Raman Spectroscopy in Reverse Engineering

• Published in: Journal of pharmaceutical sciences and research Vol. 14; no. 7; pp. 776 - 782
• Main Authors: Sri, K Bhavya, Begum, Samreen, Swethasri, R, Sumakanth, Mogili
• Format: Journal Article
• Language: English
• Published: Cuddalore Journal of Pharmaceutical Sciences and Research 01.07.2022
• Subjects: Defective products; Generic drugs; Ingredients; Lasers; Light; Manufacturing; Pharmaceuticals; Radiation; Reverse engineering; Spectrum analysis
• ISSN: 0975-1459

Raman spectroscopy can solve some of the problems in reverse engineering analysis, such as the crystal identification of active ingredients (API), the determination of ingredients in the original preparation, and the analysis of process parameters, such as API distribution, coating layer thickness, coating layer number, production process, and spatial distribution related to dissolution characteristics Keywords: Deformulation, Detectors, Raman spectroscopy, Sources, Sample illumination system. The FDA, however, won't give it out to any generics company because it considers the innovator's formula proprietary. Because of this the generic company lacks the guidance and creates the need for pharmaceutical reverse engineering to prove bioequivalence and discover a manufacturing method for the new medication [4] Levels of Pharmaceutical Reverse Engineering are: An alternate in polarizability at some point of molecular vibration is a critical requirement to achieve the Raman spectrum of the sample. Because Raman scattering because of water is low, water is an ideal solvent for dissolving samples. Source: Modern Raman spectroscopy nearly always involves the use of lasers as excitation light sources. Because lasers were not available until more than three decades after the discovery of the effect, Raman and Krishnan used a mercury lamp and photographic plates to file spectra.