Integrated Tele-radiological and Tele-pathological Evaluation of Pulmonary Grafts for Reducing the Rate of Injured and Diseased Grafts, in Lung Transplant.

AIM: Feasibility and reliability assessment of the integrated Tele-Radiological (TRE) and Tele-Pathological (TPE) evaluation of the Pulmonary Graft (PG) on Telemedicine Systems, in Lung Transplant (LT). MATERIAL AND METHODS: Sensitivity-specificity by simulating TRE of PG on 15 MR thoracic images by two radiologists and TPE by 20 specialists based on a total of 100 human PG digital images. RESULTS: Integration of TRE and TPE of PG showed an accuracy of 94.1% for hematomas and 97.1% for neoplastic identification. CONCLUSION: Integrated TRE and TPE of PG is feasible and reliable for reducing the rate of injured and diseased PG in LT.

Telemedicine systems in organ transplantation: a feasibility and reliability study of the integrated teleradiological and tele-pathological evaluation of the cardiac graft.

UNLABELLED: Aim. Feasibility and reliability of the integrated Tele-Radiological (TRE) and Tele-Pathological (TPE) evaluation of the Cardiac Graft (CG) on Telemedicine Systems. MATERIAL AND METHODS: Sensitivity-specificity analysis by a simulation of TRE of CG on 15 MR thoracic images by two radiologists and of TPE by 20 specialists based on total 100 human CG digital images, assessing injuries/trauma and lesions. RESULTS: Integration of TRE and TPE of CG for remote diagnosis showed an accuracy for: injuries/trauma/hematoma=90.9-100%, and non-neoplastic lesions=94.3%. CONCLUSION: Integration of TRE and TPE of CG is feasible and reliable for Heart Pre-Grafting and Pre-Transplant decision support and planning.