OBJECTIVES: Limiting radiation exposure is necessary in radiological procedures. This study evaluates the impact of a radiological low frame-rate protocol in a standard angiographic system and the implementation of a noise-reduction technology (NRT) on patient radiation exposure during transcatheter aortic valve replacement (TAVR).METHODS: Transfemoral TAVR procedures performed between February 2016 and February 2017 were analyzed according to two angiographic systems, Standard and NRT, and further divided in four subgroups: (1) Standard 15 frames per second (fps) with 15 fps for both fluoroscopy and cine acquisitions; (2) Standard 7.5 fps with 7.5 fps for both fluoroscopy and cine acquisitions; (3) NRT 15 fps with 15 fps for both fluoroscopy and cine acquisitions; and (4) NRT 7.5 fps with 15 fps for fluoroscopy and 7.5 fps for cine acquisitions. Study endpoints were kerma area product (KAP) and cumulative air kerma at interventional reference point (AK at IRP).RESULTS: Significant differences were found in KAP (153 Gy·cm² [IQR, 95-234 Gy·cm²] vs 78.3 Gy·cm² [IQR, 54.4-103.5 Gy·cm²]; P<.001) and AK at IRP (1.454 Gy [IQR, 0.893-2.201 Gy] vs 0.620 Gy [IQR, 0.437-0.854 Gy]; P<.001) between Standard system and NRT. Within the procedures conducted with Standard protocol, a reduction of KAP and AK at IRP was found between Standard 15 fps and Standard 7.5 fps groups (184 Gy·cm² [IQR, 128-262 Gy·cm²] vs 106.8 Gy·cm² [IQR, 76.87-181 Gy·cm²] [P<.01] and 0.973 Gy [IQR, 0.642-1.786 Gy] vs 0.64 Gy [IQR, 0.489-0.933 Gy] [P<.01], respectively).CONCLUSIONS: The present study suggests that the low frame-rate protocol in Standard system and NRT implementation allows a marked reduction of patient radiation exposure in TAVR procedures.

Implementation of a Low Frame-Rate Protocol and Noise-Reduction Technology to Minimize Radiation Dose in Transcatheter Aortic Valve Replacement / Maccagni, D; Candilio, L; Latib, A; Godino, C; Chieffo, A; Montorfano, M; Colombo, A; Azzalini, L. - In: THE JOURNAL OF INVASIVE CARDIOLOGY. - ISSN 1557-2501. - (2018).

Implementation of a Low Frame-Rate Protocol and Noise-Reduction Technology to Minimize Radiation Dose in Transcatheter Aortic Valve Replacement

Chieffo A;Montorfano M;Colombo A
Penultimo
;
2018-01-01

Abstract

OBJECTIVES: Limiting radiation exposure is necessary in radiological procedures. This study evaluates the impact of a radiological low frame-rate protocol in a standard angiographic system and the implementation of a noise-reduction technology (NRT) on patient radiation exposure during transcatheter aortic valve replacement (TAVR).METHODS: Transfemoral TAVR procedures performed between February 2016 and February 2017 were analyzed according to two angiographic systems, Standard and NRT, and further divided in four subgroups: (1) Standard 15 frames per second (fps) with 15 fps for both fluoroscopy and cine acquisitions; (2) Standard 7.5 fps with 7.5 fps for both fluoroscopy and cine acquisitions; (3) NRT 15 fps with 15 fps for both fluoroscopy and cine acquisitions; and (4) NRT 7.5 fps with 15 fps for fluoroscopy and 7.5 fps for cine acquisitions. Study endpoints were kerma area product (KAP) and cumulative air kerma at interventional reference point (AK at IRP).RESULTS: Significant differences were found in KAP (153 Gy·cm² [IQR, 95-234 Gy·cm²] vs 78.3 Gy·cm² [IQR, 54.4-103.5 Gy·cm²]; P<.001) and AK at IRP (1.454 Gy [IQR, 0.893-2.201 Gy] vs 0.620 Gy [IQR, 0.437-0.854 Gy]; P<.001) between Standard system and NRT. Within the procedures conducted with Standard protocol, a reduction of KAP and AK at IRP was found between Standard 15 fps and Standard 7.5 fps groups (184 Gy·cm² [IQR, 128-262 Gy·cm²] vs 106.8 Gy·cm² [IQR, 76.87-181 Gy·cm²] [P<.01] and 0.973 Gy [IQR, 0.642-1.786 Gy] vs 0.64 Gy [IQR, 0.489-0.933 Gy] [P<.01], respectively).CONCLUSIONS: The present study suggests that the low frame-rate protocol in Standard system and NRT implementation allows a marked reduction of patient radiation exposure in TAVR procedures.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11768/143136
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