Thermal behavior and decomposition kinetics of rifampicin polymorphs under isothermal and non-isothermal conditions

Authors

  • Ricardo Alves University of São Paulo; Faculty of Pharmaceutical Sciences; Department of Pharmacy
  • Thaís Vitória da Silva Reis Oswaldo Cruz Faculties
  • Luis Carlos Cides da Silva University of São Paulo; Institute of Chemistry; Department of Fundamental Chemistry
  • Silvia Storpírtis University of São Paulo; Faculty of Pharmaceutical Sciences; Department of Pharmacy
  • Lucildes Pita Mercuri Federal University of São Paulo
  • Jivaldo do Rosário Matos University of São Paulo; Institute of Chemistry; Department of Fundamental Chemistry

DOI:

https://doi.org/10.1590/S1984-82502010000200022

Keywords:

Rifampicin, Tuberculosis, Thermal analysis, Thermal decomposition, Kinetic analysis

Abstract

The thermal behavior of two polymorphic forms of rifampicin was studied by DSC and TG/DTG. The thermoanalytical results clearly showed the differences between the two crystalline forms. Polymorph I was the most thermally stable form, the DSC curve showed no fusion for this species and the thermal decomposition process occurred around 245 ºC. The DSC curve of polymorph II showed two consecutive events, an endothermic event (Tpeak = 193.9 ºC) and one exothermic event (Tpeak = 209.4 ºC), due to a melting process followed by recrystallization, which was attributed to the conversion of form II to form I. Isothermal and non-isothermal thermogravimetric methods were used to determine the kinetic parameters of the thermal decomposition process. For non-isothermal experiments, the activation energy (Ea) was derived from the plot of Log β vs 1/T, yielding values for polymorph form I and II of 154 and 123 kJ mol-1, respectively. In the isothermal experiments, the Ea was obtained from the plot of lnt vs 1/T at a constant conversion level. The mean values found for form I and form II were 137 and 144 kJ mol-1, respectively.

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Published

2010-06-01

Issue

Section

Original Papers

How to Cite

Thermal behavior and decomposition kinetics of rifampicin polymorphs under isothermal and non-isothermal conditions . (2010). Brazilian Journal of Pharmaceutical Sciences, 46(2), 343-351. https://doi.org/10.1590/S1984-82502010000200022