The flexible and transparent wearable devices are conformable to the skin and can provide continuous and accurate measurements of multiple human vital signs.
Clerio Vision's technology enables the laser writing of unique patterns into contact lenses that optimize visual acuity.
Retinal cells of the eye are sensitive to this blue light and directly convey information to areas of the brain that regulate appetite.
The fiber-optic sensor monitors blood flow through the aorta during prolonged and often dangerous intensive care and surgical procedures, even in preterm infants.
The OCT device features a redesigned, 3D-printed spectrometer to make it 15X lighter and smaller than current commercial systems.
The IR imaging test takes 20 minutes compared to an MRI, which may take up to 45 minutes.
The device, which relies on the combination of two optical spectroscopy techniques, could be used to quickly and noninvasively diagnose cerebral ischemia.
The agreement will establish the feasibility of coupling genomics to Raman spectroscopy to better determine disease progression in prostate cancer.
A team of researchers has developed a noninvasive photoacoustic device dubbed Cytophone that has the ability to detect and kill circulating tumor cells in blood.
The experimental procedure, called vibrational optical coherence tomography (VOCT), creates a 3D map of the lesion's width and depth.
The method pairs nanotechnology and light to dramatically improve the performance of medical meshes for surgical implants.
The system performs pulmonary vein isolation using laser energy to create lines of scar tissue to block the abnormal electrical pathways that cause atrial fibrillation.
The researchers are using OCT imaging to determine the tumor boundaries.
Microradial incisions performed with the system are guided by the femtosecond laser platform's imaging capabilities.
The TOMi Scope uses OCT imaging to see through the eardrum, allowing direct visualization of the middle ear contents.