Priyanka Kotha scite author profile

Priyanka Kotha

3Publications

20Citation Statements Received

45Citation Statements Given

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Baxter (United States)

Publications

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Interactions between Parenteral Lipid Emulsions and Container Surfaces

Gonyon

Tomaso

Kotha

et al. 2013

PDA Journal of Pharmaceutical Science and Technology

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The goal of this work is to evaluate how emulsions in total nutrition admixtures are affected by the containers within which they are stored. Specifically, the study examines how the emulsion globule size distribution in different containers is related to adsorption or absorption of the lipids onto or into the container. The admixtures were prepared from a commercial lipid emulsion, 20% ClinOleic®, and the containers were either glass (borosilicate) or plastic (ethylene vinyl acetate, EVA). The large globule size distribution was monitored continuously for both containers over the course of 24 h, and the quantity of triglycerides taken up by both containers was measured by liquid chromatography. The lipid uptake by the EVA containers was also monitored by gravimetric methods. Briefly, the percent of fat globules greater than 5 micrometers (PFAT5) in EVA containers showed a 75% reduction compared to a marginal decrease of PFAT5 when in the glass container. Extraction of the lipids from the containers showed that the quantity of triglycerides associated with the EVA surfaces steadily increased with admixture exposure time, while the glass showed a significantly lower triglyceride content. Gravimetric measurements confirmed that the EVA containers gained measurable mass during exposure to the emulsion admixture.

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Probability‐Based Compatibility Curves for Calcium and Phosphates in Parenteral Nutrition Formulations

Gonyon

Carter

Phillips

et al. 2013

J Parenter Enteral Nutr

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The published methods for creating calcium and phosphate compatibility curves via connecting the highest passing or lowest failing calcium concentrations should be augmented or replaced by probability contours of the entire experimental design to determine zones of formulation incompatibilities. We recommend researchers evaluate their data with logistic regression analysis to help build a more comprehensive probabilistic database of compatibility information.

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Automated System for Kinetic Analysis of Particle Size Distributions for Pharmaceutically Relevant Systems

Green

Carter

Zhang

et al. 2014

Journal of Analytical Methods in Chemistry

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Detailing the kinetics of particle formation for pharmaceutically relevant solutions is challenging, especially when considering the combination of formulations, containers, and timescales of clinical importance. This paper describes a method for using commercial software Automate with a stream-selector valve capable of sampling container solutions from within an environmental chamber. The tool was built to monitor changes in particle size distributions via instrumental particle counters but can be adapted to other solution-based sensors. The tool and methodology were demonstrated to be highly effective for measuring dynamic changes in emulsion globule distributions as a function of storage and mixing conditions important for parenteral nutrition. Higher levels of agitation induced the fastest growth of large globules (≥5 μm) while the gentler conditions actually showed a decrease in the number of these large globules. The same methodology recorded calcium phosphate precipitation kinetics as a function of [Ca2+] and pH. This automated system is readily adaptable to a wide range of pharmaceutically relevant systems where the particle size is expected to vary with time. This instrumentation can dramatically reduce the time and resources needed to probe complex formulation issues while providing new insights for monitoring the kinetics as a function of key variables.

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Priyanka Kotha

Interactions between Parenteral Lipid Emulsions and Container Surfaces

Probability‐Based Compatibility Curves for Calcium and Phosphates in Parenteral Nutrition Formulations

Automated System for Kinetic Analysis of Particle Size Distributions for Pharmaceutically Relevant Systems

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