Journal
ANALYST
Volume 147, Issue 8, Pages 1589-1597Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1an02311j
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Funding
- College of Engineering and Computer Science, Florida Atlantic University
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This study develops a microfluidic chip that isolates healthy sperm cells by taking advantage of their natural rheotaxis behavior. The chip consists of chambers and microchannels that separate motile sperm cells from unprocessed semen samples using fluid flow. The results show high motility and low sperm DNA fragmentation.
For conception, sperm cells travel towards the oocyte. This journey is accomplished by only a few sperm cells, following various guidance mechanisms. Of these mechanisms, rheotaxis plays a significant role in guiding the sperm over a long distance. By taking advantage of this natural rheotaxis behavior of sperm, we have developed a microfluidic chip that isolates healthy sperm cells. The developed chip consists of different chambers separated by microchannels that facilitate separation of motile sperm cells from unprocessed semen samples with the help of fluid flow. The sperm cells are subjected to different velocities in different parts of the chip that direct functional sperm towards the collection chamber utilizing positive rheotaxis. The results from the developed microfluidic chip (with 0.5 mu L min(-1) flow rate) have shown almost 100% motility, a significantly higher percentage of morphologically normal sperm cells with lesser sperm DNA fragmentation than the control (no-flow) and raw semen sample. This chip satisfies the need of a clinical setting as it is low-cost, easy to operate and uses a small semen volume for sperm sorting.
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