline on Methodology dated 6 November 1996 incorporated in November 2005). Retrieved from http:// www.gmp-compliance.org/guidemgr/files/Q2(R1)
[20] Chakraborty R, Chatterjee S, Sarkar S, Chattopadhyay P. Study of photoinduced interaction between calf thymus-DNA and bovine serum albumin protein with H2Ti307 nanotubes. J. Biom. Nan. 2012; 3: 462-468.