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Machine Learning in Causal Inference: Application in Pharmacovigilance

Author

Listed:
  • Yiqing Zhao

    (Northwestern University)

  • Yue Yu

    (Mayo Clinic)

  • Hanyin Wang

    (Northwestern University)

  • Yikuan Li

    (Northwestern University)

  • Yu Deng

    (Northwestern University)

  • Guoqian Jiang

    (Mayo Clinic)

  • Yuan Luo

    (Northwestern University)

Abstract

Monitoring adverse drug events or pharmacovigilance has been promoted by the World Health Organization to assure the safety of medicines through a timely and reliable information exchange regarding drug safety issues. We aim to discuss the application of machine learning methods as well as causal inference paradigms in pharmacovigilance. We first reviewed data sources for pharmacovigilance. Then, we examined traditional causal inference paradigms, their applications in pharmacovigilance, and how machine learning methods and causal inference paradigms were integrated to enhance the performance of traditional causal inference paradigms. Finally, we summarized issues with currently mainstream correlation-based machine learning models and how the machine learning community has tried to address these issues by incorporating causal inference paradigms. Our literature search revealed that most existing data sources and tasks for pharmacovigilance were not designed for causal inference. Additionally, pharmacovigilance was lagging in adopting machine learning-causal inference integrated models. We highlight several currently trending directions or gaps to integrate causal inference with machine learning in pharmacovigilance research. Finally, our literature search revealed that the adoption of causal paradigms can mitigate known issues with machine learning models. We foresee that the pharmacovigilance domain can benefit from the progress in the machine learning field.

Suggested Citation

  • Yiqing Zhao & Yue Yu & Hanyin Wang & Yikuan Li & Yu Deng & Guoqian Jiang & Yuan Luo, 2022. "Machine Learning in Causal Inference: Application in Pharmacovigilance," Drug Safety, Springer, vol. 45(5), pages 459-476, May.
    • Handle: RePEc:spr:drugsa:v:45:y:2022:i:5:d:10.1007_s40264-022-01155-6
    DOI: 10.1007/s40264-022-01155-6
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    References listed on IDEAS

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    1. Christopher McMaster & David Liew & Claire Keith & Parnaz Aminian & Albert Frauman, 2019. "Correction to: A Machine-Learning Algorithm to Optimise Automated Adverse Drug Reaction Detection from Clinical Coding," Drug Safety, Springer, vol. 42(6), pages 807-807, June.
    2. Shaun Comfort & Sujan Perera & Zoe Hudson & Darren Dorrell & Shawman Meireis & Meenakshi Nagarajan & Cartic Ramakrishnan & Jennifer Fine, 2018. "Sorting Through the Safety Data Haystack: Using Machine Learning to Identify Individual Case Safety Reports in Social-Digital Media," Drug Safety, Springer, vol. 41(6), pages 579-590, June.
    3. Shaun Comfort & Darren Dorrell & Shawman Meireis & Jennifer Fine, 2018. "MOdified NARanjo Causality Scale for ICSRs (MONARCSi): A Decision Support Tool for Safety Scientists," Drug Safety, Springer, vol. 41(11), pages 1073-1085, November.
    4. Julia Spoendlin & J. Bradley Layton & Mallika Mundkur & Christian Meier & Susan S. Jick & Christoph R. Meier, 2016. "The Risk of Achilles or Biceps Tendon Rupture in New Statin Users: A Propensity Score-Matched Sequential Cohort Study," Drug Safety, Springer, vol. 39(12), pages 1229-1237, December.
    5. Yuan Luo & William K. Thompson & Timothy M. Herr & Zexian Zeng & Mark A. Berendsen & Siddhartha R. Jonnalagadda & Matthew B. Carson & Justin Starren, 2017. "Natural Language Processing for EHR-Based Pharmacovigilance: A Structured Review," Drug Safety, Springer, vol. 40(11), pages 1075-1089, November.
    6. Juan M. Banda & Alison Callahan & Rainer Winnenburg & Howard R. Strasberg & Aurel Cami & Ben Y. Reis & Santiago Vilar & George Hripcsak & Michel Dumontier & Nigam Haresh Shah, 2016. "Feasibility of Prioritizing Drug–Drug-Event Associations Found in Electronic Health Records," Drug Safety, Springer, vol. 39(1), pages 45-57, January.
    7. Christopher McMaster & David Liew & Claire Keith & Parnaz Aminian & Albert Frauman, 2019. "A Machine-Learning Algorithm to Optimise Automated Adverse Drug Reaction Detection from Clinical Coding," Drug Safety, Springer, vol. 42(6), pages 721-725, June.
    8. Rave Harpaz & Alison Callahan & Suzanne Tamang & Yen Low & David Odgers & Sam Finlayson & Kenneth Jung & Paea LePendu & Nigam Shah, 2014. "Text Mining for Adverse Drug Events: the Promise, Challenges, and State of the Art," Drug Safety, Springer, vol. 37(10), pages 777-790, October.
    9. Ed Whalen & Manfred Hauben & Andrew Bate, 2018. "Time Series Disturbance Detection for Hypothesis-Free Signal Detection in Longitudinal Observational Databases," Drug Safety, Springer, vol. 41(6), pages 565-577, June.
    10. Timothé Ménard & Björn Koneswarakantha & Donato Rolo & Yves Barmaz & Leszek Popko & Rich Bowling, 2020. "Follow-Up on the Use of Machine Learning in Clinical Quality Assurance: Can We Detect Adverse Event Under-Reporting in Oncology Trials?," Drug Safety, Springer, vol. 43(3), pages 295-296, March.
    11. Carrie E. Pierce & Khaled Bouri & Carol Pamer & Scott Proestel & Harold W. Rodriguez & Hoa Le & Clark C. Freifeld & John S. Brownstein & Mark Walderhaug & I. Ralph Edwards & Nabarun Dasgupta, 2017. "Evaluation of Facebook and Twitter Monitoring to Detect Safety Signals for Medical Products: An Analysis of Recent FDA Safety Alerts," Drug Safety, Springer, vol. 40(4), pages 317-331, April.
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