In vitro biopharmaceutical equivalence of drugs used in the treatment of tuberculosis in Peru

Luis A. Rodríguez-Hidalgo; Pedro M. Alva-Plasencia; Luis A. Concepción-Urteaga; Julio Hilario-Vargas; Olga E. Caballero-Aquiño; Vanessa Saldaña-Bobadilla; Amalia G. Vega-Fernandez

doi:10.56499/jppres24.2077_13.2.538

In vitro biopharmaceutical equivalence of drugs used in the treatment of tuberculosis in Peru

Título traducido de la contribución: Equivalencia biofarmacéutica in vitro de medicamentos utilizados en el tratamiento de la tuberculosis en el Perú

Luis A. Rodríguez-Hidalgo, Pedro M. Alva-Plasencia, Luis A. Concepción-Urteaga, Julio Hilario-Vargas, Olga E. Caballero-Aquiño, Vanessa Saldaña-Bobadilla, Amalia G. Vega-Fernandez

Investigación en medicina respiratoria

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

Context: Medicines are vital for public health, and it is essential to ensure their quality. This is especially important with multisource medications, which have not undergone clinical trials and may have limited bioavailability. Aims: To determine the in vitro biopharmaceutical equivalence of drugs used in the treatment of tuberculosis in Peru. Methods: The study evaluated multiple products for rifampicin, isoniazid, and pyrazinamide. Different dissolution conditions and sampling times were used. Similarity was determined following WHO guidelines. Results: The in vitro biopharmaceutical characteristics (dissolution profiles) of the two multisource rifampicin products were different, with similarity factors (f2) less than 50 in all three dissolution media. For isoniazid, the profiles were similar, with more than 85% dissolution at 15 minutes in all media. For pyrazinamide, two profiles were similar, and one was different, showing less than 85% dissolution in all three media. Conclusions: Multisource rifampicin products did not prove to be in vitro biopharmaceutical equivalence to each other, while isoniazid products were. Furthermore, in the case of pyrazinamide, two products were found to be equivalent, while one was not.

Título traducido de la contribución	Equivalencia biofarmacéutica in vitro de medicamentos utilizados en el tratamiento de la tuberculosis en el Perú
Idioma original	Inglés
Páginas (desde-hasta)	538-550
Número de páginas	13
Publicación	Journal of Pharmacy and Pharmacognosy Research
Volumen	13
N.º	2
DOI	https://doi.org/10.56499/jppres24.2077_13.2.538
Estado	Publicada - mar. 2025

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10.56499/jppres24.2077_13.2.538

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Rodríguez-Hidalgo, L. A., Alva-Plasencia, P. M., Concepción-Urteaga, L. A., Hilario-Vargas, J., Caballero-Aquiño, O. E., Saldaña-Bobadilla, V., & Vega-Fernandez, A. G. (2025). In vitro biopharmaceutical equivalence of drugs used in the treatment of tuberculosis in Peru. Journal of Pharmacy and Pharmacognosy Research, 13(2), 538-550. https://doi.org/10.56499/jppres24.2077_13.2.538

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abstract = "Context: Medicines are vital for public health, and it is essential to ensure their quality. This is especially important with multisource medications, which have not undergone clinical trials and may have limited bioavailability. Aims: To determine the in vitro biopharmaceutical equivalence of drugs used in the treatment of tuberculosis in Peru. Methods: The study evaluated multiple products for rifampicin, isoniazid, and pyrazinamide. Different dissolution conditions and sampling times were used. Similarity was determined following WHO guidelines. Results: The in vitro biopharmaceutical characteristics (dissolution profiles) of the two multisource rifampicin products were different, with similarity factors (f2) less than 50 in all three dissolution media. For isoniazid, the profiles were similar, with more than 85% dissolution at 15 minutes in all media. For pyrazinamide, two profiles were similar, and one was different, showing less than 85% dissolution in all three media. Conclusions: Multisource rifampicin products did not prove to be in vitro biopharmaceutical equivalence to each other, while isoniazid products were. Furthermore, in the case of pyrazinamide, two products were found to be equivalent, while one was not.",

keywords = "antitubercular agents, biological availability, drug liberation, therapeutic equivalency",

author = "Rodr{\'i}guez-Hidalgo, {Luis A.} and Alva-Plasencia, {Pedro M.} and Concepci{\'o}n-Urteaga, {Luis A.} and Julio Hilario-Vargas and Caballero-Aqui{\~n}o, {Olga E.} and Vanessa Salda{\~n}a-Bobadilla and Vega-Fernandez, {Amalia G.}",

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doi = "10.56499/jppres24.2077_13.2.538",

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Rodríguez-Hidalgo, LA, Alva-Plasencia, PM, Concepción-Urteaga, LA, Hilario-Vargas, J, Caballero-Aquiño, OE, Saldaña-Bobadilla, V & Vega-Fernandez, AG 2025, 'In vitro biopharmaceutical equivalence of drugs used in the treatment of tuberculosis in Peru', Journal of Pharmacy and Pharmacognosy Research, vol. 13, n.º 2, pp. 538-550. https://doi.org/10.56499/jppres24.2077_13.2.538

TY - JOUR

T1 - In vitro biopharmaceutical equivalence of drugs used in the treatment of tuberculosis in Peru

AU - Rodríguez-Hidalgo, Luis A.

AU - Alva-Plasencia, Pedro M.

AU - Concepción-Urteaga, Luis A.

AU - Hilario-Vargas, Julio

AU - Caballero-Aquiño, Olga E.

AU - Saldaña-Bobadilla, Vanessa

AU - Vega-Fernandez, Amalia G.

PY - 2025/3

Y1 - 2025/3

N2 - Context: Medicines are vital for public health, and it is essential to ensure their quality. This is especially important with multisource medications, which have not undergone clinical trials and may have limited bioavailability. Aims: To determine the in vitro biopharmaceutical equivalence of drugs used in the treatment of tuberculosis in Peru. Methods: The study evaluated multiple products for rifampicin, isoniazid, and pyrazinamide. Different dissolution conditions and sampling times were used. Similarity was determined following WHO guidelines. Results: The in vitro biopharmaceutical characteristics (dissolution profiles) of the two multisource rifampicin products were different, with similarity factors (f2) less than 50 in all three dissolution media. For isoniazid, the profiles were similar, with more than 85% dissolution at 15 minutes in all media. For pyrazinamide, two profiles were similar, and one was different, showing less than 85% dissolution in all three media. Conclusions: Multisource rifampicin products did not prove to be in vitro biopharmaceutical equivalence to each other, while isoniazid products were. Furthermore, in the case of pyrazinamide, two products were found to be equivalent, while one was not.

AB - Context: Medicines are vital for public health, and it is essential to ensure their quality. This is especially important with multisource medications, which have not undergone clinical trials and may have limited bioavailability. Aims: To determine the in vitro biopharmaceutical equivalence of drugs used in the treatment of tuberculosis in Peru. Methods: The study evaluated multiple products for rifampicin, isoniazid, and pyrazinamide. Different dissolution conditions and sampling times were used. Similarity was determined following WHO guidelines. Results: The in vitro biopharmaceutical characteristics (dissolution profiles) of the two multisource rifampicin products were different, with similarity factors (f2) less than 50 in all three dissolution media. For isoniazid, the profiles were similar, with more than 85% dissolution at 15 minutes in all media. For pyrazinamide, two profiles were similar, and one was different, showing less than 85% dissolution in all three media. Conclusions: Multisource rifampicin products did not prove to be in vitro biopharmaceutical equivalence to each other, while isoniazid products were. Furthermore, in the case of pyrazinamide, two products were found to be equivalent, while one was not.

KW - antitubercular agents

KW - biological availability

KW - drug liberation

KW - therapeutic equivalency

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DO - 10.56499/jppres24.2077_13.2.538

M3 - Article

AN - SCOPUS:85211707187

SN - 0719-4250

VL - 13

SP - 538

EP - 550

JO - Journal of Pharmacy and Pharmacognosy Research

JF - Journal of Pharmacy and Pharmacognosy Research

IS - 2

ER -

In vitro biopharmaceutical equivalence of drugs used in the treatment of tuberculosis in Peru

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