A Machine-Learning Approach to Finding Gene Target Treatment Options for Long COVID

Alejandro Lopez-Rincon

Read the full article

Listed in

This article is not in any list yet, why not save it to one of your lists.

Abstract

Long COVID, also known as post-acute sequelae of SARS-CoV-2 infection (PASC), encompasses a range of symptoms persisting for weeks or months after the acute phase of COVID-19. These symptoms, affecting multiple organ systems, significantly impact the quality of life. This study employs a machine-learning approach to identify gene targets for treating Long COVID. Using datasets GSE275334, GSE270045, and GSE157103, Recursive Ensemble Feature Selection (REFS) was applied to identify key genes associated with Long COVID. The study highlights the therapeutic potential of targeting genes such as PPP2CB, SOCS3, ARG1, IL6R, and ECHS1. Clinical trials and pharmacological interventions, including dual antiplatelet therapy and anticoagulants, are explored for their efficacy in managing COVID-19-related complications. The findings suggest that machine learning can effectively identify biomarkers and potential therapeutic targets, offering a promising avenue for personalized treatment strategies in Long COVID patients.

Version published to 10.1101/2025.02.07.25321856v1 on medRxiv
Feb 13, 2025

Molecular and Immunological Signatures of Long COVID: Implications for Diagnosis and Personalized Treatment Strategies

This article has 2 authors:
1. Jorine KN Hammink
2. Tim R van Elst
This article has no evaluationsLatest version Feb 4, 2025
Machine learning models predict long COVID outcomes based on baseline clinical and immunologic factors

This article has 50 authors:
1. Naresh Doni Jayavelu
2. Hady Samaha
3. Sonia Tandon Wimalasena
4. Annmarie Hoch
5. Jeremy P Gygi
6. Gisela Gabernet
7. Al Ozonoff
8. Shanshan Liu
9. Carly E. Milliren
10. Ofer Levy
11. Lindsey R. Baden
12. Esther Melamed
13. Lauren I. R. Ehrlich
14. Grace A. McComsey
15. Rafick P. Sekaly
16. Charles B. Cairns
17. Elias K. Haddad
18. Joanna Schaenman
19. Albert C. Shaw
20. David A. Hafler
21. Ruth R. Montgomery
22. David B. Corry
23. Farrah Kheradmand
24. Mark A. Atkinson
25. Scott C. Brakenridge
26. Nelson I Agudelo Higuita
27. Jordan P. Metcalf
28. Catherine L. Hough
29. William B. Messer
30. Bali Pulendran
31. Kari C. Nadeau
32. Mark M. Davis
33. Linda N. Geng
34. Ana Fernandez Sesma
35. Viviana Simon
36. Florian Krammer
37. Monica Kraft
38. Chris Bime
39. Carolyn S. Calfee
40. David J. Erle
41. Charles R. Langelier
42. IMPACC Network
43. Leying Guan
44. Holden T. Maecker
45. Bjoern Peters
46. Steven H. Kleinstein
47. Elaine F. Reed
48. Joann Diray-Arce
49. Nadine Rouphael
50. Matthew C. Altman
This article has no evaluationsLatest version Feb 13, 2025
System biology based integrative analysis to predict early biomarkers for COVID-related MIS in children

This article has 2 authors:
1. Awadhesh Kumar Verma
2. Tanya Singh
This article has no evaluationsLatest version Jan 6, 2025

Listed in

Abstract

Article activity feed

Related articles

Molecular and Immunological Signatures of Long COVID: Implications for Diagnosis and Personalized Treatment Strategies

Machine learning models predict long COVID outcomes based on baseline clinical and immunologic factors

System biology based integrative analysis to predict early biomarkers for COVID-related MIS in children