Leon Schultz scite author profile

Leon Schultz

4Publications

18Citation Statements Received

28Citation Statements Given

How they've been cited

How they cite others

116

Affiliations

Boehringer Ingelheim (United States)

Publications

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A Practical Framework Toward Prediction of Breaking Force and Disintegration of Tablet Formulations Using Machine Learning Tools

Akseli

Xie

Schultz

et al. 2017

Journal of Pharmaceutical Sciences

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Enabling the paradigm of quality by design requires the ability to quantitatively correlate material properties and process variables to measureable product performance attributes. Conventional, quality-by-test methods for determining tablet breaking force and disintegration time usually involve destructive tests, which consume significant amount of time and labor and provide limited information. Recent advances in material characterization, statistical analysis, and machine learning have provided multiple tools that have the potential to develop nondestructive, fast, and accurate approaches in drug product development. In this work, a methodology to predict the breaking force and disintegration time of tablet formulations using nondestructive ultrasonics and machine learning tools was developed. The input variables to the model include intrinsic properties of formulation and extrinsic process variables influencing the tablet during manufacturing. The model has been applied to predict breaking force and disintegration time using small quantities of active pharmaceutical ingredient and prototype formulation designs. The novel approach presented is a step forward toward rational design of a robust drug product based on insight into the performance of common materials during formulation and process development. It may also help expedite drug product development timeline and reduce active pharmaceutical ingredient usage while improving efficiency of the overall process.

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Evaluation of the impact of sodium lauryl sulfate source variability on solid oral dosage form development

Qiang

Gunn

Schultz

et al. 2010

Drug Development and Industrial Pharmacy

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The observed differences in wetting and solubilization were likely due to the different impurity levels in SLS from two sources. This study demonstrated that SLS from different sources could have significant impact on wet granulation process and dissolution. Therefore, it is critical to evaluate SLS properties from different suppliers, and then identify optimal formulation and process parameters to ensure robustness of drug product manufacture process and performance.

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Modeling powder encapsulation in dosator-based machines: II. Experimental evaluation

Khawam

Schultz

2011

International Journal of Pharmaceutics

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A semi-theoretical model for simulating the temporal evolution of moisture-temperature during industrial fluidized bed granulation

Amini

Tseng

et al. 2020

European Journal of Pharmaceutics and Biopharmaceutics

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Leon Schultz

A Practical Framework Toward Prediction of Breaking Force and Disintegration of Tablet Formulations Using Machine Learning Tools

Evaluation of the impact of sodium lauryl sulfate source variability on solid oral dosage form development

Modeling powder encapsulation in dosator-based machines: II. Experimental evaluation

A semi-theoretical model for simulating the temporal evolution of moisture-temperature during industrial fluidized bed granulation

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