In Situ Single-Cell Stimulation and Real-Time Electrochemical Detection of Lactate Response Using a Microfluidic Probe.
Lin ZhouNahoko KasaiHizuru NakajimaShungo KatoSifeng MaoKatsumi UchiyamaPublished in: Analytical chemistry (2021)
Metabolism of a single cell, even within the same organization, differs from other cells by orders of magnitude. Single-cell analysis provides key information for early diagnosis of cancer as well as drug screening. Any slight change in the microenvironment may affect the state of a single cell. Timely and effective cell monitoring is conducive to better understand the behavior of single cells. The immediate response of a single cell described in this study is a liquid transfer-based approach for real-time electrochemical detection. The cell was in situ stimulated by continuous flow with glucose, and lactate secreted from the cell would diffuse into the microflow. The microflow was aspirated into the detection channel where lactate was then decomposed by coupled enzyme reactions and detected by an electrode. This work provides a novel approach for detecting lactate response from a single cell by noninvasive measurements, and the position resolution of the microfluidic probe reaches the level of a single cell and permits individual heterogeneity in cells to be explored in the diagnosis and treatment of cancer as well as in many other situations.
Keyphrases
- single cell
- rna seq
- induced apoptosis
- high throughput
- cell cycle arrest
- label free
- papillary thyroid
- stem cells
- ionic liquid
- cell death
- squamous cell
- quantum dots
- blood pressure
- signaling pathway
- type diabetes
- real time pcr
- oxidative stress
- young adults
- healthcare
- weight loss
- bone marrow
- lymph node metastasis
- high resolution
- health information
- blood glucose
- high grade
- skeletal muscle
- adipose tissue
- cell therapy