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Burr hole trephination for external ventricular drainage

see Electromagnetic guided ventricular catheter placement.

see Ghajar Guide technique

see Freehand ventriculostomy.

There is insufficient evidence to recommend the occipital approach versus frontal point of entry for the ventricular catheter; therefore, both entry points are options for the treatment of pediatric hydrocephalus 1).

Real-time transcranial ultrasound monitoring through an enlarged bur hole is a feasible, safe, and effective technique for the placement of ventricular catheters in pediatric patients without a patent fontanelle 2).

3D ultrasound with the described setup is a promising technique for accurate, fast, and user-friendly navigated placement of catheters for cerebrospinal fluid diversion 3).

The standard method of ventriculostomy catheter placement is a freehand pass technique using surface anatomical landmarks.

Retrospective evaluation was performed on the head computed tomography (CT) scans of 97 patients who underwent 98 freehand pass ventriculostomy catheter placements in an ICU setting. Using the postprocedure CT scans of the patients, 3D measurements were made to calculate the accuracy of ventriculostomy catheter placement.

The mean distance (+/- standard deviation [SD]) from the catheter tip to the Monro foramen was 16 +/- 9.6 mm. The mean distance (+/- SD) from the catheter tip to the center of the bur hole was 87.4 +/- 14.0 mm. Regarding accurate catheter tip placement, 56.1% of the catheter tips were in the ipsilateral lateral ventricle, 7.1% were in the contralateral lateral ventricle, 8.2% were in the third ventricle, 6.1% were within the interhemispheric fissure, and 22.4% were within extraventricular spaces.

The accuracy of freehand ventriculostomy catheterization typically required 2 passes per successful placement, and, when successful, was 1.6 cm from the Monro foramen. More importantly, 22.4% of these catheter tips were in nonventricular spaces. Although many neurosurgeons believe that the current practice of ventriculostomy is good enough, the results of this study show that there is certainly much room for improvement 4).

The use of image guidance technology added approximately 36 minutes to the time from when the need was identified to when successful drainage was achieved (p = 0.002), but added only 4 minutes of operative time (p = 0.12). Accuracy of placement demonstrated a statistically significant improvement in the accuracy of ventriculostomy over historical data. There were two registration failures which were converted to the traditional technique; there were no other complications arising from the use of image-guided technology. Electromagnetic image guidance is feasible and accurate. Image guidance technology eliminated unacceptably placed catheters and may reduce the risk of catheter-associated intracerebral hemorrhages 5).

Percutaneous CT-controlled ventriculostomy (PCV)

52 interventions with PCV was prospectively analyzed with regard to technical success, procedural time, time from the initial cranial computed tomography (CCT) until procedure and transfer to the intensive care unit (ICU). Additionally, the data was compared with a retrospective control group of 12 patients with 13 procedures of conventional burr-hole ventriculostomy (OP-ICP). The PCV was successful in all cases (52 of 52; 95% CI 94-100%). In 1 case a minor hemorrhage into the ipsilateral lateral ventricle was observed on CT scans due to an initially unsuccessful puncture (95% CI 0-6%). No infections occurred (95% CI 0-6%). In the control group with OP-ICP one catheter infection and one unsuccessful catheter placement occurred (each 8%, 95% CI 0-20%). The PCV led to a significant decrease of procedure time from 45 +/- 11 min (OP-ICP) to 20 +/- 12 min (PCV). The interval from the initial CCT until procedure (PCV 28 +/- 11 min, OP-ICP 78 +/- 33 min) and transfer to the ICU (PCV 69 +/- 34 min, OP-ICP 138 +/- 34 min) could also be significantly reduced (each with p<0.05, Mann-Whitney U-test). Percutaneous CT-controlled ventriculostomy is a safe and efficient method for ICP catheter placement during initial trauma room management. It significantly reduces the time of initial trauma room treatment 6).


Patients who underwent ventriculostomy placement in the ICU differed in important ways (i.e. indication for placement and the administration of pre-procedure prophylactic antibiotics) from patients treated in the OR. However, the available data suggests that complications of hemorrhage, infection, and non-functional drains may be mitigated by ventriculostomy placement in the OR 7).

Techniques to accurately place ventricular catheters and new valve designs that effectively control ventricular size might reduce shunt malfunction 8).


Kemp J, Flannery AM, Tamber MS, Duhaime AC. Pediatric hydrocephalus: systematic literature review and evidence-based guidelines. Part 9: Effect of ventricular catheter entry point and position. J Neurosurg Pediatr. 2014 Nov;14 Suppl 1:72-6. doi: 10.3171/2014.7.PEDS14329. PubMed PMID: 25988785.
Whitehead WE, Jea A, Vachhrajani S, Kulkarni AV, Drake JM. Accurate placement of cerebrospinal fluid shunt ventricular catheters with real-time ultrasound guidance in older children without patent fontanelles. J Neurosurg. 2007 Nov;107(5 Suppl):406-10. doi: 10.3171/PED-07/11/406. PubMed PMID: 18459905.
Jakola AS, Reinertsen I, Selbekk T, Solheim O, Lindseth F, Gulati S, Unsgård G. Three-dimensional ultrasound-guided placement of ventricular catheters. World Neurosurg. 2014 Sep-Oct;82(3-4):536.e5-9. doi: 10.1016/j.wneu.2013.08.021. Epub 2013 Aug 23. Review. PubMed PMID: 23973451.
Huyette DR, Turnbow BJ, Kaufman C, Vaslow DF, Whiting BB, Oh MY. Accuracy of the freehand pass technique for ventriculostomy catheter placement: retrospective assessment using computed tomography scans. J Neurosurg. 2008 Jan;108(1):88-91. doi: 10.3171/JNS/2008/108/01/0088. PubMed PMID: 18173315.
Mahan M, Spetzler RF, Nakaji P. Electromagnetic stereotactic navigation for external ventricular drain placement in the intensive care unit. J Clin Neurosci. 2013 Dec;20(12):1718-22. doi: 10.1016/j.jocn.2013.03.005. Epub 2013 Aug 30. PubMed PMID: 23993898.
Krötz M, Linsenmaier U, Kanz KG, Pfeifer KJ, Mutschler W, Reiser M. Evaluation of minimally invasive percutaneous CT-controlled ventriculostomy in patients with severe head trauma. Eur Radiol. 2004 Feb;14(2):227-33. Epub 2003 Nov 6. PubMed PMID: 14605843.
Tuli S, O'Hayon B, Drake J, Clarke M, Kestle J. Change in ventricular size and effect of ventricular catheter placement in pediatric patients with shunted hydrocephalus. Neurosurgery. 1999 Dec;45(6):1329-33; discussion 1333-5. PubMed PMID: 10598700.
burr_hole_trephination_for_external_ventricular_drainage.txt · Last modified: 2019/04/24 00:14 by administrador