Presence of glioma stroma mesenchymal stem cells in a murine orthotopic glioma model

Purpose

High-grade gliomas are closely related to the mesenchymal phenotype which might be explained by unorthodox differentiation of glioma cancer stem cells (gCSCs). We reasoned that other non-neural stem cells, especially mesenchymal stem cells (MSCs), might play a role in expresssing mesenchymal phenotype of high-grade gliomas. Thus we hypothesized that cells resembling MSCs exist in glioma specimens.

Methods

We created a mouse (m) orthotopic glioma model using human gCSCs. Single-cell suspensions were isolated from glioma specimens and cultured according to the methods for mMSCs or gliomaspheres. These cells were analyzed by fluorescence-activated cell sorting (FACS) for surface markers associated with mMSCs or gCSCs. Glioma stroma (GS)-MSCs were exposed to mesenchymal differentiation conditions. To decide the location of GS-MSCs, sections of orthotopic glioma models were analyzed by immunofluorescent labeling.

Results

GS-MSCs were isolated which were morphologically similar to mMSCs. FACS analysis showed that the GS-MSCs had similar surface markers to mMSCs (stem cell antigen-1 [Sca-1]⁺, CD9⁺, CD45^?, CD11b^?, CD31^?, and nerve/glial antigen 2 [NG2]^?). GS-MSCs were capable of mesenchymal differentiation. Immunofluorescent labeling indicated that GS-MSCs are located around blood vessels, are distinct from endothelial cells, and have features that partially overlap with vascular pericytes.

Conclusions

Our results indicate that cells similar to mMSCs exist in glioma specimens. The GS-MSCs might be located around vessels, which suggests that GS-MSCs may provide the mesenchymal elements of the vascular niche. GS-MSCs may represent non-neural stem cells that act as an important source of mesenchymal elements, particularly during the growth of gliomas.     

Changes in the biological characteristics of glioma cancer stem cells after serial in vivo subtransplantation

Purpose

Currently, the interaction between the niche and glioma cancer stem cells (gCSCs) is gaining attention. However, there are few studies concerned with the effects of repeated exposure to a new microenvironment on gCSCs characteristics. In this study, serial in vivo subtransplantation was performed to create a new microenvironment. We evaluated and compared the biological characteristics of gCSCs after serial in vivo subtransplantation.

Methods

We cultured gCSCs from human glioma specimens according to cultured gliomasphere methods. The isolated gCSCs were termed zero-generation gCSCs (G0-gCSCs). By subsequent serial subtransplantation, we obtained first-generation gCSCs (G1-gCSCs) and second-generation gCSCs (G2-gCSCs). We evaluated and compared the biological characteristics of G0-gCSCs, G1-gCSCs, and G2-gCSCs. The in vitro characteristics included the morphology, surface marker profiles, and neural differentiation capacity and the in vivo characteristics was the survival of mice xenografts. Additionally, brain sections were analyzed using PCNA, TUNEL, and CD31 staining.

Results

We observed no significant differences in the in vitro characteristics of G0-gCSCs, G1-gCSCs, and G2-gCSCs. However, the survival time of mice glioma xenografts was significantly decreased upon serial subtransplantation. In addition, immunohistochemical analyses showed that the number of TUNEL⁺ cells was significantly decreased while the number of CD31⁺ cells was significantly increased with serial in vivo subtransplantation.

Conclusions

There were significant in vivo biological changes in gCSCs upon serial in vivo subtransplantation, which were shorter xenograft survival, increased angiogenesis, and decreased apoptosis. This study suggests that the repeated exposure to new microenvironments may affect the biological changes in gCSCs in vivo.     

Histopathological spectrum of paediatric diffuse intrinsic pontine glioma: diagnostic and therapeutic implications

Diffuse intrinsic pontine glioma (DIPG) is the main cause of brain tumour-related death in children. In the majority of cases diagnosis is based on clinical and MRI findings, resulting in the scarcity of pre-treatment specimens available to study. Our group has developed an autopsy-based protocol to investigate the histologic and biologic spectrum of DIPG. This has also allowed us to investigate the terminal pattern of disease and gain a better understanding of what challenges we are facing in treating DIPG. Here, we review 72 DIPG cases with well documented clinical history and molecular data and describe the pathological features of this disease in relation to clinical and genetic features. Fifty-three of the samples were autopsy material (7 pre-treatment) and 19 were pre-treatment biopsy/surgical specimens. Upon histological review, 62 patients had high-grade astrocytomas (18 WHO grade III and 44 WHO grade IV patients), 8 had WHO grade II astrocytomas, and 2 had features of primitive neuroectodermal tumour (PNET). K27M-H3 mutations were exclusively found in tumours with WHO grade II–IV astrocytoma histology. K27M-H3.1 and ACVR1 mutations as well as ALT phenotype were only found in WHO grade III–IV astrocytomas, while PIK3CA mutations and PDGFRA gains/amplifications were found in WHO grade II–IV astrocytomas. Approximately 1/3 of DIPG patients had leptomeningeal spread of their tumour. Further, diffuse invasion of the brainstem, spinal cord and thalamus was common with some cases showing spread as distant as the frontal lobes. These findings suggest that focal radiation may be inadequate for some of these patients. Importantly, we show that clinically classic DIPGs represent a diverse histologic spectrum, including multiple cases which would fit WHO criteria of grade II astrocytoma which nevertheless behave clinically as high-grade astrocytomas and harbour the histone K27M-H3.3 mutation. This suggests that the current WHO astrocytoma grading scheme may not appropriately predict outcome for paediatric brainstem gliomas.     

Existence of glioma stroma mesenchymal stemlike cells in Korean glioma specimens

Purpose

It was presented that mesenchymal stem cells (MSCs) can be isolated from western glioma specimens. However, whether MSCs exist in glioma specimens of different ethnicities is unknown. To verify the existence of MSCs in an independent cohort, we undertook studies to isolate MSCs from a group of Korean patients. We hypothesized that cells resembling MSCs that were deemed mesenchymal stemlike cells (MSLCs) exist in an independent cohort of Korean gliomas.

Methods

We cultured fresh glioma specimens using the protocols used for culturing MSCs. The cultured cells were analyzed with fluorescence-activated cell sorting (FACS) for surface markers associated with MSCs. Cultured cells were exposed to mesenchymal differentiation conditions. To presume possible locations of MSLCs in the glioma, sections of glioma were analyzed by immunofluorescent labeling for CD105, CD31, and NG2.

Results

From nine of 31 glioma specimens, we isolated cells resembling MSCs, which were deemed Korean glioma stroma MSLCs (KGS-MSLCs). KGS-MSLCs were spindle shaped and adherent to plastic. KGS-MSLCs had similar surface markers to MSCs (CD105⁺, CD90⁺, CD73⁺, and CD45^?). KGS-MSLCs were capable of mesenchymal differentiation and might be located around endothelial cells, pericytes, and in a disorganized perivascular area inside glioma stroma.

Conclusions

We found that cells resembling MSCs indeed exist in an independent cohort of glioma patients, as presented in western populations. We could presume that the possible location of KGS-MSLCs was in perivascular area or in glioma stroma that was a disorganized vascular niche. It might be possible that KGS-MSLCs could be one of constituent of stroma of glioma microenvironment.     

Potential of MR spectroscopy for assessment of glioma grading

Background

Magnetic resonance spectroscopy (MRS) is an imaging diagnostic method based that allows non-invasive measurement of metabolites in tissues. There are a number of metabolites that can be identified by standard brain proton MRS but only a few of them has a clinical significance in diagnosis of gliomas including N-acetylaspartate, choline, creatine, myo-inositol, lactate, and lipids.

Methods

In this review, we describe potential of MRS for grading of gliomas.

Results

Low-grade gliomas are generally characterized by a relatively high concentration of N-acetylaspartate, low level of choline and absence of lactate and lipids. The increase in creatine concentration indicates low-grade gliomas with earlier progression and malignant transformation. Progression in grade of a glioma is reflected in the progressive decrease in the N-acetylaspartate and myo-inositol levels on the one hand and elevation in choline level up to grade III on the other. Malignant transformation of the glial tumors is also accompanied by the presence of lactate and lipids in MR spectra of grade III but mainly grade IV gliomas. It follows that MRS is a helpful method for detection of glioma regions with aggressive growth or upgrading due to favorable correlation of the choline and N-acetylaspartate levels with histopathological proliferation index Ki-67. Thus, magnetic resonance spectroscopy is also a suitable method for the targeting of brain biopsies.

Conclusions

Gliomas of each grade have some specific MRS features that can be used for improvement of the diagnostic value of conventional magnetic resonance imaging in non-invasive assessment of glioma grade.     

Feasibility, safety, and indications for surgical biopsy of intrinsic brainstem tumors in children

Purpose

Diffuse intrinsic pontine gliomas (DIPGs) are rapidly progressive and aggressive tumors that usually arise in children. Their anatomic location makes gross total surgical resection impossible, and fewer than 10 % of patients survive more than 2 years after diagnosis. Often, these lesions are treated based on imaging characteristics alone. However, despite aggressive chemotherapy and radiation treatments available, prognosis remains poor. There is therefore a need for new therapies directed by biologic profiling. This necessitates a tissue diagnosis and, therefore, surgical biopsy. We have reviewed the results of biopsy for DIPGs in children at a single institution and compared our results to those available in the literature to elucidate the utility of biopsy for DIPGs.

Methods

A historical cohort study was performed using medical records of patients under the age of 18 who underwent surgical biopsy of a DIPG at a single institution.

Results

Nine patients were included, four males and five females. Age at presentation ranged from 8 months to 10 years (average 5.7 years). Pathologic diagnoses included five high grade (WHO grade III or IV) gliomas and four low grade (WHO grade II) astrocytomas. There were no intraoperative complications, and only one patient developed a new postoperative neurologic deficit.

Conclusions

Stereotactic biopsy of DIPGs is essential to obtain a pathologic diagnosis and is associated with low morbidity. This technique is important to elucidate biological characteristics of these tumors in order to direct multidisciplinary treatment plans possibly involving chemotherapy, radiation therapy, or other future clinical trial interventions for children with DIPGs.     

Lentiviral-Induced High-Grade Gliomas in Rats: The Effects of PDGFB,HRAS-G12V,AKT, and IDH1-R132H

In human gliomas, the RTK/RAS/PI(3)K signaling pathway is nearly always altered. We present a model of experimental gliomagenesis that elucidates the contributions of genes involved in this pathway (PDGF-B ligand, HRAS-G12V, and AKT). We also examine the effect on gliomagenesis by the potential modifier gene, IDH1-R132H. Injections of lentiviral-encoded oncogenes induce de novo gliomas of varying penetrance, tumor progression, and histological grade depending on the specific oncogenes used. Our model mimics hallmark histological structures of high-grade glioma, such as pseudopalisades, glomeruloid microvascular proliferation, and diffuse tumor invasion. We use our model of gliomagenesis to test the efficacy of an experimental brain tumor gene therapy. Our model allowed us to test the contributions of oncogenes in the RTK/RAS/PI(3)K pathway, and their potential modification by over-expression of mutated IDH1, in glioma development and progression in rats. Our model constitutes a clinically relevant system to study gliomagenesis, the effects of modifier genes, and the efficacy of experimental therapeutics.

Electronic supplementary material

The online version of this article (doi:10.1007/s13311-014-0269-y) contains supplementary material, which is available to authorized users.Key Words: Gene therapy, HSV1-TK, adenoviral vectors, brain tumors     

TROP2 expression and its correlation with tumor proliferation and angiogenesis in human gliomas

Trophoblast cell surface antigen 2 (TROP2) is a transmembrane glycoprotein which is associated with tumor development and progression in a variety of epithelial carcinomas, while its expression and role in gliomas have not been considered. The aim of the study was to investigate TROP2 expression in malignant gliomas with different World Health Organization (WHO) classification and its correlation with tumor proliferation and angiogenesis. Immuohistochemistry was used to determine TROP2 and Ki-67 expression and microvessel density (MVD) in tumor specimens and normal brain tissues from 69 glioma patients and the relationship between TROP2 and Ki-67 and MVD was investigated. Immunohistochemistry results showed that the TROP2 expression was found in 59 (85.5 %) of the 69 tumor specimens, but no expression in normal brain tissues. Furthermore, TROP2 expression is significantly higher in WHO grade III (P = 0.025) and WHO grade IV (P = 0.011) gliomas than in WHO grade II gliomas. TROP2 expression correlates with Ki-67 (r = 0.676, P = 0.012) and MVD (r = 0.365, P = 0.035), but not with gender or age in human gliomas. These results suggested that the TROP2 correlated with malignancy, proliferation and angiogenesis in human gliomas. This is the first study describing TROP2 expression in gliomas and its proliferation and angiogenesis-related characteristic may serve as a potential therapeutic target for glioma treatment.     

Fractionated stereotactic radiotherapy using Novalis for confined intra-orbital optic nerve glioma in pediatric patient

Introduction

Optic gliomas are the most common tumors in the optic pathways during childhood. Among them, about 10 % are located within intra-orbital cavity. However, the optimal management for intra-orbital optic nerve gliomas remains controversial. An 11-year-old male complained about progressive decline of vision in his right eye. Brain MRI revealed a fusiform enlargement of right optic nerve within intra-orbital cavity.

Materials and methods

A presumptive diagnosis of optic nerve glioma was made. Therefore, we performed fractionated stereotactic radiotherapy (FSRT) using Novalis.

Discussion

Five years after FSRT treatment, follow-up MRI revealed size reduction of tumor and visual acuity improvement without radiation-related complications.     

IDH1/2 mutations in gliomas

The NADP+-dependent isocitrate dehydrogenases 1 and 2 (IDH1/2) catalyze the oxidative decarboxylation of isocitrate into α-ketoglutarate (α-KG). IDH1 and IDH2 mutations have been frequently found in some types of gliomas (low-grade diffuse gliomas WHO grade II, anaplastic gliomas WHO grade III, and secondary glioblastomas WHO grade IV), and have received significant attention because of their specificity to single codons. Since the unveiling of IDH1/2 mutations, many studies have investigated their clinical impact on gliomas. While the favorable influence of these mutations in high-grade gliomas has been well established, their prognostic impact on low-grade diffuse gliomas is much less clear. While the mechanism of IDH1/2 mutations in gliomagenesis remains to be clarified, its elucidation might lead to novel therapeutic strategies against gliomas.     

Finding the anaplastic focus in diffuse gliomas: the value of Gd-DTPA enhanced MRI, FET-PET, and intraoperative, ALA-derived tissue fluorescence

Objective

Diffuse gliomas may harbor anaplastic foci which affect prognosis and determine adjuvant therapies. Such foci are not always detected by contrast-enhancement on MRI. Recently, other modalities have been introduced, such as FET-PET for pre-diagnostic imaging and 5-aminolevulinic derived tumor fluorescence for intraoperative identification of malignant glioma tissue. The relationship between these modalities and their value for guiding biopsies during resection has not yet been elucidated in the group of diffuse gliomas.

Methods

FET-PET was performed in 30 consecutive patients with intracerebral lesions suggestive of diffuse gliomas on MRI with or without areas of contrast-enhancement. Prior to surgery patients were given 5-ALA at a dose of 20 mg/kg body weight. Areas of FET uptake with a lesion/brain ratio of 1.6 or more were considered indicators of tumor. FET-PET data were corregistered with MRI data before surgery in order to obtain neuronavigated biopsies during resection, which were collected from FET positive and negative areas, analyzed for tumor fluorescence and correlated to contrast-enhancement on MRI.

Results

13 of 30 tumors were diagnosed as gliomas WHO Grade II, 15 as gliomas WHO Grade III and 2 as gliomas WHO Grade IV. The mean lesion/brain tissue ratio of FET uptake was significantly greater for high-grade than for low-grade gliomas (averages SD 2.323 ± 0.754 vs. 1.453 ± 0.538 p = 0.0014). A match of FET-pos/ALA-pos biopsies was found in 70.6% (12/17) of high-grade gliomas (WHO Grade III/IV) but only in 7.7% (1/13) of low grade gliomas. Gd-neg/FET-neg/ALA-neg biopsies yielded a low-grade tumor in 46.2% (6/13). A mismatch between FET uptake and 5-ALA (FET-pos/ALA-neg) was found in 46.2% (6/13) of the low-grade and in 17.6% (3/17) of the high-grade tumors. The combination of FET-PET- and 5-ALA-positivity yielded a sensitivity for identifying high-grade glioma foci of 70.5% and a specificity of 92.3%.

Conclusions

In low grade gliomas 5-ALA fluorescence is the exception and FET PET is more sensitive. High grade areas in diffuse gliomas with anaplastic foci usually fluoresce, if they are FET PET positive. As a result, FET PET appears valuable for pre-operative identification of anaplastic foci and hot spots are strongly predictive for ALA-derived fluorescence, which highlight anaplastic foci during resection.     

Presence of pluripotent CD133+ cells correlates with malignancy of gliomas

BackgroundPresence of CD133⁺ cancer stem cells has been demonstrated within glioblastoma multiforme (GBM), the most malignant phenotype of gliomas (WHO grade IV). Since GBM frequently develops from low grade gliomas (WHO grade II) we assessed a possible qualitative or quantitative correlation of CD133⁺ cells and glioma grade to get new insights in gliomagenesis.ResultsThe amount of CD133⁺ cells within the bulk tumor mass, analyzed by immunostaining and Western blotting, showed a clear quantitative correlation with glioma grade (WHO° II, III and IV). Most of CD133⁺ cells were arranged in clusters frequently associated to tumor vessels. Protein analysis revealed high cellular coexpression of CD133 with Musashi-I but not CD34 indicating a neural, i.e. local origin of these cells. In vitro, no differences in stem cell properties concerning self-renewal and multi-lineage differentiation have been found for CD133⁺ cells isolated from gliomas of different grades.ConclusionsThese findings indicate a solely quantitative correlation of glioma grade with the presence of neural CD133⁺ cells within tumors supporting the concept of a CD133⁺ stem cell dependent gliomagenesis.     

Awake surgery for hemispheric low-grade gliomas: oncological,functional and methodological differences between pediatric and adult populations

Introduction

Brain mapping through a direct cortical and subcortical electrical stimulation during an awake craniotomy has gained an increasing popularity as a powerful tool to prevent neurological deficit while increasing extent of resection of hemispheric diffuse low-grade gliomas in adults. However, few case reports or very limited series of awake surgery in children are currently available in the literature.

Methods

In this paper, we review the oncological and functional differences between pediatric and adult populations, and the methodological specificities that may limit the use of awake mapping in pediatric low-grade glioma surgery.

Results

This could be explained by the fact that pediatric low-grade gliomas have a different epidemiology and biologic behavior in comparison to adults, with pilocytic astrocytomas (WHO grade I glioma) as the most frequent histotype, and with WHO grade II gliomas less prone to anaplastic transformation than their adult counterparts. In addition, aside from the issue of poor collaboration of younger children under 10 years of age, some anatomical and functional peculiarities of children developing brain (cortical and subcortical myelination, maturation of neural networks and of specialized cortical areas) can influence direct electrical stimulation methodology and sensitivity, limiting its use in children.

Conclusions

Therefore, even though awake procedure with cortical and axonal stimulation mapping can be adapted in a specific subgroup of children with a diffuse glioma from the age of 10 years, only few pediatric patients are nonetheless candidates for awake brain surgery.

     

The role of ventriculoperitoneal shunt placement in patients of tubercular meningitis with hydrocephalus in poor neurological grade: a prospective study in the pediatric population and review of literature

Purpose

There is still no standard protocol for management of patients of tubercular meningitis (TBM) with hydrocephalus in poor neurological grade. In general, a trial of external ventricular drain (EVD) is an accepted method of treatment to decide whether a particular patient will benefit from shunt surgery. However, recent studies suggest that ventriculoperitoneal (VP) shunt may be undertaken without the trial of an EVD. Our study prospectively evaluates the role of direct VP shunt placement in poor grade patients of TBM with hydrocephalus.

Methods

Twenty-six consecutive pediatric patients of TBM with hydrocephalus in Palur grades III and IV underwent direct VP shunt placement, without prior placement of EVD. Outcome was assessed at the end of 3 months using Glasgow Outcome Score.

Results

The mean age of patients was 3.3 years (range, 4 months to 11 years). Twenty-one (80.8 %) patients were in grade III and five (19.2 %) were in grade IV. Good outcome and mortality in grade IV patients was 20 % (1/5) and 60 % (3/5) respectively; whereas in grade III patients, it was 71.4 % (15/21) and 9.5 % (2/21), respectively. Thirteen patients presented with focal neurological deficit at admission, which persisted in only three patients at 3 months follow up. VP shunt-related complications were observed in six (23.5 %) patients

Conclusions

Despite poor grade at admission, 71.4 % patients in grade III and 20 % patients in grade IV had a good outcome at 3 months follow-up. Direct VP shunt placement is a safe and effective option even in poor grade patients of TBM with hydrocephalus, with a low complication rate.     

Methylation Status of the O6-Methylguanine-Deoxyribonucleic Acid Methyltransferase Gene Promoter in World Health Organization Grade III Gliomas

Objective

We analyzed the methylation status of the O6-methylguanine-DNA methyltransferase (MGMT) gene promoter in World Health Organization (WHO) grade III gliomas in association with other molecular markers to evaluate their prevalence.

Methods

The samples of a total of 36 newly WHO grade III glioma patients including 19 anaplastic oligodendrogliomas (AO), 7 anaplastic oligoastrocytomas (AOA), and 10 anaplastic astrocytomas (AA) were analyzed. The methylation status of the MGMT gene promoter was confirmed by methylation-specific polymerase chain reaction. The 1p/19q chromosomal deletion status and EGFR amplification were assessed by Fluorescence In-Situ Hybridization. MGMT, EGFR, EGFRvIII, and p53 expression were analyzed by immunohistochemical staining.

Results

The MGMT gene promoter was methylated in 32 (88.9%) and unmethylated in 4 (11.2%). Among them, all of the AO and AOA had methylated MGMT gene promoter without exception. Significant associations between MGMT gene promoter hypermethylation and 1p/19q deletion was observed (p = 0.003). Other molecular markers failed to show significant associations between MGMT gene promoter statuses.

Conclusion

There was extensive epigenetic silencing of MGMT gene in high grade gliomas with oligodendroglial component. Together with frequent 1p/19q co-deletion in oligodendroglial tumors, this may add plausible explanations supporting the relative favorable prognosis in oligodendroglial tumors compared with pure astrocytic tumors.     

An analysis of 170 glioma patients and systematic review to investigate the association between IDH-1 mutations and preoperative glioma-related epilepsy

Seizure is a common presenting symptom of glioma, and many biomarkers have been suggested to be associated with preoperative seizure; however, the relationships between IDH (isocitrate dehydrogenase) mutations and glioma-related epilepsy only recently been studied. The authors aimed to examine the correlations between IDH mutations in glioma patients with preoperative seizures and tumor location. A series of 170 glioma samples were analyzed for IDH1 R132H mutations (amino acid change from arginine to histidine at codon 132) with immunohistochemistry (IHC) staining and for IDH mutations with direct DNA sequencing when the IHC results were negative. If either the IHC or direct DNA sequencing result was positive, the IDH status was defined as mutated. The results of the IDH mutation examinations were used to analyze the relationship between mutations and glioma-related epilepsy. The study population consisted of 64 (37.6%) World Health Organization (WHO) grade II gliomas, 58 (34.1%) grade III, and 48 (28.3%) grade IV gliomas. A total of 84 samples with IDH1 mutations were observed in our study, and 54 of these presented with seizures as the initial symptoms, whereas 28 of the patients with wild-type IDH status presented with seizures (p = 0.043 for the WHO grade II gliomas, p = 0.002 for the grade III gliomas and p = 0.942 for the grade IV gliomas, chi-squared tests). Among the WHO grade II and III gliomas, IDH1 mutations were significantly associated with preoperative seizures, but no significant relationship between IDH mutations and preoperative seizures was found with glioblastoma multiforme.     

Initial bradykinin triggers calcium-induced calcium release in C6 glioma cells and its significance

Objective

To investigate the underlying mechanism for the selective modulation of the permeability of blood-tumor barrier (BTB) by small dose of bradykinin (BK).

Methods

C6 glioma cells were treated with BK, and changes of intracellular nitric oxide (NO) and intracellular calcium level were measured with fluorescent spectrophotometer.

Results

The initial application of BK easily triggered extracellular calcium influx, which resulted in intracellular calcium store release in C6 glioma cells. The above mechanism was also named ryanodine mediated calcium induced calcium release (CICR). We also detected a long-lasting intracellular NO elevation in C6 glioma cells upon BK treatment. Further study showed that ryanodine mediated CICR contributed greatly to the secondary NO elevation induced by BK treatment.

Conclusion

These results suggested that BK triggered CICR in C6 glioma cells and the associated NO generation might be the underlying mechanism for the selective modulation of BTB permeability by BK.     

Harvey Cushing��s early experience with pediatric gliomas

Purpose

Diagnosing and operating pediatric patients with intracranial lesions posed a greater diagnostic challenge for physicians during the early twentieth century. At the time, an intracranial neoplasm was indistinctively diagnosed as a glioma, encompassing a broad category of brain tumor pathologies. The treatment and surgical interventions followed for children diagnosed with gliomas is not well-described in the literature from this time.

Methods

Following IRB approval, and through the courtesy of the Alan Mason Chesney Archives, we reviewed the Johns Hopkins Hospital surgical files from 1896?C1912. Patients 18?years or younger, who underwent surgical intervention by Cushing for suspected intracranial tumors, were selected.

Results

Of the eight pediatric cases diagnosed with gliomas by Cushing, four cases were later diagnosed as medulloblastomas by Dr. Cushing in 1925. Of the remaining four pediatric cases, one was diagnosed as a brainstem glioma and another as a ventricular glioma. We describe the remaining two cases.

Conclusion

These examples illustrate Cushing??s approach to treating brain tumors diagnosed as gliomas in pediatric patients, focusing on an initial decompression and followed by a thorough surgical exploration for tumor. Furthermore, these cases demonstrate Cushing??s early attempts to manage such lesions in children and highlight the challenges faced in diagnosing and localizing intracranial lesions within this group of patients.