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Machine learning methods for small data and upstream bioprocessing applications: A comprehensive review

Johnny Peng, Thanh Tung Khuat, Katarzyna Musiał, Bogdan Gabryś

2025Biotechnology Advances9 citationsDOIOpen Access PDF

Abstract

Data are crucial for machine learning (ML) applications, yet acquiring large datasets can be costly and timeconsuming, especially in complex, resource-intensive fields like biopharmaceuticals. A key process in this industry is upstream bioprocessing, where living cells are cultivated and optimised to produce therapeutic proteins and biologics. The intricate nature of these processes, combined with high resource demands, often limits data collection, resulting in smaller datasets. This comprehensive review explores ML methods designed to address the challenges posed by small data and classifies them into a taxonomy to guide practical applications. Furthermore, each method in the taxonomy was thoroughly analysed, with a detailed discussion of its core concepts and an evaluation of its effectiveness in tackling small data challenges, as demonstrated by application results in the upstream bioprocessing and other related domains. By analyzing how these methods tackle small data challenges from different perspectives, this review provides actionable insights, identifies current research gaps, and offers guidance for leveraging ML in data-constrained environments.

Topics & Concepts

Computer scienceUpstream (networking)BioprocessProcess (computing)Machine learningKey (lock)Artificial intelligenceResource (disambiguation)Data scienceCore (optical fiber)Taxonomy (biology)Data miningUpstream and downstream (DNA)Small dataTraining setAutomationLimited resourcesViral Infectious Diseases and Gene Expression in Insectsvaccines and immunoinformatics approachesTransgenic Plants and Applications
Machine learning methods for small data and upstream bioprocessing applications: A comprehensive review | Litcius