Frontiers in Immunology (Jun 2023)

Maximizing utility of nondirected living liver donor grafts using machine learning

  • Kiran Bambha,
  • Kiran Bambha,
  • Kiran Bambha,
  • Nicole J. Kim,
  • Nicole J. Kim,
  • Mark Sturdevant,
  • Mark Sturdevant,
  • James D. Perkins,
  • James D. Perkins,
  • Catherine Kling,
  • Catherine Kling,
  • Ramasamy Bakthavatsalam,
  • Ramasamy Bakthavatsalam,
  • Patrick Healey,
  • Patrick Healey,
  • Andre Dick,
  • Andre Dick,
  • Jorge D. Reyes,
  • Jorge D. Reyes,
  • Jorge D. Reyes,
  • Scott W. Biggins,
  • Scott W. Biggins,
  • Scott W. Biggins

DOI
https://doi.org/10.3389/fimmu.2023.1194338
Journal volume & issue
Vol. 14

Abstract

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ObjectiveThere is an unmet need for optimizing hepatic allograft allocation from nondirected living liver donors (ND-LLD).Materials and methodUsing OPTN living donor liver transplant (LDLT) data (1/1/2000-12/31/2019), we identified 6328 LDLTs (4621 right, 644 left, 1063 left-lateral grafts). Random forest survival models were constructed to predict 10-year graft survival for each of the 3 graft types.ResultsDonor-to-recipient body surface area ratio was an important predictor in all 3 models. Other predictors in all 3 models were: malignant diagnosis, medical location at LDLT (inpatient/ICU), and moderate ascites. Biliary atresia was important in left and left-lateral graft models. Re-transplant was important in right graft models. C-index for 10-year graft survival predictions for the 3 models were: 0.70 (left-lateral); 0.63 (left); 0.61 (right). Similar C-indices were found for 1-, 3-, and 5-year graft survivals. Comparison of model predictions to actual 10-year graft survivals demonstrated that the predicted upper quartile survival group in each model had significantly better actual 10-year graft survival compared to the lower quartiles (p<0.005).ConclusionWhen applied in clinical context, our models assist with the identification and stratification of potential recipients for hepatic grafts from ND-LLD based on predicted graft survivals, while accounting for complex donor-recipient interactions. These analyses highlight the unmet need for granular data collection and machine learning modeling to identify potential recipients who have the best predicted transplant outcomes with ND-LLD grafts.

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