Affiliation:
1. The Spine and Spinal Cord Institute Department of Neurosurgery Gangnam Severance Hospital Yonsei University College of Medicine Seoul 06273 Republic of Korea
2. Department of Neurosurgery Graduate School of Medical Science, Brain Korea 21 Project Yonsei University College of Medicine Seoul 03722 Republic of Korea
3. Department of Neurosurgery Kyungpook National University Hospital Daegu 41944 Republic of Korea
4. Department of Internal Medicine Gangnam Severance Hospital Yonsei University College of Medicine Seoul 06273 Republic of Korea
Abstract
AbstractTissue biopsy for early diagnosis and monitoring comes with several challenges, such as its invasiveness, and issues related to tissue heterogeneity in sampling. To address these issues, researchers have proposed a noninvasive approach called liquid biopsy, which uses blood samples to detect specific noncoding RNA (microRNA, miRNA). However, the current process of isolating and amplifying miRNA can be time‐consuming and yield nonspecific results. In this study, a new super‐resolution imaging tool is introduced that utilizes a thin, hydrogel‐based liquid view (LV) film. This film can undergo a ninefold expansion and allows the analysis of cells obtained from liquid biopsy. The potential of the LV film is validated as a tool for early diagnosis and prognosis by testing biofluids derived from a variety of diseases. This method is confirmed to accurately analyze a greater number of miRNAs with higher sensitivity in a shorter time compared to other analytical methods. These findings suggest that the LV film provides high specificity, and multiplexing in detecting small amounts of miRNAs within cells, making it suitable for 3D implementation. It is proposed that liquid biopsy with LV films can be a solution to limitations related to the invasiveness, cost, and time‐consuming nature of molecular analysis.
Funder
National Research Foundation of Korea