Samir C. Mehta scite author profile

Sodium mercaptoundecahydrododecaborate or BSH is a compound most widely used for boron neutron capture therapy (BNCT). Liposome formulations containing BSH, with or without steric stabilization, were prepared as potential agents for delivery of boron compounds for BNCT. Liposomes composed of DPPC/CHOL in a molar ratio 1:1 (PEG concentration: 5 mol%) were prepared having an average diameter in the range of 100-110 nm 200 mu L of liposomes (l.88 mg phospholipid/mouse and 3.5-5.8 mg BSH/kg body weight) were injected in mice via the tail vein. Both types of liposomes resulted in a significant improvement in the circulation time of BSH compared to that obtained previously after injecting free BSH. The mean percent injected BSH remaining in circulation at the end of 24 h was 19% for the PEG-liposomes compared to the corresponding value of 7% for the conventional liposomes. The mean percent uptake by the liver and spleen was not significantly different for the two types of liposomes; the blood/RES ratios were higher for the PEG-liposomes at all time points indicating that a higher fraction of injected BSH was available in circulation. The PEG-liposomes could be further explored as a means of enhance boron drug delivery to tumor cells for BNCT.

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Lag time data for characterizing the pore pathway of intact and chemically pretreated human epidermal membrane

Suh

Parikh

et al. 1998

International Journal of Pharmaceutics

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Relationship of Skin Target Site Free Drug Concentration (C) to the In Vivo Efficacy: An Extensive Evaluation of the Predictive Value of the C Concept Using Acyclovir as a Model Drug

Mehta

Afouna

Ghanem

et al. 1997

Journal of Pharmaceutical Sciences

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For the past few years, our laboratory has been involved in the development of a novel approach for predicting topical in vivo efficacy based on the estimation of skin target site free drug concentration (C*) from in vitro flux data. We have used acyclovir (ACV) as a model drug in the treatment of cutaneous herpes simplex virus type 1 infections in hairless mice. The goal of this study was to rigorously evaluate the applicability of this approach over the entire range of topical efficacy (i.e., from 0 to 100%). We employed a variety of ACV formulations differing in solvent compositions, enhancers, and excipients (and therefore in their efficacies) to achieve this goal. The C* values were estimated from the in vitro flux data obtained in an in vivo-in vitro experimental design that closely approximated the in vivo treatment protocol. For the in vivo antiviral efficacy studies, a finite dose of ACV formulation was applied twice a day, beginning the day after virus inoculation, for 4 days. The lesions were scored on the fifth day, and the efficacies were calculated as described earlier. Our results indicate that, for a variety of formulations over a wide range of efficacies, the predictions based on C* are in good agreement with the observed in vivo efficacies. These findings strongly demonstrate the predictive value of C* over the entire range of topical efficacy, thereby further strengthening its potential for future studies. The findings also indicate that although the excipients in a formulation may alter the rate and extent of available drug at the target site, in these cases, they do not seem to have any effect on the in vivo potency of the drug.

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Samir C. Mehta

Selective boron drug delivery to brain tumors for boron neutron capture therapy

Liposomal formulations containing sodium mercaptoundecahydrododecaborate (BSH) for boron neutron capture therapy

Lag time data for characterizing the pore pathway of intact and chemically pretreated human epidermal membrane

Relationship of Skin Target Site Free Drug Concentration (C) to the In Vivo Efficacy: An Extensive Evaluation of the Predictive Value of the C Concept Using Acyclovir as a Model Drug

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Samir C. Mehta

Selective boron drug delivery to brain tumors for boron neutron capture therapy

Liposomal formulations containing sodium mercaptoundecahydrododecaborate (BSH) for boron neutron capture therapy

Lag time data for characterizing the pore pathway of intact and chemically pretreated human epidermal membrane

Relationship of Skin Target Site Free Drug Concentration (C*) to the In Vivo Efficacy: An Extensive Evaluation of the Predictive Value of the C* Concept Using Acyclovir as a Model Drug

Contact Info

Product

Resources

About

Relationship of Skin Target Site Free Drug Concentration (C) to the In Vivo Efficacy: An Extensive Evaluation of the Predictive Value of the C Concept Using Acyclovir as a Model Drug