Meenakshisundaram Guruguhan, Eteshola Edward, Pandian Ramasamy P, Bratasz Anna, Selvendiran Karuppaiyah, Lee Stephen C, Krishna Murali C, Swartz Harold M, Kuppusamy Periannan
Department of Internal Medicine, Ohio State University, 420 West 12th Avenue, Room 114, Columbus, OH 43210, USA.
Biomed Microdevices. 2009 Aug;11(4):817-26. doi: 10.1007/s10544-009-9298-4.
The use of oxygen-sensing water-insoluble paramagnetic probes, such as lithium octa-n-butoxynaphthalocyanine (LiNc-BuO), enables repeated measurements of pO(2) from the same location in tissue by electron paramagnetic resonance (EPR) spectroscopy. In order to facilitate direct in vivo application, and hence eventual clinical applicability, of LiNc-BuO, we encapsulated LiNc-BuO microcrystals in polydimethylsiloxane (PDMS), an oxygen-permeable and bioinert polymer, and developed an implantable chip. In vitro evaluation of the chip, performed under conditions of sterilization, high-energy irradiation, and exposure to cultured cells, revealed that it is biostable and biocompatible. Implantation of the chip in the gastrocnemius muscle tissue of mice showed that it is capable of repeated and real-time measurements of tissue oxygenation for an extended period. Functional evaluation using a murine tumor model established the suitability and applicability of the chip for monitoring tumor oxygenation. This study establishes PDMS-encapsulated LiNc-BuO as a promising choice of probe for clinical EPR oximetry.
使用氧敏感的水不溶性顺磁探针,如八正丁氧基萘酞菁锂(LiNc-BuO),能够通过电子顺磁共振(EPR)光谱法从组织中的同一位置重复测量pO₂。为了促进LiNc-BuO的直接体内应用,并最终实现临床适用性,我们将LiNc-BuO微晶封装在聚二甲基硅氧烷(PDMS)中,这是一种透氧且生物惰性的聚合物,并开发了一种可植入芯片。在灭菌、高能辐照和暴露于培养细胞的条件下对该芯片进行的体外评估表明,它具有生物稳定性和生物相容性。将该芯片植入小鼠腓肠肌组织表明,它能够在较长时间内重复实时测量组织氧合。使用小鼠肿瘤模型进行的功能评估确定了该芯片用于监测肿瘤氧合的适用性和实用性。本研究确立了PDMS封装的LiNc-BuO作为临床EPR血氧测定法探针的一个有前景的选择。