Imaging3 technology has the potential to contribute to the improvement of healthcare. The Company's technology is designed to cause 3D images to be instantly constructed using high-resolution fluoroscopy. These images can be used as real time references for any current or new medical procedures in which multiple frames of reference are required to perform medical procedures on or in the human body. Imaging3 technology has extraordinary market potential in an almost unlimited number of medical applications, including:
o TRAUMA CENTER. Imaging3 technology would allow a surgeon to immediately view exactly where a bullet is lodged in a gunshot victim. At any point during the procedure, the surgeon could continue to view 3D images in real-time.
o CARDIOLOGY. Imaging3 technology could provide a 3D view of a heart and allow a cardiologist to record the heartbeat in real-time. The entire heart would be visible, including veins that are wrapped around the "back" side.
o PAIN MANAGEMENT. Imaging3 technology could provide a 3D view of the spine, nerve endings, injection points and help guide the needle for spinal procedures. 3D images in real-time could also be used to view disk compression.
o NEURO-VASCULAR. Imaging3 technology could provide a 3D view of the skull and brain to diagnose neuro-vascular diseases. 3D images in real-time could be used to view the rupture of vessels or arterial blockages diminishing blood flow to the brain.
o ORTHOPEDIC. Imaging3 technology could provide a 3D view of bones and joints to help diagnose orthopedic conditions. An orthopedic surgeon could view a 3D image in real-time to line up a screw with the hole in a hip pinning.
o VASCULAR. Imaging3 technology could provide a 3D view of veins throughout the body. After injecting dye, a 3D image in real-time could pinpoint clots and occlusions and help diagnose vascular diseases.
o TRAUMA CENTER. Imaging3 technology would allow a surgeon to immediately view exactly where a bullet is lodged in a gunshot victim. At any point during the procedure, the surgeon could continue to view 3D images in real-time.
o CARDIOLOGY. Imaging3 technology could provide a 3D view of a heart and allow a cardiologist to record the heartbeat in real-time. The entire heart would be visible, including veins that are wrapped around the "back" side.
o PAIN MANAGEMENT. Imaging3 technology could provide a 3D view of the spine, nerve endings, injection points and help guide the needle for spinal procedures. 3D images in real-time could also be used to view disk compression.
o NEURO-VASCULAR. Imaging3 technology could provide a 3D view of the skull and brain to diagnose neuro-vascular diseases. 3D images in real-time could be used to view the rupture of vessels or arterial blockages diminishing blood flow to the brain.
o ORTHOPEDIC. Imaging3 technology could provide a 3D view of bones and joints to help diagnose orthopedic conditions. An orthopedic surgeon could view a 3D image in real-time to line up a screw with the hole in a hip pinning.
o VASCULAR. Imaging3 technology could provide a 3D view of veins throughout the body. After injecting dye, a 3D image in real-time could pinpoint clots and occlusions and help diagnose vascular diseases.
