A robotic surgery is basically a type of minimally invasive surgical procedure. The minimally invasive procedures normally use small incisions, and smaller surgical instruments which fit through the quarter-inch incisions. When having the DaVinci robotic surgery Houston, a surgical robot is often mounted on the three robotic arms to give the surgeon a maximum range of motion and precision. Also, the DaVinci fourth arm contains a 3 dimensional high-definition camera that guides the surgeon during the procedure.
The surgeon normally controls the camera as well as the instrument from the console in the operating room. Using the master control, a surgeon maneuvers these surgical instruments and looks through the high-definition monitor at the same time, so as to have a 3-dimensional view of the site of operation better than what human eyes can offer.
Usually, the eventual aim of such surgical instruments is the provision of better controls throughout minimally invasive procedures. The use of this technology places a surgeon in a state compared to being in the body of their patient. Consequently, technical surgical procedures like urological, cardiothoracic or gynecological procedures become a possibility. Due to the possibility of performing the procedure reliant on tiny incisions, patients stand to benefit greatly as opposed to open surgeries.
The benefits of this form of surgery are such as minimal incisions that result in smaller scars and a better cosmetic appearance after the surgical procedure than in open surgeries. At the same time, the patient experiences faster recovery, such that the patient spends less time in hospital. Also, the patient uses less medication in the recovery process. The procedure is also safe as there is reduced loss of blood due to small incisions. At the same time, there is a reduced chance of your healing tissues getting torn upon returning to normal activities.
The use of this technology in surgical procedures in Houston TX also provides huge benefits to the surgeons. This is because the surgeon gets a 3-D display from the surgical system. The arms of the robotic instrument have tiny cameras which gives a video feedback magnification that is 10 times that of normal sight of a surgeon. Such level of magnification gives the surgeon the ability to perform the procedures safely even in tiny tissues and organs in young patients.
Also, surgeons report that they are able to perform the procedures with better flexibility, precision, and control. As a result, they are able to perform what would otherwise be difficult or impossible through traditional methods.
Before, the procedure, a patient is usually required not to eat any food or take any fluid for about 8 hours. In some procedures, a patient may be required to clean the bowel one day before the procedure. The patient is also required to stop some medications such as blood thinners, anti-inflammatory, aspirin, vitamins and other supplements 10 days before the procedure.
Like other forms of surgical procedures, there are risks involved with this technique as well. The risks of surgery and anesthesia include reaction to medicines, infection, bleeding and breathing problems.
The surgeon normally controls the camera as well as the instrument from the console in the operating room. Using the master control, a surgeon maneuvers these surgical instruments and looks through the high-definition monitor at the same time, so as to have a 3-dimensional view of the site of operation better than what human eyes can offer.
Usually, the eventual aim of such surgical instruments is the provision of better controls throughout minimally invasive procedures. The use of this technology places a surgeon in a state compared to being in the body of their patient. Consequently, technical surgical procedures like urological, cardiothoracic or gynecological procedures become a possibility. Due to the possibility of performing the procedure reliant on tiny incisions, patients stand to benefit greatly as opposed to open surgeries.
The benefits of this form of surgery are such as minimal incisions that result in smaller scars and a better cosmetic appearance after the surgical procedure than in open surgeries. At the same time, the patient experiences faster recovery, such that the patient spends less time in hospital. Also, the patient uses less medication in the recovery process. The procedure is also safe as there is reduced loss of blood due to small incisions. At the same time, there is a reduced chance of your healing tissues getting torn upon returning to normal activities.
The use of this technology in surgical procedures in Houston TX also provides huge benefits to the surgeons. This is because the surgeon gets a 3-D display from the surgical system. The arms of the robotic instrument have tiny cameras which gives a video feedback magnification that is 10 times that of normal sight of a surgeon. Such level of magnification gives the surgeon the ability to perform the procedures safely even in tiny tissues and organs in young patients.
Also, surgeons report that they are able to perform the procedures with better flexibility, precision, and control. As a result, they are able to perform what would otherwise be difficult or impossible through traditional methods.
Before, the procedure, a patient is usually required not to eat any food or take any fluid for about 8 hours. In some procedures, a patient may be required to clean the bowel one day before the procedure. The patient is also required to stop some medications such as blood thinners, anti-inflammatory, aspirin, vitamins and other supplements 10 days before the procedure.
Like other forms of surgical procedures, there are risks involved with this technique as well. The risks of surgery and anesthesia include reaction to medicines, infection, bleeding and breathing problems.
About the Author:
Discover the innovative DaVinci robotic surgery Houston surgeons specialize in by reading more about the procedure online. Explore the content that appears on this website http://www.ataahmadmd.com/robotic-assisted-surgery-houston-texas.
No comments:
Post a Comment