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Spine Surgeries: Nowadays so many technologies are available in the world for Neuro and spine surgeries. But depend on the disease stage system what technology should give to the patient. So, let’s have a look for this topic.

What is Spine surgery?

Neurosurgery can treat various disorders, including epilepsy, head injuries, herniated discs, spinal fractures, brain or spinal tumours, bruising, and spinal stenosis.

Certain neurosurgeons further their specializations to treat even the most complex patients successfully.

Advantages of minimally invasive surgery

• Fewer issues both during and following the treatment.
• Shorter recovery time following surgery.
• Lesser scars.
• Less time in the hospital, sometimes it is even ambulatory (the same day discharge is given).
• Back surgery
• Treatment for lumbar and cervical discomfort
• Spine degenerative conditions
• lumbar and cervical disc herniations
• Treatment of spinal cord, spinal canal, and spine cancers
• Traumatic and pathological vertebral fractures are treated for spinal cord injuries.
• Treatment for myelomeningocele, tethered cord, syringomyelia, and congenital spine diseases; functional spinal surgery; and minimally invasive spine surgery for traumatic and degenerative disorders.

State technology of using art

• Surgical microscopes and other equipment for minimally invasive and microsurgery
• Ultrasound intraoperative spinal nerve and spinal cord monitoring with a vacuum
• An ultrasonic fluoroscope is used intraoperatively.
• Spinal disorders can be treated with cutting-edge technology.

The health of spine is crucial to operating the rest of the body properly. Hence, the surgeon’s skill is of utmost importance if surgery is required. Through the development of surgical robots, which may support the surgeon’s job with previously unheard-of precision and accuracy, approaches are also evolving to ensure success in this type of intervention.

Draw trajectories thanks to the robotic arm’s high level of precision. The surgeon would be unable to complete that task manually. This indicates that starting to think about new techniques, like the lateral or the posterior, to advance in surgery that is ever less intrusive, says the doctor.

Neuronavigation (safest technology for Neurosurgery)

• This article will expose to some of the most cutting-edge technologies the team at Neurological Surgery uses to accomplish operations like removing tumours in the spine and at the cranial level. Modern technology and neurosurgery
• Brain tumour location with great accuracy using neuronavigation.
• Neuronavigation is a component of cutting-edge medical technology that enables highly precise surgical procedures.
• The origins of brain neuronavigation were in the 1980s, and it has been improved. For surgical treatment of tumour resections, both superficial (near the cerebral cortex) and such deep damage, is currently of the utmost importance.

How does the team benefit from neuronavigation?

Fundamentally, neuronavigation enables the neurosurgery team to locate cerebral malignancies without performing a single patient incision. This is accomplished using pictures received ahead of time via computed tomography or magnetic resonance imaging.

These images, which are recreated in three-dimensional (3D) form, can be assessed with the aid of the neuronavigation equipment’s software, enabling the patient to be guided throughout the surgical operation in real-time. It is fairly comparable to the technology used by GPS. It can be performed from the incision and craniotomy right at the spot where the tumour is located, enabling its location and removal.

In addition to pinpointing the exact position of superficial and deep cerebral lesions while performing focused craniotomies, other significant benefits of neuronavigation include:

• Reduces bleeding and aids in creating smaller wounds.
• Reduces the time needed for surgery and minimizes damage to nearby structures, favouring a patient’s proper post-surgical recovery and a shorter stay in the hospital.
• Using the most recent technology, a tumour can be removed with an ultrasonic aspirator.
• The type of tumour, its histology, progression, and location affect how it is treated. Radiation therapy, chemotherapy, and surgical resection are some of these treatments. The team doing neurological surgery currently uses cutting-edge equipment, including ultrasonic aspirators.
• As a result of its recent advancement to dry out brain tumours, the risk of negative effects on the surrounding healthy tissue has been reduced, making it possible to fragment and aspirate brain tumours without harming the surrounding healthy tissues.
• An ultrasonic aspirator is a tool that uses concentrated, high-intensity ultrasound energy to suction tumour tissue selectively.
• Tissue in contact with the aspirator tip is disrupted and fragmented using ultrasonic energy.
• Both in the spinal cord and at the level of the brain, this device enables safer excision.

What are the most important benefits of utilizing this technology?

• This leads to quicker and safer tumour removals, less surgery time, and
• minor bleeding,
• Less injury to healthy tissue
• Faster recovery and
• Shorter hospitalization time.

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