Selection of effective cocrystals former for dissolution rate improvement of active pharmaceutical ingredients based on lipoaffinity index

Selection of effective cocrystals former for dissolution rate improvement of active pharmaceutical ingredients based on lipoaffinity index

New theoretical screening procedure was proposed for appropriate selection of potential cocrystal formers possessing the ability of enhancing dissolution rates of drugs. The procedure relies on the training set comprising 102 positive and 17 negative cases of cocrystals found in the literature. Desp...

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Veröffentlicht in:European journal of pharmaceutical sciences 2017-09, Vol.107, p.87-96
Hauptverfasser: Cysewski, Piotr, Przybyłek, Maciej
Format: Artikel
Sprache:eng
Schlagworte:
Carbamazepine - chemistry
Chemical Sciences
Cristallography
Crystallization
Dissolution rate
Drug Liberation
Excipients - chemistry
Excipients screening
Galenic pharmacology
Hydrophilicity
Life Sciences
Material chemistry
Medicinal Chemistry
Molecular descriptors
or physical chemistry
Pharmaceutical cocrystals
Pharmaceutical Preparations - chemistry
Pharmaceutical sciences
Ritonavir - chemistry
Salicylamides - chemistry
Theoretical and
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container_title European journal of pharmaceutical sciences
container_volume 107
creator Cysewski, Piotr
Przybyłek, Maciej
description New theoretical screening procedure was proposed for appropriate selection of potential cocrystal formers possessing the ability of enhancing dissolution rates of drugs. The procedure relies on the training set comprising 102 positive and 17 negative cases of cocrystals found in the literature. Despite the fact that the only available data were of qualitative character, performed statistical analysis using binary classification allowed to formulate quantitative criterions. Among considered 3679 molecular descriptors the relative value of lipoaffinity index, expressed as the difference between values calculated for active compound and excipient, has been found as the most appropriate measure suited for discrimination of positive and negative cases. Assuming 5% precision, the applied classification criterion led to inclusion of 70% positive cases in the final prediction. Since lipoaffinity index is a molecular descriptor computed using only 2D information about a chemical structure, its estimation is straightforward and computationally inexpensive. The inclusion of an additional criterion quantifying the cocrystallization probability leads to the following conjunction criterions Hmix3.61, allowing for identification of dissolution rate enhancers. The screening procedure was applied for finding the most promising coformers of such drugs as Iloperidone, Ritonavir, Carbamazepine and Enthenzamide. [Display omitted]
doi_str_mv 10.1016/j.ejps.2017.07.004
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The inclusion of an additional criterion quantifying the cocrystallization probability leads to the following conjunction criterions Hmix&lt;−0.18 and ΔLA&gt;3.61, allowing for identification of dissolution rate enhancers. The screening procedure was applied for finding the most promising coformers of such drugs as Iloperidone, Ritonavir, Carbamazepine and Enthenzamide. 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source MEDLINE; Elsevier ScienceDirect Journals
subjects Carbamazepine - chemistry
Chemical Sciences
Cristallography
Crystallization
Dissolution rate
Drug Liberation
Excipients - chemistry
Excipients screening
Galenic pharmacology
Hydrophilicity
Life Sciences
Material chemistry
Medicinal Chemistry
Molecular descriptors
or physical chemistry
Pharmaceutical cocrystals
Pharmaceutical Preparations - chemistry
Pharmaceutical sciences
Ritonavir - chemistry
Salicylamides - chemistry
Theoretical and
title Selection of effective cocrystals former for dissolution rate improvement of active pharmaceutical ingredients based on lipoaffinity index
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