 | “neuroinspire™ surgical planning software increases safety of paediatric brain stem glioma biopsies"Rapid & safe tumour diagnosis Progress in medical imaging and treatment modalities for brain tumours are driving a re-evaluation of the role of stereotactic biopsies Professor Gill has come to rely on Renishaw neuroinspire™ software for his surigical planning. It has been key to successfully performing stereotactic brain stem glioma biopsy via a transpeduncular route.
Case study details
Neuroinspire has a feature known as the ‘bomb’s-eye’ view that enables the user to precisely visualise and track the route of the tool being used, from its entry point at the skull down to the target. As the software simulates this route the user can detect whether any blood vessels or other important anatomical structures lie in the tool’s path, or in close proximity. Brain stem glioma biopsy - surgical planningIn a recent case Professor Gill performed a stereotactic biopsy to confirm the histological diagnosis of a suspected brain stem glioma in a 4 year old patient, using the neuroinspire surgical planning software to plan both the target position for the biopsy and the trajectory to that position.
Initially Professor Gill plotted a transventricular approach but the software clearly indicated that this trajectory would encounter a blood vessel. A second transventricular route was then attempted, via the opposite hemisphere; this route missed a blood vessel by 2 - 3 mm.
Often the size of these tumours can be small, thereby making it difficult to make multiple passes for a biopsy. Also, with the substantial histologic variability within a tumour, biopsy sampling error can often result in a misleading specimen. This emphasises the need to maximise the chances of taking a good sample at the first instance. The surgical procedure
Potential for the futureThis procedure demonstrates the capabilities of the neuroinspire surgical planning software, allowing the surgeon greater flexibility in choosing multiple trajectories to a target position, based on 3D modelling. Currently, neuroinspire is being used at Frenchay Hospital for Deep Brain Stimulation (DBS) surgery. The software significantly reduces the time taken to plan for procedures from the manual process previously used and consistently enables targeting with sub-millimetre accuracy. Bibliography1. Albright AL, Packer RJ, Zimmerman R, et al.: Magnetic resonance scans should replace biopsies for the diagnosis of diffuse brain stem gliomas: a report from the Children’s Cancer Group. Neurosurgery 33 (6): 1026-9; discussion 1029-30, 1993. Next stepsContact us online if you require more information or you have a pricing query, or alternatively you may like to speak directly to your local Renishaw office. |
Paediatric brain stem glioma is typically diagnosed with clinical findings and Magnetic Resonance Imaging (MRI) scans rather than biopsy specimens (1 - see Bibliography below), because of the difficulties of taking samples from the brain stem region; however the lack of a histological diagnosis can make treatment difficult. The new Renishaw neuroinspire™ surgical planning software works around some of these problems by providing clinicians with highly detailed and accurate visualisation of patient brain structure and anatomy. This enables reliable planning of a choice of routes to biopsy targets that avoid blood vessels, ventricles and vital areas of the cortex.
With his extensive experience of stereotactic procedures, Professor Steven Gill at Frenchay Hospital, Bristol, has been working with Renishaw to develop the neuroinspire™ software. It can be used for planning various neurosurgical procedures including Deep Brain Stimulation (DBS) (2 - see Bibliography below), with the potential to extend use to any procedure requiring high-accuracy targeting within the brain. Neuroinspire can merge MRI sequences from the axial, coronal and sagittal planes. This allows the surgeon to visualise the path of the surgical tool in three dimensions, identifying key anatomical structures using multi-planar reconstruction and cross correlation.
The first stage of the biopsy involved a series of MRI scans under general anaesthesia, delivering the appropriate region in all three planes. The scans were acquired at a thickness of 2 mm with 0.4 mm separation in between, and loaded into the neuroinspire software. Professor Gill used the software to consider three different approaches to the glioma before deciding on the safest possible path. The neuroinspire software allows the simulation of different surgical tools and in this case a 2 mm diameter needle was selected.
A third option was attempted using a more unusual transpeduncular approach, via the posterior cerebellum, which can be a very vascular region. The visualisation demonstrated that this was the safest route of the three with optimum chance of obtaining a good sample, and the trajectory and coordinates were recorded for the biopsy.
The patient was laid supine and the stereotactic frame base was connected to the arc; the trajectory and coordinates were checked prior to the drilling of the burr hole. The biopsy needle, guided by the frame, was used to safely and successfully take an initial single-cell smear sample at the target position with no complications. The sample was confirmed by an in-theatre pathologist to be representative of an aggressive astrocytic tumour. A second sample was taken to be used as a frozen section, which would allow a further analysis of the cyto-architecture of the tumour and surrounding regions.