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Machine Learning to Predict Successful Opioid Dose Reduction or Stabilization After Spinal Cord Stimulation.

Publication ,  Journal Article
Adil, SM; Charalambous, LT; Rajkumar, S; Seas, A; Warman, PI; Murphy, KR; Rahimpour, S; Parente, B; Dharmapurikar, R; Dunn, TW; Lad, SP
Published in: Neurosurgery
August 1, 2022

BACKGROUND: Spinal cord stimulation (SCS) effectively reduces opioid usage in some patients, but preoperatively, there is no objective measure to predict who will most benefit. OBJECTIVE: To predict successful reduction or stabilization of opioid usage after SCS using machine learning models we developed and to assess if deep learning provides a significant benefit over logistic regression (LR). METHODS: We used the IBM MarketScan national databases to identify patients undergoing SCS from 2010 to 2015. Our models predict surgical success as defined by opioid dose stability or reduction 1 year after SCS. We incorporated 30 predictors, primarily regarding medication patterns and comorbidities. Two machine learning algorithms were applied: LR with recursive feature elimination and deep neural networks (DNNs). To compare model performances, we used nested 5-fold cross-validation to calculate area under the receiver operating characteristic curve (AUROC). RESULTS: The final cohort included 7022 patients, of whom 66.9% had successful surgery. Our 5-variable LR performed comparably with the full 30-variable version (AUROC difference <0.01). The DNN and 5-variable LR models demonstrated similar AUROCs of 0.740 (95% CI, 0.727-0.753) and 0.737 (95% CI, 0.728-0.746) ( P = .25), respectively. The simplified model can be accessed at SurgicalML.com . CONCLUSION: We present the first machine learning-based models for predicting reduction or stabilization of opioid usage after SCS. The DNN and 5-variable LR models demonstrated comparable performances, with the latter revealing significant associations with patients' pre-SCS pharmacologic patterns. This simplified, interpretable LR model may augment patient and surgeon decision making regarding SCS.

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Published In

Neurosurgery

DOI

EISSN

1524-4040

Publication Date

August 1, 2022

Volume

91

Issue

2

Start / End Page

272 / 279

Location

United States

Related Subject Headings

  • Spinal Cord Stimulation
  • Neurology & Neurosurgery
  • Machine Learning
  • Logistic Models
  • Humans
  • Drug Tapering
  • Analgesics, Opioid
  • 5202 Biological psychology
  • 3209 Neurosciences
  • 3202 Clinical sciences
 

Citation

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Adil, S. M., Charalambous, L. T., Rajkumar, S., Seas, A., Warman, P. I., Murphy, K. R., … Lad, S. P. (2022). Machine Learning to Predict Successful Opioid Dose Reduction or Stabilization After Spinal Cord Stimulation. Neurosurgery, 91(2), 272–279. https://doi.org/10.1227/neu.0000000000001969
Adil, Syed M., Lefko T. Charalambous, Shashank Rajkumar, Andreas Seas, Pranav I. Warman, Kelly R. Murphy, Shervin Rahimpour, et al. “Machine Learning to Predict Successful Opioid Dose Reduction or Stabilization After Spinal Cord Stimulation.Neurosurgery 91, no. 2 (August 1, 2022): 272–79. https://doi.org/10.1227/neu.0000000000001969.
Adil SM, Charalambous LT, Rajkumar S, Seas A, Warman PI, Murphy KR, et al. Machine Learning to Predict Successful Opioid Dose Reduction or Stabilization After Spinal Cord Stimulation. Neurosurgery. 2022 Aug 1;91(2):272–9.
Adil, Syed M., et al. “Machine Learning to Predict Successful Opioid Dose Reduction or Stabilization After Spinal Cord Stimulation.Neurosurgery, vol. 91, no. 2, Aug. 2022, pp. 272–79. Pubmed, doi:10.1227/neu.0000000000001969.
Adil SM, Charalambous LT, Rajkumar S, Seas A, Warman PI, Murphy KR, Rahimpour S, Parente B, Dharmapurikar R, Dunn TW, Lad SP. Machine Learning to Predict Successful Opioid Dose Reduction or Stabilization After Spinal Cord Stimulation. Neurosurgery. 2022 Aug 1;91(2):272–279.
Journal cover image

Published In

Neurosurgery

DOI

EISSN

1524-4040

Publication Date

August 1, 2022

Volume

91

Issue

2

Start / End Page

272 / 279

Location

United States

Related Subject Headings

  • Spinal Cord Stimulation
  • Neurology & Neurosurgery
  • Machine Learning
  • Logistic Models
  • Humans
  • Drug Tapering
  • Analgesics, Opioid
  • 5202 Biological psychology
  • 3209 Neurosciences
  • 3202 Clinical sciences