Concurrent Lapatinib With Brain Radiation Therapy in Patients With HER2+ Breast Cancer With Brain Metastases: NRG Oncology-KROG/RTOG 1119 Phase 2 Randomized Trial.

PURPOSE: Lapatinib plus whole brain radiation therapy (WBRT) or stereotactic radiosurgery (SRS) was hypothesized to improve the 12-week intracranial complete response (CR) rate compared with either option of radiation therapy (RT) alone for patients with brain metastases (BM) from human epidermal growth factor receptor 2-positive (HER2+) breast cancer. METHODS AND MATERIALS: This study included patients with HER2+ breast cancer with ≥1 measurable, unirradiated BM. Patients were randomized to WBRT (37.5 Gy/3 wk)/SRS (size-based dosing) ± concurrent lapatinib (1000 mg daily for 6 weeks). Secondary endpoints included objective response rate (ORR), lesion-specific response, central nervous system progression-free survival, and overall survival. RESULTS: From July 2012 to September 2019, 143 patients were randomized, with 116 analyzable for the primary endpoint. RT + lapatinib did not improve 12-week CR (0% vs 6% for RT alone, 1-sided P = .97), or ORR at 12 weeks. At 4 weeks, RT + lapatinib showed higher ORR (55% vs 42%). Higher graded prognostic assessment and ≤10 lesions were associated with higher 12-week ORR. Grade 3 and 4 adverse event rates were 8% and 0% for RT and 28% and 6% for RT + lapatinib. CONCLUSIONS: The addition of 6 weeks of concomitant lapatinib to WBRT/SRS did not improve the primary endpoint of 12-week CR rate or 12-week ORR. Adding lapatinib to WBRT/SRS showed improvement of 4-week ORR, suggesting a short-term benefit from concomitant therapy.

68Ga-DOTATATE PET-Based Radiation Contouring Creates More Precise Radiation Volumes for Patients With Meningioma.

PURPOSE: Radiation treatment planning for meningiomas traditionally involves magnetic resonance imaging (MRI) contrast enhanced images to define residual tumor. However, the gross tumor volume may be difficult to delineate for patients with a meningioma in the skull base sagittal sinus or after resection. Advanced positron emission tomography (PET) imaging using 68Ga-DOTATATE, which has been shown to be more sensitive and specific than MRI imaging, can be used for target volume delineation in these circumstances. We hypothesized that 68Ga-DOTATATE PET scan-based treatment planning would lead to smaller radiation volumes and would detect additional areas of disease compared with standard MRI alone. METHODS AND MATERIALS: Our data evaluated retrospective, deidentified, and blinded gross tumor volume contour delineation with 7 central nervous system (CNS) specialists (4 CNS radiation oncologists and 3 neuroradiologists) for 25 patients with a meningioma diagnosis who received both a 68Ga-DOTATATE PET and an MRI for radiation treatment planning. Both the MRI and the PET were nonsequentially contoured by each physician for each patient. RESULTS: The median MRI volume for each physician ranged from 16.94-25.53 cm3. The median PET volume for each physician ranged from 2.09 to 8.36 cm3. The median PET volume was smaller for each physician. In addition, 7 of the 25 patients (28%) had new nonadjacent areas contoured on PET by at least 6 of the 7 physicians that were not contoured by these physicians on the corresponding MRI. These new areas would not have been in the traditional MRI-based volumes. CONCLUSIONS: Our study supports that 68Ga-DOTATATE PET imaging may help radiation oncologists create more precise radiation treatment volumes through finding undetected areas of disease not seen on MRI. Treatment planning guided by 68Ga-DOTATATE PET should be studied prospectively.

An institutional review of hospital resource utilization and patient radiation exposure in shunted idiopathic intracranial hypertension.

Patients with idiopathic intracranial hypertension (IIH) frequently utilize healthcare services and undergo radiological studies to assess refractory headache symptoms despite cerebrospinal fluid diversion. To delineate the clinical utility of different imaging modalities and to estimate cumulative patient radiation exposure in shunted patients with IIH, we retrospectively reviewed 100 randomly selected patients with IIH and a prior cerebrospinal fluid diversion procedure treated at our institution between July 2010 and August 2018. Patients had an average of 16.3 office (SD ± 13.8), 12.4 emergency department (± 21.0), and 4.6 inpatient (± 5.1) encounters over an average 4.8 years of follow-up. Patients underwent an average of 9.0 head CTs (± 8.1), 10.3 shunt series x-rays (± 11.2), and 4.3 MRIs (± 3.7). Approximated radiation exposure per patient was 21.4 mSv (± 18.7). Radiological studies performed for acute symptoms usually demonstrated no actionable findings (82.5% CTs, 97.5% shunt series x-rays, and 79.6% MRIs). Shunted IIH patients undergo numerous radiological studies and are subject to considerable levels of radiation, yet imaging shows actionable findings in less than 10% percent of radiographic studies. IIH patients may benefit from radiation-reducing protocols and the use of alternative imaging to assess symptoms.

When a Meningioma Isn't: Endoscopic Endonasal Orbital Decompression and Biopsy of Skull Base Rosai-Dorfman Disease Treated Previously with Empiric Radiation Therapy.

BACKGROUND: Rosai-Dorfman disease (RDD) is a rare, benign histiocytosis disorder with only approximately 100 reported central nervous system cases in the literature. Even less common is skull base involvement of RDD, with about 41 reported cases. Radiographically, RDD can appear similar to a meningioma; the true diagnosis is only found with histologic analysis. Although "benign," RDD can lead to significant neurologic morbidity from the disease or unnecessary surgical and nonsurgical treatment. While rare, intracranial RDD has been treated with chemotherapy or radiotherapy, with surgery playing a limited role to relieve mass effect. Surgical approaches to the skull base are invasive and pose risk, especially for a benign and self-limiting disease like RDD. CASE DESCRIPTION: Here we present the case of a 63-year-old woman with a presumed spheno-orbital meningioma for which the patient previously underwent radiation therapy. On presentation to our facility, the patient noted pressure headaches and blurry vision, and imaging demonstrated progression of her disease. For these reasons, surgical debulking and biopsy were undertaken. CONCLUSIONS: This report demonstrates the role of EEA for tissue biopsy and decompression of the affected cranial nerves and orbit. This paradigm seems to provide a safe and effective way to manage patients with compressive symptoms, while also allowing for tissue sampling.

The Significance of Contrast Density of the Computed Tomography-Angiographic Spot Sign and its Correlation with Hematoma Expansion.

BACKGROUND AND PURPOSE: The computed tomography angiographic (CTA) spot sign has been shown to predict hematoma expansion in patients with intracranial hemorrhage (ICH), but the significance of the spot sign density (SSD) and the spot sign ratio (SSR) has not yet been explored. METHODS: Using the institutional Neurocritical care and Stroke registry, we retrospectively reviewed patients with ICH from January-2013 to June-2017. We selected patients who had baseline CT-head (CTH), CTA with positive-spot sign within 6 hours of last known well and at least one follow-up CTH within 24 hours. Baseline demographics and variables known to affect hematoma-volume were collected. Hematoma-volumes and SSR were calculated using computer-assisted 3D-volumetric measurement and the average of the surrounding hematoma density divided by the SSD, respectively. The 2-sample t test and the area-under-the-curve (receiver operating characteristic) were used to detect the association between hematoma expansion and outcome at discharge. RESULTS: A total of 320 patients were reviewed; 22 met the inclusion criteria. Significant hematoma expansion (volume expansion ≥12.5 cc or ≥33% compared to baseline) was noted in 14 (64%) subjects. SSD was significantly higher in subjects with hematoma expansion (216 ± 66) than those without (155 ± 52, P = .036). With a cut-off SSD of ≥150 HU, we had sensitivity of 86% and specificity of 75%. For SSR, lower ratios suggested a trend toward hematoma expansion, although it was not statistically significant (P = .12). There was no significant correlation between SSD or SSR and modified ranking scale at discharge and after 3-6 months. CONCLUSION: SSD might be a good predictor of hematoma growth. Although SSR showed a trend toward expansion, results were not statistically significant.

Neonatal neurosonography.

Neonatal neurosonography is used commonly to evaluate the central nervous system in the neonatal intensive care setting. The procedure can be performed at the bedside in these critically ill patients who may suffer from hemodynamic and thermoregulatory instability and often require mechanical ventilation. This article reviews current recommendations regarding neurosonography technique, pathophysiology, and imaging of intracranial insults including hemorrhage, white matter injury, infarction, and hypoxic-ischemic encephalopathy.