Abstract
An open neural tube defect (ONTD) features an exposed, unclosed neural plate in the form of an expanded and frequently hefty neural placode. Traditional philosophy of ONTD repair aims at preserving the placode at any cost, which often means stuffing the entire thick and unwieldy but non-functional tissue into a tight dural sac, increasing the likelihood of future tethering of the spinal cord. The same philosophy of attempting to save the whole perimetry of the placode also sometimes leads to inadvertent inclusion of parts of the squamous epithelial membrane surrounding the placode into the reconstructed product, only to form inclusion dermoid cyst causing further injury to the neural tissues. Lastly, unsuccessful neurulation of the caudal primary neural tube almost always adversely affects junctional and secondary neurulation resulting in a defective conus, often with a locally active sacral micturition centre that is isolated from and therefore lacking suprasegmental inhibitory moderation. This frequently leads to the development of a spastic, hyperactive, low-compliance and high-pressure bladder predisposing to upstream kidney damage, without benefits of normal bladder function. We are introducing a new surgical technique designed to minimise or eliminate these three undesirable complications of conventional ONTD closure.
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Abbreviations
- BCR:
-
Bulbocavernosus reflex
- EMG:
-
Electromyography
- IONM:
-
Intraoperative neurophysiological monitoring
- mA:
-
Milliampere
- MRI:
-
Magnetic resonance imaging
- ONTD:
-
Open neural tube defect
- SSEP:
-
Somatosensory evoked potential
- TcMEP:
-
Transcortical motor evoked potentials
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Eibach, S., Pang, D. (2023). A New Surgical Paradigm for Postnatal Repair of Open Neural Tube Defects Using Intraoperative Neurophysiology Monitoring. In: Pang, D., Wang, KC. (eds) Spinal Dysraphic Malformations. Advances and Technical Standards in Neurosurgery, vol 47. Springer, Cham. https://doi.org/10.1007/978-3-031-34981-2_3
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