By inserting an eight-inch-long tube called an endoscope through a patient’s mouth, he is able to excise such tumors with a beam of laser light, which he aims through the tube. The focused energy of the laser burns through a narrow area of tissue, causing minimal damage to the noncancerous tissues nearby. Patients usually recover quickly from the surgery, their throats and vocal functions unharmed.
The Doctor says many patients with head and neck cancer could benefit from minimally invasive laser surgery, yet this treatment option is not widely used. The technique is difficult to master because of the limitations of currently available instruments, which are rigid and cumbersome to control. In most hospitals, surgeons opt not to operate on tumors of the pharynx or voice box, and instead recommend that such tumors be treated by radiation, which in some cases can give rise to adverse side effects.
The Doctor has learned to operate this instrumentation, but points out that using it effectively takes extensive training, especially to perform laser surgery inside tight body cavities. He likens the manual aspect of the procedure to holding a pool cue by its handle, and then meticulously manipulating it to draw tiny patterns with a pencil attached at the tip of the cue.
He thought there must be a way to make the surgery easier for doctors to perform, and hence available to all patients who could benefit from it.
The researchers designed a prototype of what they call the Endoscopic Laser Scalpel. They had designed it as an add-on to a regular endoscope. The device combines a video camera and a laser steering tool, and is small enough to be inserted down a patient’s throat.
The researchers are hoping this prototype might pave the way for a new method of performing minimally invasive laser surgery, providing the surgeon enhanced vision and control. Because the laser beam is operated remotely, its path and intensity can be controlled with improved precision. In addition, the instrument is designed to give the surgeon a more sweeping view of the tissue. The Doctor will be seeing through the eyes of the camera, which sits deep within the space he is operating in, instead of looking down the tube of the endoscope.
He asserts that a lot of work and optimization remains to be done before the prototype finds its way into the clinic. However, the tests indicate that it’s feasible to develop this technology into an effective surgical device. And such a tool could be useful in surgery of the head and neck as well as other confined areas — such as the cavities of the lungs, gastrointestinal system, urinary tract, and cervix.
To know more about Head and Neck cancer Treatment in India please visit this link: