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Deep Learning on Bone Scintigraphy to Detect Abnormal Cardiac Uptake at Risk of Cardiac Amyloidosis

M.A. Delbarre, François Girardon, Lucien Roquette, Paul Blanc‐Durand, Marc-Antoine Hubaut, É. Hachulla, Franck Semah, D. Huglo, Nicolas Garcelon, E. Marchal, I. El Esper, Christophe Tribouilloy, Nicolas Lamblin, P. Duhaut, Jean M. Schmidt, Emmanuel Itti, Thibaud Damy

2023JACC. Cardiovascular imaging43 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Cardiac uptake on technetium-99m whole-body scintigraphy (WBS) is almost pathognomonic of transthyretin cardiac amyloidosis. The rare false positives are often related to light-chain cardiac amyloidosis. However, this scintigraphic feature remains largely unknown, leading to misdiagnosis despite characteristic images. A retrospective review of all WBSs in a hospital database to detect those with cardiac uptake may allow the identification of undiagnosed patients. OBJECTIVES: The authors sought to develop and validate a deep learning-based model that automatically detects significant cardiac uptake (Perugini grade ≥2) on WBS from large hospital databases in order to retrieve patients at risk of cardiac amyloidosis. METHODS: The model is based on a convolutional neural network with image-level labels. The performance evaluation was performed with C-statistics using a 5-fold cross-validation scheme stratified so that the proportion of positive and negative WBSs remained constant across folds and using an external validation data set. RESULTS: The training data set consisted of 3,048 images: 281 positives (Perugini grade ≥2) and 2,767 negatives. The external validation data set consisted of 1,633 images: 102 positives and 1,531 negatives. The performance of the 5-fold cross-validation and external validation was as follows: 98.9% (± 1.0) and 96.1% for sensitivity, 99.5% (± 0.4) and 99.5% for specificity, and 0.999 (SD = 0.000) and 0.999 for the area under the curve of the receiver-operating characteristic curves. Sex, age <90 years, body mass index, injection-acquisition delay, radionuclides, and the indication of WBS only slightly affected performances. CONCLUSIONS: The authors' detection model is effective at identifying patients with cardiac uptake Perugini grade ≥2 on WBS and may help in the diagnosis of patients with cardiac amyloidosis.

Topics & Concepts

MedicineFalse positive paradoxCardiac amyloidosisPathognomonicReceiver operating characteristicScintigraphyNuclear medicineTransthyretinAmyloidosisConvolutional neural networkArea under the curveRadiologyArtificial intelligenceInternal medicineComputer scienceDiseaseAmyloidosis: Diagnosis, Treatment, OutcomesMedical Imaging and Pathology StudiesPericarditis and Cardiac Tamponade
Deep Learning on Bone Scintigraphy to Detect Abnormal Cardiac Uptake at Risk of Cardiac Amyloidosis | Litcius