The goal of this study is to learn if the prototype adjustable prone positioning frame is a feasible design for use during neurosurgical procedures which utilize intraoperative magnetic resonance imaging (iMRI). The main questions it aims to answer are: * Is the prototype prone positioning device design feasible for use during neurosurgical procedures which utilize intraoperative MRI? * Does use of the prototype device place the patient at increased risk of complications compared to the standard positioning pads? Researchers will place patients in the prone position on the prototype device during neurosurgical procedures that utilize intraoperative MRI and observe for any problems with the positioning device or complications attributable to the positioning device.
Laser Interstitial Thermal Therapy (LITT) ablations are neurosurgical procedures which are performed for several indications including brain tumors and epilepsy. LITT procedures are performed utilizing intraoperative magnetic resonance imaging (MRI) scans. Some of these procedures must be performed in the prone position and can last 8 hours or longer. Investigators have observed several minor skin breakdown complications as well as a few major thromboembolic complications during these long prone procedures. Investigators hypothesize that the cause of the major thromboembolic complications are a result of compression of the femoral veins by the gel pads used to support the patient in the prone position. Many long spine surgeries are performed in the prone position and fewer episodes of skin pressure wounds are experienced and no major intraoperative thromboembolic complications. The study team hypothesizes that the difference is the way that the spine surgery pads support the hips does not compress the femoral vein, therefore significantly decreasing the risk of developing a thrombus intraoperatively. The aim of this project is to design a modular, adjustable plastic frame to support the spine surgery Jackson table chest and hip pads. Investigators will produce a prototype of the frame and test it during LITT procedures. The prototype of the frame will be 3D printed using the 3D printer owned by the Department of Neurosurgery. The hypothesis is that supporting the patient in the prone position using similar positioning methods to those used for spine surgeries will reduce the rate of skin pressure injuries and prevent future major thromboembolic complications.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DEVICE_FEASIBILITY
Masking
NONE
Enrollment
5
The prototype prone positioning device will be used during neurosurgical procedures utilizing intraoperative MRI.
University of Kansas Medical Center
Kansas City, Kansas, United States
Number of devices that meet functional requirements
The device will be evaluated for meeting its primary function during each use. The primary function is to support the patient in the prone position in the MRI machine during neurosurgical procedures. Whether it fulfills its function will be determined through feedback received from the staff involved in its use which may include nurses, MRI technologists, anesthesia providers, and surgeons. This will be a pass/fail criteria.
Time frame: During and immediately after each through study completion, an average of 1 year
Number of devices that are damaged during use
The device will be inspected for physical damage during and after each use. It will be inspected for bending, cracks, mechanical wear, or any other type of damage which could affect the device's safety or ability to serve its primary function. The type and severity of the damage will be recorded after each use and evaluated by the investigators. This will be a pass/fail criteria.
Time frame: During and immediately after each through study completion, an average of 1 year
Number of patients with skin complications
Each patient's skin will be examined after each procedure to evaluate for pressure injuries related to the prone positioning device. Size and severity of the skin injuries will be documented.
Time frame: Immediately after each procedure
Number of patients with thromboembolic complications
Each patient will be monitored for thromboembolic complications such as deep vein thrombosis or pulmonary embolism.
Time frame: During and after each procedure until the patient is discharged.
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