Hospital Guillermo Grant Benavente de Concepción, Concepción, Chile.
Clínica INDISA, Santiago, Chile.
Medwave. 2024 Sep 2;24(8):e2918. doi: 10.5867/medwave.2024.08.2918.
Cryoballoon ablation for pulmonary vein isolation is a time-efficient procedure that can alleviate stress on electrophysiology lab resources. This analysis modeled the impact of cryoballoon ablation on electrophysiology lab operation using data from Latin America.
Data from centers in Argentina, Mexico, Colombia, and Chile of the were used as inputs for an electrophysiology lab efficiency simulation model. The model used the assumption that either two (today's electrophysiology lab operations) or three (including electrophysiology lab operational changes) cryoballoon ablation procedures could be performed per day. The endpoints were the percentage of days that resulted in 1) overtime and 2) time left for an extra non-ablation electrophysiology procedure.
Data from a total of 232 procedures from six Latin American centers were included in the analysis. The average electrophysiology lab occupancy time for all procedures in Latin America was 132 ± 62 minutes. In the Current Scenario (two procedures per day), 7.4% of simulated days resulted in overtime, and 81.4% had enough time for an extra electrophysiology procedure. In the Enhanced Productivity Scenario (three procedures per day), 16.4% of days used overtime, while 67.4% allowed time for an extra non-ablation electrophysiology procedure.
Using real-world, Latin American-specific data, we found that with operational changes, three ablation procedures could feasibly be performed daily, leaving time for an extra electrophysiology procedure on more than half of days. Thus, use of cryoballoon ablation is an effective tool to enhance electrophysiology lab efficiency in resource-constrained regions such as Latin America.
冷冻球囊消融用于肺静脉隔离是一种高效的程序,可以减轻电生理实验室资源的压力。本分析使用来自拉丁美洲的数据来模拟冷冻球囊消融对电生理实验室操作的影响。
使用来自阿根廷、墨西哥、哥伦比亚和智利的中心的数据作为电生理实验室效率模拟模型的输入。该模型假设每天可以进行两次(当今电生理实验室的操作)或三次(包括电生理实验室操作变化)冷冻球囊消融程序。终点是导致以下情况的天数百分比:1)加班;2)有时间进行额外的非消融电生理程序。
共有 232 例来自六个拉丁美洲中心的数据被纳入分析。拉丁美洲所有程序的平均电生理实验室占用时间为 132 ± 62 分钟。在当前情况下(每天两次程序),7.4%的模拟日加班,81.4%有足够的时间进行额外的电生理程序。在增强的生产力情况下(每天三次程序),16.4%的天加班,而 67.4%的天有时间进行额外的非消融电生理程序。
使用来自拉丁美洲的真实世界特定数据,我们发现通过操作变化,每天可以进行三次消融程序,在一半以上的日子里有时间进行额外的电生理程序。因此,冷冻球囊消融的使用是在资源有限的地区(如拉丁美洲)提高电生理实验室效率的有效工具。
