Harnessing Machine Learning for Agnostic Biodetection

Sarah H. Sandholtz; Camilo Valdes; Nisha Mulakken; Marisa W. Torres; Aram Avila-Herrera; Jeffrey A. Drocco; Jose Manuel Martí; Jonathan E. Allen; Uttara Tipnis; Crystal J. Jaing; Nicholas A. Be

doi:10.1089/hs.2024.0075

Harnessing Machine Learning for Agnostic Biodetection

Sarah H. Sandholtz, Camilo Valdes, Nisha Mulakken, Marisa W. Torres, Aram Avila-Herrera, Jeffrey A. Drocco, Jose Manuel Martí, Jonathan E. Allen, Uttara Tipnis, Crystal J. Jaing, Nicholas A. Be^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

The United States’ current list-based approach to biodefense is limited because it considers only known biological agents. Alternatively, developing and adopting a system based on agent-agnostic signatures would enable detection and characterization of both known and novel agents, thereby engendering greater adaptability in the face of an evolving threat landscape. Machine learning (ML) could aid in such a transition, as it can recognize and encode highly complex patterns from multiple input data modalities and has already demonstrated success in many healthcare and defense applications. Functionalizing ML for environmental biodetection requires understanding current technical capabilities. In this article, we provide a systematic review of existing ML platforms and discuss anticipated development efforts needed to achieve effective ML-enabled, agnostic biodetection.

Original language	English
Pages (from-to)	155-168
Number of pages	14
Journal	Health Security
Volume	23
Issue number	3
DOIs	https://doi.org/10.1089/hs.2024.0075
State	Published - 1 Jun 2025
Externally published	Yes

Keywords

Agent agnostic
Biodetection
Biosurveillance
Machine learning

Access to Document

10.1089/hs.2024.0075

Cite this

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title = "Harnessing Machine Learning for Agnostic Biodetection",

abstract = "The United States{\textquoteright} current list-based approach to biodefense is limited because it considers only known biological agents. Alternatively, developing and adopting a system based on agent-agnostic signatures would enable detection and characterization of both known and novel agents, thereby engendering greater adaptability in the face of an evolving threat landscape. Machine learning (ML) could aid in such a transition, as it can recognize and encode highly complex patterns from multiple input data modalities and has already demonstrated success in many healthcare and defense applications. Functionalizing ML for environmental biodetection requires understanding current technical capabilities. In this article, we provide a systematic review of existing ML platforms and discuss anticipated development efforts needed to achieve effective ML-enabled, agnostic biodetection.",

keywords = "Agent agnostic, Biodetection, Biosurveillance, Machine learning",

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T1 - Harnessing Machine Learning for Agnostic Biodetection

AU - Sandholtz, Sarah H.

AU - Valdes, Camilo

AU - Mulakken, Nisha

AU - Torres, Marisa W.

AU - Avila-Herrera, Aram

AU - Drocco, Jeffrey A.

AU - Martí, Jose Manuel

AU - Allen, Jonathan E.

AU - Tipnis, Uttara

AU - Jaing, Crystal J.

AU - Be, Nicholas A.

N1 - Publisher Copyright: © The Author(s) 2025. Published by Mary Ann Liebert, Inc.

PY - 2025/6/1

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AB - The United States’ current list-based approach to biodefense is limited because it considers only known biological agents. Alternatively, developing and adopting a system based on agent-agnostic signatures would enable detection and characterization of both known and novel agents, thereby engendering greater adaptability in the face of an evolving threat landscape. Machine learning (ML) could aid in such a transition, as it can recognize and encode highly complex patterns from multiple input data modalities and has already demonstrated success in many healthcare and defense applications. Functionalizing ML for environmental biodetection requires understanding current technical capabilities. In this article, we provide a systematic review of existing ML platforms and discuss anticipated development efforts needed to achieve effective ML-enabled, agnostic biodetection.

KW - Agent agnostic

KW - Biodetection

KW - Biosurveillance

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