Pharmacokinetics, Biodistribution and Toxicity Studies for Nanocarrier of Antitubercular Agent- Rifabutin
Introduction: Rifabutin (RFB) is a lipophilic, semi-synthetic antibiotic given for the treatment of atypical mycobacterial infections along with drug susceptible tuberculosis infections. The major challenges in its usage include low oral bioavailability (~20%) mainly due to its low solubility an...
Main Authors: | , , , , |
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Format: | Article |
Language: | English |
Published: |
JCDR Research and Publications Private Limited
2020-12-01
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Series: | Journal of Clinical and Diagnostic Research |
Subjects: | |
Online Access: | https://jcdr.net/articles/PDF/14363/47252_CE(Ra1)_P(AK)_PF1(AD_OM)_PFA(OM)_PN(SL).pdf |
Summary: | Introduction: Rifabutin (RFB) is a lipophilic, semi-synthetic
antibiotic given for the treatment of atypical mycobacterial
infections along with drug susceptible tuberculosis infections.
The major challenges in its usage include low oral bioavailability
(~20%) mainly due to its low solubility and extensive first pass
metabolism.
Aim: The present study aims to explore the pharmacokinetics,
biodistribution and toxicity of nanocarrier of RFB.
Materials and Methods: An experimental animal study was
carried out in Institute for Industrial Research and Toxicology,
Ghaziabad, Uttar Pradesh, India. RFB nanocarriers were
formulated by using solvent diffusion evaporation method with
minor modifications and characterised for its physicochemical
properties by using various techniques like Field Emission
Scanning Electron Microscopy (FESEM), Dynamic Light
Scattering (DLS) method, High-Performance Liquid
Chromatography (HPLC), X-ray Diffractometry (XRD), in-vitro
release study etc. Further nanocarriers were also studied for
in-vivo analysis using pharmacokinetics, biodistribution and
toxicity studies. GraphPad Prism Software (Version 5.02) was
used for the statistical analysis.
Results: Nanocarriers of RFB were developed and evaluated for
its safety and efficacy. The results of evaluation of nanocarrier
for physical and chemical attributes revealed that its particle size
obtained was 305-325 nm with low Poly Dispersity Index (PDI)
of 0.26-0.36 and the high drug encapsulation efficiency (62.45-
70.15%). The nanocarrier formulation showed a sustained
release pattern in Simulated Intestinal Fluid (SIF) upto 48 hours
and in Physiological Buffer System (PBS) upto 7 days. The invivo study showed that the nano-lipoidal drug has significant
higher Tmax and Cmax plasma value with higher t1/2(h) values in
comparison to plain drug. Moreover, the slow elimination rate
(Kel) resulted in significant (p<0.001) prolonged half-life (t1/2),
which was many fold higher than the plain drug. No significant
change was observed in haematological and liver enzyme
profile of rats in plain drug and drug with nano-lipoidal carrier.
Nanocarriers showed that there was an increase cell survival
rate in MTT assay as compared to normal drug.
Conclusion: By using nanotechnology based formulations, dose
and dosing frequency of drug administration can be reduced.
Thus, RFB drug can be administered in more efficacious manner
reducing its toxic side effects, which ultimately improves patient
compliance. |
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ISSN: | 2249-782X 0973-709X |