Voxel-based evaluation of hemorrhage risk in brain biopsies

Objective While technological progress increases precision and reduces invasiveness of stereotactic brain biopsies (BB), biopsy related hemorrhage (BBH) is still a key risk. This study identifies risk factors and uses voxel-based lesion symptom mapping (VLSM) to analyse the spatial distribution of BBH. Methods We analyzed 450 frame-based and robotic-assisted BB. Patients’ preoperative MR and postoperative CT imaging were registered and normalized to the standard MNI space enabling volumetry and inter-subject comparison of BBH location. Binary logistic regression analysis was performed to determine significant BBH predictors. Additionally, we performed VLSM to evaluate the exact spatial profile of BBH in relation to the functional outcome. Results BBH was noted radiographically in 80 cases (18%) with a mean volume of 1.9 ± 19.0ml. 19/450 (4%) of all BB presented symptomatic BBH characterized mainly by sensorimotor deficits (13/450,3%) and/or reduced vigilance (5/450,1%). 7/450 (2%) cases necessitated surgical evacuation of BBH and 10/450% (2%) patients suffered from persistent neurological deficits. High-grade glioma, patient age and target location were main BBH predictors. VLSM determined frontal trajectories targeting deep-seated lesions in the basal ganglia to be significantly associated with a higher BBH risk. BBH within the posterior aspect of the basal ganglia, insula and capsula interna emerged as significant predictors for neurological deterioration after surgery. Conclusion While asymptomatic hemorrhages are quite common after brain biopsies, neurological deterioration is rare. BBH risk is influenced by both spatial factors and non-spatial factors. BB targeting basal ganglia were linked to a higher risk of hemorrhage, particularly symptomatic BBH with somatosensory deficit. Clinical trail number: not applicable.