Superiority of the Combination of Input and Output Parameters to the Single Parameter for Lesion Size Estimation

Superiority of the Combination of Input and Output Parameters to the Single Parameter for Lesion Size Estimation

Background: For lesion size prediction, each input parameter, including ablation energy (AE), and output parameter, such as impedance, is individually used. We hypothesize that using both parameters simultaneously may be more optimal.Methods and Results: Radiofrequency applications at a range of pow...

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Published in:Circulation Journal Vol. 87; no. 12; pp. 1757 - 1764
Main Authors: Iwakawa, Hidehiro, Takigawa, Masateru, Yamaguchi, Junji, Martin, Claire A, Goya, Masahiko, Yamamoto, Tasuku, Amemiya, Miki, Ikenouchi, Takashi, Negishi, Miho, Kawamura, Iwanari, Goto, Kentaro, Shigeta, Takatoshi, Nishimura, Takuro, Takamiya, Tomomasa, Tao, Susumu, Miyazaki, Shinsuke, Watanabe, Hiroyuki, Sasano, Tetsuo
Format: Journal Article
Language:English
Published: Japan The Japanese Circulation Society 24-11-2023
Subjects:
Animals
Catheter ablation
Catheter Ablation - methods
Catheters
Electric Impedance
Energy
Equipment Design
Heart
Heart Ventricles - pathology
Impedance
Lesion
Radiofrequency
Saline Solution
Swine
Lesion
Energy
Impedance
Radiofrequency
Catheter ablation
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Summary:Background: For lesion size prediction, each input parameter, including ablation energy (AE), and output parameter, such as impedance, is individually used. We hypothesize that using both parameters simultaneously may be more optimal.Methods and Results: Radiofrequency applications at a range of power (30–50 W), contact force (10 g and 20 g), duration (10–60 s), and catheter orientation with normal saline (NS)- or half-normal saline (HNS)-irrigation were performed in excised porcine hearts. The correlations, with lesion size of AE, absolute impedance drop (∆Imp-drop), relative impedance drop (%Imp-drop), and AE*%Imp-drop were examined. Lesion size was analyzed in 283 of 288 lesions (NS-irrigation, n=142; HNS-irrigation, n=141) without steam pops. AE*%Imp-drop consistently showed the strongest correlations with lesion maximum depth (NS-irrigation, ρ=0.91; HNS-irrigation, ρ=0.94), surface area (NS-irrigation, ρ=0.87; HNS-irrigation, ρ=0.86), and volume (NS-irrigation, ρ=0.94; HNS-irrigation, ρ=0.94) compared with the other parameters. Moreover, compared with AE alone, AE*%Imp-drop significantly improved the strength of correlation with lesion maximum depth (AE vs. AE*%Imp-drop, ρ=0.83 vs. 0.91, P<0.01), surface area (ρ=0.73 vs. 0.87, P<0.01), and volume (ρ=0.84 vs. 0.94, P<0.01) with NS-irrigation. This tendency was also observed with HNS-irrigation. Parallel catheter orientation showed a better correlation with lesion depth and volume using ∆Imp-drop, %Imp-drop, and AE*%Imp-drop than perpendicular orientation.Conclusions: The combination of input and output parameters is more optimal than each single parameter for lesion prediction.
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content type line 23
ISSN:1346-9843
1347-4820
1347-4820
DOI:10.1253/circj.CJ-23-0574