Materiales & Aplicaciones

Pharma

Where Can Thermal Analysis and Rheology Be Found in the Pharmaceutical Industry?

From a disease to the pharmaceutical drug product that comes on the market to fight it, the development of new drugs is going through several stages. Methods of thermal analysis accompany and facilitate Research & Development, scale-up and quality control.

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La caracterización de las propiedades fisicoquímicas de una nueva sustancia va de la mano de las pruebas de preformulación y formulación. La Calorimetría Diferencial de Barrido (DSC) se utiliza para la identificación del API o del excipiente, así como para la determinación de su transición vítrea y/o punto de fusión. Si el API presenta polimorfismo, la DSC también indica la modificación polimórfica de la sustancia. Por último, da información sobre su pureza eutéctica.

La estabilidad térmica y oxidativa se investiga mediante el análisis termogravimétrico (TGA).

Ambos métodos pueden utilizarse para comprobar las interacciones entre un producto farmacéutico y diferentes excipientes y/o materiales de envasado, dando una primera información sobre su compatibilidad.

La reometría proporciona información importante, por ejemplo, para las propiedades de flujo adecuadas de los aerosoles y de los líquidos inyectables o para estimar la vida útil de las dispersiones.

El análisis térmico apoya el escalado desde el laboratorio hasta la producción. El DSC y el TGA ayudan a determinar y optimizar los parámetros del proceso dando indicaciones sobre las transformaciones inducidas por el proceso.

Además, NETZSCH ofrece soluciones para la mezcla continua y por lotes, la micronización húmeda y seca y los homogeneizadores de alta presión (https://www.NETZSCH-grinding.com/en/pharma-cosmetics).

En lo que respecta a la seguridad del proceso, los instrumentos DSC y Calorimetría de velocidad de Reacción aceleradaThe method describing isothermal and adiabatic test procedures used to detect thermally exothermic decomposition reactions.ARC^® (Calorimetría de velocidad acelerada), a menudo en combinación con los paquetes de software Kinetic Neo y Thermal Simulation, pueden identificar los riesgos químicos y simular los peores escenarios.

Quality control ensures efficacy, safety and quality of commercialized drugs. It concerns the raw materials (active ingredients and excipients), drug delivery systems as well as primary packaging, e.g., blisters or bottles.

DSC and TGA check if a material didn't change its properties during production or if there is a risk of changing its properties during storage and transport (water uptake, polymorphic modification, amorphous/crystalline phase, …); Rheometry takes care of the correct viscosity of semi-solid and liquid drug products – and all that in line with 21 CFR Part 11 (data integrity).

In Which Application Areas Can Thermal Analysis Help?

Melting characteristic
Glass transition
Thermal stability
Oxidative stability
Identification
Eutectic purity
Polymorphism

Compatibility
Increase of solubility

Freeze drying
Process induced transformations

Characterization of the packaging material
Interactions between APIs or formulations and packaging

Identifying hazards in worst-case studies

Identification – Ibuprofen
Oxidative stability
Potassium Clavulanate – Thermal stability
Ribavirin – Detection of the melting range
Sorbitol — Transición del Cristal
Eutectic Purity
Carbamazepine – Polymorphism
Compatibility
Caffeine – Process Induced Transformations
PET – Characterization of the packaging material
DTBP – Heat-Wait-Search, Time to maximum rate

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Literature

Nevio

Application Literature

Method

DSC EGA Rheology Software STA TGA

Language

english

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