From photonic technologies to microfluidics—A review on the techniques which revolutionize liquid biopsy, opening a new era in cancer therapy

IF 2.1 Q2 MEDICINE, GENERAL & INTERNAL
Subham Sarkar, Soubhagya Ghosh, Samraggi Chakraborty, Jenifer Rajak, Ekanansha R. Chowdhury, Arup K. Mitra, Ajoy Kumer, Bikram Dhara
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Abstract

Background and Aims

Cancer therapy is one of the most researched upon medical field in the world. Non invasive technologies such as liquid biopsy are gaining more importance in cancer therapy because of their manifold advantages over traditional invasive biopsy methods. Liquid biopsy is used to analyze nucleic acids such as ctDNA, cfDNA and RNA, cellular and subcellular components such as proteins, extracellular vesicles and circulating tumor cells in various biological fluids such as blood, urine, cerebrospinal fluid, pleural fluid and ascites fluid for diagnosis of cancer.

Methods

Liquid biopsy has a wide range of applications such as assessment of residual diseases and tumors which cannot be biopsied easily and prediction of CAR-T response and response to immune checkpoint inhibitors. It can also be used to know the efficacy of cancer drugs in a patient by analyzing multiple samples. Liquid biopsy is becoming more popular as it allows biopsy of those samples in which solid tumor biopsies are challenging or impracticable.

Techniques and Results

To achieve comprehensive insight on the status of cancer in a patient, various cutting edge liquid biopsy techniques have been developed. Microfluidics and photonic technologies, along with PCR, next generation sequencing, advanced and innovative molecular and cell biology approaches and imaging techniques have expanded the domain of liquid biopsy and elevated the accuracy of liquid biopsy results.

Conclusion

This review discusses about the contributions of some widely used methods along with microfluidics and photonic technologies in detection of cancer biomarkers by liquid biopsy.

Abstract Image

从光子技术到微流控技术--回顾液体活检的革命性技术,开启癌症治疗的新纪元
背景和目的 癌症治疗是世界上研究最多的医学领域之一。与传统的侵入性活检方法相比,液体活检等非侵入性技术具有多方面的优势,因此在癌症治疗中日益受到重视。液体活检用于分析血液、尿液、脑脊液、胸腔积液和腹水等各种生物液体中的核酸(如ctDNA、cfDNA 和 RNA)、细胞和亚细胞成分(如蛋白质、细胞外囊泡和循环肿瘤细胞),以诊断癌症。 方法 液体活检的应用范围很广,如评估残留疾病和不易活检的肿瘤,预测 CAR-T 反应和对免疫检查点抑制剂的反应。它还可以通过分析多个样本来了解抗癌药物对患者的疗效。液体活检正变得越来越流行,因为它可以对那些实体瘤活检具有挑战性或不切实际的样本进行活检。 技术与成果 为了全面了解患者的癌症状况,人们开发了各种尖端的液体活检技术。微流控技术和光子技术以及 PCR、新一代测序、先进和创新的分子和细胞生物学方法以及成像技术拓展了液体活检的领域,并提高了液体活检结果的准确性。 结论 本综述讨论了一些广泛使用的方法以及微流控技术和光子技术在通过液体活检检测癌症生物标记物方面的贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Health Science Reports
Health Science Reports Medicine-Medicine (all)
CiteScore
1.80
自引率
0.00%
发文量
458
审稿时长
20 weeks
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