Expert forum
Nanostructure embedded microchips for detection, isolation, and characterization of circulating tumor cells.
2017-12-08 07:52來源:原版作者:Lin M
Circulating tumor cells (CTCs) are cancer cells that break away from either a primary tumor or a metastatic site and circulate in the peripheral blood as the cellular origin of metastasis. With their role as a "tumor liquid biopsy", CTCs provide convenient access to all disease sites, including that of the primary tumor and the site of fatal metastases. It is conceivable that detecting and analyzing CTCs will provide insightful information in assessing the disease status without the flaws and limitations encountered in performing conventional tumor biopsies. However, identifying CTCs in patient blood samples is technically challenging due to the extremely low abundance of CTCs among a large number of hematologic cells. To address this unmet need, there have been significant research endeavors, especially in the fields of chemistry, materials science, and bioengineering, devoted to developing CTC detection, isolation, and characterization technologies. Inspired by the nanoscale interactions observed in the tissue microenvironment, our research team at UCLA pioneered a unique concept of "NanoVelcro" cell-affinity substrates, in which CTC capture agent-coated nanostructured substrates were utilized to immobilize CTCs with high efficiency. The working mechanism of NanoVelcro cell-affinity substrates mimics that of Velcro: when the two fabric strips of a Velcro fastener are pressed together, tangling between the hairy surfaces on two strips leads to strong binding. Through continuous evolution, three generations (gens) of NanoVelcro CTC chips have been established to achieve different clinical utilities. The first-gen NanoVelcro chip, composed of a silicon nanowire substrate (SiNS) and an overlaid microfluidic chaotic mixer, was created for CTC enumeration. Side-by-side analytical validation studies using clinical blood samples suggested that the sensitivity of first-gen NanoVelcro chip outperforms that of FDA-approved CellSearch. In conjunction with the use of the laser microdissection (LMD) technique, second-gen NanoVelcro chips (i.e., NanoVelcro-LMD), based on polymer nanosubstrates, were developed for single-CTC isolation. The individually isolated CTCs can be subjected to single-CTC genotyping (e.g., Sanger sequencing and next-generation sequencing, NGS) to verify the CTC's role as tumor liquid biopsy. Created by grafting of thermoresponsive polymer brushes onto SiNS, third-gen NanoVelcro chips (i.e., Thermoresponsive NanoVelcro) have demonstrated the capture and release of CTCs at 37 and 4 °C, respectively. The temperature-dependent conformational changes of polymer brushes can effectively alter the accessibility of the capture agent on SiNS, allowing for rapid CTC purification with desired viability and molecular integrity. This Account summarizes the continuous evolution of NanoVelcro CTC assays from the emergence of the original idea all the way to their applications in cancer research. We envision that NanoVelcro CTC assays will lead the way for powerful and cost-efficient diagnostic platforms for researchers to better understand underlying disease mechanisms and for physicians to monitor real-time disease progression.
版權聲明:
本網(wǎng)站所有注明“來源:“陽普醫(yī)療”的文字、圖片和音視頻資料,版權均屬于陽普醫(yī)療所有,非經(jīng)授權,任何媒體、網(wǎng)站或個人不得轉載,授權轉載時須注明
“來源:陽普醫(yī)療”。本網(wǎng)所有轉載文章系出于傳遞更多信息之目的,且明確注明來源和作者,不希望被轉載的媒體或個人可與我們聯(lián)系,我們將立即進行刪除處理。
網(wǎng)友評論:
版主信息
昵稱:Mandy Luo
郵箱:mandyluo@improve-medical.com
相關閱讀
- > 《醫(yī)學拾萃》2023年12月刊:簡述實驗室信息管理系統(tǒng)發(fā)展歷程
- > 《醫(yī)學拾萃》2023年10月刊:分析前標本處理對神經(jīng)元特異性烯醇化酶(NSE)檢測的影響
- > 《醫(yī)學拾萃》2023年8月刊:PSA 檢測的標本處理、質量控制及其臨床應用
- > 《醫(yī)學拾萃》2023年6月刊:真空采血管標本放置時間和溫度對常見檢驗項目的影響
- > 《醫(yī)學拾萃》2023年4月刊:游離 DNA 管使用現(xiàn)狀與展望
- > 《醫(yī)學拾萃》2023年2月刊:肝素管的臨床適用檢測項目與不適用項
- > 《醫(yī)學拾萃》2022年12月刊:血清分離技術及其對臨床生化檢驗結果的影響
- > 《醫(yī)學拾萃》2022年10月刊:標本處理對心肌肌鈣蛋白測定的影響
- > 《醫(yī)學拾萃》2022年8月刊:一種新型材料-水凝膠的合成及其應用
- > 《醫(yī)學拾萃》2022年6月刊:RFID 技術及其在醫(yī)療和標本管理中的應用與發(fā)展