Deepa Rao scite author profile

Current clinical and preclinical anticancer formulations are limited by their use of toxic excipients and stability issues upon combining different drug formulations. We have found that poly(ethylene glycol)-block-poly(d,l lactic acid) (PEG-b-PLA) micelles can deliver multiple poorly water-soluble drugs at clinically relevant doses. Paclitaxel (PTX), etoposide (ETO), docetaxel (DCTX) and 17-AAG were solubilized individually in PEG-b-PLA micelles. Combinations of PTX/17-AAG, ETO/ 17-AAG, DCTX/17-AAG and PTX/ETO/17-AAG were also solubilized in PEG-b-PLA micelles. PEG-b-PLA micelles were characterized in terms of drug loading, size, stability and drug release. All anticancer agents in all combinations were all solubilized at the level of mg/mL and were stable for 24 hours in the 2 and 3 drug combination PEG-b-PLA micelles. The stability of the 2 and 3 drug combination PEG-b-PLA micelles was due to the presence of 17-AAG. In vitro, t 1/2 values for 2 and 3 drug combination PEG-b-PLA micelles spanned 1-5 hrs. PEG-b-PLA micelles offer a promising alternative for combination drug therapy without formulation related side effects.

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Biodegradable PLGA based nanoparticles for sustained regional lymphatic drug delivery

Rao

Forrest

Alani

et al. 2010

Journal of Pharmaceutical Sciences

152

112

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The purpose of this work is to evaluate biodegradable drug carriers with defined size, hydrophobicity, and surface charge density for preferential lymphatic uptake and retention for sustained regional drug delivery. PLGA–PMA:PLA-PEG (PP) nanoparticles of defined size and relative hydrophobicity were prepared by nanoprecipitation method. These were compared with PS particles of similar sizes and higher hydrophobicity. PLGA–PMA:PLGA-COOH (PC) particles at 80:20, 50:50, and 20:80 ratios were prepared by nanoprecipitation for the charge study. Particle size and zeta potential were characterized by dynamic light scattering and laser doppler anemometry, respectively. Particles were administered in vivo to rats subcutaneously. Systemic and lymph node uptake was evaluated by marker recovery. Lymphatic uptake and node retention of PP nanoparticles was shown to be inversely related to size. Lymphatic uptake and node retention of PP particles, as compared to PS particles, was shown to be inversely related to hydrophobicity. Lastly, lymphatic uptake and node retention of PC nanoparticles were directly related to the anionic charge on the particles. In vivo lymphatic uptake and retention in a rat model indicates that the 50 nm PP particles are ideal for sustained regional delivery into the lymphatics for prevention/treatment of oligometastases.

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Using a Novel Multicompartment Dissolution System to Predict the Effect of Gastric pH on the Oral Absorption of Weak Bases with Poor Intrinsic Solubility

Rao

Gandhi

et al. 2005

Journal of Pharmaceutical Sciences

126

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Polymeric micelles for the pH-dependent controlled, continuous low dose release of paclitaxel

et al. 2010

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Poly(ethylene glycol)-block-poly(aspartate-hydrazide) (PEG-p(Asp-Hyd)) was modified using either levulinic acid (LEV) or 4-acetyl benzoic acid (4AB) attached via hydrazone bonds. Paclitaxel (PTX) conjugated to the linkers formed PEG-p(Asp-Hyd-LEV-PTX) and PEG-p(Asp-Hyd-4AB-PTX). PEG-p(Asp-Hyd-LEV-PTX) and PEG-p(Asp-Hyd-4AB-PTX) assemble into unimodal polymeric micelles with diameters of 42 nm and 137 nm, respectively. PEG-p(Asp-Hyd-LEV-PTX) and PEG-p(Asp-Hyd-4AB-PTX) at a 1:1 and 1:5 molar ratio assemble into unimodal mixed polymeric micelles with diameters of 85 and 113 nm, respectively. PEG-p(Asp-Hyd-LEV-PTX) micelles release LEV-PTX faster at pH 5.0 than at pH 7.4 over 24 hr. At pH 7.4 mixed polymeric micelles at 1:5 ratio show no difference in LEV-PTX release from PEG-p(Asp-Hyd-LEV-PTX) micelles. Mixed polymeric micelles at 1:5 molar ratio gradually releases LEV-PTX at pH 5.0, with no release of 4AB-PTX. PEG-p(Asp-Hyd-LEV-PTX) micelles and mixed polymeric micelles exert comparable cytotoxicity against SK-OV-3 and MCF-7 cancer cell lines. In summary, mixed polymeric micelles based on PEG-p(Asp-Hyd-LEV-PTX) and PEG-p(Asp-Hyd-4AB-PTX) offer prospects for pH-dependent release of PTX, offering a novel pro-drug strategy for adjusting its pharmacokinetic and pharmacodynamic properties for cancer therapy. If successful this delivery system offers an alternative new mode of delivery for paclitaxel with a new scope for its efficacy along with a minimal synthetic framework needed to accomplish this.

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Community pharmacists in Australia: barriers to information provision on complementary and alternative medicines

et al. 2006

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There is scope for pharmacy professional organisations and educational institutions to further support pharmacists in their practice through providing information on the best information sources available and training that meets the needs of undergraduate students, pharmacists and other pharmacy staff. There is a need to examine regulatory requirements concerning the provision of product information with CAMs in Australia and to implement mechanisms for increasing consumer awareness of regulatory procedures for these medicines.

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Deepa Rao

Multi-drug loaded polymeric micelles for simultaneous delivery of poorly soluble anticancer drugs

Biodegradable PLGA based nanoparticles for sustained regional lymphatic drug delivery

Using a Novel Multicompartment Dissolution System to Predict the Effect of Gastric pH on the Oral Absorption of Weak Bases with Poor Intrinsic Solubility

Polymeric micelles for the pH-dependent controlled, continuous low dose release of paclitaxel

Community pharmacists in Australia: barriers to information provision on complementary and alternative medicines

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