Author:
Asawakarn Sariya,Pimpin Alongkorn,Jeamsaksiri Wutthinan,Sripumkhai Witsaroot,Jitsamai Wanarit,Taweethavonsawat Piyanan,Piyaviriyakul Prapruddee
Abstract
The rectangular filtering microfluidic chip was invented using microfluidics device fabrication technology and can separate living microfilariae from blood samples without a syringe pump. The diagnostic results are highly effective. The device is based on the principle of separating millions of blood cells from microfilariae using a rectangular filter structure. It disperses fluid evenly into the flow-passage channel, and its rectangular filter structure is the key to success in reducing the pressure and separating blood cells from microfilariae effectively. The flow rate and blood cell concentration were optimized in our study. The chip is intended to be a point-of-care device that can reduce the use of superfluous instrumentation in the field. The technology is designed to be rapid, accurate, and easy-to-use for all users, especially those in remote areas.
Reference22 articles.
1. The differentiation of microfilariae in dogs and cats using Giemsa's staining and the detection of acid phosphatase activity;Chungpivat;J Thai Vet Prac.,2008
2. Seasonal distribution and environmental parameters associated with Brugia pahangi and Dirofilaria immitis in naturally infected dogs in Bangkok and vicinity;Jitsamai;Thailand Sci Rep.,2021
3. Guideline for the Laboratory Diagnosis of Canine and Feline Dirofilaria Infections;Genchi;Mappe Parassitologiche,2007
4. Comparison of three diagnostic tests for Dirofilaria immitis in a low incidence area;Roth;J Vet Diagn Invest.,1993
5. Multichannel Microfluidic Chip for Rapid and Reliable Trapping and Imaging Plant-parasitic Nematodes;Armrit,2013
Cited by
3 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献