MRI-guided focused ultrasound enhances drug delivery in experimental diffuse intrinsic pontine glioma.

Diffuse intrinsic pontine glioma (DIPG) is a surgically unresectable and devasting tumour in children. To date, there are no effective chemotherapeutics despite a myriad of clinical trials. The intact blood-brain barrier (BBB) is likely responsible for the limited clinical response to chemotherapy. MRI-guided focused ultrasound (MRgFUS) is a promising non-invasive method for treating CNS tumours. Moreover, MRgFUS allows for the temporary and repeated disruption of the BBB. Our group previously reported the feasibility of temporary BBB opening within the normal murine brainstem using MRgFUS following intravenous (IV) administration of microbubbles. In the current study, we set out to test the effectiveness of targeted chemotherapy when paired with MRgFUS in murine models of DIPG. Doxorubicin was selected from a drug screen consisting of conventional chemotherapeutics tested on patient-derived cell lines. We studied the RCAS/Tv-a model where RCAS-Cre, RCAS-PDGFB, and RCAS-H3.3K27M were used to drive tumourigenesis upon injection in the pons. We also used orthotopically injected SU-DIPG-6 and SU-DIPG-17 xenografts which demonstrated a diffusely infiltrative tumour growth pattern similar to human DIPG. In our study, SU-DIPG-17 xenografts were more representative of human DIPG with an intact BBB. Following IV administration of doxorubicin, MRgFUS-treated animals exhibited a 4-fold higher concentration of drug within the SU-DIPG-17 brainstem tumours compared to controls. Moreover, the volumetric tumour growth rate was significantly suppressed in MRgFUS-treated animals whose tumours also exhibited decreased Ki-67 expression. Herein, we provide evidence for the ability of MRgFUS to enhance drug delivery in a mouse model of DIPG. These data provide critical support for clinical trials investigating MRgFUS-mediated BBB opening, which may ameliorate DIPG chemotherapeutic approaches in children.

Advanced Age Is Not a Universal Predictor of Poorer Outcome in Patients Undergoing Neurosurgery.

BACKGROUND: Advances in medical care and technology have dramatically improved outcomes in patients undergoing neurosurgical intervention; however, certain patient subgroups (e.g., older adults) may encounter greater rates of morbidity and mortality in the perioperative period. The objective of this study was to determine the effects of patient and hospital characteristics, including age, on in-hospital mortality, and complication rates of 3 routine neurosurgical operations: subdural hematoma evacuation, brain tumor resection, and degenerative spine procedures. METHODS: A retrospective multivariable analysis of the 2014 National Inpatient Sample was performed. The setting was a national sample of hospitalized inpatient stays occurring in 2014 in the United States. Patients (N = 48,963) included those undergoing subdural hematoma evacuation, brain tumor resection, or degenerative spine procedures, stratified according to age group (<65, 65-74, 75-84, 85+ years). Mortality and complication rate were measured. RESULTS: Age ≥85 years was found to increase the odds of mortality (odds ratio 11.32) and complications (odds ratio 2.64) in patients undergoing degenerative spine procedures, whereas age had no significant effect on mortality and complication rate in subdural hematoma evacuation and brain tumor resection. Multiple comorbidities and nonelective status were predictors of increased mortality and complication rate in all procedure groups. CONCLUSIONS: Overall, our data would suggest that increased age does not universally predict worse outcome and that, for many procedures, surgical decision-making in older patients should instead consider other pertinent factors, such as comorbidities and elective status.

Brainstem blood brain barrier disruption using focused ultrasound: A demonstration of feasibility and enhanced doxorubicin delivery.

Magnetic Resonance Image-guided Focused Ultrasound (MRgFUS) has been used to achieve transient blood brain barrier (BBB) opening without tissue injury. Delivery of a targeted ultrasonic wave causes an interaction between administered microbubbles and the capillary bed resulting in enhanced vessel permeability. The use of MRgFUS in the brainstem has not previously been shown but could provide value in the treatment of tumours such as Diffuse Intrinsic Pontine Glioma (DIPG) where the intact BBB has contributed to the limited success of chemotherapy. Our primary objective was to determine whether the use of MRgFUS in this eloquent brain region could be performed without histological injury and functional deficits. Our secondary objective was to select an effective chemotherapeutic against patient derived DIPG cell lines and demonstrate enhanced brainstem delivery when combined with MRgFUS in vivo. Female Sprague Dawley rats were randomised to one of four groups: 1) Microbubble administration but no MRgFUS treatment; 2) MRgFUS only; 3) MRgFUS + microbubbles; and 4) MRgFUS + microbubbles + cisplatin. Physiological assessment was performed by monitoring of heart and respiratory rates. Motor function and co-ordination were evaluated by Rotarod and grip strength testing. Histological analysis for haemorrhage (H&E), neuronal nuclei (NeuN) and apoptosis (cleaved Caspase-3) was also performed. A drug screen of eight chemotherapy agents was conducted in three patient-derived DIPG cell lines (SU-DIPG IV, SU-DIPG XIII and SU-DIPG XVII). Doxorubicin was identified as an effective agent. NOD/SCID/GAMMA (NSG) mice were subsequently administered with 5 mg/kg of intravenous doxorubicin at the time of one of the following: 1) Microbubbles but no MRgFUS; 2) MRgFUS only; 3) MRgFUS + microbubbles and 4) no intervention. Brain specimens were extracted at 2 h and doxorubicin quantification was conducted using liquid chromatography mass spectrometry (LC/MS). BBB opening was confirmed by contrast enhancement on T1-weighted MR imaging and positive Evans blue staining of the brainstem. Normal cardiorespiratory parameters were preserved. Grip strength and Rotarod testing demonstrating no decline in performance across all groups. Histological analysis showed no evidence of haemorrhage, neuronal loss or increased apoptosis. Doxorubicin demonstrated cytotoxicity against all three cell lines and is known to have poor BBB permeability. Quantities measured in the brainstem of NSG mice were highest in the group receiving MRgFUS and microbubbles (431.5 ng/g). This was significantly higher than in mice who received no intervention (7.6 ng/g). Our data demonstrates both the preservation of histological and functional integrity of the brainstem following MRgFUS for BBB opening and the ability to significantly enhance drug delivery to the region, giving promise to the treatment of brainstem-specific conditions.