The aim of modern spinal surgery is to maximize the functionality of the patient’s spine and speed up the recovery time. As the medical field has evolved more and more to emphasize reducing the amount of trauma that the body experiences during surgery, the use of minimally invasive techniques and technologies have become at the forefront of the medical community.
Minimally-invasive surgery has evolved with the use of robot-guided systems. Today, robotic spinal fusion surgery has become a staple among orthopedic surgeons. And moving forward, robotic spine surgery will shape the future of minimally-invasive procedures.
Robot-Guided Spinal Surgery
Robots are the new technologies guiding surgeons in the operating room as they treat various types of spinal injuries. Robotic spinal fusion surgery is a development that offers benefits to both doctors and patients alike. They offer improved safety to both complex and minimally invasive spinal surgeries.
When placing implants, doctors previously placed screws in the spinal columns of patients using x-rays and freehand judgment to decide on where to put them. These methods had their drawbacks as the X-rays were a constant source of radiation for the patients and doctors and the freehand method did not promise great measures of accuracy. The risk that doctors took involved permanently paralyzing their patients.
The use of robotic spinal surgery has promised a greater degree of accuracy in spinal surgeries, resulting in a higher success rate. Doctors use the Mazor Robotics‘ Renaissance System (the name of the robot) to have greater control over where screws are placed as the robot provides the doctor with a guidance system of where they should go. This new development from Mazor Robotics has increased the accuracy of spinal fusion surgery to a degree of 1mm.
In addition to cases that demand disc replacement surgery and related operations, robotic spinal fusion surgery is one of several surgeries that surgeons can perform safely using the Mazor robot and reduce the amount of radiation that patients are exposed to while reducing the risks of complications and recovery time.
How It Works
The only robotic system being used in the United States to implant screws during spinal surgery is the Mazor Robotics Renaissance System. This system enables doctors to use CT scan images that are taken prior to the surgery to build a well thought-out plan of how the surgery will be performed. The CT image is then uploaded into a planning system with a 3D display that allows the surgeon to walk him or herself through the entire surgery before it has even began.
When the surgery starts, the surgeon is responsible for all of the physical work. The Mazor Robotics system is minimally-invasive spine surgery technology that is only used to guide the surgeon’s actions, based on the accurate planning that went on before the surgery. The robot itself is small, about the size of a 500ml soda can with a small appendage attached. The robot’s mobility allows it to turn and place its arm right on the spot where the surgeon wants to place the implant.
The precise guidance that the Mazor Robot provides helps surgeons to place implants safely, especially when working with small incisions that make the surgery as minimally invasive as possible. The system is also equipped with SpineAssist, a platform that enables surgeons to conduct robotic spine surgery with great precision and accuracy.
The Mazor Robotics system has also experienced great success in other robot-guided spinal surgeries. Before the use of this robot, spinal surgeons were forced to expose a large area of the spine in order to effectively fuse separate segments of the spine that had become misaligned. Minimally-invasive robotic spine surgeries for spinal fusion are preferred as there is less damage to the surrounding tools however doctors require complex viewing tools such x-rays to make up for the lack of visibility.
In a study that reviewed 635 different surgeries that involved spinal implants they found a 98.3% accuracy in the placements where robot-guidance was used. Radiation doses have also dropped by 56% since the use of Mazor robotics gained widespread use.
Modern spinal surgery is geared towards accelerating a patient’s return to wellness. Spinal surgery has greatly evolved over the last two decades with more focus being dedicated to minimizing surgical trauma and towards expediting the patient’s recovery through the application of minimally invasive procedures such as robotic spine surgery.
What is Robotic Spine Surgery?
Robotic spinal surgery is the newest advancement in spinal surgery. This new technique allows for smaller incisions that expose patients (and medical practitioners) to less radiation, enhance accuracy during surgery and enables faster recovery. Robotic spinal surgery also significantly reduces the overall risk while undergoing surgery. Robotic spinal surgery is a cutting edge technology and doctors are using this new method to accomplish complex spinal reconstructive operations and minimally invasive spine surgical operations.
Robotic Spine Surgery Procedure
Conventionally, surgeons undertake complex spinal surgical operations by inserting screws inside the spinal bones freehand, i.e., using their feel and judgment, or with the aid of numerous X-rays taken during the theatre operation.
When taken numerous times over and over, these X-rays expose the patient as well as the surgeon to substantial radiation amounts that can be harmful. These traditional methods are applied with a significant risk of wrongly placing the screws or putting the screws in sub-optimal positions. This can result into a less effective surgery or even paralysis.
Enter: Mazor Robotics Renaissance System
Robotic spinal surgery brings more precision to spinal operations, consequently significantly lowering screw misplacement risk. The Mazor Robotics Renaissance System enables surgeons to use CT scans (computerized tomography scans) that are taken before surgery in order to have a blueprint that is followed during the actual operation. The CT scan images are processed using 3D computerized systems that enable the surgeons to plan out the operation with greater accuracy even before going to theatre room.
Through the use Mazor Renaissance Robot, a surgeon is in total control of the operation and inserts the screws using hands, but guidance is provided by the robotic system basing on the 3D computerized plan prepared before the operation. The Mazor robot can bend and rotate to enable placement in a highly specific position as well as correct trajectory. Mazor robotic spine surgery can significantly increase the accuracy level and safety, especially when operating through small incisions and when handling sophisticated anatomy.
The Mazor Renaissance Robot enables spine surgeons to carry out many spine surgeries ranging from simple to complex theatre operations with a greater degree of safety, efficiency and accurateness. Robotic spinal surgery decreases radiation exposure, reduces complication rates, and accelerates recovery for the patient to resume normal functions.
What criteria make a prospective candidate for robotic spine surgery?
The decision for a patient to undergo robotic-assisted spinal surgery hinges on numerous considerations. While not all patients are prospective candidates for minimally invasive procedures, it is good to note that the Mazor Renaissance Robot guidance system can be applied in numerous situations ranging from simple to complex spinal surgeries. The patient and the surgeons collaborate and discuss various treatment options including robot assisted surgery in order to decide on the treatment procedure that is better than the others.
While there are a number of reputable spine and orthopedic surgery practices in New Jersey, only a few offer the high caliber of experience and personalized patient attention that most individuals seek when going under the knife.
Among those few is Progressive Spine & Orthopaedics of New Jersey, a top-rated spine surgery practice lead by Dr. Joshua Rovner. Board-certified and licensed to practice spine surgery in both New Jersey and New York, Dr. Rovner has become a notable and highly-sought orthopedic spine surgeon in New Jersey, and for good reason.
About New Jersey Spine Surgeon Dr. Rovner
Dr. Rovner attended medical school at downstate medical college of medicine in the state university of New York. He completed his medical degree and went ahead to complete his residency at Albert Einstein college of medicine in New York in orthopedic surgery.
Before launching his spine surgery practice in New Jersey, Dr. Rovner completed his training in Minneapolis, Minnesota where he got a chance to pursue a competitive spine surgery fellowship at the Twin Cities Spine Center. He leads progressive spine and orthopedics and he is also board certified in orthopedic surgery by the American board of orthopedic surgeons.
The NJ spine surgeon offers his spinal surgery specialization not only in New York and New Jersey but also to patients in other many areas. His specialization in orthopedic and spine surgery has made it possible for him capable of treating a broad range of spine and back disorders. His area of progressive spine and orthopedics is considered a regional authority in the medical and surgical management of spinal diseases and disorders.
Dr. Rovner is known as one of the most trusted and experienced New Jersey spine surgeons for his comprehensive work in orthopedics. He provides both non-surgical and surgical treatment of pain that is related to the neck and the entire back. He offers a patient centered and personalized approach together with his New Jersey spine surgery team. They are able to diagnose and treat problems that are related to deformity, trauma and degenerative conditions. Dr. Rovner is known for his personal approach to his practice and he has also specialized in minimally invasive techniques.
What Distinguishes Dr. Rovner From Other New Jersey Spine Surgeons
Dr. Rovner also offers robotic spinal surgery which is one of the latest advancements in neurosurgery. Unlike the traditional spinal surgery, the robotic spinal surgery is safer and increases the precision in all kinds of spinal surgeries. The traditional spinal surgery involved placing screws in the spinal bones which posed the risk of paralysis. Robotic spinal surgery reduces the placement of these screws as well as exposure to radiation. There is also reduced postoperative pain, complication rates and even recovery time.
Making Progressive Spine & Orthopaedics one of the most reputable spine surgery practices in NJ, robotic spinal surgery was actually first used in New Jersey by Dr. Rovner and it is also available at the Hackensack University medical center hospital. It has made spinal surgery less invasive which turns out to be the most challenging type of surgery. It is also one of the riskiest but robotic spinal surgery has brought a lot of accuracy to the table such as reducing the risk of screw misplacement by 10% and reduces the rate of nerve damage by 2%.
Robotic spinal surgery has also reduced the time taken on the surgery table as well as a higher chance to recovery. The only drawback to this type of surgery is that it can only be performed with the use of the renaissance spinal robot which is available in a limited number of places. But Dr. Rovner is one of the few surgeons who perfume robotic spinal surgery and he has managed to help thousands of people.
For more information about New Jersey spine surgeon, Dr. Joshua Rovner, visit the address referenced below or contact the practice at:
Progressive Spine & Orthopaedics
440 Curry Avenue, Suite A
Englewood, NJ 07631
Phone: (201) 227-1299 Website