Type 1 Diabetes Polygenic Scores Improve Diagnostic Accuracy in Pediatric Diabetes Care

Raymond J. Kreienkamp
Aaron J. Deutsch
Alicia Huerta-Chagoya
Erin M. Borglund
Jose C. Florez
Jason Flannick
Miriam S. Udler

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Abstract

Background

Accurately classifying pediatric diabetes can be challenging for providers, and misclassification can result in suboptimal care. In recent years, type 1 diabetes (T1D) polygenic scores, which quantify one’s genetic risk for T1D based on T1D risk allele burden, have been developed with good discriminating capacity between T1D and not-T1D. These tools have the potential to improve significantly diagnostic provider accuracy if used in clinic.

Methods

We applied T1D polygenic scores to a group of pediatric patients (n=1846) with genetic data available in the Boston Children’s Hospital PrecisionLink Biobank, including 96 individuals diagnosed with T1D.

Results

Patients with a clinical diagnosis of T1D had higher T1D polygenic scores compared to controls (Wilcoxon rank-sum P <0.0001). Sixty-nine of the 74 individuals with diabetes and a T1D polygenic score exceeding an externally validated cutoff for distinguishing T1D from not-T1D were confirmed to have T1D. There were multiple cases where T1D polygenic scores would have clinical utility. An elevated T1D polygenic score suggested T1D in a pancreatic autoantibody (PAA)-negative individual with negative MODY genetic testing and a phenotype matching T1D. A low T1D polygenic score accurately indicated atypical diabetes in an individual found to have HNF1B -MODY. One individual had positive PAA, but the provider noted that the patient may not have classic T1D, as later suggested by a low T1D polygenic score.

Conclusion

T1D polygenic scores already have clinical utility to aid in the accurate diagnosis of pediatric diabetes. Efforts are now needed to advance their use in clinical practice.

Version published to 10.1101/2025.03.06.25323229v1 on medRxiv
Mar 13, 2025

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23. Jack Pattee
24. Lea Davis
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26. Megan M. Shuey
27. Nancy J. Cox
28. Nanette R. Lee
29. Marit E. Jørgensen
30. Peter Bjerregaard
31. Christina Larsen
32. Torben Hansen
33. Ida Moltke
34. James B. Meigs
35. Daniel O. Stram
36. Xianyong Yin
37. Xiang Zhou
38. Kyong-Mi Chang
39. Shoa L. Clarke
40. Rodrigo Guarischi-Sousa
41. Joanna Lankester
42. Philip S Tsao
43. Steven Buyske
44. Mariaelisa Graff
45. Laura M. Raffield
46. Quan Sun
47. Lynne R. Wilkens
48. Christopher S. Carlson
49. Charles B. Easton
50. Simin Liu
51. JoAnn E. Manson
52. Loïc L. Marchand
53. Christopher A. Haiman
54. Karen L. Mohlke
55. Penny Gordon-Larsen
56. Anders Albrechtsen
57. Michael Boehnke
58. Stephen S. Rich
59. Ani Manichaikul
60. Jerome I. Rotter
61. Noha A. Yousri
62. Ryan M. Irvin
63. The biobank at the Colorado Center for Personalized Medicine
64. VA Million Veteran Program
65. The Population Architecture using Genomics and Epidemiology (PAGE) study
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67. Kari E. North
68. Ruth J.F. Loos
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Type 2 diabetes polygenic risk score demonstrates context-dependent effects and associations with type 2 diabetes-related risk factors and complications across diverse populations

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A type 1 diabetes prediction model has utility across multiple screening settings with recalibration