Development and internal validation of a gradient-boosted trees model for prediction of delirium after surgery and anesthesia (the BioCog study)

  1. Florian Lammers-Lietz
  2. Levent Akyuez
  3. Diana Boraschi
  4. Friedrich Borchers
  5. Jeroen de Bresser
  6. Sreyoshi Chatterjee
  7. Marta M. Correia
  8. Nikola M. de Lange
  9. Thomas Bernd Dschietzig
  10. Soumyabrata Ghosh
  11. Insa Feinkohl
  12. Izabela Ferreira da Silva
  13. Marinus Fislage
  14. Anna Fournier
  15. Jürgen Gallinat
  16. Daniel Hadzidiakos
  17. Sven Hädel
  18. Fatima Halzl-Yürek
  19. Stefanie Heilmann-Heimbach
  20. Maria Heinrich
  21. Jeroen Hendrikse
  22. Per Hoffmann
  23. Jürgen Janke
  24. Ilse M. J. Kant
  25. Angelie Kraft
  26. Roland Krause
  27. Jochen Kruppa-Scheetz
  28. Simone Kühn
  29. Gunnar Lachmann
  30. Markus Laubach
  31. Christoph Lippert
  32. David K. Menon
  33. Rudolf Mörgeli
  34. Anika Müller
  35. Henk-Jan Mutsaerts
  36. Markus Nöthen
  37. Peter Nürnberg
  38. Kwaku Ofosu
  39. Malte Pietzsch
  40. Sophie K. Piper
  41. Tobias Pischon
  42. Jacobus Preller
  43. Konstanze Scheurer
  44. Reinhard Schneider
  45. Kathrin Scholtz
  46. Peter H. Schreier
  47. Arjen J. C. Slooter
  48. Emmanuel A. Stamatakis
  49. Clarissa von Haefen
  50. Simone J. T. van Montfort
  51. Edwin van Dellen
  52. Hans-Dieter Volk
  53. Simon Weber
  54. Janine Wiebach
  55. Anton Wiehe
  56. Jeanne M. Winterer
  57. Alissa Wolf
  58. Norman Zacharias
  59. Claudia Spies
  60. Georg Winterer
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Abstract

IMPORTANCE

Postoperative delirium (POD) is a multietiological condition and affects 20% of older surgical patients. It is associated with poor clinical outcome and increased mortality.

OBJECTIVE

We aimed to develop and validate a risk prediction algorithm for POD based on a multimodal biomarker database exploiting preoperative data (predisposing factors) and procedural factors as well as perioperative molecular changes associated with POD (precipitating factors).

DESIGN

BioCog is a prospective cohort study conducted from November 2014 to April 2017. Patients were followed up for seven postoperative days after surgery for POD. Gradient-boosted trees (GBT) with nested cross-validation was used for POD prediction.

SETTING

Patients aged ≥65 years were enrolled at the anesthesiologic departments of two tertiary care centers.

EXPOSURE

All patients underwent surgery with an expected duration of at least 60min. Clinical, neuropsychological, neuroimaging data and blood were collected and clinically well established as well as non-established biomarkers (e.g., gene expression profiling) were measured pre- and postoperatively.

MAIN OUTCOME

POD according to DSM 5 until the seventh postoperative day

RESULTS

184 of 929 (20%) patients experienced POD. A GBT algorithm using both preoperative data, characteristics of the intervention and postoperative changes in laboratory parameters achieved the highest area under the curve (0.83, [0.79; 0.86]) with a Brier score of 0.12 (0.12; 0.13).

CONCLUSIONS AND RELEVANCE

Models combining predisposing factors with precipitating factors predict POD best. Non-routine laboratory data provide useful information for POD risk prediction, providing relevant results for future studies on the molecular factors of POD. In addition, possibly relevant molecular mechanisms contributing to the development of POD were identified, mostly indicating a dysregulated postoperative immune response. This study constitutes the basis for future hypothesis-driven analyses or implementation of prediction expert system for clinical practice.

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  1. Version published to 10.1101/2024.12.30.24319760v1 on medRxiv