Quantitative Microscopy: Particle Size/Shape Characterization, Addressing Common Errors Using ‘Analytics Continuum’ Approach

Particle size/shape characterization of active pharmaceutical ingredient (API) is integral to successful product development. It is more of a correlative property than a decision-making measure. Though microscopy is the only technique that provides a direct measure of particle properties, it is negl...

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Veröffentlicht in:	Journal of pharmaceutical sciences 2021-02, Vol.110 (2), p.833-849
Hauptverfasser:	Saravanan, Devarajan, Muthudoss, Prakash, Khullar, Praveen, Rose Venis, Ambrose
Format:	Artikel
Sprache:	eng
Schlagworte:	Image analysis Morphology Near-infrared spectroscopy (NIRS) Particle size Principal component analysis Sucrose
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container_title	Journal of pharmaceutical sciences
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creator	Saravanan, Devarajan Muthudoss, Prakash Khullar, Praveen Rose Venis, Ambrose
description	Particle size/shape characterization of active pharmaceutical ingredient (API) is integral to successful product development. It is more of a correlative property than a decision-making measure. Though microscopy is the only technique that provides a direct measure of particle properties, it is neglected for reasons like non-repeatability and non-reproducibility which is often attributed to a) fundamental error, b) segregation error, c) human error, d) sample randomness, e) sample representativeness etc. Using the “Sucrose” as model sample, we propose “analytics continuum” approach that integrates optical microscope PSD measurements complimented by NIR spectroscopy-based trending analysis as a prescreening tool to demonstrate sample randomness and representativeness. Furthermore, plethora of statistical tests are utilized to infer population statistics. Subsequently, an attribute-based control chart and bootstrap-based confidence interval was developed to monitor product performance. A flowchart to serve as an elementary guideline is developed, which is then extended to handle more complex situations involving API crystallized from two different solvent systems. The results show that the developed methodology can be utilized as a quantitative procedure to assess the suitability of API/excipients from different batches or from alternate vendors and can significantly help in understanding the differences between material even on a minor scale.
doi_str_mv	10.1016/j.xphs.2020.09.022
format	Article
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subjects	Image analysis Morphology Near-infrared spectroscopy (NIRS) Particle size Principal component analysis Sucrose
title	Quantitative Microscopy: Particle Size/Shape Characterization, Addressing Common Errors Using ‘Analytics Continuum’ Approach
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