This study is to prospectively compare Ultrasound guided (US-G) Ventriculoperitoneal Shunt (VPS) placement to stereotactic navigation in a randomized controlled fashion with the surgical intervention time as primary outcome. All patients entering the University Hospital of Basel for elective or emergent VPS surgery will be randomized in 1:1 fashion to one of the study groups at admission or the day before the operation.
Ventriculoperitoneal shunt (VPS) placement is one of the most frequent procedures in neurosurgical practice. The position of the proximal ventricular catheter is important since it influences possible malfunction of the VPS. For the improvement of accuracy in proximal VPS placement, navigation-based insertion techniques have been developed. VPS placement using stereotactic navigation has shown a high accuracy of catheter placement been developed. VPS placement using stereotactic navigation has shown a high accuracy of catheter placement, while the main limitations are that for referencing, the head of the patient needs to be fixed in a head holder and the preoperative set-up can be time-consuming. US-G VPS placement using a burr hole probe was described as an alternate for image-guided VPS placement technique. For US-G VPS placement head fixation or preoperative registration is not needed. This study is to prospectively compare Ultrasound guided (US-G) Ventriculoperitoneal Shunt (VPS) placement to stereotactic navigation in a randomized controlled fashion with the surgical intervention time as primary outcome.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
DOUBLE
Enrollment
136
US -G VPS placement, done by BK Medical 5000 US with burr hole probe (type 9063 N11C5S, 11-5 MHz). Head not fixed, placed on horseshoe head holder, no preoperative navigation planning, catheter will be cut in length after positioning under real-time US guidance.
Stereotactic navigation for VPS placement (Brainlab Dual Curve System with cranial navigation software version 3.1). Head fixed in head clamp, entry point, trajectory and catheter length planned based on preoperative computer tomography imaging, catheter placed using navigated stylet.
Department of Neurosurgery, University Hospital of Basel
Basel, Switzerland
surgical intervention time (minutes)
time spent in the Operating Room (OR) by the surgeon, includes preparation time together (patient positioning, head clamping in the stereotactic navigation group) with the operation time of the neurosurgical part. Beginning ("positioning") and ending ("suture neurosurgical part") of this time interval is clearly defined and will be in a standardized manner recorded by blinded anaesthesiologists. . In the stereotactic navigation group, an additional 5 minutes will be added to the surgical intervention time for the preplanning of the navigation the day before the operation on the Brainlab workstation.
Time frame: at Operation day (V2, up to 24 hours)
Operation time (minutes)
Operation time (minutes): time in minutes from "cut" to "suture"
Time frame: at Operation day (V2, up to 24 hours)
Anaesthesia time (minutes)
Anaesthesia time (minutes): time in minutes from "start anaesthesia" to "end anaesthesia"
Time frame: at Operation day (V2, up to 24 hours)
Number of puncture attempts
Number of puncture attempts
Time frame: at Operation day (V2, up to 24 hours)
Catheter placement (optimal vs. not optimal)
Optimal catheter Placement: free-floating within the Cerebrospinal fluid (CSF) without touching ventricle wall or septum pellucidum, and the tip of the catheter located at the foramen of Monro showing an optimal length of the catheter. Catheters that did not fulfill all criteria have been defined as not optimal placed. Positioning of catheters will be further graded according to Yim et al. into grades I to IV (grade I: catheter terminates in the ipsilateral frontal horn, grade II: catheter terminates in contralateral frontal horn, grade III: catheter terminates in non-targeted CSF spaces, grade IV: catheter terminates intraparenchymally)
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Time frame: at Operation day (V2,up to 24 hours), 2-3 days post-op. (V3), at discharge (V 4, approx. 7 days postop.), 6-8 weeks post-op (V5),6 months postop. (V6)
Change in volumetry of side ventricles
Change in volumetry of side ventricles pre- and postoperatively in cm3 (number and relative change)
Time frame: 1 day before Operation day (V1, up to 24 hours) and 2-3 days post-op. (V3)
Change in Evan's Index
Change in Evan's Index pre- and postoperatively (number and relative change).The Evans' index is the ratio of maximum width of the frontal horns of the lateral ventricles and the maximal internal diameter of the skull at the same level employed in axial CT images.
Time frame: before Operation day (V1) and 2-3 days post-op. (V3)
rate of complications (infection, bleeding, complications associated with navigation method)
rate of complications (infection, bleeding, complications associated with navigation method)
Time frame: from Operation day (V2, up to 24 hours) until 6 months postop. (V6)
mortality
mortality
Time frame: from Operation day (V2, up to 24 hours) until 6 months postop. (V6)
revision surgery (yes/no)
revision surgery (yes/no)
Time frame: from Operation day (V2,up to 24 hours) until 6 months postop. (V6)