Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 On-chip porous microgel generation for microfluidic enhanced VEGF detection.

Literature DB >> 26148675

On-chip porous microgel generation for microfluidic enhanced VEGF detection.

Zhengtuo Zhao¹, Mohammad Ali Al-Ameen¹, Kai Duan¹, Gargi Ghosh², Joe Fujiou Lo³.

Abstract

Advances in medical diagnostics and personalized therapy require sensitive and rapid measurement of minute amounts of proteins from patients. Standard ELISA is difficult to prepare and involves lengthy protocols. Here we report a novel method using capture antibody immobilized porous poly (ethylene) glycol diacrylate (PEGDA) hydrogel microspheres to enable high sensitivity VEGF detection in arrayed microfluidics. Our technique incorporates antibody encapsulation, trapping, and flow perfusion on a single device. We showed that the convergence of tunable porous hydrogel with efficient microfluidics improved the sensitivity of the assay. The detection limit of this microfluidic porous microgel based assay was 0.9 pg/mL, with only 1+ hour of assay time, demonstrating a novel assay that exceeded conventional technologies in terms of sensitivity and speed.

Entities: Chemical Gene Species

Keywords: Droplet generation; Microfluidics; Poly (ethylene) glycol diacrylate (PEGDA); Porogen; Porosity; Serpentine traps.; VEGF

Mesh：

Substances：

Year: 2015 PMID： 26148675 DOI： 10.1016/j.bios.2015.06.047

Source DB: PubMed Journal: Biosens Bioelectron ISSN： 0956-5663 Impact factor: 10.618

Keyword Cloud
Cited

6 in total

Review 1. Biosensors for Detection of Human Placental Pathologies: A Review of Emerging Technologies and Current Trends.

Authors: Jia Liu; Babak Mosavati; Andrew V Oleinikov; E Du
Journal: Transl Res Date: 2019-05-20 Impact factor: 7.012

2. Mutually-Reactive, Fluorogenic Hydrocyanine/Quinone Reporter Pairs for In-Solution Biosensing via Nanodroplet Association.

Authors: Rajarshi Chattaraj; Praveena Mohan; Clare M Livingston; Jeremy D Besmer; Kaushlendra Kumar; Andrew P Goodwin
Journal: ACS Appl Mater Interfaces Date: 2015-12-28 Impact factor: 9.229

6. Low-potential immunosensor-based detection of the vascular growth factor 165 (VEGF₁₆₅) using the nanocomposite platform of cobalt metal-organic framework.

Authors: Sima Singh; Arshid Numan; Yiqiang Zhan; Vijender Singh; Aftab Alam; Tran Van Hung; Nguyen Dang Nam
Journal: RSC Adv Date: 2020-07-21 Impact factor: 3.361

6 in total

On-chip porous microgel generation for microfluidic enhanced VEGF detection.

Review 1. Biosensors for Detection of Human Placental Pathologies: A Review of Emerging Technologies and Current Trends.

2. Mutually-Reactive, Fluorogenic Hydrocyanine/Quinone Reporter Pairs for In-Solution Biosensing via Nanodroplet Association.

3. Chaperone Copolymer Assisted G-Quadruplex-Based Signal Amplification Assay for Highly Sensitive Detection of VEGF.

4. Optimizing Multiplexed Detections of Diabetes Antibodies via Quantitative Microfluidic Droplet Array.

5. In-flow real-time detection of spectrally encoded microgels for miRNA absolute quantification.

6. Low-potential immunosensor-based detection of the vascular growth factor 165 (VEGF₁₆₅) using the nanocomposite platform of cobalt metal-organic framework.

On-chip porous microgel generation for microfluidic enhanced VEGF detection.

Review 1. Biosensors for Detection of Human Placental Pathologies: A Review of Emerging Technologies and Current Trends.

2. Mutually-Reactive, Fluorogenic Hydrocyanine/Quinone Reporter Pairs for In-Solution Biosensing via Nanodroplet Association.

3. Chaperone Copolymer Assisted G-Quadruplex-Based Signal Amplification Assay for Highly Sensitive Detection of VEGF.

4. Optimizing Multiplexed Detections of Diabetes Antibodies via Quantitative Microfluidic Droplet Array.

5. In-flow real-time detection of spectrally encoded microgels for miRNA absolute quantification.

6. Low-potential immunosensor-based detection of the vascular growth factor 165 (VEGF165) using the nanocomposite platform of cobalt metal-organic framework.

6. Low-potential immunosensor-based detection of the vascular growth factor 165 (VEGF₁₆₅) using the nanocomposite platform of cobalt metal-organic framework.