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1.
Fluorescein-guided resection of gliomas.
Save, AV, Gill, BJ, D'amico, RS, Canoll, P, Bruce, JN
Journal of neurosurgical sciences. 2019;(6):648-655
Abstract
Standard of care in the management of high-grade gliomas includes gross total resection (GTR) followed by treatment with radiation and temozolomide. GTR remains one of the few independent prognostic factors for improved survival in this disease. Sodium fluorescein is an organic fluorophore that has been studied as a surgical adjunct to improve the likelihood of achieving GTR in gliomas. Though sodium fluorescein does not selectively accumulate in glioma cells, it allows for real-time identification of regions of blood brain barrier breakdown, corresponding to the contrast-enhancing cores of high-grade gliomas. In addition to its high predictive value for identifying pathologic tissue, use of fluorescein has been shown to improve rates of GTR. In stereotactic needle biopsies, it helps reduce procedure time by rapidly confirming the presence of diagnostic tissue. Furthermore, in non-enhancing, low-grade gliomas, it labels focal regions of vascular dysregulation that have been correlated with high-grade features. Fluorescein has also been shown to be significantly less expensive than other contemporary surgical adjuncts such as intraoperative ultrasound, intraoperative MRI, and the recently FDA approved fluorophore, 5-aminolevulinic acid (5-ALA). Here, we review the current literature on the effectiveness of fluorescein as a surgical tool in the resection of gliomas.
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2.
Potassium channels and their role in glioma: A mini review.
Liu, J, Qu, C, Han, C, Chen, MM, An, LJ, Zou, W
Molecular membrane biology. 2019;(1):76-85
Abstract
K+ channels regulate a multitude of biological processes and play important roles in a variety of diseases by controlling potassium flow across cell membranes. They are widely expressed in the central and peripheral nervous system. As a malignant tumor derived from nerve epithelium, glioma has the characteristics of high incidence, high recurrence rate, high mortality rate, and low cure rate. Since glioma cells show invasive growth, current surgical methods cannot completely remove tumors. Adjuvant chemotherapy is still needed after surgery. Because the blood-brain barrier and other factors lead to a lower effective concentration of chemotherapeutic drugs in the tumor, the recurrence rate of residual lesions is extremely high. Therefore, new therapeutic methods are needed. Numerous studies have shown that different K+ channel subtypes are differentially expressed in glioma cells and are involved in the regulation of the cell cycle of glioma cells to arrest them at different stages of the cell cycle. Increasing evidence suggests that K+ channels express in glioma cells and regulate glioma cell behaviors such as cell cycle, proliferation and apoptosis. This review article aims to summarize the current knowledge on the function of K+ channels in glioma, suggests K+ channels participating in the development of glioma.
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3.
Perioperative Hyperchloremia and its Association With Postoperative Acute Kidney Injury After Craniotomy for Primary Brain Tumor Resection: A Retrospective, Observational Study.
Oh, TK, Kim, CY, Jeon, YT, Hwang, JW, Do, SH
Journal of neurosurgical anesthesiology. 2019;(3):311-317
Abstract
BACKGROUND Hyperchloremia is known to influence postoperative outcomes and may result in postoperative acute kidney injury (AKI). This study sought to investigate whether hyperchloremia was associated with postoperative AKI in patients who underwent surgery for primary brain tumor resection. MATERIALS AND METHODS This is a retrospective, observational study of patients who underwent craniotomy for primary brain tumor resection at a single tertiary care hospital between January 2005 and October 2017. Maximum levels of serum chloride (mmol/L) measured on postoperative days (PODs) 0 to 3 and increase in serum chloride (mmol/L), (maximum serum chloride-baseline serum chloride before surgery) were measured. We examined whether perioperative hyperchloremia was associated with postoperative AKI during PODs 0 to 3. Univariate and multivariate logistic regression analyses were used in this study. RESULTS A total of 726 patients were included in the analysis; of these, 39 (5.4%) were diagnosed with postoperative AKI during PODs 0 to 3. The risk of postoperative AKI was associated with maximum chloride levels (odds ratio, 1.10; 95% confidence interval, 1.02-1.19; P=0.015) and with an increase in serum chloride levels during PODs 0 to 3 (odds ratio, 1.11; 95% confidence interval, 1.04-1.19; P=0.004). CONCLUSIONS Our study shows that perioperative hyperchloremia during PODs 0 to 3 was associated with an increased risk of postoperative AKI during this period after craniotomy for primary brain tumor resection.
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4.
Following the light in glioma surgery: a comparison of sodium fluorescein and 5-aminolevulinic acid as surgical adjuncts in glioma resection.
Navarro-Bonnet, J, Suarez-Meade, P, Brown, DA, Chaichana, KL, Quinones-Hinojosa, A
Journal of neurosurgical sciences. 2019;(6):633-647
Abstract
Gliomas are molecularly complex neoplasms and require a multidisciplinary approach to treatment. Maximal safe resection is often the initial goal of treatment and extent of resection (EOR) is an important prognostic factor correlating with both progression-free-survival (PFS) and overall survival (OS). Postoperative patient outcome is also a critical and independent prognosticator and high EOR must not be achieved at the expense of good functional outcome. Several intraoperative adjuvant techniques have been developed to help the surgeon push the boundaries of EOR while maintaining safety. Fluorescence-guided surgery for brain tumors is a contemporary adjuvant technique that allows for intraoperative delineation of diseased and normal brain thus improving maximal safe resection. The most extensively used fluorophores are 5-aminolevulinic acid (5-ALA) and sodium fluorescein (SFL). These fluorophores have different spectrophotometric properties, mechanisms of action and considerations for use. Both have demonstrated utility in neurosurgical oncology. They are safe and both are FDA approved for use as surgical adjuncts during resection of primary CNS neoplasms although they have been used with varying success for other tumor types. When combined with other surgical adjuvant strategies such as neuronavigation, intraoperative ultrasound, intraoperative MRI, awake resection and/or electrophysiological mapping/monitoring, fluorescence-guided resection appears to further improve resection quality in regard to EOR and safety. In this article, we review the current knowledge related to both fluorophores for brain tumor resection, their benefits, and pitfalls, as well as the major advantages associated with their use. We also briefly review additional fluorophores in early clinical development. Fluorescence-guided surgery is a novel surgical adjuvant which allows for real-time delineation of neoplastic tissues. The most widely used fluorophores are 5-ALA and SFL. They are safe compounds and there is a large body of evidence suggesting improvement in EOR when these are employed. There are nuances to the use of each; the fluorescence intensity is dose-dependent in either case and the sensitivity and specificity for various tumors vary widely. Additional prospective studies will be necessary to parse the impact of this technique and these fluorophores on survival metrics.
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5.
11C-methionine-PET for differentiating recurrent brain tumor from radiation necrosis: radiomics approach with random forest classifier.
Hotta, M, Minamimoto, R, Miwa, K
Scientific reports. 2019;(1):15666
Abstract
Differentiating recurrent brain tumor from radiation necrosis is often difficult. This study aims to investigate the efficacy of 11C-methionine (MET)-PET radiomics for distinguishing recurrent brain tumor from radiation necrosis, as compared with conventional tumor-to-normal cortex (T/N) ratio evaluation. We enrolled 41 patients with metastatic brain tumor or glioma treated using radiation therapy who underwent MET-PET. The area with a standardized uptake value > 1.3 times that of the normal brain cortex was contoured. Forty-two PET features were extracted and used in a random forest classifier and the diagnostic performance was evaluated using a 10-fold cross-validation scheme. Gini index was measured to identify relevant PET parameters for classification. The reference standard was surgical histopathological analysis or more than 6 months of follow-up with MRI. Forty-four lesions were used for the analysis. Thirty-three and 11 lesions were confirmed as recurrent brain tumor and radiation necrosis, respectively. Radiomics and T/N ratio evaluation showed sensitivities of 90.1% and 60.6%, and specificities of 93.9% and 72.7% with areas under the curve of 0.98 and 0.73, respectively. Gray level co-occurrence matrix dissimilarity was the most pertinent feature for diagnosis. MET-PET radiomics yielded excellent outcome for differentiating recurrent brain tumor from radiation necrosis, which outperformed T/N ratio evaluation.
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6.
Evaluation of Response to Stereotactic Radiosurgery in Brain Metastases Using Multiparametric Magnetic Resonance Imaging and a Review of the Literature.
Sawlani, V, Davies, N, Patel, M, Flintham, R, Fong, C, Heyes, G, Cruickshank, G, Steven, N, Peet, A, Hartley, A, et al
Clinical oncology (Royal College of Radiologists (Great Britain)). 2019;(1):41-49
Abstract
AIMS: Following stereotactic radiosurgery (SRS), brain metastases initially increase in size in up to a third of cases, suggesting treatment failure. Current imaging using structural magnetic resonance imaging (MRI) cannot differentiate between tumour recurrence and SRS-induced changes, creating difficulties with patient management. Combining multiparametric MRI techniques, which assess tissue physiological and metabolic information, has shown promise in answering this clinical question. MATERIALS AND METHODS Multiparametric MRI techniques, including spectroscopy, diffusion and perfusion imaging, were used for the differentiation of radiation-related changes and tumour recurrence after SRS for intracranial metastases in six cases. All patients presented with enlargement of the treated lesion, an increase in perilesional brain oedema and aggravation or appearance of neurological signs and symptoms from 7 to 29 weeks after primary treatment. RESULTS Multiparametric imaging helped to differentiate features of tumour progression (n = 4) from radiation-related changes (n = 2). A low apparent diffusion coefficient (ADC) <1000 × 10-6 mm2/s, high relative cerebral blood volume (rCBV) ratio > 2.1, high choline:creatine (Cho:Cr) ratio > 1.8 suggested tumour recurrence. A high ADC > 1000 × 10-6 mm2/s, low rCBV ratio < 2.1, Cho:Cr ratio < 1.8 suggested SRS-induced radiation changes. Multiparametric MRI diagnosis was confirmed by histology or radiological and clinical follow-up. CONCLUSION Multiparametric MRI was helpful in the early identification of radiation-related changes and tumour recurrence and may be useful for monitoring treatment changes in intracranial neoplasms after SRS treatment.
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7.
A novel lecithin-based delivery form of Boswellic acids as complementary treatment of radiochemotherapy-induced cerebral edema in patients with glioblastoma multiforme: a longitudinal pilot experience.
Di Pierro, F, Simonetti, G, Petruzzi, A, Bertuccioli, A, Botta, L, Bruzzone, MG, Cuccarini, V, Fariselli, L, Lamperti, E
Journal of neurosurgical sciences. 2019;(3):286-291
Abstract
BACKGROUND Glioblastoma multiforme (GBM) is an extremely challenging neurological disease for which the development of more effective therapeutic options and of adjuvant/complementary treatment is needed. We investigated the effects of an innovative phytosome-based delivery form of boswellic acids extract (Monoselect AKBA™) on radiochemotherapy-induced cerebral edema in patients with primary GBM. METHODS Patients with de novo GBM treated with surgery, radiotherapy and chemotherapy with temozolomide were enrolled in this longitudinal study and received boswellia-based product 4500 mg/die for a maximum of 34 weeks. Cerebral edema was assessed at 4, 12, 22 and 34 weeks post-surgery, together with steroids consumption and patients' psychological status. RESULTS A total of 20 patients were included in the study. The percentage of patients with reduced edema was constant during the study, while the percentage of those with reduced or stable edema tended to increase over time. Of note, two patients achieved a considerable reduction in brain edema, which led to a more favorable and beneficial surgical resection. In addition, a good percentage of patients assumed a stable/reduced steroids dose or were dexamethasone free during the study. Lastly, patients' QoL and psychological state were maintained throughout the study. CONCLUSIONS Complementary treatment with Monoselect AKBA™ might exert a beneficial effect in reducing radiochemotherapy-induced cerebral edema, thanks to the anti-inflammatory properties of the boswellia serrata extract. The reduction in brain edema might diminish dexamethasone assumption, thus minimizing steroids-induced side effects, and in few cases may allow a complete surgical excision of the tumor mass.
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8.
Diagnostic Performance and Prognostic Value of PET/CT with Different Tracers for Brain Tumors: A Systematic Review of Published Meta-Analyses.
Treglia, G, Muoio, B, Trevisi, G, Mattoli, MV, Albano, D, Bertagna, F, Giovanella, L
International journal of molecular sciences. 2019;(19)
Abstract
BACKGROUND Several meta-analyses reporting data on the diagnostic performance or prognostic value of positron emission tomography (PET) with different tracers in detecting brain tumors have been published so far. This review article was written to summarize the evidence-based data in these settings. METHODS We have performed a comprehensive literature search of meta-analyses published in the Cochrane library and PubMed/Medline databases (from inception through July 2019) about the diagnostic performance or prognostic value of PET with different tracers in patients with brain tumors. RESULTS We have summarized the results of 24 retrieved meta-analyses on the use of PET or PET/computed tomography (CT) with different tracers in brain tumors. The tracers included were: fluorine-18 fluorodeoxyglucose (18F-FDG), carbon-11 methionine (11C-methionine), fluorine-18 fluoroethyltyrosine (18F-FET), fluorine-18 dihydroxyphenylalanine (18F-FDOPA), fluorine-18 fluorothymidine (18F-FLT), and carbon-11 choline (11C-choline). Evidence-based data demonstrated good diagnostic performance of PET with different tracers in detecting brain tumors, in particular, radiolabelled amino acid tracers showed the highest diagnostic performance values. All the PET tracers evaluated had significant prognostic value in patients with glioma. CONCLUSIONS Evidence-based data showed a good diagnostic performance for some PET tracers in specific indications and significant prognostic value in brain tumors.
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9.
Secondary parkinsonism due to drugs, vascular lesions, tumors, trauma, and other insults.
Höllerhage, M
International review of neurobiology. 2019;:377-418
Abstract
In addition to neurodegenerative disorders, there are many secondary forms of parkinsonism. The most common cause for secondary parkinsonism is the intake of distinct drugs. Neuroleptics and calcium channel blockers have been mainly described to induce parkinsonism, but also other drugs were suspected to cause or worsen parkinsonism. Another common cause for secondary parkinsonism are vascular lesions (i.e. vascular parkinsonism). Furthermore, also brain tumors have been described as rare causes for parkinsonism. Moreover, parkinsonism can be caused by chronic traumatic encephalopathy, which is a special case, since secondary insults to the brain leads to the occurrence of a neuropathologically defined disease. Other rare causes for secondary parkinsonism are lesions caused by infectious or immunological diseases as well as toxins or street drugs.
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10.
The impact of fluorescein-guided technique in the surgical removal of CNS tumors in a pediatric population: results from a multicentric observational study.
de Laurentis, C, Höhne, J, Cavallo, C, Restelli, F, Falco, J, Broggi, M, Bosio, L, Vetrano, IG, Schiariti, M, Zattra, CM, et al
Journal of neurosurgical sciences. 2019;(6):679-687
Abstract
BACKGROUND Surgery has a fundamental role in central nervous system (CNS) tumors in the pediatric population, as aggressive resection correlates with prognosis. Due to its accumulation in areas with damaged blood brain barrier, sodium fluorescein (SF) could be a valid tool to improve the extent of resection in tumors enhancing at preoperative MRI. This study is aimed to systematically assess the utility of SF in a pediatric population. METHODS Patient data were collected in two centers, one in Italy and the other in Germany. At the induction of anesthesia, SF was administered intravenously (5 mg/kg). Surgery was performed using a YELLOW560 filter. Fluorescence intensity was graduated as bright, moderate or absent based on surgeon's opinion; furthermore, SF use was judged as "helpful," "not helpful" or "not essential" in tumor removal. RESULTS Twenty-four patients for 27 surgical procedures were identified. In 21 of 27 (77.8%) procedures fluorescence was reported as bright or moderate, in two of 27 (7.4%) absent and in four of 27 (14.8%) data were unavailable. Intraoperative fluorescence was reported in 21 of 25 (84%) surgeries whose corresponding preoperative MRI had shown contrast enhancement. In 14 of 27 (51.8%) surgical procedures SF was considered "helpful"; in two of 27 (7.4%) not "helpful"; in seven of 27 (25.9%) "not essential." In four of 27 (14.8%) data were unavailable. No adverse effect to SF was registered. CONCLUSIONS SF could be considered a valid and safe tool to improve visualization of tumors enhancing at preoperative MRI also in pediatric patients. Future prospective studies are needed to confirm these preliminary data.