Farmaka

ABSTRAK

Studi kompatibilitas antara obat dengan eksipien mempunyai peranan penting dalam pengembangan suatu formula obat. Hal tersebut dikarenakan interaksi antara obat dengan eksipien dapat mempengaruhi stabilitas, sifat fisikokimia, keamanan, dan efikasi terapeutik dari obat. Berbagai macam metode digunakan untuk mendeteksi inkompatibilitas, salah satunya adalah analisis termal yang meliputi differential scanning calorimetry (DSC) ,thermogravimetry (TG), hot stage microscopy (HSM) dan isothermal microcalorimetry. Analisis termal menggunakan fungsi suhu dan waktu dalam mendeteksi inkompatibilitas antara obat dengan eksipien. Tujuan dilakukan review ini yaitu untuk mengetahui penggunaan analisis termal pada studi kompatibilitas antara obat dengan eksipien. Metode yang digunakan pada review jurnal ini adalah studi literatur. Dari hasil penelusuran literatur menunjukan bahwa analisis termal cukup efektif dalam mendeteksi inkompatibilitas.

Kata Kunci : Studi Kompatibilitas, Obat, Eksipien, Analisis Termal.

Alves-Silva, I., Sá-Barreto, L. C. L., Lima, E. M., & Cunha-Filho, M. S. S. 2014. Preformulation studies of itraconazole associated with benznidazole and pharmaceutical excipients. Thermochimica Acta, 575, 29–33.

Chadha, R., & Bhandari, S. 2014. Drug-excipient compatibility screening-Role of thermoanalytical and spectroscopic techniques. Journal of Pharmaceutical and Biomedical Analysis, 87, 82–97.

Chiu, M., & Prenner, E. 2011. Differential scanning calorimetry: An invaluable tool for a detailed thermodynamic characterization of macromolecules and their interactions. Journal of Pharmacy and Bioallied Sciences, 3(1), 39–59.

Costa, S. P. M., Da Silva, K. E. R., De Medeiros, G. C. R., Rolim, L. A., De Oliveira, J. F., De Lima, M. D. C. A., Galdino, S. L., Pitta, I. D. R., & Neto, P. J. R. 2013. Thermal behavior and compatibility analysis of the new chemical entity LPSF/FZ4. Thermochimica Acta, 562, 29–34.

da Silveira, L. M., Fiorot, A. B., Xavier, T. P., Yoshida, M. I., & de Oliveira, M. A. 2018. Drug-excipient compatibility assessment of solid formulations containing meloxicam. European Journal of Pharmaceutical Sciences, 112(November 2017), 146–151.

Daniel, J. S. P., Veronez, I. P., Rodrigues, L. L., Trevisan, M. G., & Garcia, J. S. 2013. Risperidone - Solid-state characterization and pharmaceutical compatibility using thermal and non-thermal techniques. Thermochimica Acta, 568, 148–155.

de Oliveira, G. G. G., Feitosa, A., Loureiro, K., Fernandes, A. R., Souto, E. B., & Severino, P. 2017. Compatibility study of paracetamol, chlorpheniramine maleate and phenylephrine hydrochloride in physical mixtures. Saudi Pharmaceutical Journal, 25(1), 99–103.

De Oliveira, G. G. G., Ferraz, H. G., Severino, P., & Souto, E. B. 2013. Compatibility studies of nevirapine in physical mixtures with excipients for oral HAART. Materials Science and Engineering C, 33(2), 596–602.

Dourado, D. 2019. Thermal Analysis as a Useful Tool in Drug-Excipient Compatibilty Studies: The Impact in Pharmaceuticals Products. Biomedical Journal of Scientific & Technical Research, 22(3), 16634–16636.

Ferreira-Nunes, R., Gratieri, T., Gelfuso, G. M., & Cunha-Filho, M. 2018. Mixture design applied in compatibility studies of catechin and lipid compounds. Journal of Pharmaceutical and Biomedical Analysis, 149, 612–617.

Fulias,A., Ledeti,L., Vlase,G., Popoiu,C., Heghes,A., Bilanin, M., Vlase, T., Gheorgheosu, D., Craina ,M., Ardelan, S., Ferechide,D., Marginean, O., & Mos, L. 2013. Thermal behaviour of procaine and benzocain Part II : Compatibility study with pharmaceutical excipient used in solid dosage forms. Chemisty Central Journal. Vol 7(140); 1-10.

Ghaderi, F., Nemati, M., Siahi-Shadbad, M. R., Valizadeh, H., & Monajjemzadeh, F. 2015. Physicochemical evaluation and non-isothermal kinetic study of the drug-excipient interaction between doxepin and lactose. In Powder Technology (Vol. 286). Elsevier B.V.

Karimi-Jafari, M., Ziaee, A., Iqbal, J., O’Reilly, E., Croker, D., & Walker, G. 2019. Impact of polymeric excipient on cocrystal formation via hot-melt extrusion and subsequent downstream processing. International Journal of Pharmaceutics, 566(June), 745–755.

Kaur, A., Goindi, S., & Katare, O. P. 2016. Thermal analysis and quantitative characterization of compatibility between diflunisal and lipid excipients as raw materials for development of solid lipid nanoparticles. Thermochimica Acta, 643, 23–32.

Kaur, R., & Sinha, V. R. 2018. Use of thermal and non thermal techniques for assessing compatibility between mirtazapine and solid lipids. Journal of Pharmaceutical and Biomedical Analysis, 161, 144–158.

Krukle-Berziņa, K., & Actiņš, A. 2015. The effect of excipients on the stability and phase transition rate of xylazine hydrochloride and zopiclone. Journal of Pharmaceutical and Biomedical Analysis, 107, 168–174.

Lima, S. G. B., Pinho, L. A. G., Pereira, M. N., Gratieri, T., Sa-Barreto, L. L., Gelfuso, G. M., & Cunha-Filho, M. 2018. Preformulation studies of finasteride to design matrix systems for topical delivery. Journal of Pharmaceutical and Biomedical Analysis, 161, 273–279.

Narang, A. S., Desai, D., & Badawy, S. 2012. Impact of excipient interactions on solid dosage form stability. Pharmaceutical Research, 29(10), 2660–2683.

Niguram, P., Polaka, S. N., Rathod, R., Kalia, K., & Kate, A. S. 2020. Update on compatibility assessment of empagliflozin with the selected pharmaceutical excipients employed in solid dosage forms by thermal, spectroscopic and chromatographic techniques. Drug Development and Industrial Pharmacy, 46(2), 209–218.

Pani, N. R., Nath, L. K., & Acharya, S. 2011. Compatibility studies of nateglinide with excipients in immediate release tablets. Acta Pharmaceutica, 61(2), 237–247.

Patel, P., Ahir, K., Patel, V., Manani, L., & Patel, C. 2015. Drug-Excipient compatibility studies : First step for dosage form development. The Pharma Innovation Journal, 4(5), 14–20.

Rojek, B., Suchacz, B., & Wesolowski, M. 2018. Artificial neural networks as a supporting tool for compatibility study based on thermogravimetric data. Thermochimica Acta, 659(October 2017), 222–231.

Rojek, B., & Wesolowski, M. 2019. FTIR and TG analyses coupled with factor analysis in a compatibility study of acetazolamide with excipients. Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, 208, 285–293.

Tiţa, B., Fuliaş, A., Bandur, G., Marian, E., & Tiţa, D. 2011. Compatibility study between ketoprofen and pharmaceutical excipients used in solid dosage forms. Journal of Pharmaceutical and Biomedical Analysis, 56(2), 221–227.

Veras, K. S., Fachel, F. N. S., Pittol, V., Garcia, K. R., Bassani, V. L., dos Santos, V., Henriques, A. T., Teixeira, H. F., & Koester, L. S. 2019. Compatibility study of rosmarinic acid with excipients used in pharmaceutical solid dosage forms using thermal and non-thermal techniques. Saudi Pharmaceutical Journal, 27(8), 1138–1145.