Proceedings of the second Artificial Intelligence in Primary Immunodeficiency (AIPI) meeting

Jacques G. Rivière; Lisa Bastarache; Luiza C. Campos; Gerard Carot-Sans; Aaron Chin; Rumi Chunara; Charlotte Cunningham-Rundles; Lorenzo Erra; Jocelyn Farmer; Nicolas Garcelon; Elena Hsieh; Helen Leavis; Seungwon Lee; Liangying Liu; Maaike Kusters; Brian C. Lloyd; Alexandra K. Martinson; Rachel Mester; Justin B. Moore; Despina Moshous; Jordan S. Orange; Nefatia Parrish; Sarah Henrickson Parker; Bogdan Pasaniuc; Xiao P. Peng; Martine Pergent; Jordi Piera-Jiménez; Jessica Quinn; Sidharth Ramesh; Kirk Roberts; Peter N. Robinson; Guergana Savova; Christopher Scalchunes; Markus G. Seidel; Rachel Simoneau; Pere Soler-Palacin; Kathleen E. Sullivan; Marielle van Gijn; Chung-Il Wi; Dawei Zhou; Vanessa Tenembaum; Manish J. Butte; Nicholas L. Rider

doi:10.1016/j.jaci.2025.09.002

Proceedings of the second Artificial Intelligence in Primary Immunodeficiency (AIPI) meeting

Jacques G. Rivière^*
, Lisa Bastarache
, Luiza C. Campos
, Gerard Carot-Sans
, Aaron Chin
, Rumi Chunara
, Charlotte Cunningham-Rundles
, Lorenzo Erra
, Jocelyn Farmer
, Nicolas Garcelon
, Elena Hsieh
, Helen Leavis
, Seungwon Lee
, Liangying Liu
, Maaike Kusters
, Brian C. Lloyd
, Alexandra K. Martinson
, Rachel Mester
, Justin B. Moore
, Despina Moshous

Jordan S. Orange, Nefatia Parrish, Sarah Henrickson Parker, Bogdan Pasaniuc, Xiao P. Peng, Martine Pergent, Jordi Piera-Jiménez, Jessica Quinn, Sidharth Ramesh, Kirk Roberts, Peter N. Robinson, Guergana Savova, Christopher Scalchunes, Markus G. Seidel, Rachel Simoneau, Pere Soler-Palacin, Kathleen E. Sullivan, Marielle van Gijn, Chung-Il Wi, Dawei Zhou, Vanessa Tenembaum, Manish J. Butte, Nicholas L. Rider

^*Corresponding author for this work

Autonomous University of Barcelona
Vall d'Hebron Research Institute
Hospital Materno-Infantil Vall d' Hebron
Jeffrey Modell Diagnostic and Research Center for Primary Immunodeficiencies
Vanderbilt University
University College London
Generalitat de Catalunya
Digitalization for the Sustainability of the Healthcare System (DS3)
University of California at Los Angeles
NYU Tandon School of Engineering
Icahn School of Medicine at Mount Sinai
Consejo Nacional de Investigaciones Científicas y Técnicas
Beth Israel Lahey Health
Université Paris Cité
University of Colorado Anschutz Medical Campus
Utrecht University
Boston Children's Hospital
Fralin Biomedical Research Institute at VTC
Virginia Polytechnic Institute and State University
Great Ormond Street Hospital for Children NHS Foundation Trust
Immune Deficiency Foundation
Children's National Medical Center
Wake Forest University
Columbia University
Jeffrey Modell Foundation
University of Pennsylvania
Montefiore Health System
International Patient Organisation for Primary Immunodeficiencies (IPOPI)
Medblocks Inc
University of Texas Health Science Center at Houston
Berliner Institut für Gesundheitsforschung
Harvard University
Medical University of Graz
Center for Applied Genomics
Amsterdam UMC
Mayo Clinic Rochester, MN
Virginia Tech College of Engineering

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

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Abstract

The use of artificial intelligence (AI) in inborn errors of immunity offers transformative potential in diagnostics and disease management but faces multiple challenges that were discussed at the second Artificial Intelligence in Primary Immunodeficiency conference, held in New York City (March 19-22, 2025). The conference addressed 7 themes: predictive diagnostic algorithms, health equity, industry collaboration, advanced computational tools like large language models, patient-led AI initiatives, multiomics integration, and implementation science. Discussions highlighted the growing impact of AI on diagnostics, genomics, and health systems, emphasizing the need for high-quality, diverse datasets and ethical safeguards to ensure equitable application. Participants stressed that AI alone cannot resolve systemic inequities or delays in diagnosis. Challenges such as the lack of harmonized datasets, the complexity of integrating multiomics data, ethical concerns, and the difficulty of adapting solutions to low-resource settings were emphasized. Additionally, the use implementation science was pointed out as one of the major challenges to ensure applicability and scalability in real-world settings. This requires overcoming resistance to adoption, addressing infrastructure gaps, and ensuring regulatory compliance. Collaboration across academia, clinicians, patients, regulators, and industry is essential to ensure AI delivers equitable, lasting benefits for individuals with inborn errors of immunity.

Original language	English
Journal	Journal of allergy and clinical immunology
Early online date	2025
DOIs	https://doi.org/10.1016/j.jaci.2025.09.002
Publication status	E-pub ahead of print - 2025
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 10 Reduced Inequalities

Keywords

-omics
AI rare diseases
AI scalability
Artificial intelligence
clinical decision support
electronic health records
health equity
implementation science
inborn errors of immunity
large language models
machine learning
patient-centered AI
primary immunodeficiency

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Rivière, J. G., Bastarache, L., Campos, L. C., Carot-Sans, G., Chin, A., Chunara, R., Cunningham-Rundles, C., Erra, L., Farmer, J., Garcelon, N., Hsieh, E., Leavis, H., Lee, S., Liu, L., Kusters, M., Lloyd, B. C., Martinson, A. K., Mester, R., Moore, J. B., ... Rider, N. L. (2025). Proceedings of the second Artificial Intelligence in Primary Immunodeficiency (AIPI) meeting. Journal of allergy and clinical immunology. Advance online publication. https://doi.org/10.1016/j.jaci.2025.09.002

@article{45c42ac425184ba8b38dec82ae1085b2,

title = "Proceedings of the second Artificial Intelligence in Primary Immunodeficiency (AIPI) meeting",

abstract = "The use of artificial intelligence (AI) in inborn errors of immunity offers transformative potential in diagnostics and disease management but faces multiple challenges that were discussed at the second Artificial Intelligence in Primary Immunodeficiency conference, held in New York City (March 19-22, 2025). The conference addressed 7 themes: predictive diagnostic algorithms, health equity, industry collaboration, advanced computational tools like large language models, patient-led AI initiatives, multiomics integration, and implementation science. Discussions highlighted the growing impact of AI on diagnostics, genomics, and health systems, emphasizing the need for high-quality, diverse datasets and ethical safeguards to ensure equitable application. Participants stressed that AI alone cannot resolve systemic inequities or delays in diagnosis. Challenges such as the lack of harmonized datasets, the complexity of integrating multiomics data, ethical concerns, and the difficulty of adapting solutions to low-resource settings were emphasized. Additionally, the use implementation science was pointed out as one of the major challenges to ensure applicability and scalability in real-world settings. This requires overcoming resistance to adoption, addressing infrastructure gaps, and ensuring regulatory compliance. Collaboration across academia, clinicians, patients, regulators, and industry is essential to ensure AI delivers equitable, lasting benefits for individuals with inborn errors of immunity.",

keywords = "-omics, AI rare diseases, AI scalability, Artificial intelligence, clinical decision support, electronic health records, health equity, implementation science, inborn errors of immunity, large language models, machine learning, patient-centered AI, primary immunodeficiency",

author = "Rivi{\`e}re, \{Jacques G.\} and Lisa Bastarache and Campos, \{Luiza C.\} and Gerard Carot-Sans and Aaron Chin and Rumi Chunara and Charlotte Cunningham-Rundles and Lorenzo Erra and Jocelyn Farmer and Nicolas Garcelon and Elena Hsieh and Helen Leavis and Seungwon Lee and Liangying Liu and Maaike Kusters and Lloyd, \{Brian C.\} and Martinson, \{Alexandra K.\} and Rachel Mester and Moore, \{Justin B.\} and Despina Moshous and Orange, \{Jordan S.\} and Nefatia Parrish and Parker, \{Sarah Henrickson\} and Bogdan Pasaniuc and Peng, \{Xiao P.\} and Martine Pergent and Jordi Piera-Jim{\'e}nez and Jessica Quinn and Sidharth Ramesh and Kirk Roberts and Robinson, \{Peter N.\} and Guergana Savova and Christopher Scalchunes and Seidel, \{Markus G.\} and Rachel Simoneau and Pere Soler-Palacin and Sullivan, \{Kathleen E.\} and \{van Gijn\}, Marielle and Chung-Il Wi and Dawei Zhou and Vanessa Tenembaum and Butte, \{Manish J.\} and Rider, \{Nicholas L.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

doi = "10.1016/j.jaci.2025.09.002",

language = "English",

journal = "Journal of allergy and clinical immunology",

issn = "0091-6749",

publisher = "Mosby Inc.",

}

Rivière, JG, Bastarache, L, Campos, LC, Carot-Sans, G, Chin, A, Chunara, R, Cunningham-Rundles, C, Erra, L, Farmer, J, Garcelon, N, Hsieh, E, Leavis, H, Lee, S, Liu, L, Kusters, M, Lloyd, BC, Martinson, AK, Mester, R, Moore, JB, Moshous, D, Orange, JS, Parrish, N, Parker, SH, Pasaniuc, B, Peng, XP, Pergent, M, Piera-Jiménez, J, Quinn, J, Ramesh, S, Roberts, K, Robinson, PN, Savova, G, Scalchunes, C, Seidel, MG, Simoneau, R, Soler-Palacin, P, Sullivan, KE, van Gijn, M, Wi, C-I, Zhou, D, Tenembaum, V, Butte, MJ & Rider, NL 2025, 'Proceedings of the second Artificial Intelligence in Primary Immunodeficiency (AIPI) meeting', Journal of allergy and clinical immunology. https://doi.org/10.1016/j.jaci.2025.09.002

TY - JOUR

T1 - Proceedings of the second Artificial Intelligence in Primary Immunodeficiency (AIPI) meeting

AU - Rivière, Jacques G.

AU - Bastarache, Lisa

AU - Campos, Luiza C.

AU - Carot-Sans, Gerard

AU - Chin, Aaron

AU - Chunara, Rumi

AU - Cunningham-Rundles, Charlotte

AU - Erra, Lorenzo

AU - Farmer, Jocelyn

AU - Garcelon, Nicolas

AU - Hsieh, Elena

AU - Leavis, Helen

AU - Lee, Seungwon

AU - Liu, Liangying

AU - Kusters, Maaike

AU - Lloyd, Brian C.

AU - Martinson, Alexandra K.

AU - Mester, Rachel

AU - Moore, Justin B.

AU - Moshous, Despina

AU - Orange, Jordan S.

AU - Parrish, Nefatia

AU - Parker, Sarah Henrickson

AU - Pasaniuc, Bogdan

AU - Peng, Xiao P.

AU - Pergent, Martine

AU - Piera-Jiménez, Jordi

AU - Quinn, Jessica

AU - Ramesh, Sidharth

AU - Roberts, Kirk

AU - Robinson, Peter N.

AU - Savova, Guergana

AU - Scalchunes, Christopher

AU - Seidel, Markus G.

AU - Simoneau, Rachel

AU - Soler-Palacin, Pere

AU - Sullivan, Kathleen E.

AU - van Gijn, Marielle

AU - Wi, Chung-Il

AU - Zhou, Dawei

AU - Tenembaum, Vanessa

AU - Butte, Manish J.

AU - Rider, Nicholas L.

PY - 2025

Y1 - 2025

N2 - The use of artificial intelligence (AI) in inborn errors of immunity offers transformative potential in diagnostics and disease management but faces multiple challenges that were discussed at the second Artificial Intelligence in Primary Immunodeficiency conference, held in New York City (March 19-22, 2025). The conference addressed 7 themes: predictive diagnostic algorithms, health equity, industry collaboration, advanced computational tools like large language models, patient-led AI initiatives, multiomics integration, and implementation science. Discussions highlighted the growing impact of AI on diagnostics, genomics, and health systems, emphasizing the need for high-quality, diverse datasets and ethical safeguards to ensure equitable application. Participants stressed that AI alone cannot resolve systemic inequities or delays in diagnosis. Challenges such as the lack of harmonized datasets, the complexity of integrating multiomics data, ethical concerns, and the difficulty of adapting solutions to low-resource settings were emphasized. Additionally, the use implementation science was pointed out as one of the major challenges to ensure applicability and scalability in real-world settings. This requires overcoming resistance to adoption, addressing infrastructure gaps, and ensuring regulatory compliance. Collaboration across academia, clinicians, patients, regulators, and industry is essential to ensure AI delivers equitable, lasting benefits for individuals with inborn errors of immunity.

AB - The use of artificial intelligence (AI) in inborn errors of immunity offers transformative potential in diagnostics and disease management but faces multiple challenges that were discussed at the second Artificial Intelligence in Primary Immunodeficiency conference, held in New York City (March 19-22, 2025). The conference addressed 7 themes: predictive diagnostic algorithms, health equity, industry collaboration, advanced computational tools like large language models, patient-led AI initiatives, multiomics integration, and implementation science. Discussions highlighted the growing impact of AI on diagnostics, genomics, and health systems, emphasizing the need for high-quality, diverse datasets and ethical safeguards to ensure equitable application. Participants stressed that AI alone cannot resolve systemic inequities or delays in diagnosis. Challenges such as the lack of harmonized datasets, the complexity of integrating multiomics data, ethical concerns, and the difficulty of adapting solutions to low-resource settings were emphasized. Additionally, the use implementation science was pointed out as one of the major challenges to ensure applicability and scalability in real-world settings. This requires overcoming resistance to adoption, addressing infrastructure gaps, and ensuring regulatory compliance. Collaboration across academia, clinicians, patients, regulators, and industry is essential to ensure AI delivers equitable, lasting benefits for individuals with inborn errors of immunity.

KW - -omics

KW - AI rare diseases

KW - AI scalability

KW - Artificial intelligence

KW - clinical decision support

KW - electronic health records

KW - health equity

KW - implementation science

KW - inborn errors of immunity

KW - large language models

KW - machine learning

KW - patient-centered AI

KW - primary immunodeficiency

UR - https://www.scopus.com/pages/publications/105018874504

U2 - 10.1016/j.jaci.2025.09.002

DO - 10.1016/j.jaci.2025.09.002

M3 - Article

C2 - 40972982

SN - 0091-6749

JO - Journal of allergy and clinical immunology

JF - Journal of allergy and clinical immunology

ER -

Proceedings of the second Artificial Intelligence in Primary Immunodeficiency (AIPI) meeting

Abstract

UN SDGs

Keywords

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