高热加压腹腔内雾化化疗（hPIPAC）技术的发展。

Technology development of hyperthermic pressurized intraperitoneal aerosol chemotherapy (hPIPAC).

机构信息

Department of General and Transplant Surgery and National Center for Pleura and Peritoneum, University of Tübingen, Tübingen, Germany.

NCPP, Universits Hospital Tübingen, Hoppe Seyler Str 3, 72076, Tübingen, Germany.

出版信息

Surg Endosc. 2021 Nov;35(11):6358-6365. doi: 10.1007/s00464-021-08567-y. Epub 2021 Jun 10.

DOI:10.1007/s00464-021-08567-y

PMID:34114069

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8523399/

Abstract

BACKGROUND

Optimized drug delivery systems are needed for intraperitoneal chemotherapy. The aim of this study was to develop a technology for applying pressurized intraperitoneal aerosol chemotherapy (PIPAC) under hyperthermic conditions (hPIPAC).

METHODS

This is an ex-vivo study in an inverted bovine urinary bladder (IBUB). Hyperthermia was established using a modified industry-standard device (Humigard). Two entry and one exit ports were placed. Warm-humid CO was insufflated in the IBUB placed in a normothermic bath to simulate body thermal inertia. The temperature of the aerosol, tissue, and water bath was measured in real-time.

RESULTS

Therapeutic hyperthermia (target tissue temperature 41-43 °C) could be established and maintained over 30 min. In the first phase (insufflation phase), tissue hyperthermia was created by insufflating continuously warm-humid CO. In the second phase (aerosolization phase), chemotherapeutic drugs were heated up and aerosolized into the IBUB. In a third phase (application phase), hyperthermia was maintained within the therapeutic range using an endoscopic infrared heating device. In a fourth phase, the toxic aerosol was discarded using a closed aerosol waste system (CAWS).

DISCUSSION

We introduce a simple and effective technology for hPIPAC. hPIPAC is feasible in an ex-vivo model by using a combination of industry-standard medical devices after modification. Potential pharmacological and biological advantages of hPIPAC over PIPAC should now be evaluated.

摘要

背景

需要优化的药物输送系统来进行腹腔内化疗。本研究的目的是开发一种在高温条件下（hPIPAC）应用加压腹腔内气溶胶化疗（PIPAC）的技术。

方法

这是一项在倒置牛膀胱（IBUB）中的离体研究。使用改良的工业标准设备（Humigard）建立高温。放置两个入口和一个出口端口。将温暖潮湿的 CO 注入置于常温浴中的 IBUB 中，以模拟身体热惯性。实时测量气溶胶、组织和水浴的温度。

结果

可以建立并维持治疗性高温（目标组织温度 41-43°C）超过 30 分钟。在第一阶段（充气阶段），通过连续充气温暖潮湿的 CO 来产生组织高温。在第二阶段（雾化阶段），加热化疗药物并将其雾化到 IBUB 中。在第三阶段（应用阶段），使用内窥镜红外线加热装置将高温维持在治疗范围内。在第四阶段，使用封闭的气溶胶废物系统（CAWS）丢弃有毒气溶胶。

讨论

我们介绍了一种简单有效的 hPIPAC 技术。通过对改良后的工业标准医疗设备进行组合，离体模型中 hPIPAC 是可行的。hPIPAC 相对于 PIPAC 的潜在药理学和生物学优势现在应该进行评估。

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高热加压腹腔内雾化化疗（hPIPAC）技术的发展。

Technology development of hyperthermic pressurized intraperitoneal aerosol chemotherapy (hPIPAC).

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

DISCUSSION

背景

方法

结果

讨论

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