Large-scale deep learning analysis to identify adult patients at risk for combined and common variable immunodeficiencies

Background Primary immunodeficiency (PI) is a group of heterogeneous disorders resulting from immune system defects. Over 70% of PI is undiagnosed, leading to increased mortality, co-morbidity and healthcare costs. Among PI disorders, combined immunodeficiencies (CID) are characterized by complex im...

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Bibliographic Details
Published in:Communications medicine 2023-12, Vol.3 (1), p.189-189, Article 189
Main Authors: Papanastasiou, Giorgos, Yang, Guang, Fotiadis, Dimitris I., Dikaios, Nikolaos, Wang, Chengjia, Huda, Ahsan, Sobolevsky, Luba, Raasch, Jason, Perez, Elena, Sidhu, Gurinder, Palumbo, Donna
Format: Article
Language:English
Subjects:
692/699/249/1570
692/700/139/1512
Adults
Asthma
Bone marrow
Codes
Deep learning
Disease
Electronic health records
Ethnicity
Feature selection
Generalized linear models
Health risks
Identification
Immune system
Infections
Machine learning
Medical screening
Medicine
Medicine & Public Health
Morbidity
Mortality
Patients
Pneumonia
Stem cells
Transplants & implants
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Summary:Background Primary immunodeficiency (PI) is a group of heterogeneous disorders resulting from immune system defects. Over 70% of PI is undiagnosed, leading to increased mortality, co-morbidity and healthcare costs. Among PI disorders, combined immunodeficiencies (CID) are characterized by complex immune defects. Common variable immunodeficiency (CVID) is among the most common types of PI. In light of available treatments, it is critical to identify adult patients at risk for CID and CVID, before the development of serious morbidity and mortality. Methods We developed a deep learning-based method (named “TabMLPNet”) to analyze clinical history from nationally representative medical claims from electronic health records (Optum® data, covering all US), evaluated in the setting of identifying CID/CVID in adults. Further, we revealed the most important CID/CVID-associated antecedent phenotype combinations. Four large cohorts were generated: a total of 47,660 PI cases and (1:1 matched) controls. Results The sensitivity/specificity of TabMLPNet modeling ranges from 0.82-0.88/0.82-0.85 across cohorts. Distinctive combinations of antecedent phenotypes associated with CID/CVID are identified, consisting of respiratory infections/conditions, genetic anomalies, cardiac defects, autoimmune diseases, blood disorders and malignancies, which can possibly be useful to systematize the identification of CID and CVID. Conclusions We demonstrated an accurate method in terms of CID and CVID detection evaluated on large-scale medical claims data. Our predictive scheme can potentially lead to the development of new clinical insights and expanded guidelines for identification of adult patients at risk for CID and CVID as well as be used to improve patient outcomes on population level. Plain language summary Primary immunodeficiencies (PI) are disorders that weaken the immune system, increasing the incident of life-threatening infections, organ damage and the development of cancer and autoimmune diseases. Although PI is estimated to affect 1-2% of the global population, 70-90% of these patients remain undiagnosed. Many patients are diagnosed during adulthood, after other serious diseases have already developed. We developed a computational method to analyze the clinical history from a large group of people with and without PI. We focused on combined (CID) and common variable immunodeficiency (CVID), which are among the least studied and most common PI subtypes, respectively. We cou
ISSN:2730-664X
2730-664X
DOI:10.1038/s43856-023-00412-8