TMRW Life Sciences, 250 Hudson St., 6th Floor, New York, NY, 10013, USA.
Boston IVF - The Eugin Group, Waltham, MA, USA.
Sci Rep. 2024 Aug 16;14(1):18965. doi: 10.1038/s41598-024-69877-4.
The objective of this study was to evaluate the function, and usability of a novel automated software-guided cryostorage system in an active IVF laboratory setting. The investigational device (ID) was installed at 3 IVF laboratories (sites: α, β, and γ). A total of 15 embryologists were trained to use the ID. Mock patient specimens containing mirrored live patient data were handled using the ID. Temperature readings were recorded every minute. Successful identification, storage, and retrieval of mock patient specimens by the ID were evaluated. To assess an LN pressure builder, the frequency of use and events of workflow interruption were logged. Student's t-test was used to determine statistical significance. The ID was in active use for 164 days total. During this time, 329 mock patient egg and embryo cohorts were handled by the ID. The mean ± SD temperatures during active use were: α, - 176.57 ± 1.83 °C; β, - 178.21 ± 2.75 °C; γ, - 178.98 ± 1.74 and did not differ significantly. The highest recorded temperatures were: α, - 165.14 °C; β, - 157.41 °C; γ, - 164.45 °C. A total of 1064 automation transactions on 409 specimen vessels were performed. Data was managed on 1501 eggs and embryos. The ID did not lose or misplace any specimen data or vessels, and no mock specimen was exposed to a detrimental (> - 150 °C) temperature excursion. Over the 25 LN pressure builder usages during 99 total days, there was 1 occurrence where usage interrupted workflow due to a lack of LN pressure. The ID has advantages over the current manual-based cryostorage systems, including radio frequency identification (RFID) tracking, automation of manual tasks, and software guidance to ensure accurate specimen storage and retrieval. The results of this study indicate that the ID can be integrated into active IVF laboratories.
本研究旨在评估一种新型自动化软件引导式低温存储系统在活跃的体外受精(IVF)实验室环境中的功能和可用性。该研究设备(ID)在 3 个 IVF 实验室(站点:α、β和γ)进行安装。共有 15 名胚胎学家接受了使用该 ID 的培训。使用该 ID 处理含有镜像真实患者数据的模拟患者标本。每分钟记录一次温度读数。评估 ID 对模拟患者标本的成功识别、存储和检索。为了评估 LN 压力构建器,记录了使用频率和工作流程中断事件。使用学生 t 检验确定统计学意义。该 ID 共实际使用了 164 天。在此期间,该 ID 共处理了 329 个模拟患者卵子和胚胎队列。使用期间的平均温度(±SD)分别为:α:-176.57±1.83°C;β:-178.21±2.75°C;γ:-178.98±1.74,无显著差异。记录的最高温度分别为:α:-165.14°C;β:-157.41°C;γ:-164.45°C。总共进行了 409 个标本容器的 1064 次自动化操作。共管理了 1501 个卵子和胚胎的数据。ID 没有丢失或放错任何标本数据或容器,并且没有模拟标本经历有害(>-150°C)温度骤降。在 99 天共 25 次 LN 压力构建器使用过程中,有 1 次因 LN 压力不足而中断工作流程。该 ID 相对于当前基于手动的低温存储系统具有优势,包括射频识别(RFID)跟踪、手动任务自动化和软件指导,以确保准确的标本存储和检索。本研究结果表明,该 ID 可以集成到活跃的 IVF 实验室中。
