Add to ORKGThe development of the single beam gradient force optical trap has made it possible to manipulate cells solely by laser light. A continuous wave Nd:YAG (1.06 microns) laser beam was directed into a conventional microscope and focused onto the viewing plane by the objective lens. The laser beam power at which human sperm were released from the trap was measured and correlated to the sperm's linear velocity before trapping. The mean trapping power readings for slow, medium, and fast motile sperm were 57, 73, and 84 mW, respectively. The analysis of measurements over the total population demonstrated that zig-zag motile sperm had significantly higher mean power readings when compared with straight motile sperm with similar mean linear velociti...
An integrated robotic laser and microscope system has been developed to automatically analyze indivi...
Human sperm were exposed in vitro to laser radiation. An increase in progressive sperm motility was ...
We combine laser tweezers with custom computer tracking software and robotics to analyze the motilit...
The development of the single beam gradient force optical trap has made it possible to manipulate ce...
The force generated by the radiation pressure of a low power laser beam induces an optical trap whic...
This study examines the use of optical trapping as a quantitative measure of sperm motility. The eff...
Laser trapping in the near infrared regime is a noninvasive and microfluidic-compatible biomedical t...
Sperm motility is an important concept in fertility research. To this end, single spot laser tweezer...
Introduction. Optical trapping is a laser-based method for probing the physiological and mechanical ...
ObjectiveTo assess the relative escape force of human epididymal sperm using a laser generated optic...
Objective and quantitative assessment of sperm quality is important for human infertility as well as...
Optical traps offer the promise of being used as noninvasive micromanipulators for biological object...
As a powerful and noninvasive tool, laser trapping has been widely applied for the confinement and p...
Optical trapping is a noninvasive biophotonic tool that has been developed to study the physiologica...
We have developed a microscope system for real-time single sperm tracking with an automated laser tw...
An integrated robotic laser and microscope system has been developed to automatically analyze indivi...
Human sperm were exposed in vitro to laser radiation. An increase in progressive sperm motility was ...
We combine laser tweezers with custom computer tracking software and robotics to analyze the motilit...
The development of the single beam gradient force optical trap has made it possible to manipulate ce...
The force generated by the radiation pressure of a low power laser beam induces an optical trap whic...
This study examines the use of optical trapping as a quantitative measure of sperm motility. The eff...
Laser trapping in the near infrared regime is a noninvasive and microfluidic-compatible biomedical t...
Sperm motility is an important concept in fertility research. To this end, single spot laser tweezer...
Introduction. Optical trapping is a laser-based method for probing the physiological and mechanical ...
ObjectiveTo assess the relative escape force of human epididymal sperm using a laser generated optic...
Objective and quantitative assessment of sperm quality is important for human infertility as well as...
Optical traps offer the promise of being used as noninvasive micromanipulators for biological object...
As a powerful and noninvasive tool, laser trapping has been widely applied for the confinement and p...
Optical trapping is a noninvasive biophotonic tool that has been developed to study the physiologica...
We have developed a microscope system for real-time single sperm tracking with an automated laser tw...
An integrated robotic laser and microscope system has been developed to automatically analyze indivi...
Human sperm were exposed in vitro to laser radiation. An increase in progressive sperm motility was ...
We combine laser tweezers with custom computer tracking software and robotics to analyze the motilit...