Using AI/ML to predict blending performance and process sensitivity for Continuous Direct Compression (CDC)

人工神经网络 人工智能 机器学习 计算机科学 回归 决策树 随机森林 线性回归 航程(航空) 过程(计算) 均方误差 数学 工程类 统计 操作系统 航空航天工程
作者
Owen Jones‐Salkey,Kit Windows‐Yule,A. Ingram,L. Stahler,Andrei L. Nicuşan,S. M. Clifford,Luis Martín de Juan,Gavin Reynolds
出处
期刊:International Journal of Pharmaceutics [Elsevier BV]
卷期号:651: 123796-123796 被引量:15
标识
DOI:10.1016/j.ijpharm.2024.123796
摘要

Utilizing three artificial intelligence (AI)/machine learning (ML) tools, this study explores the prediction of fill level in inclined linear blenders at steady state by mapping a wide range of bulk powder characteristics to processing parameters. Predicting fill levels enables the calculation of blade passes (strain), known from existing literature to enhance content uniformity. We present and train three AI/ML models, each demonstrating unique predictive capabilities for fill level. These models collectively identify the following rank order of feature importance: RPM, Mixing Blade Region (MB) size, Wall Friction Angle (WFA), and Feed Rate (FR). Random Forest Regression, a machine learning algorithm that constructs a multitude of decision trees at training time and outputs the mode of the classes (classification) or mean prediction (regression) of the individual trees, develops a series of individually useful decision trees. but also allows the extraction of logic and breakpoints within the data. A novel tool which utilises smart optimisation and symbolic regression to model complex systems into simple, closed-form equations equations, is used to build an accurate reduced-order model. Finally, an Artificial Neural Network (ANN), though less interrogable emerges as the most accurate fill level predictor, with an r2 value of 0.97. Following training on single-component mixtures, the models are tested with a four-component powdered paracetamol formulation, mimicking an existing commercial drug product. The ANN predicts the fill level of this formulation at three RPMs (250, 350 and 450) with a mean absolute error of 1.4%. Ultimately, the modelling tools showcase a framework to better understand the interaction between process and formulation. The result of this allows for a first-time-right approach for formulation development whilst gaining process understanding from fewer experiments. Resulting in the ability to approach risk during product development whilst gaining a greater holistic understanding of the processing environment of the desired formulation.
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