<p>Commonly used screening tests for primary aldosteronism (PA) provide suboptimal diagnostic accuracy, particularly with antihypertensive medication use. This study utilized three datasets totaling 1380 patients with and without PA to develop machine learning models for screening based on plasma steroids, potassium, and renin. A feedforward neural network (FNN) model with steroids and potassium improved diagnostic accuracy compared to models without potassium. Inclusion of renin negligibly improved accuracy. The FNN and other renin-independent models showed similar accuracy before and after antihypertensive medication washout, whereas renin-dependent models exhibited poorer accuracy without medication washout. Three further optimized renin-independent models outperformed the aldosterone-to-renin ratio (ARR) for screening according to areas under receiver-operating-characteristic curves of 0.948–0.954 versus 0.839 for the ARR. Those models minimize need for medication washout and, at cut-offs for optimal 90–95% diagnostic sensitivity, reduce false positives by 53–72% to more effectively screen for PA than with the ARR.</p>

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Advanced machine learning-based screening for primary aldosteronism with plasma steroids, potassium, and renin

  • Wenyu Zhang,
  • Christina Pamporaki,
  • René Jäkel,
  • Georgiana Constantinescu,
  • Mirko Peitzsch,
  • Manuel Schulze,
  • Jun Yang,
  • Andrea Rita Horvath,
  • Ralph Müller-Pfefferkorn,
  • Tracy Ann Williams,
  • Martin Reincke,
  • Felix Beuschlein,
  • Carmina Teresa Fuss,
  • Stefanie Hahner,
  • Graeme Eisenhofer

摘要

Commonly used screening tests for primary aldosteronism (PA) provide suboptimal diagnostic accuracy, particularly with antihypertensive medication use. This study utilized three datasets totaling 1380 patients with and without PA to develop machine learning models for screening based on plasma steroids, potassium, and renin. A feedforward neural network (FNN) model with steroids and potassium improved diagnostic accuracy compared to models without potassium. Inclusion of renin negligibly improved accuracy. The FNN and other renin-independent models showed similar accuracy before and after antihypertensive medication washout, whereas renin-dependent models exhibited poorer accuracy without medication washout. Three further optimized renin-independent models outperformed the aldosterone-to-renin ratio (ARR) for screening according to areas under receiver-operating-characteristic curves of 0.948–0.954 versus 0.839 for the ARR. Those models minimize need for medication washout and, at cut-offs for optimal 90–95% diagnostic sensitivity, reduce false positives by 53–72% to more effectively screen for PA than with the ARR.