Your search keyword '"Brain tumors"' showing total 53,015 results

1. Medical Micro Molders Are Little Big Shots: Evolving customer expectations are driving demand for micromolded medical components that are functional and provide added value

Author

Barbella, Michael

Subjects

Gliomas, Brain tumors, Science and technology

Abstract

Hannah Simpson usually favors certain words in her cancer recovery discussions. The most prized figures of speech include 'miracle,' 'God,' 'blessed,' and 'divine Providence.' It's not surprising that Simpson uses [...]

Published

2024

2. Automated evaluation and parameter estimation of brain tumor using deep learning techniques.

Author

Vijayakumari, B., Kiruthiga, N., and Bushkala, C. P.

Subjects

*BRAIN tumors, *CANCER diagnosis, *IMAGE analysis, *TUMOR classification, *MAGNETIC resonance imaging

Abstract

The identification and region extraction of brain tumors is an essential aspect of clinical image analysis and the diagnosis of brain-related illnesses. The precise and accurate identification of tumors from MRI images is particularly significant in the effective formulating of treatments such as surgery, radiation therapy, and drug therapy. The challenge of segmentation stems from the variability in the size, location, and appearance of tumors, making it a complex task. Various segmentation and classification techniques have been created and designed for brain tumor diagnosis; however, these traditional techniques are time-consuming and subjective and require expertise in image processing. In recent times, deep learning-based approaches have shown promising results in brain tumor segmentation. This research aims to develop a brain tumor segmentation and classification model that enables medical professionals to locate and measure tumors accurately and develop effective treatment and rehabilitation strategies. The process involves segmenting the tumor and further classifying it into its two major types. The parameter estimation from the segmented output provides an insight that is pivotal in the evaluation of MRI brain tumors. With further research and development, deep learning-based segmentation and classification could become an important tool for accurate detection and evaluation of brain tumors. The development of deep learning-based segmentation and classification methods can greatly benefit the medical community, and according to the finding from the experiment, it is shown that the proposed framework excels in brain tumor segmentation and classification with an accuracy of 99.3%. [ABSTRACT FROM AUTHOR]

Published

2024

3. Prophylactic cranial irradiation in patients with resected small‐cell lung cancer: A systematic review and meta‐analysis.

Author

Peng, Haoning, Hao, Jianqi, Dong, Bo, Chen, Minqi, Li, Zongyuan, Chen, Cong, and Liu, Lunxu

Subjects

*MEDICAL information storage & retrieval systems, *RADIOTHERAPY, *RESEARCH funding, *TREATMENT effectiveness, *META-analysis, *DESCRIPTIVE statistics, *METASTASIS, *SYSTEMATIC reviews, *MEDLINE, *LUNG tumors, *ONLINE information services, *CONFIDENCE intervals, *SURVIVAL analysis (Biometry), *BRAIN tumors, *OVERALL survival, *EVALUATION

Abstract

Prophylactic cranial irradiation (PCI) was recommended for limited‐stage small‐cell lung cancer (SCLC) patients with complete or partial response to primary chemoradiotherapy. But it is still controversial regarding its role in SCLC patients who have had radical resection. This meta‐analysis aims to evaluate the efficacy of PCI in resected SCLC patients. We searched PubMed, EMBASE, Web of Science, CENTRAl, and ClinicalTrials for controlled trials and cohort studies regarding PCI in postoperative SCLC patients. The correlation between PCI and post‐operative outcomes in SCLC patients, including survival and brain metastasis rate (BMR), was examined using hazard ratios (HRs) and risk ratios with corresponding 95% confidence intervals. Quality of studies was assessed by the Newcastle–Ottawa Scale (NOS), and publication bias was assessed by Begg's test. Meta‐analysis of eight studies with 2688 patients in total showed PCI was associated with improved overall survival (OS) for resected SCLC (HR: 0.65, 95% CI: 0.57–0.75, p < 0.01). In addition, subgroup analysis on three studies including 923 patients confirmed the protective role of postoperative PCI in N0 SCLC patients (HR: 0.79, 95% CI: 0.61–0.97, p < 0.05). There was also a significant reduction in BMR in the PCI group pooled from six studies (HR: 0.58, 95% CI: 0.40–0.85, p < 0.01). The use of PCI delayed brain recurrence and improved OS in patients with resected, stage I‐III SCLC. Importantly, patients with N0 SCLC can also benefit from postoperative PCI. In future studies, PCI's role in patients with resected N0 SCLC at different T stage may need to be explored. [ABSTRACT FROM AUTHOR]

Published

2024

4. Tumor-Specific Alterations in Motor Cortex Excitability and Tractography of the Corticospinal Tract--A Navigated Transcranial Magnetic Stimulation Study.

Author

Eibl, Thomas, Schrey, Michael, Liebert, Adrian, Ritter, Leonard, Lange, Rüdiger, Steiner, Hans-Herbert, and Schebesch, Karl-Michael

Subjects

*TRANSCRANIAL magnetic stimulation, *BRAIN tumors, *MOTOR cortex, *PYRAMIDAL tract, CENTRAL nervous system tumors

Abstract

Background: Non-invasive brain mapping using navigated transcranial magnetic stimulation (nTMS) is a valuable tool prior to resection of malignant brain tumors. With nTMS motor mapping, it is additionally possible to analyze the function of the motor system and to evaluate tumor-induced neuroplasticity. Distinct changes in motor cortex excitability induced by certain malignant brain tumors are a focal point of research. Methods: A retrospective single-center study was conducted involving patients with malignant brain tumors. Clinical data, resting motor threshold (rMT), and nTMS-based tractography were evaluated. The interhemispheric rMT-ratio (rMTTumor/rMTControl) was calculated for each extremity and considered pathological if it was >110% or <90%. Distances between the corticospinal tract and the tumor (lesion-to-tract-distance -- LTD) were measured. Results: 49 patients were evaluated. 16 patients (32.7%) had a preoperative motor deficit. The cohort comprised 22 glioblastomas (44.9%), 5 gliomas of Classification of Tumors of the Central Nervous System (CNS WHO) grade 3 (10.2%), 6 gliomas of CNS WHO grade 2 (12.2%) and 16 cerebral metastases (32.7%). 26 (53.1%) had a pathological rMT-ratio for the upper extremity and 35 (71.4%) for the lower extremity. All patients with tumor-induced motor deficits had pathological interhemispheric rMT-ratios, and presence of tumor-induced motor deficits was associated with infiltration of the tumor to the nTMS-positive cortex (p = 0.04) and shorter LTDs (all p<0.021). Pathological interhemispheric rMT-ratio for the upper extremity was associated with cerebral metastases, but not with gliomas (p = 0.002). Conclusions: Our study underlines the diagnostic potential of nTMS motor mapping to go beyond surgical risk stratification. Pathological alterations in motor cortex excitability can be measured with nTMS mapping. Pathological cortical excitability was more frequent in cerebral metastases than in gliomas. [ABSTRACT FROM AUTHOR]

Published

2024

5. An Overview of MR-Guided Laser Interstitial Thermal Therapy (MRg-LITT) in Disrupting the Blood-Brain Barrier: Efficacy and Duration.

Author

Bakrbaldawi, Ahmed Abdulsalam Ali, Zhoule Zhu, Zhe Zheng, Junming Zhu, and Hongjie Jiang

Subjects

*BLOOD-brain barrier, *POISONS, *HEMATOMA, *HOMEOSTASIS, *PERMEABILITY, *BRAIN tumors

Abstract

The blood-brain barrier (BBB) is a selectively semi-permeable layer, crucial in shielding the brain from external pathogens and toxic substances while maintaining ionic homeostasis and sufficient nutrient supply. However, it poses a significant challenge for drugs to penetrate the BBB in order to effectively target brain tumors. Magnetic resonance-guided laser interstitial thermal therapy (MRg-LITT) is a minimally invasive technique that employs thermal energy to cauterize intracranial lesions with the potential to temporarily disrupt the BBB. This further opens a possible therapeutic window to enhance patient outcomes. Here, we review the impact of MRg-LITT on BBB and blood tumor barrier (BTB) and the duration of the BBB disruption. Studies have shown that MRg-LITT is effective due to its minimally invasive nature, precise tumor targeting, and low complication rates. Although the disruption duration varies across studies, the average peak disruption is within the initial two weeks post-ablation period and subsequently exhibits a gradual decline. However, further research involving larger groups with extended follow-up periods is required to determine disruption duration more accurately. In addition, evaluating toxicity and glymphatic system disruption is crucial to circumvent potential risks associated with this procedure. [ABSTRACT FROM AUTHOR]

Published

2024

6. Machine learning model reveals the role of angiogenesis and EMT genes in glioma patient prognosis and immunotherapy.

Author

Feng, Suyin, Zhu, Long, Qin, Yan, Kou, Kun, Liu, Yongtai, Zhang, Guangmin, Wang, Ziheng, Lu, Hua, and Sun, Runfeng

Subjects

*RANDOM forest algorithms, *EPITHELIAL-mesenchymal transition, *BRAIN tumors, *GLIOMAS, *PROGNOSIS

Abstract

Gliomas represent a highly aggressive class of tumors located in the brain. Despite the availability of multiple treatment modalities, the prognosis for patients diagnosed with glioma remains unfavorable. Therefore, further exploration of new biomarkers is crucial to enhance the prognostic assessment of glioma and to investigate more effective treatment options. In this research, we utilized multiple machine learning techniques to assess the significance of genes related to angiogenesis and epithelial-mesenchymal transition (EMT) in the context of prognosis and treatment for glioma patients. The random forest algorithm highlighted the significance of CALU, and further analysis indicated that the effect of CALU on glioma progression may be regulated by MYC. Different machine learning approaches were employed in our investigation to uncover crucial genes associated with angiogenesis and EMT in glioma. Our findings verify the connection between these genes and the prognosis of patients with glioma, as well as the results of immunotherapeutic interventions. Notably, through experimental verification, we identified CALU as a new prognostic marker for glioma, and inhibiting the expression of CALU can impede the progression of glioma. [ABSTRACT FROM AUTHOR]

Published

2024

7. A primary intracranial neuroepithelial neoplasm with novel TCF3::BEND2 fusion: a case report.

Author

Zheng, Linmao, Luo, Tao, Xian, Jie, Zhang, Mengxin, Pan, Xiuyi, Wang, Xiang, Yue, Qiang, Zhou, Qiao, and Chen, Ni

Subjects

*REVERSE transcriptase polymerase chain reaction, *INTRACRANIAL tumors, *BRAIN tumors, *MAGNETIC resonance imaging, *DNA methylation

Abstract

Astroblastoma, MN1-altered, is a rare circumscribed glial neoplasm that is composed of round, cuboidal, orcolumnar cells with astroblastic perivascular pseudorosettes, often associated with MN1::BEND2 and MN1::CXXC5 fusions. Atroblastoma-like gliomas harbouring EWSR1::BEND2 have been reported that they defined an epigenetically distinct subtype of astroblastoma. We report a case of a 19-year-old female with an intracranial neuroepithelial tumor featuring a novel TCF3::BEND2 fusion. This tumor, while classified as EWSR1::BEND2 gliomas based on DNA methylation, did not exhibit the MN1 alteration or typical astroblastoma morphology. The patient, initially diagnosed as ependymoma WHO grade 2 following surgery for an intracranial tumor four years prior, presented with a suspected recurrence. Magnetic resonance imaging identified a mixed solid-cystic lesion in the temporal area of the left lateral ventricle. For the recurrent tumor, the histological examination revealed the tumor cells predominantly exhibited a solid arrangement, with the solid areas primarily consisting of oval and short-spindle cells. In certain regions, loosely arranged short-spindle cells was observed. The tumor exhibited high cellular density, nuclear atypia, and frequent mitoses, but lacked the hallmark features typically associated with astroblastoma. Immunohistochemistry revealed patchy positivity for GFAP and OLIG2, diffuse positivity for EMA, and a high MIB-1 labeling index. Genome-wide DNA methylation profiling confirmed the tumor's classification as EWSR1::BEND2 gliomas with a high-confidence match and revealed focal deletion of chromosome 9q. Targeted next-generation sequencing identified a TCF3::BEND2 fusion, validated by reverse transcription polymerase chain reaction and Sanger sequencing. This case broadens the genetic spectrum of high-grade neuroepithelial tumor and suggests that BEND2 alterations may serve as critical determinants for this EWSR1::BEND2 glioma subgroup within the methylation classifier. [ABSTRACT FROM AUTHOR]

Published

2024

8. Evaluating efficacy and safety of laser interstitial thermal therapy in patients with newly diagnosed and recurrent glioblastoma: a systematic review and meta-analysis.

Author

Rangwala, Hussain Sohail, Shafique, Muhammad Ashir, Mustafa, Muhammad Saqlain, Kumar, Ritesh, Devi, Janta, Rangwala, Burhanuddin Sohail, Ali, Syed Muhammad Sinaan, Raja, Adarsh, Iqbal, Javed, Ali, Mirha, and Haseeb, Abdul

Subjects

*SURVIVAL rate, *BLOOD-brain barrier, *DEATH rate, *DATA extraction, *TEMOZOLOMIDE, *BRAIN tumors

Abstract

Glioblastoma (GB), the most common malignant brain tumour, has a poor prognosis despite advances in treatment. Standard management involves surgery followed by chemoradiotherapy. MRI-guided laser interstitial thermal therapy (LITT) is a minimally invasive technique that may offer an option for select patients with specific clinical profiles. While preclinical studies suggest that LITT could disrupt the blood-brain barrier (BBB) to enhance drug delivery, this has yet to be definitively demonstrated in clinical settings. Adhering to the PRISMA guidelines, various databases were searched until March 2024. Eligible studies focused on LITT for supratentorial GB in adults and evaluated its safety and efficacy. Data extraction covered various study characteristics, and statistical analysis was performed using the OpenMeta Analyst software. Quality assessment was performed using the Newcastle-Ottawa Scale. Fifteen studies were analyzed, mainly employing the Neuroblate–Monteris system in the US, as retrospective single-centre trials. Treatment involved LITT in 239 patients with tumours typically in deep-seated areas. Median OS ranged from 4.9 to 32.3 months, and PFS from two to 5.9 months. Most patients received adjuvant therapy, primarily radiation and temozolomide. While LITT showed efficacy in improving OS (10.21, 95% CI 9.05–11.37), PFS (3.94, 95% CI 3.20–4.69), and tumor volume reduction (18.23, 95% CI 14.591–21.860), complications odd-ration(OR) = 0.336 (95% CI, 0.188–0.484) and mortality rates OR = 0.033 (95% CI, 0.009–0.058 were notable. LITT shows promise for treating both newly diagnosed and recurrent GB cases in non-surgical candidates, linked to improved OS, PFS, reduced tumor volume, and shorter hospital stays. However, higher complication and mortality rates were noted, emphasising the need for additional well-designed prospective multicentre trials. [ABSTRACT FROM AUTHOR]

Published

2024

9. Postoperative Karnofsky performance status prediction in patients with IDH wild-type glioblastoma: A multimodal approach integrating clinical and deep imaging features.

Author

Sasagasako, Tomoki, Ueda, Akihiko, Mineharu, Yohei, Mochizuki, Yusuke, Doi, Souichiro, Park, Silsu, Terada, Yukinori, Sano, Noritaka, Tanji, Masahiro, Arakawa, Yoshiki, and Okuno, Yasushi

Subjects

*KARNOFSKY Performance Status, *INDIVIDUALIZED medicine, *BRAIN tumors, *MAGNETIC resonance imaging, *PREDICTION models

Abstract

Background and purpose: Glioblastoma is a highly aggressive brain tumor with limited survival that poses challenges in predicting patient outcomes. The Karnofsky Performance Status (KPS) score is a valuable tool for assessing patient functionality and contributes to the stratification of patients with poor prognoses. This study aimed to develop a 6-month postoperative KPS prediction model by combining clinical data with deep learning-based image features from pre- and postoperative MRI scans, offering enhanced personalized care for glioblastoma patients. Materials and methods: Using 1,476 MRI datasets from the Brain Tumor Segmentation Challenge 2020 public database, we pretrained two variational autoencoders (VAEs). Imaging features from the latent spaces of the VAEs were used for KPS prediction. Neural network-based KPS prediction models were developed to predict scores below 70 at 6 months postoperatively. In this retrospective single-center analysis, we incorporated clinical parameters and pre- and postoperative MRI images from 150 newly diagnosed IDH wild-type glioblastoma, divided into training (100 patients) and test (50 patients) sets. In training set, the performance of these models was evaluated using the area under the curve (AUC), calculated through fivefold cross-validation repeated 10 times. The final evaluation of the developed models assessed in the test set. Results: Among the 150 patients, 61 had 6-month postoperative KPS scores below 70 and 89 scored 70 or higher. We developed three models: a clinical-based model, an MRI-based model, and a multimodal model that incorporated both clinical parameters and MRI features. In the training set, the mean AUC was 0.785±0.051 for the multimodal model, which was significantly higher than the AUCs of the clinical-based model (0.716±0.059, P = 0.038) using only clinical parameters and the MRI-based model (0.651±0.028, P<0.001) using only MRI features. In the test set, the multimodal model achieved an AUC of 0.810, outperforming the clinical-based (0.670) and MRI-based (0.650) models. Conclusion: The integration of MRI features extracted from VAEs with clinical parameters in the multimodal model substantially enhanced KPS prediction performance. This approach has the potential to improve prognostic prediction, paving the way for more personalized and effective treatments for patients with glioblastoma. [ABSTRACT FROM AUTHOR]

Published

2024

10. T lymphocyte recruitment to melanoma brain tumors depends on distinct venous vessels.

Author

Messmer, Julia M., Thommek, Calvin, Piechutta, Manuel, Venkataramani, Varun, Wehner, Rebekka, Westphal, Dana, Schubert, Marc, Mayer, Chanté D., Effern, Maike, Berghoff, Anna S., Hinze, Daniel, Helfrich, Iris, Schadendorf, Dirk, Wick, Wolfgang, Hölzel, Michael, Karreman, Matthia A., and Winkler, Frank

Subjects

*IMMUNE checkpoint inhibitors, *T cells, *BRAIN tumors, *INTRACRANIAL tumors, *BRAIN metastasis

Abstract

To improve immunotherapy for brain tumors, it is important to determine the principal intracranial site of T cell recruitment from the bloodstream and their intracranial route to brain tumors. Using intravital microscopy in mouse models of intracranial melanoma, we discovered that circulating T cells preferably adhered and extravasated at a distinct type of venous blood vessel in the tumor vicinity, peritumoral venous vessels (PVVs). Other vascular structures were excluded as alternative T cell routes to intracranial melanomas. Anti-PD-1/CTLA-4 immune checkpoint inhibitors increased intracranial T cell motility, facilitating migration from PVVs to the tumor and subsequently inhibiting intracranial tumor growth. The endothelial adhesion molecule ICAM-1 was particularly expressed on PVVs, and, in samples of human brain metastases, ICAM-1 positivity of PVV-like vessels correlated with intratumoral T cell infiltration. These findings uncover a distinct mechanism by which the immune system can access and control brain tumors and potentially influence other brain pathologies. [Display omitted] • PVVs are key structures for T cell recruitment to melanoma brain tumors • Anti-PD-1/CTLA-4 inhibitors boost T cell recruitment through PVVs • T cell recruitment and antitumor immunity is dependent on ICAM-1 expression on PVVs • ICAM-1 on PVVs correlates with T cell infiltration in human melanoma brain metastases How T cells are recruited to brain tumors from the blood remains unclear. Messmer et al. identify peritumoral venous vessels (PVVs) as key structures for T cell recruitment to melanoma brain tumors. PVVs are the sites of T cell extravasation and facilitated rapid T cell migration under immune checkpoint inhibition. T cell recruitment and antitumor immunity were dependent on ICAM-1. [ABSTRACT FROM AUTHOR]

Published

2024

11. Contemporary strategies in glioblastoma therapy: Recent developments and innovations.

Author

Khan, Mariya, Nasim, Modassir, Feizy, Mohammadamin, Parveen, Rabea, Gull, Azka, Khan, Saba, and Ali, Javed

Subjects

*DRUG patents, *BRAIN tumors, *GLIOBLASTOMA multiforme, *THERAPEUTICS, *DRUG delivery systems, *STEM cells

Abstract

[Display omitted] • Comprehensive analysis of novel treatment modalities for Glioblastoma (GBM). • Role of nanocarriers in addressing limitations with conventional GBM therapeutics. • Updates of clinical landscape of novel GBM therapeutics. • Limitations with novel nanoparticles approach in GBM therapeutics. Glioblastoma multiforme (GBM) represents one of the most prevailing and aggressive primary brain tumors among adults. Despite advances in therapeutic approaches, the complex microenvironment of GBM poses significant challenges in its optimal therapy, which are attributed to immune evasion, tumor repopulation by stem cells, and limited drug penetration across the blood–brain barrier (BBB). Nanotechnology has emerged as a promising avenue for GBM treatment, offering biosafety, sustained drug release, enhanced solubility, and improved BBB penetrability. In this review, a comprehensive overview of recent advancements in nanocarrier-based drug delivery systems for GBM therapy is emphasized. The conventional and novel treatment modalities for GBM and the potential of nanocarriers to overcome existing limitations are comprehensively covered. Furthermore, the updates in the clinical landscape of GBM therapeutics are presented in addition to the current status of drugs and patents in the same context. Through a critical evaluation of existing literature, the therapeutic prospect and limitations of nanocarrier-based drug delivery strategies are highlighted offering insights into future research directions and clinical translation. [ABSTRACT FROM AUTHOR]

Published

2024

12. YOLOv7 for brain tumour detection using morphological transfer learning model.

Author

Pandey, Sanat Kumar and Bhandari, Ashish Kumar

Subjects

*BRAIN tumors, *MAGNETIC resonance imaging, *ARTIFICIAL intelligence, *DEEP learning, *COMPUTER-aided design

Abstract

An accurate diagnosis of a brain tumour in its early stages is required to improve the possibility of survival for cancer patients. Due to the structural complexity of the brain, it has become very difficult and tedious for neurologists and radiologists to diagnose brain tumours in the initial stages with the help of various common manual approaches to tumour diagnosis. To improve the performance of the diagnosis, some computer-aided diagnosis-based systems are developed with the concepts of artificial intelligence. In this proposed manuscript, we analyse various computer-aided design (CAD)-based approaches and design a modern approach with ideas of transfer learning over deep learning on magnetic resonance imaging (MRI). In this study, we apply a transfer learning approach with the object detection model YOLO (You Only Look Once) and analyse the MRI dataset with the various modified versions of YOLO. After the analysis, we propose an object detection model based on the modified YOLOv7 with a morphological filtering approach to reach an efficient and accurate diagnosis. To enhance the performance accuracy of this suggested model, we also analyse the various versions of YOLOv7 models and find that the proposed model having the YOLOv7-E6E object detection technique gives the optimum value of performance indicators as precision, recall, F1, and mAP@50 as 1, 0.92, 0.958333, and 0.974, respectively. The value of mAP@50 improves to 0.992 by introducing a morphological filtering approach before the object detection technique. During the complete analysis of the suggested model, we use the BraTS 2021 dataset. The BraTS 2021 dataset has brain MR images from the RSNA-MICCAI brain tumour radiogenetic competition, and the complete dataset is labelled using the online tool MakeSense AI. [ABSTRACT FROM AUTHOR]

Published

2024

13. Conditional image-to-image translation generative adversarial network (cGAN) for fabric defect data augmentation.

Author

Mohammed, Swash Sami and Clarke, Hülya Gökalp

Subjects

*GENERATIVE adversarial networks, *DATA augmentation, *ARTIFICIAL intelligence, *LUNG tumors, *BRAIN tumors, *LUNGS

Abstract

The availability of comprehensive datasets is a crucial challenge for developing artificial intelligence (AI) models in various applications and fields. The lack of large and diverse public fabric defect datasets forms a major obstacle to properly and accurately developing and training AI models for detecting and classifying fabric defects in real-life applications. Models trained on limited datasets struggle to identify underrepresented defects, reducing their practicality. To address these issues, this study suggests using a conditional generative adversarial network (cGAN) for fabric defect data augmentation. The proposed image-to-image translator GAN features a conditional U-Net generator and a 6-layered PatchGAN discriminator. The conditional U-Network (U-Net) generator can produce highly realistic synthetic defective samples and offers the ability to control various characteristics of the generated samples by taking two input images: a segmented defect mask and a clean fabric image. The segmented defect mask provides information about various aspects of the defects to be added to the clean fabric sample, including their type, shape, size, and location. By augmenting the training dataset with diverse and realistic synthetic samples, the AI models can learn to identify a broader range of defects more accurately. This technique helps overcome the limitations of small or unvaried datasets, leading to improved defect detection accuracy and generalizability. Moreover, this proposed augmentation method can find applications in other challenging fields, such as generating synthetic samples for medical imaging datasets related to brain and lung tumors. [ABSTRACT FROM AUTHOR]

Published

2024

14. Segmentation and Isolation of Brain Tumors Using Different Images Segmentation Methods.

Author

Hussain, Ahlam A., Mahal, Sarmad. H., and Ismael, Ban S.

Subjects

BRAIN tumors, CANCER diagnosis, K-means clustering, IMAGE processing, MAGNETIC resonance imaging, THRESHOLDING algorithms

Abstract

Copyright of Baghdad Science Journal is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

15. Sexual life in adults treated for brain tumors: a retrospective study.

Author

Leonetti, Antonella, Puglisi, Guglielmo, Rossi, Marco, Viganò, Luca, Conti Nibali, Marco, Gay, Lorenzo, Sciortino, Tommaso, Fornia, Luca, Cerri, Gabriella, and Bello, Lorenzo

Subjects

PATIENTS, SEXUAL excitement, MEDICAL personnel, PSYCHOLOGICAL distress, LUST, BRAIN tumors

Abstract

Objective: Sexual functioning is a multifaceted aspect of human life that can be profoundly affected in patients with glioma. Most frequent symptoms include reduced sexual desire, difficulties in sexual arousal, or low satisfaction. Such symptoms may cause distress or interpersonal difficulties, inevitably resulting in negative outcomes on different domains of patients' quality of life. Despite this, sexuality is rarely addressed by medical staff and remains understudied. An important question still unanswered is whether sexual dysfunctions in glioma patients correlate with features of the tumor itself, with its treatment, or with the secondary effects of the tumor on the patient's psychological status. To answer this question, the present study aims to investigate the incidence of sexual life impairments in a very large population of patients with low- and high-grade gliomas, focusing on demographic, clinical, and treatment factors associated with their occurrence and developments. Methods: A total of 148 patients treated for glioma were evaluated for sexual functioning, i.e., sexual dysfunction (SD), relationship status (RS), intercourse frequency (IF), and sexual satisfaction (SS), by using a specific anonymous questionnaire. Descriptive statistics were utilized to investigate participant characteristics and to evaluate the occurrence of sexual problems. Chi-squared tests were performed to detect the association between "SS" or "IF" and different clinical/demographic factors as well as between "SS" or "IF" and the "subjective–personal skills judgment". Results: Results showed no difference between male and female patients, a very low frequency (1.4%) of SD, but a consistent percentage (25%) of subjective deterioration in sexual wellbeing. Notably, 24% of patients reported to have interrupted their relationship after the diagnosis. Chi-squared analyses reveal an association between adjuvant treatments (chemotherapy and radiotherapy) and reduction of IF. Interestingly, "SS" or "IF" was not associated with demographic, clinical, or histomolecular factors. Conclusion: Our study showed that sexual problems in glioma patients are not uncommon, and they are especially linked to SS, RS, and IF. Specifically, intercourse frequency reduction is associated with the adjuvant treatments. Results highlight the need for improved assessment strategies and interventions tailored to the unique needs of brain tumor patients. [ABSTRACT FROM AUTHOR]

Published

2024

16. Preoperative subjective impairments in language and memory in brain tumor patients.

Author

Rybka, Lena, Jonkers, Roel, Burzlaff, Milena, Rosenstock, Tizian, Vajkoczy, Peter, Picht, Thomas, Faust, Katharina, and Rofes, Adrià

Subjects

MEMORY disorders, BRAIN tumors, TUMOR grading, SEMI-structured interviews, QUALITY of life

Abstract

Background: Subjective reports can reveal relevant information regarding the nature of the impairment of brain tumor patients, unveiling potential gaps in current assessment practices. The co-occurrence of language and memory impairments has been previously reported, albeit scarcely. The aim of this study is therefore to understand the co-occurrence of subjective language and memory complaints in the preoperative state of brain tumor patients and its impact on Quality of Life (QoL). Methods: 31 brain tumor patients (12 LGG, 19 HGG) underwent a semi-structured interview to assess subjective complaints of language deficits, co-occurrences between language and memory dysfunction, and changes in QoL. Group and subgroup analyses were conducted to provide general and tumor grade specific data. Results: 48.4% of patients mentioned co-occurrence of language and memory impairments in reading, writing, and conversation. The HGG group reported co-occurrences in all three of these (reading: 31.6%; writing: 21.1%; conversation: 26.3%), while the LGG only described co-occurrences in reading (25%) and conversation (8.3%), although these were not statistically significant. All patients with co-occurring language and memory deficits reported these to be linked to reduced QoL (48.4%). In patients with an HGG, this number was slightly higher (52.6%) than in patients with an LGG (41.7%). Conclusion: Language impairments co-occur with memory dysfunction as perceived in patients' daily life. Patients see these impairments as affecting their quality of life. Further attention to dedicated language and memory tasks seems necessary. [ABSTRACT FROM AUTHOR]

Published

2024

17. Bibliometric and visualization analysis in the field of epigenetics and glioma (2009–2024).

Author

Zeng, Yijun, Tao, Ge, Zeng, Yong, He, Jihong, Cao, Hui, and Zhang, Lushun

Subjects

CENTRAL nervous system tumors, BRAIN tumors, BIBLIOMETRICS, DNA methylation, DNA repair

Abstract

Introduction: Glioma represents the most prevalent primary malignant tumor in the central nervous system, a deeper understanding of the underlying molecular mechanisms driving glioma is imperative for guiding future treatment strategies. Emerging evidence has implicated a close relationship between glioma development and epigenetic regulation. However, there remains a significant lack of comprehensive summaries in this domain. This study aims to analyze epigenetic publications pertaining to gliomas from 2009 to 2024 using bibliometric methods, consolidate the extant research, and delineate future prospects for investigation in this critical area. Methods: For the purpose of this study, publications spanning the years 2009 to 2024 were extracted from the esteemed Web of Science Core Collection (WoSCC) database. Utilizing advanced visualization tools such as CiteSpace and VOSviewer, comprehensive data pertaining to various aspects including countries, authors, author co-citations, countries/regions, institutions, journals, cited literature, and keywords were systematically visualized and analyzed. Results: A thorough analysis was conducted on a comprehensive dataset consisting of 858 publications, which unveiled a discernible trend of steady annual growth in research output within this specific field. The nations of the United States, China, and Germany emerged as the foremost contributors to this research domain. It is noteworthy that von Deimling A and the Helmholtz Association were distinguished as prominent authors and institutions, respectively, in this corpus of literature. A rigorous keyword search and subsequent co-occurrence analysis were executed, ultimately leading to the identification of seven distinct clusters: "epigenetic regulation", "DNA repair", "DNA methylation", "brain tumors", "diffuse midline glioma (DMG)", "U-87 MG" and "epigenomics". Furthermore, an intricate cluster analysis revealed that the primary foci of research within this field were centered around the exploration of glioma pathogenesis and the development of corresponding treatment strategies. Conclusion: This article underscores the prevailing trends and hotspots in glioma epigenetics, offering invaluable insights that can guide future research endeavors. The investigation of epigenetic mechanisms primarily centers on DNA modification, non-coding RNAs (ncRNAs), and histone modification. Furthermore, the pursuit of overcoming temozolomide (TMZ) resistance and the exploration of diverse emerging therapeutic strategies have emerged as pivotal avenues for future research within the field of glioma epigenetics. [ABSTRACT FROM AUTHOR]

Published

2024

18. Segmentation and classification of brain tumor using Taylor fire hawk optimization enabled deep learning approach.

Author

Rout, Ajit Kumar, D, Sumathi, S, Nandakumar, and Ponnada, Sreenu

Subjects

*TUMOR classification, *ADAPTIVE filters, *BRAIN tumors, *DEEP learning, *METASTASIS

Abstract

\nPlain Language SummaryThe brain is a crucial organ that controls the body’s neural system. The tumor develops and spreads across the brain as a result of irregular cell generation. The provision of substantial treatment to patients requires the early diagnosis of malignancies. However, timely diagnosis and accurate classification were difficult in the conventional models. Thus, the Taylor Fire Hawk optimization (TFHO) is implemented here for effective segmentation and classification. The TFHO is the merging of the Taylor series and Fire Hawk Optimizer (FHO). The de-noising is accomplished by the adaptive median filter, and the segmentation is carried out using M-Net, which has been trained by TFHO. Subsequently, image augmentation is performed to increase the image dimension, followed by the extraction of effective features. Finally, DenseNet is used for the classification, and the training is done by TFHO. The introduced method obtained 94.86% accuracy, 92.83% Negative Predictive Values, 89.33% Positive Predictive Values (PPV), 95.91% True Positive Rate (TPR), 4.37% False Negative Rate (FNR), and 90.98% F1-score.In this research, the TFHO-DenseNet is developed for the timely diagnosis and accurate classification of brain tumor. This is utilized for the early tumor’s detection, which is essential to provide significant treatment to patients and enhance the survival rate. [ABSTRACT FROM AUTHOR]

Published

2024

19. Advances in CAR-T therapy for central nervous system tumors.

Author

Zhou, Delian, Zhu, Xiaojian, and Xiao, Yi

Subjects

CENTRAL nervous system tumors, DIFFUSE large B-cell lymphomas, CENTRAL nervous system, CHIMERIC antigen receptors, TUMOR antigens

Abstract

The application of chimeric antigen receptor T-cell therapy in central nervous system tumors has significantly advanced; however, challenges pertaining to the blood-brain barrier, immunosuppressive microenvironment, and antigenic heterogeneity continue to be encountered, unlike its success in hematological malignancies such as acute lymphoblastic leukemia and diffuse large B-cell lymphomas. This review examined the research progress of chimeric antigen receptor T-cell therapy in gliomas, medulloblastomas, and lymphohematopoietic tumors of the central nervous system, focusing on chimeric antigen receptor T-cells targeting antigens such as EGFRvIII, HER2, B7H3, GD2, and CD19 in preclinical and clinical studies. It synthesized current research findings to offer valuable insights for future chimeric antigen receptor T-cell therapeutic strategies for central nervous system tumors and advance the development and application of this therapeutic modality in this domain. [ABSTRACT FROM AUTHOR]

Published

2024

20. Muscarinic receptor drug trihexyphenidyl can alter growth of mesenchymal glioblastoma in vivo.

Author

Du, Renfei, Sanin, Ahmed Y., Shi, Wenjie, Huang, Bing, Nickel, Ann-Christin, Vargas-Toscano, Andres, Huo, Shuran, Nickl-Jockschat, Thomas, Dumitru, Claudia A., Hu, Wei, Duan, Siyu, Sandalcioglu, I. Erol, Croner, Roland S., Alcaniz, Joshua, Walther, Wolfgang, Berndt, Carsten, and Kahlert, Ulf D.

Subjects

BRAIN tumors, DRUG receptors, DRUG repositioning, TUMOR classification, GLIOBLASTOMA multiforme, MUSCARINIC receptors

Abstract

Glioblastoma (GBM) is the most commonly occurring and most aggressive primary brain tumor. Transcriptomics-based tumor subtype classification has established the mesenchymal lineage of GBM (MES-GBM) as cancers with particular aggressive behavior and high levels of therapy resistance. Previously it was show that Trihexyphenidyl (THP), a market approved M1 muscarinic receptor-targeting oral drug can suppress proliferation and survival of GBM stem cells from the classical transcriptomic subtype. In a series of in vitro experiments, this study confirms the therapeutic potential of THP, by effectively suppressing the growth, proliferation and survival of MES-GBM cells with limited effects on non-tumor cells. Transcriptomic profiling of treated cancer cells identified genes and associated metabolic signaling pathways as possible underlying molecular mechanisms responsible for THP-induced effects. In vivo trials of THP in immunocompromised mice carry orthotopic MES-GBMs showed moderate response to the drug. This study further highlights the potential of THP repurposing as an anti-cancer treatment regimen but mode of action and d optimal treatment procedures for in vivo regimens need to be investigated further. [ABSTRACT FROM AUTHOR]

Published

2024

21. Enhancing glioma treatment with 3D scaffolds laden with upconversion nanoparticles and temozolomide in orthotopic mouse model.

Author

Mishchenko, Tatiana A., Klimenko, Maria O., Guryev, Evgenii L., Savelyev, Alexander G., Krysko, Dmitri V., Gudkov, Sergey V., Khaydukov, Evgeny V., Zvyagin, Andrei V., and Vedunova, Maria V.

Subjects

*TARGETED drug delivery, *TREATMENT effectiveness, *BRAIN tumors, *DRUG delivery systems, *TUMOR growth

Abstract

Targeted drug delivery for primary brain tumors, particularly gliomas, is currently a promising approach to reduce patient relapse rates. The use of substitutable scaffolds, which enable the sustained release of clinically relevant doses of anticancer medications, offers the potential to decrease the toxic burden on the patient's organism while also enhancing their quality of life and overall survival. Upconversion nanoparticles (UCNPs) are being actively explored as promising agents for detection and monitoring of tumor growth, and as therapeutic agents that can provide isolated therapeutic effects and enhance standard chemotherapy. Our study is focused on the feasibility of constructing scaffolds using methacrylated hyaluronic acid with additional impregnation of UCNPs and the chemotherapeutic drug temozolomide (TMZ) for glioma treatment. The designed scaffolds have been demonstrated their efficacy as a drug and UCNPs delivery system for gliomas. Using the aggressive orthotopic glioma model in vivo , it was found that the scaffolds possess the capacity to ameliorate neurological disorders in mice. Moreover, upon intracranial co-implantation of the scaffolds and glioma cells, the constructs disintegrate into distinct segments, augmenting the release of UCNPs into the surrounding tissue and concurrently reducing postoperative damage to brain tissue. The use of TMZ in the scaffold composition contributed to restraining glioma development and the reduction of tumor invasiveness. Our findings unveil promising prospects for the application of photopolymerizable biocompatible scaffolds in the realm of neuro-oncology. [ABSTRACT FROM AUTHOR]

Published

2024

22. Examining the Impact of Phased Nursing within the Chronic Disease Trajectory Model on Glioma Patient Outcomes.

Author

Changwei Shao

Subjects

*NURSING, *CHRONIC diseases, *BRAIN tumors, *RANDOMIZED controlled trials, *QUALITY of life

Abstract

Background • Glioma ‎(GL)‎, a primary brain tumor, presents significant challenges in patient care due to its complex disease trajectory and psychological impact. Phased nursing interventions, grounded in the Chronic Illness Trajectory Model (CITM), offer a holistic approach to addressing these multifaceted needs. Objective • The objective of this study was to assess the impact of phased nursing within the CITM on the psychological well-being, quality of life, and cancer-related fatigue (CRF) of glioma patients. Methods • A total of 100 GL patients undergoing treatment at our hospital between February 2020 and February 2021 were enrolled in this randomized controlled trial. Patients were randomly assigned to either the control group, which received standard routine care, or the observation group, which received phased nursing interventions based on the CITM framework. The mental state, quality of life, and CRF scores of the patients were assessed using validated measures at baseline and following the intervention period. Statistical analyses were conducted to compare the outcomes between the two groups. Results • The findings revealed that patients in the observation group exhibited significantly higher scores in mental state and quality of life domains compared to those in the control group (P < .05). Additionally, patients receiving phased nursing showed a significant reduction in CRF scores post-intervention. These results indicate that phased nursing within the CITM framework has a beneficial effect on the psychological well-being and overall quality of life of GL patients while also mitigating CRF. Conclusions • Our findings suggest that incorporating phased nursing interventions into the care of GL patients can lead to improvements in psychological outcomes, CRF, and quality of life. These findings underscore the importance of adopting holistic approaches to patient care, particularly in chronic disease management. [ABSTRACT FROM AUTHOR]

Published

2024

23. Measuring the diagnostic management and follow‐up imaging for glioma patients across Belgian hospitals between 2016 and 2019.

Author

Vanhauwaert, Dimitri, Vanschoenbeek, Katrijn, Weyns, Frank, Vanopdenbosch, Ludo, Tieleman, Ann, Michotte, Alex, Goffin, Karolien, De Gendt, Cindy, De Vleeschouwer, Steven, and Boterberg, Tom

Subjects

*SOCIAL security numbers, *BRAIN tumors, *HOSPITAL administration, *GLIOMAS, *EPENDYMOMA

Abstract

Objectives: This study aimed to assess the diagnostic management and follow‐up imaging for glioma patients across Belgian hospitals by calculating process indicators. Methods: Patients with newly diagnosed glioma in Belgium (2016–2019) were selected from the Belgian Cancer Registry. The National Social Security Number served as unique patient identifier, linking the Registry to vital status and reimbursement data. Nine measurable process related to diagnosis and follow‐up imaging were identified, with reformulations for 7 due to data limitations. For each indicator, technical documentation sheets, containing all required details (rationale, numerator and denominator, target, limitations, benchmarking, subgroup analyses) were developed, reviewed by a multidisciplinary expert panel, and validated in six pilot hospitals. Per indicator, patients were assigned to the most relevant hospital per indicator using allocation algorithms. Results: Results for process indicators assessing MRI use in glioma diagnosis and follow‐up aligned with predefined targets (90%), except for early postoperative MRI (48.5% vs. target 90%). Mandatory reporting of the WHO performance status (89.3% vs. target 100%) and performance of full‐spine (43.6% vs. target 90%) and follow‐up MRI (73.5% vs. target 90%) in ependymoma were suboptimal. The largest variability across centers was noted for the indicator on early postoperative MRI. Conclusion: This calculation of process indicators identified opportunities for improvement in diagnosis and follow‐up imaging for glioma patients in Belgium. Monitoring indicator results and providing individual feedback reports to the Belgian hospitals invites neuro‐oncology care teams and hospital managements to reflect on their results and to take measures to continuously improve care for glioma. [ABSTRACT FROM AUTHOR]

Published

2024

24. Development of a biocompatible 3D hydrogel scaffold using continuous liquid interface production for the delivery of cell therapies to treat recurrent glioblastoma.

Author

Kass, Lauren, Thang, Morrent, Zhang, Yu, DeVane, Cathleen, Logan, Julia, Tessema, Addis, Perry, Jillian, and Hingtgen, Shawn

Subjects

*NEURAL stem cells, *BRAIN tumors, *TUMOR growth, *CELLULAR therapy, *GLIOBLASTOMA multiforme

Abstract

Glioblastoma (GBM) is the most common primary malignant brain tumor diagnosed in adults, carrying with it an extremely poor prognosis and limited options for effective treatment. Various cell therapies have emerged as promising candidates for GBM treatment but fail in the clinic due to poor tumor trafficking, poor transplantation efficiency, and high systemic toxicity. In this study, we design, characterize, and test a 3D‐printed cell delivery platform that can enhance the survival of therapeutic cells implanted in the GBM resection cavity. Using continuous liquid interface production (CLIP) to generate a biocompatible 3D hydrogel, we demonstrate that we can effectively seed neural stem cells (NSCs) onto the surface of the hydrogel, and that the cells can proliferate to high densities when cultured for 14 days in vitro. We show that NSCs seeded on CLIP scaffolds persist longer than freely injected cells in vivo, proliferating to 20% higher than their original density in 6 days after implantation. Finally, we demonstrate that therapeutic fibroblasts seeded on CLIP more effectively suppress tumor growth and extend survival in a mouse model of LN229 GBM resection compared to the scaffold or therapeutic cells alone. These promising results demonstrate the potential to leverage CLIP to design hydrogels with various features to control the delivery of different types of cell therapies. Future work will include a more thorough evaluation of the immunological response to the material and improvement of the printing resolution for biocompatible aqueous resins. [ABSTRACT FROM AUTHOR]

Published

2024

25. Ruta graveolens , but Not Rutin, Inhibits Survival, Migration, Invasion, and Vasculogenic Mimicry of Glioblastoma Cells.

Author

Camerino, Iolanda, Franco, Paola, Bajetto, Adriana, Thellung, Stefano, Florio, Tullio, Stoppelli, Maria Patrizia, and Colucci-D'Amato, Luca

Subjects

*CANCER stem cells, *VASCULOGENIC mimicry, *BRAIN tumors, *GLIOBLASTOMA multiforme, *NATURAL products

Abstract

Glioblastoma (GBM) is the most aggressive type of brain tumor, characterized by poor outcome and limited therapeutic options. During tumor progression, GBM may undergo the process of vasculogenic mimicry (VM), consisting of the formation of vascular-like structures which further promote tumor aggressiveness and malignancy. The resulting resistance to anti-angiogenetic therapies urges the identification of new compounds targeting VM. Extracts of natural plants may represent potential therapeutic tools. Among these, components of Ruta graveolens water extract (RGWE) display a wide range of biological activities. To test the effect of RGWE on human GBM and rat glioma cell line VM, tube formation on a gelled matrix was monitored. Quantitative assessment of VM formation shows the clear-cut inhibitory activity of RGWE. Unlike rutin, one of the most abundant extract components, the whole RGWE strongly reduced the migration and invasion of GBM tumor cells. Moreover, RGWE induced cell death of GBM patient-derived cancer stem cells and impaired VM at sub-lethal doses. Overall, our data reveal a marked RGWE-dependent inhibition of GBM cell survival, migration, invasion, and VM formation. Thus, the clear-cut ability of RGWE to counteract GBM malignancy deserves attention, holding the promise to bring natural products to clinical use, thus uncovering new therapeutic opportunities. [ABSTRACT FROM AUTHOR]

Published

2024

26. Therapeutic Contribution of Tau-Binding Thiazoloflavonoid Hybrid Derivatives Against Glioblastoma Using Pharmacological Approach in 3D Spheroids.

Author

Relave, Emmanuelle T., Hedna, Rayane, Di Maio, Attilio, Devred, François, Kovacic, Hervé, Robin, Maxime, and Breuzard, Gilles

Subjects

*BRAIN tumors, *MICROTUBULE-associated proteins, *TAU proteins, *GLIOBLASTOMA multiforme, *LEAD compounds

Abstract

Growing evidence has unveiled the pathological significance of Tau in many cancers, including the most aggressive and lethal brain tumor glioblastoma multiform (GBM). In this regard, we have recently examined the structure–activity relationship of a new series of seventeen 2-aminothiazole-fused to flavonoid hybrid compounds (TZF) on Tau-overexpressing GBM cells. Here, we evaluated the anticancer activities of the two lead compounds 2 and 9 using multi-cellular spheroids (MCSs) which represent an easy 3D human cell model to mimic GBM organization, physical constraints and drug penetration. The two compounds reduced cell evasion from spheroids up to three times, especially for Tau-expressing cells. As a first step towards a therapeutic approach, we quantified the effects of these compounds on MCS growth using two complementary protocols: single and repeated treatments. A single injection with compound 9 slowed down the growth of MCSs formed with U87 shCTRL cells by 40% at 10 µM. More interestingly, multiple treatment with compound 9 slowed the growth of U87 shCTRL spheroids by 40% at a concentration of 5 µM, supporting the increased bioavailability of compound 9 within MCSs. In conclusion, compound 9 deserves particular attention as promising candidate for specifically targeting Tau-expressing cancers such as GBM. [ABSTRACT FROM AUTHOR]

Published

2024

27. Pluronic F127‐Complexed PEGylated Poly(glutamic acid)‐Cisplatin Nanomedicine for Enhanced Glioblastoma Therapy.

Author

Chang, Xiaoyu, Liu, Jiaxue, Li, Yunqian, and Li, Wenliang

Subjects

*BRAIN tumors, *TREATMENT effectiveness, *GLIOMAS, *GLIOBLASTOMA multiforme, *CYTOTOXINS

Abstract

Glioblastoma is one of the most aggressive and treatment‐resistant forms of primary brain cancer, posing significant challenges in effective therapy. This study aimed to enhance the effectiveness of glioblastoma therapy by developing a unique nanomedicine composed of Pluronic F127‐complexed PEGylated poly(glutamic acid)‐cisplatin (PLG‐PEG/PF127‐CDDP). PLG‐PEG/PF127‐CDDP demonstrated an optimal size of 133.97 ± 12.60 nm, facilitating efficient cell uptake by GL261 glioma cells. In vitro studies showed significant cytotoxicity against glioma cells with a half‐maximal (50%) inhibitory concentration (IC50) of 12.61 µg mL−1 at 48 h and a 72.53% ± 1.89% reduction in cell invasion. Furthermore, PLG‐PEG/PF127‐CDDP prolonged the circulation half‐life of cisplatin to 9.75 h in vivo, leading to a more than 50% reduction in tumor size on day 16 post‐treatment initiation in a murine model of glioma. The treatment significantly elevated lactate levels in GL261 cells, indicating enhanced metabolic disruption. Therefore, PLG‐PEG/PF127‐CDDP offers a promising approach for glioblastoma therapy due to its effects on improving drug delivery efficiency, therapeutic outcomes, and safety while minimizing systemic side effects. This work underscores the potential of polymer‐based nanomedicines in overcoming the challenges of treating brain tumors, paving the way for future clinical applications. [ABSTRACT FROM AUTHOR]

Published

2024

28. Detection of a Water-Soluble Hypericin Formulation in Glioblastoma Tissue with Fluorescence Lifetime and Intensity Using a Dual-Tap CMOS Camera System.

Author

Mischkulnig, Mario, Reichert, David, Wightman, Lionel, Roth, Vanessa, Hölz, Marijke, Körner, Lisa I., Kiesel, Barbara, Vejzovic, Djenana, Giardina, Gabriel A., Erkkilae, Mikael T., Unterhuber, Angelika, Andreana, Marco, Rinner, Beate, Kubin, Andreas, Leitgeb, Rainer, and Widhalm, Georg

Subjects

*IMAGING systems, *BRAIN tumors, *HYPERICIN, *BRAIN surgery, TUMOR surgery

Abstract

Background: High hypericin-loaded polyvinylpyrrolidone (HHL-PVP) constitutes a novel approach to utilize the promising characteristics of hypericin for photodynamic diagnosis (PDD) and therapy (PDT) of brain tumors in an orally bioavailable formulation. The aim of this study was to investigate the ability of a Complementary Metal-Oxide-Semiconductor (CMOS) camera-based fluorescence imaging system to selectively visualize HHL-PVP in glioblastoma tissue even in the presence of 5-Aminolvevulinic acid (5-ALA) induced fluorescence, which is widely utilized in brain tumor surgery. Methods: We applied a previously established system with a non-hypericin specific filter for 5-ALA fluorescence visualization and a newly introduced hypericin-specific filter at 575–615 nm that transmits the spectrum of hypericin, but not 5-ALA fluorescence. Glioblastoma specimens obtained from 12 patients (11 with preoperative 5-ALA intake) were ex vivo incubated with HHL-PVP. Subsequently, fluorescence intensity and lifetime changes using both the non-hypericin specific filter and hypericin-specific filter were measured before and after HHL-PVP incubation and after subsequent rinsing. Results: While no significant differences in fluorescence signal were observed using the non-hypericin specific filter, statistically significant increases in fluorescence intensity (p = 0.001) and lifetime (p = 0.028) after HHL-PVP incubation were demonstrated using the hypericin-specific filter. In consequence, specimens treated with HHL-PVP could be identified according to the fluorescence signal with high diagnostic sensitivity (87.5%) and specificity (100%). Conclusions: Our CMOS camera-based system with a hypericin-specific filter is capable of selectively visualizing hypericin fluorescence in glioblastoma tissue after ex vivo HHL-PVP incubation. In the future, this technique could facilitate clinical investigations of HHL-PVP for PDD and PDT while maintaining the current standard of care with 5-ALA guidance. [ABSTRACT FROM AUTHOR]

Published

2024

29. The Three Pillars of Glioblastoma: A Systematic Review and Novel Analysis of Multi-Omics and Clinical Data.

Author

De Luca, Ciro, Virtuoso, Assunta, Papa, Michele, Cirillo, Giovanni, La Rocca, Giuseppe, Corvino, Sergio, Barbarisi, Manlio, and Altieri, Roberto

Subjects

*CANCER stem cells, *BRAIN tumors, *CENTRAL nervous system, *GLIOBLASTOMA multiforme, *SURVIVAL rate

Abstract

Glioblastoma is the most fatal and common malignant brain tumor, excluding metastasis and with a median survival of approximately one year. While solid tumors benefit from newly approved drugs, immunotherapy, and prevention, none of these scenarios are opening for glioblastoma. The key to unlocking the peculiar features of glioblastoma is observing its molecular and anatomical features tightly entangled with the host's central nervous system (CNS). In June 2024, we searched the PUBMED electronic database. Data collection and analysis were conducted independently by two reviewers. Results: A total of 215 articles were identified, and 192 were excluded based on inclusion and exclusion criteria. The remaining 23 were used for collecting divergent molecular pathways and anatomical features of glioblastoma. The analysis of the selected papers revealed a multifaced tumor with extreme variability and cellular reprogramming that are observable within the same patient. All the variability of glioblastoma could be clustered into three pillars to dissect the physiology of the tumor: 1. necrotic core; 2. vascular proliferation; 3. CNS infiltration. These three pillars support glioblastoma survival, with a pivotal role of the neurovascular unit, as supported by the most recent paper published by experts in the field. [ABSTRACT FROM AUTHOR]

Published

2024

30. Diagnostics and Screening in Breast Cancer with Brain and Leptomeningeal Metastasis: A Review of the Literature.

Author

Cohen-Nowak, Adam J., Hill, Virginia B., and Kumthekar, Priya

Subjects

*BREAST tumor diagnosis, *EXTRACELLULAR vesicles, *PROTEINS, *PROFESSIONAL practice, *EARLY detection of cancer, *MICRORNA, *BREAST tumors, *MENINGEAL cancer, *MAGNETIC resonance imaging, *POSITRON emission tomography computed tomography, *TUMOR markers, *METASTASIS, *SERUM, *METABOLITES, *NUCLEIC acids, *EVIDENCE-based medicine, *EXTRACELLULAR space, *BRAIN tumors, *CEREBROSPINAL fluid, *DISEASE complications, BRAIN tumor diagnosis, BREAST tumor prevention, BODY fluid examination

Abstract

Simple Summary: Patients with advanced stages of breast cancer are at high risk of the cancer metastasizing or spreading to areas of the central nervous system, including the brain, cerebrospinal fluid, and the protective tissue layers of the brain, termed leptomeninges. Although guidelines recommend screening for central nervous system disease in other cancers, such as non-small cell lung cancer, there are no such recommendations for patients with breast cancer unless they have symptoms such as headaches, weakness, or vomiting. This review discusses the evidence behind screening for breast cancer that has spread to the central nervous system, as well as new methods of diagnosis, including specialized imaging, serum testing, and cerebrospinal fluid analysis. Brain and leptomeningeal metastases are complications of breast cancer with high rates of morbidity and mortality and have an estimated incidence of up to 30%. While National Comprehensive Cancer Network (NCCN) guidelines recommend screening for central nervous system metastasis in other neurotropic cancers such as non-small cell lung cancer, there are no such recommendations for asymptomatic breast cancer patients at any stage of disease. This review highlights ongoing studies into screening and diagnostics for breast cancer with brain and leptomeningeal metastasis (BCBLM) as they relate to patient outcomes and prognostication. These include imaging methods such as MRI with novel contrast agents with or without PET/CT, as well as 'liquid biopsy' testing of the cerebrospinal fluid and serum to analyze circulating tumor cells, genomic material, proteins, and metabolites. Given recent advances in radiation, neurosurgery, and systemic treatments for BCBLM, screening for CNS involvement should be considered in patients with advanced breast cancer as it may impact treatment decisions and overall survival. [ABSTRACT FROM AUTHOR]

Published

2024

31. Utility and Safety of 5-ALA Guided Surgery in Pediatric Brain Tumors: A Systematic Review.

Author

Wang, Cheng, Yu, Ying, Wang, Yafei, Yu, Jiahua, and Zhang, Chenran

Subjects

*FLUORESCENT dyes, *MEDICAL information storage & retrieval systems, *NEUROSURGERY, *DIAGNOSTIC imaging, *PATIENT safety, *RESEARCH funding, *CANCER relapse, *MAGNETIC resonance imaging, *TREATMENT effectiveness, *DESCRIPTIVE statistics, *TUMOR grading, *SYSTEMATIC reviews, *MEDLINE, *SURGICAL complications, *AMINO acids, *ONLINE information services, *DATA analysis software, *SURVIVAL analysis (Biometry), *BRAIN tumors, *CHILDREN

Abstract

Simple Summary: In brain tumor surgery, increasing the extent of resection has been shown to improve patient outcomes and survival. 5-ALA serves as a tumor visualization adjunct and has been approved for use in adult high-grade gliomas. The purpose of this systematic review was to assess whether 5-ALA has similar utility and safety in pediatric patients. A total of 249 pediatric cases were identified from the relevant literature, confirming the safety of 5-ALA in this population. Overall, the fluorescence rates and utility were favorable, although there were some variations across different tumor grades and types. While our preliminary findings suggest that 5-ALA is both safe and effective in pediatric brain tumor surgery, further systematic clinical studies are needed to validate these results. Background: 5-Aminolevulinic acid-guided surgery for adult gliomas has been approved by the European Medicines Agency and the US Food and Drug Administration, becoming a reliable tool for improving gross total resection rates and patient outcomes. This has led several medical centers to explore the off-label use of 5-ALA in the resection of pediatric brain tumors, assessing its efficacy and safety across various tumor types. However, given the differences between children and adults, the appropriateness of 5-ALA use in pediatric populations has not yet been fully established. Methods: We collected eligible publications from Embase, Scopus, PubMed, and Proquest, ultimately selecting 27 studies. Data extraction and retrospective analysis of 249 surgical cases were conducted to determine the current efficacy and safety of 5-ALA in pediatric brain tumors. The fluorescence rate and utility stratified by several clinical features, including WHO grade, tumor classification, and tumor location, were analyzed. Results: Most studies suggest that 5-ALA can enhance tumor identification in high-grade tumors, including glioblastomas and anaplastic astrocytomas. Changes in survival or recurrence rates associated with 5-ALA-guided resection have not been reported. None of the cases reported significant postoperative complications related to the use of 5-ALA. Conclusions: 5-ALA can aid in the resection of high-grade gliomas in pediatric patients. The efficacy of 5-ALA in low-grade gliomas and other tumors may require enhancement with additional tools or modified administration protocols. The safety of 5-ALA has reached a preliminary consensus, although further randomized controlled trials and data on survival and molecular characteristics are needed. [ABSTRACT FROM AUTHOR]

Published

2024

32. Brainstem Toxicity Following Proton Beam Radiation Therapy in Pediatric Brain Tumors: A Systematic Review and Meta-Analysis.

Author

Alrasheed, Abdulrahim Saleh, Aleid, Abdulsalam Mohammed, Alharbi, Reema Ahmed, Alhodibi, Mostafa Habeeb, Alhussain, Abdulmonem Ali, Alessa, Awn Abdulmohsen, and Almalki, Sami Fadhel

Subjects

*BRAIN stem injuries, *PROTON therapy, *SYNDROMES, *RISK assessment, *RADIOTHERAPY, *NEUROTOXICOLOGY, *RESEARCH funding, *TUMORS in children, *RADIATION injuries, *NECROSIS, *META-analysis, *SEVERITY of illness index, *DESCRIPTIVE statistics, *CANCER patients, *SYSTEMATIC reviews, *MEDLINE, *BRAIN stem, *MEDICAL databases, *RADIATION doses, *ONLINE information services, *CONFIDENCE intervals, *BRAIN tumors, *DISEASE risk factors, *CHILDREN

Abstract

Simple Summary: Proton beam radiation therapy is one of the major treatment modalities used for cancer treatment, including brain tumors. This treatment modality is distinct from other radiation options because of its ability to deliver radiation to tumor targets while sparing healthy tissue. Brainstem toxicity is a rare but important complication can arise due to exposure to radiation; hence, in this systematic review and meta-analysis, we aimed to explore the risk of brainstem toxicity in pediatric brain tumor patients undergoing proton beam radiation, focusing on quantifying its incidence and severity. Eleven articles were considered eligible in our study, and the results yielded an overall brainstem toxicity incidence of 1.8%, ranging in severity, with Grade 1 brainstem toxicity (asymptomatic) being the most common. This study revealed a low incidence of symptomatic brainstem toxicity and related mortality among pediatric brain tumor patients undergoing proton beam radiation, which could support the idea of it having a good toxicity profile and possibly re-enforces the need for more comprehensive primary studies regarding this radiation modality in brain tumor patients to uncover unknowns and help us understand the grey areas of this topic. Background: Proton beam radiation therapy (PBRT) is an advanced cancer treatment modality that utilizes the distinctive physical properties of protons to precisely deliver radiation to tumor targets while sparing healthy tissue. This cannot be obtained with photon radiation. In this systematic review and meta-analysis, we aimed to comprehensively assess the risk of brainstem toxicity in pediatric brain tumor patients undergoing PBRT. Methods: With adherence to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines, a predetermined search strategy was used to identify eligible articles from PubMed, Web of Science, Scopus, and Cochrane Library through July 2024. Results: The current study included a total of 11 eligible articles. The pooled prevalence of patients who suffered from brainstem toxicity was 1.8% (95% CI: 1%, 2.6%). The pooled prevalences of patients with Grade 1 to Grade 5 brainstem toxicity were found to be 10.6% (95% CI: 8.8%, 30%), 1.5% (95% CI: 0.6%, 2.5%), 0.7% (95% CI: 0.3%, 1.1%), 0.4% (95% CI: 0.1%, 0.7%), and 0.4% (95% CI: 0.1%, 0.8%), respectively, with an overall pooled prevalence of 0.7% (95% CI: 0.4%, 1%). Conclusions: This study revealed a relatively low incidence of symptomatic brainstem toxicity and its related mortality in the pediatric population undergoing PBRT. However, further research is encouraged to study the broader effects of PBRT and to explore various factors that may influence the risk of brainstem toxicity in patients treated with PBRT. [ABSTRACT FROM AUTHOR]

Published

2024

33. Psychosocial and executive functioning late effects in pediatric brain tumor survivors after proton radiation.

Author

Grieco, Julie A., Evans, Casey L., Yock, Torunn I., and Pulsifer, Margaret B.

Subjects

*EXECUTIVE function, *INFRATENTORIAL brain tumors, *PSYCHOSOCIAL functioning, *BRAIN tumors, *CHILD behavior

Abstract

Purpose: Pediatric brain tumor survivors can experience detrimental effects from radiation treatment. This cross-sectional, large cohort study examined late psychosocial and executive functioning effects in pediatric patients treated ≥ 3 years after proton radiation therapy (PRT). Methods: Parents of 101 pediatric brain tumor survivors completed the Behavior Assessment System for Children and the Behavior Rating Inventory of Executive Function. Standard scores were compared to published normative means, rates of impairment (T-score > 65) were calculated, and demographic and clinical characteristics were examined. Results: Mean age at PRT was 8.12 years and mean interval from PRT to assessment was 6.05 years. Half were female (49.5%), 45.5% received craniospinal irradiation (CSI), and 58.4% were diagnosed with infratentorial tumors. All mean T-scores were within normal range. Mean T-scores were significantly elevated compared to the norm on the withdrawal, initiate, working memory, and plan/organize scales. Rates of impairment were notably high in working memory (24.8%), initiate (20.4%), withdrawal (18.1%), and plan/organize (17.0%). Greater withdrawal was significantly associated with CSI and also with chemotherapy and diagnosis of hearing loss. Mean T-scores were significantly lower than the norm on the hyperactivity, aggression, conduct problems, and inhibition scales. No significant problems were identified with social skills or depression. Interval since treatment was not correlated with any scale. Conclusion: Although psychosocial and executive functioning was within the normal range, on average, social withdrawal and metacognitive executive functioning (working memory, initiating, planning/organizing) were areas of concern. Targeted yearly screening and proactive executive skill and social interventions are needed for this population. [ABSTRACT FROM AUTHOR]

Published

2024

34. Update on the role of S100B in traumatic brain injury in pediatric population: a meta-analysis.

Author

Morello, Alberto, Schiavetti, Irene, Lo Bue, Enrico, Portonero, Irene, Colonna, Stefano, Gatto, Andrea, Pavanello, Marco, Lanotte, Michele Maria, Garbossa, Diego, and Cofano, Fabio

Subjects

*BRAIN injuries, *CHILD patients, *COMPUTED tomography, *BRAIN tumors, *RADIATION exposure

Abstract

Objective: Cranial computed tomography (CT) scan is the most widely used tool to rule out intracranial lesions after pediatric traumatic brain injury (TBI). However, in pediatric population, the radiation exposure can lead to an increased risk of hematological and brain neoplasm. Defined in 2019 National Institute for Health and Care Excellence (NICE) guidelines as "troponins for the brain", serum biomarkers measurements, particularly S100B, have progressively emerged as a supplementary tool in the management of TBI thanks to their capacity to predict intracranial post-traumatic lesions. Methods: This systematic review was conducted following the PRISMA protocol (preferred reporting items for systematic reviews and meta-analyses). No chronological limits of study publications were included. Studies reporting data from children with TBI undergoing serum S100B measurement and computed tomography (CT) scans were included. Results: Of 380 articles screened, 10 studies met the inclusion criteria. Patients admitted with mild-TBI in the Emergency Department (ED) were 1325 (80.25%). The overall pooled sensitivity and specificity were 98% (95% CI, 92–99%) and 45% (95% CI, 29–63%), respectively. The meta-analysis revealed a high negative predictive value (NVP) (99%; 95% CI, 94–100%) and a low positive predictive value (PPV) (41%; 95% CI, 16–79%). Area under the curve (AUC) was 76% (95% CI, 65–85%). The overall pooled negative predictive value (NPV) was 99% (95% CI, 99–100%). Conclusions: The measurement of serum S100B in the diagnostic workflow of mTBI could help informed decision-making in the ED setting, potentially safely reducing the use of CT scan in the pediatric population. The high sensitivity and excellent negative predictive values look promising and seem to be close to the values found in adults. Despite this, it must be pointed out the high heterogeneity (> 90%) found among studies. In order for S100B to be regularly introduced in the pediatric workflow for TBI, it is important to conduct further studies to obtain cut-off levels based on pediatric reference intervals. [ABSTRACT FROM AUTHOR]

Published

2024

35. Radiomics features for the discrimination of tuberculomas from high grade gliomas and metastasis: a multimodal study.

Author

Indoria, Abhilasha, Kulanthaivelu, Karthik, Prasad, Chandrajit, Srinivas, Dwarakanath, Rao, Shilpa, Sinha, Neelam, Potluri, Vivek, Netravathi, M., Nalini, Atchayaram, and Saini, Jitender

Subjects

*TUBERCULOMA, *PREDICTIVE tests, *GLIOMAS, *COMPUTER-assisted image analysis (Medicine), *RESEARCH funding, *RECEIVER operating characteristic curves, *RADIOMICS, *BRAIN, *QUESTIONNAIRES, *RETROSPECTIVE studies, *METASTASIS, *MEDICAL records, *ACQUISITION of data, *COMPARATIVE studies, *BRAIN tumors

Abstract

Background: Tuberculomas are prevalent in developing countries and demonstrate variable signals on MRI resulting in the overlap of the conventional imaging phenotype with other entities including glioma and brain metastasis. An accurate MRI diagnosis is important for the early institution of anti-tubercular therapy, decreased patient morbidity, mortality, and prevents unnecessary neurosurgical excision. This study aims to assess the potential of radiomics features of regular contrast images including T1W, T2W, T2W FLAIR, T1W post contrast images, and ADC maps, to differentiate between tuberculomas, high-grade-gliomas and metastasis, the commonest intra parenchymal mass lesions encountered in the clinical practice. Methods: This retrospective study includes 185 subjects. Images were resampled, co-registered, skull-stripped, and zscore-normalized. Automated lesion segmentation was performed followed by radiomics feature extraction, train-test split, and features reduction. All machine learning algorithms that natively support multiclass classification were trained and assessed on features extracted from individual modalities as well as combined modalities. Model explainability of the best performing model was calculated using the summary plot obtained by SHAP values. Results: Extra tree classifier trained on the features from ADC maps was the best classifier for the discrimination of tuberculoma from high-grade-glioma and metastasis with AUC-score of 0.96, accuracy-score of 0.923, Brier-score of 0.23. Conclusion: This study demonstrates that radiomics features are effective in discriminating between tuberculoma, metastasis, and high-grade-glioma with notable accuracy and AUC scores. Features extracted from the ADC maps surfaced as the most robust predictors of the target variable. [ABSTRACT FROM AUTHOR]

Published

2024

36. Targeting Fn14 as a therapeutic target for cachexia reprograms the glycolytic pathway in tumour and brain in mice.

Author

Burvenich, Ingrid Julienne Georgette, Osellame, Laura Danielle, Rigopoulos, Angela, Huynh, Nhi, Cao, Zhipeng, Hoogenraad, Nicholas Johannes, and Scott, Andrew Mark

Subjects

*POSITRON emission tomography, *MAGNETIC resonance imaging, *BODY weight, *BRAIN tumors, *CACHEXIA

Abstract

Purpose: Cachexia is a complex syndrome characterized by unintentional weight loss, progressive muscle wasting and loss of appetite. Anti-Fn14 antibody (mAb 002) targets the TWEAK receptor (Fn14) in murine models of cancer cachexia and can extend the lifespan of mice by restoring the body weight of mice. Here, we investigated glucose metabolic changes in murine models of cachexia via [18F]FDG PET imaging, to explore whether Fn14 plays a role in the metabolic changes that occur during cancer cachexia. Methods: [18F]FDG PET/MRI imaging was performed in cachexia-inducing tumour models versus models that do not induce cachexia. SUVaverage was calculated for all tumours via volume of interest (VOI) analysis of PET/MRI overlay images using PMOD software. Results: [18F]FDG PET imaging demonstrated increased tumour and brain uptake in cachectic versus non-cachectic tumour-bearing mice. Therapy with mAb 002 was able to reduce [18F]FDG uptake in tumours (P < 0.05, n = 3). Fn14 KO tumours did not induce body weight loss and did not show an increase in [18F]FDG tumour and brain uptake over time. In non-cachectic mice bearing Fn14 KO tumours, [18F]FDG tumour uptake was significantly lower (P < 0.01) than in cachectic mice bearing Fn14 WT counterparts. As a by-product of glucose metabolism, l-lactate production was also increased in cachexia-inducing tumours expressing Fn14. Conclusion: Our results demonstrate that Fn14 receptor activation is linked to glucose metabolism of cachexia-inducing tumours. [ABSTRACT FROM AUTHOR]

Published

2024

37. miR-3154 promotes glioblastoma proliferation and metastasis via targeting TP53INP1.

Author

Lin, Xiangdan, Wu, Qiong, Lei, Wei, Wu, Dongyang, Sheng, Jianchun, Liang, Guobiao, Hou, Guojun, and Fan, Di

Subjects

*BRAIN tumors, *P53 protein, *NUCLEAR proteins, *TUMOR proteins, *GLIOBLASTOMA multiforme

Abstract

Glioblastomas (GBM) are most common types of primary brain tumors and miRNAs play an important role in pathogenesis of glioblastomas. Here, we reported a new miRNA, miR-3154, which regulates glioblastoma proliferation and metastasis. miR-3154 was elevated in glioblastoma tissue and cell lines, and its elevation was associated with grade of glioblastomas. Knockdown of miR-3154 in cell lines weakened ability of proliferation and colony formation, and caused cell cycle arrested and higher percentage of apoptosis. Knockdown of miR-3154 also impaired ability of migration and invasion in glioblastoma cells. In mechanism, miR-3154 bound directly to Tumor Protein P53 Inducible Nuclear Protein 1 (TP53INP1), down-regulating TP53INP1 expression at both mRNA and protein level. Silence of TP53INP1 reversed the effect of miR-3154 knockdown on proliferation and metastasis of glioblastoma cells. These findings show that miR-3154 promotes glioblastoma proliferation and metastasis via targeting TP53INP1. [ABSTRACT FROM AUTHOR]

Published

2024

38. Gamma knife radiosurgery clinical efficacy for brain stem glioma: The institutional experience.

Author

Kalhoro, Aurangzeb, Ahmed, Kashif, and Hashim, Abdul Sattar M.

Subjects

*RADIOSURGERY, *BRAIN stem, *KARNOFSKY Performance Status, *GLIOMAS, *BRAIN damage, *BRAIN tumors

Abstract

Objective: In the past, brain stem was treated with surgery or placement of shunt in Pakistan. Gamma Knife surgery is currently an alternative to surgery for deep brain lesions. In the current study, we show the clinical experience of our Centre treated with Gamma Knife surgery Methods: This is a descriptive study conducted between February 2016 and October 2021. We had total 47 patients presented with focal brainstem gliomas which were selected for Gamma knife radiosurgery at the Neurospinal and Cancer Care Institute Karachi. Results: Clinical Response was observed among them 20 (42.55%) patients improved, 22(46.80%) were stable, while 05 (10.63%) got worse The mean duration of symptoms was 31.9(SD10.5± 3months). Karnofsky Performance Status (KPS) scores during Gamma knife radiosurgery were 90 in 24 patients (51%), 80 in 21 patients (44.6%), and 70 in two patients (4.2%). Four patients (10.6%) had received conventional radiotherapy before Gamma knife radiosurgery. Conclusion: Among the diverse gliomas, their peril varies not just by type but also by their intricate location within the brain. The efficacy of gamma knife radiation is excellent particularly when tackling high-grade tumors, exhibiting its prowess in both adult and pediatric cases. [ABSTRACT FROM AUTHOR]

Published

2024

39. A novel methodology for mapping interstitial fluid dynamics in murine brain tumors using DCE-MRI.

Author

Carman-Esparza, Cora, Kingsmore, Kathryn, Vaccari, Andrea, Davis, Skylar, Cunningham, Jessica, Wang, Maosen, and Munson, Jennifer

Subjects

*CONTRAST-enhanced magnetic resonance imaging, *CONVECTIVE flow, *EXTRACELLULAR fluid, *FLUID dynamics, *BRAIN tumors

Abstract

• Dynamic contrast MRI can be used to describe diffusive and convective flow in the brain tumor microenvironment using the Lymph4D tool. • Transport metrics measured in different planes of view for a single tumor correlate. • There is high variability in interstitial velocity magnitude and diffusion coefficient slice to slice across a single tumor. We present a comprehensive methodology for measuring heterogeneous interstitial fluid flow in murine brain tumors using dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) coupled with the computational tool, Lymph4D. This four-part protocol encompasses glioma cell preparation, tumor inoculation, MRI imaging protocol, and histological verification using Evans Blue. While conventional DCE-MRI analysis primarily focuses on vascular perfusion, our methods reveal untapped potential to extract crucial information about interstitial fluid dynamics, including directions, velocities, and diffusion coefficients. This methodology extends beyond glioma research, with applicability to conditions routinely imaged with DCE-MRI, thereby offering a versatile tool for investigating interstitial fluid dynamics across a wide range of diseases and conditions. Our methodology holds promise for accelerating discoveries and advancements in biomedical research, ultimately enhancing diagnostic and therapeutic strategies for a wide range of diseases and conditions. [ABSTRACT FROM AUTHOR]

Published

2024

40. The emerging role of T helper 9 (Th9) cells in immunopathophysiology: A comprehensive review of their effects and responsiveness in various disease states.

Author

Khokhar, Manoj and Purohit, Purvi

Subjects

*INFLAMMATORY bowel diseases, *THERAPEUTICS, *SYMPTOMS, *IMMUNE response, *T cells, *BRAIN tumors, *AUTOIMMUNE diseases

Abstract

Th9 cells, a subset of T-helper cells producing interleukin-9 (IL-9), play a vital role in the adaptive immune response and have diverse effects in different diseases. Regulated by transcription factors like PU.1 and IRF4, and cytokines such as IL-4 and TGF-β, Th9 cells drive tissue inflammation. This review focuses on their emerging role in immunopathophysiology. Th9 cells exhibit immune-mediated cancer cell destruction, showing promise in glioma and cervical cancer treatment. However, their role in breast and lung cancer is intricate, requiring a deeper understanding of pro- and anti-tumor aspects. Th9 cells, along with IL-9, foster T cell and immune cell proliferation, contributing to autoimmune disorders. They are implicated in psoriasis, atopic dermatitis, and infections. In allergic reactions and asthma, Th9 cells fuel pro-inflammatory responses. Targeting Foxo1 may regulate innate and adaptive immune responses, alleviating disease symptoms. This comprehensive review outlines Th9 cells' evolving immunopathophysiological role, emphasizing the necessity for further research to grasp their effects and potential therapeutic applications across diseases. PLAIN LANGUAGE SUMMARY: The immune system relies on CD4+ T cells, specifically Th9 cells, which produce Interleukin-9 (IL-9) to combat infections. Th9 cells have distinct functions regulated by various factors and are implicated in diseases, including cancer. Preclinical studies suggest Th9 cells could target tumors, but their role in cancer remains intricate. In lung and breast cancer, Th9 cells influence tumor growth and immune responses. Glioma research explores inducing Th9 cells to inhibit brain tumor growth. Th9 cells exhibit both positive and negative associations with colorectal cancer, lymphoma, and melanoma. Investigation into Th9 cells extends to autoimmune diseases like Graves' disease, inflammatory bowel disease, psoriasis, lupus, scleroderma, rheumatoid arthritis, and multiple sclerosis, where they may contribute to inflammation. In atopic dermatitis, elevated IL-9 levels correlate with disease severity, indicating Th9 cells' involvement in inflammation and cell activation. The complexity of Th9 cells underscores the necessity for disease-specific therapies. Understanding Th9 cells and IL-9 is pivotal for developing targeted treatments, emphasizing the nuanced role these cells play in diverse diseases and the potential for tailored therapeutic approaches. [ABSTRACT FROM AUTHOR]

Published

2024

41. Modelling and simulation of anisotropic growth in brain tumours through poroelasticity: A study of ventricular compression and therapeutic protocols.

Author

Ballatore, Francesca, Lucci, Giulio, and Giverso, Chiara

Subjects

*BRAIN tumors, *CEREBRAL ventricles, *NEURAL development, *IMPACT (Mechanics), *FINITE element method

Abstract

Malignant brain tumours represent a significant medical challenge due to their aggressive nature and unpredictable locations. The growth of a brain tumour can result in a mass effect, causing compression and displacement of the surrounding healthy brain tissue and possibly leading to severe neurological complications. In this paper, we propose a multiphase mechanical model for brain tumour growth that quantifies deformations and solid stresses caused by the expanding tumour mass and incorporates anisotropic growth influenced by brain fibres. We employ a sharp interface model to simulate localised, non-invasive solid brain tumours, which are those responsible for substantial mechanical impact on the surrounding healthy tissue. By using patient-specific imaging data, we create realistic three-dimensional brain geometries and accurately represent ventricular shapes, to evaluate how the growing mass may compress and deform the cerebral ventricles. Another relevant feature of our model is the ability to simulate therapeutic protocols, facilitating the evaluation of treatment efficacy and guiding the development of personalized therapies for individual patients. Overall, our model allows to make a step towards a deeper analysis of the complex interactions between brain tumours and their environment, with a particular focus on the impact of a growing cancer on healthy tissue, ventricular compression, and therapeutic treatment. [ABSTRACT FROM AUTHOR]

Published

2024

42. A Randomised Phase II Trial of Hippocampal Sparing Versus Conventional Whole Brain Radiotherapy After Surgical Resection or Radiosurgery in Favourable Prognosis Patients With 1–10 Brain Metastases.

Author

Whitfield, G.A., Bulbeck, H., Clifton-Hadley, L., Edwards, D., Jefferies, S., Jenkinson, M.D., Griffin, M., Handley, J., Megias, D., Sanghera, P., Shaffer, R., Short, S., and Wilson, W.

Subjects

*DRUG toxicity, *RADIOTHERAPY, *NEUROSURGERY, *STATISTICAL sampling, *QUESTIONNAIRES, *RADIOSURGERY, *TREATMENT effectiveness, *RANDOMIZED controlled trials, *DESCRIPTIVE statistics, *RESEARCH, *QUALITY of life, *HIPPOCAMPUS (Brain), *CANCER patient psychology, *BRAIN tumors, *OVERALL survival, *ANTICONVULSANTS

Abstract

To assess in patients with 1–10 brain metastases, each of which has been treated by neurosurgery or stereotactic radiosurgery, whether hippocampal sparing whole brain radiotherapy (HS-WBRT) better spares neurocognitive function (NCF) than standard WBRT. Further, to assess whether a phase III randomised trial of HS-WBRT would be feasible in the UK. A multicentre, randomised, open label phase II trial was undertaken, randomising patients to 30Gy in 10 fractions of WBRT or HS-WBRT. The primary endpoint was decline in Total recall using Hopkins Verbal Learning Test Revised (HVLT-R) at 4 months post treatment. To assess this, we aimed to recruit 84 patients over 3 years. Secondary endpoints included further measures of NCF, quality of life, duration of functional independence, local control of treated metastases, development of new metastases, disease control within the hippocampal regions, overall survival, steroid and antiepileptic medication requirements, and toxicity. The trial closed prematurely due to slower than anticipated recruitment. From April 2016 to January 2018, 23 patients were randomised. Follow up was a median of 25 months. Fifteen patients (6 WBRT, 9 HS-WBRT) were assessed for the primary endpoint; of these, 1 in each arm experienced significant decline in the 4-month HVLT-R Total recall score (p = 0.8). Patients in the HS-WBRT arm experienced less insomnia (p < 0.01) and drowsiness (p < 0.01). There were no differences in other secondary endpoints. A phase III randomised trial of HS-WBRT was shown not to be feasible at this time in the UK. As most randomised trials of HS-WBRT reported to date share common endpoints, including NCF, an individual patient data meta-analysis should be undertaken. • Changes in clinical practice away from whole brain radiotherapy necessitated early trial closure. • No significant differences in any neurocognitive outcomes were observed. • Compliance with serial neurocognitive function assessments was high. • Patients in the hippocampal sparing arm had significantly less insomnia and drowsiness. [ABSTRACT FROM AUTHOR]

Published

2024

43. Cerebrospinal fluid cytology in a case of epithelioid glioblastoma.

Author

Homma, Taku, Suzuki, Tomonari, Kato, Tomomi, Shirahata, Mituaki, and Mishima, Kazuhiko

Subjects

*GLIAL fibrillary acidic protein, *TRANSCRIPTION factors, *BRAIN tumors, *TELOMERASE reverse transcriptase, *MITOGEN-activated protein kinases, *METHYLGUANINE, *RHINORRHEA, *BRAIN death

Abstract

Epithelioid glioblastoma (eGB) is a rare and aggressive brain tumor that primarily affects children and young adults. This article presents a case study of a young adult male with eGB, describing the characteristics of the tumor and the genetic alterations commonly found in eGB. The patient had a poor prognosis and died four months after diagnosis. The article emphasizes the importance of recognizing and studying this rare subtype of glioblastoma to improve patient care and prognosis. Treatment options for eGB include BRAF and MEK inhibitor combination therapy. [Extracted from the article]

Published

2024

44. Enhancing EfficientNetv2 with global and efficient channel attention mechanisms for accurate MRI-Based brain tumor classification.

Author

Pacal, Ishak, Celik, Omer, Bayram, Bilal, and Cunha, Antonio

Subjects

*COMPUTER-aided diagnosis, *CANCER diagnosis, *BRAIN cancer diagnosis, *MAGNETIC resonance imaging, *BRAIN tumors, *DEEP learning

Abstract

The early and accurate diagnosis of brain tumors is critical for effective treatment planning, with Magnetic Resonance Imaging (MRI) serving as a key tool in the non-invasive examination of such conditions. Despite the advancements in Computer-Aided Diagnosis (CADx) systems powered by deep learning, the challenge of accurately classifying brain tumors from MRI scans persists due to the high variability of tumor appearances and the subtlety of early-stage manifestations. This work introduces a novel adaptation of the EfficientNetv2 architecture, enhanced with Global Attention Mechanism (GAM) and Efficient Channel Attention (ECA), aimed at overcoming these hurdles. This enhancement not only amplifies the model's ability to focus on salient features within complex MRI images but also significantly improves the classification accuracy of brain tumors. Our approach distinguishes itself by meticulously integrating attention mechanisms that systematically enhance feature extraction, thereby achieving superior performance in detecting a broad spectrum of brain tumors. Demonstrated through extensive experiments on a large public dataset, our model achieves an exceptional high-test accuracy of 99.76%, setting a new benchmark in MRI-based brain tumor classification. Moreover, the incorporation of Grad-CAM visualization techniques sheds light on the model's decision-making process, offering transparent and interpretable insights that are invaluable for clinical assessment. By addressing the limitations inherent in previous models, this study not only advances the field of medical imaging analysis but also highlights the pivotal role of attention mechanisms in enhancing the interpretability and accuracy of deep learning models for brain tumor diagnosis. This research sets the stage for advanced CADx systems, enhancing patient care and treatment outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

45. Nanotechnology-enabled therapies improve blood-brain barrier challenges in brain tumor.

Author

Wenqi, Yan, Lingxi, Wei, Mehmood, Arshad, and Shah, Wahid

Subjects

*BRAIN tumors, *BLOOD-brain barrier, *NANOTECHNOLOGY, *BIOLOGY, *DRUG therapy

Abstract

The treatment of brain tumors has been predominantly hindered by the limited ability of drugs to penetrate the blood-brain barrier. However, recent advancements in nanotechnology have presented a therapeutic potential by facilitating the delivery of drugs and macromolecules across the blood-brain barrier. These nanotechnology-enabled treatments target tumor cells, exploit tumor biology, enhance the pharmacokinetic properties of drugs, and minimize off-target side effects. Nanotechnology provides efficacy and safety of nano-enabled therapies for treating brain tumors. HIGHLIGHTS: Nanotechnology-enabled therapies offer potential for blood-brain barrier challenges. Nanotechnology-enabled therapies facilitate drug and macromolecule delivery to the brain. Nanotechnology enables targeted delivery to tumor cells, leveraging tumor biology. Nanotechnology improves pharmacokinetics and reduces off-target side-effects. Nanotechnology offers efficacy and safety of nano-enabled therapies for brain tumors. [ABSTRACT FROM AUTHOR]

Published

2024

46. Hybrid similarity measure-based image indexing and Gradient Ladybug Beetle optimization for retrieval of brain tumor using MRI.

Author

Sudhish, Dhanya K., Nair, Latha R., and Sivan, Shailesh

Subjects

*CONVOLUTIONAL neural networks, *DISCRETE wavelet transforms, *BRAIN tumors, *MAGNETIC resonance imaging, *IMAGE retrieval

Abstract

Clinical images of brain tumors (BT) are crucial in the diagnostic process and contain substantial medical information. In neurosurgery and neurology, AI's application in retrieving and analyzing brain tumors leads to earlier, more accurate diagnoses and improves treatment planning. However, the accuracy of the existing methods for the physical retrieval of similar images needs to be improved. This paper introduces Gradient Ladybug Beetle Optimization-based LeNet (GLBO-LeNet) for the retrieval of brain tumor magnetic resonance images (MRI) from the medical datasets. This approach processes both input MRI images and query MRIs using the same pipeline. Tumor segmentation process is performed on these images using a 3D Convolutional Neural Network (CNN). Features are extracted from segmented images, incorporating a novel feature extraction method, LTDP based on Discrete Wavelet Transform (DWT) with Pyramid Histogram of Orientation (PHoG). The extracted features are utilized for tumor classification using LeNet-5, tuned by Gradient Ladybug Beetle Optimization (GLBO). The classified outputs from input MRI images are indexed in an image database. Similar images are retrieved and ranked using a proposed hybrid similarity measure, enabling efficient brain MRI image retrieval. In this study, the GLBO-LeNet-based brain tumor MRI retrieval system achieved an accuracy of 91.5%, a Prue-positive rate (TPR) of 91.9%, a True-negative rate (TNR) of 92.5%, a Positive predictive value (PPV) of 90.8% and a Negative predictive value (NPV) of 89.4%. [ABSTRACT FROM AUTHOR]

Published

2024

47. Identifying adeno‐associated virus (AAV) vectors that efficiently target high grade glioma cells, for in vitro monitoring of temporal cell responses.

Author

Sarker, Farhana A., Chen, Yuyan, Westhaus, Adrian, Lisowski, Leszek, and O'Neill, Geraldine M.

Subjects

BRAIN tumors, CANCER cell growth, GENETIC drift, YAP signaling proteins, GENETIC transcription, CANCER cell culture

Abstract

To improve the translation of preclinical cancer research data to successful clinical effect, there is an increasing focus on the use of primary patient‐derived cancer cells with limited growth in culture to reduce genetic and phenotype drift. However, these primary lines are less amenable to standardly used methods of exogenous DNA introduction. Adeno‐associated viral (AAV) vectors display tropism for a wide range of human tissues, avidly infect primary cells and have a good safety profile. In the present study, we therefore used a next‐generation sequencing (NGS) barcoded AAV screening method to assess transduction capability of a panel of 36 AAVs in primary cell lines representing high‐grade glioma (HGG) brain tumours including glioblastoma (GBM) and diffuse intrinsic pontine glioma (DIPG)/diffuse midline glioma (DMG). As proof of principle, we created a reporter construct to analyse activity of the transcriptional co‐activators yes‐associated protein (YAP) and transcriptional co‐activator with PDZ‐binding motif (TAZ). Transcriptional activation was monitored by promoter‐driven expression of the Timer fluorescent tag, a protein that fluoresces green immediately after transcription and transitions to red fluorescence over time. As expected, attempts to express the reporter in primary HGG cells from plasmid expression vectors were unsuccessful. Using the top candidate from the AAV screen, we demonstrate successful AAV‐mediated transduction of HGG cells with the YAP/TAZ dynamic activity reporter. In summary, the NGS‐screening approach facilitated screening of many potential AAVs, identifying vectors that can be used to study the biology of primary HGG cells. [ABSTRACT FROM AUTHOR]

Published

2024

48. Automatic removal of large blood vasculature for objective assessment of brain tumors using quantitative dynamic contrast‐enhanced magnetic resonance imaging.

Author

Kesari, Anshika, Yadav, Virendra Kumar, Gupta, Rakesh Kumar, and Singh, Anup

Subjects

CONTRAST-enhanced magnetic resonance imaging, CEREBRAL circulation, MAGNETIC resonance imaging, RECEIVER operating characteristic curves, TUMOR classification, BLOOD volume, BRAIN tumors

Abstract

The presence of a normal large blood vessel (LBV) in a tumor region can impact the evaluation of quantitative dynamic contrast‐enhanced magnetic resonance imaging (DCE‐MRI) parameters and tumor classification. Hence, there is a need for automatic removal of LBVs from brain tissues including intratumoral regions for achieving an objective assessment of tumors. This retrospective study included 103 histopathologically confirmed brain tumor patients who underwent MRI, including DCE‐MRI data acquisition. Quantitative DCE‐MRI analysis was performed for computing various parameters such as wash‐out slope (Slope‐2), relative cerebral blood volume (rCBV), relative cerebral blood flow (rCBF), blood plasma volume fraction (Vp), and volume transfer constant (Ktrans). An approach based on data‐clustering algorithm, morphological operations, and quantitative DCE‐MRI maps was proposed for the segmentation of normal LBVs in brain tissues, including the tumor region. Here, three widely used data‐clustering algorithms were evaluated on two types of quantitative maps: (a) Slope‐2, and (b) a new proposed combination of rCBV and Slope‐2 maps. Fluid‐attenuated inversion recovery‐MRI hyperintense lesions were also automatically segmented using deep learning‐based architecture. The accuracy of LBV segmentation was qualitatively assessed blindly by two experienced observers, and Likert scoring was also obtained from each individual and compared using Cohen's Kappa test, and multiple statistical features from quantitative DCE‐MRI parameters were obtained in the segmented tumor. t‐test and receiver operating characteristic (ROC) curve analysis were performed for comparing the effect of removal of LBVs on parameters as well as on tumor grading. k‐means clustering exhibited better accuracy and computational efficiency. Tumors, in particular high‐grade gliomas (HGGs), showed a high contrast compared with normal tissues (relative % difference = 18.5%) on quantitative maps after the removal of LBVs. Statistical features (95th percentile values) of all parameters in the tumor region showed a statistically significant difference (p < 0.05) between with and without LBV maps. Similar results were obtained for the ROC curve analysis for differentiation between low‐grade gliomas and HGGs. Moreover, after the removal of LBVs, the rCBV, rCBF, and Vp maps show better visualization of tumor regions. [ABSTRACT FROM AUTHOR]

Published

2024

49. Efficient brain tumor grade classification using ensemble deep learning models.

Author

M, Sankar, BV, Baiju, D, Preethi, S, Ananda Kumar, Mathivanan, Sandeep Kumar, and Shah, Mohd Asif

Subjects

MACHINE learning, TUMOR classification, MAGNETIC resonance imaging, BENIGN tumors, THREE-dimensional imaging, BRAIN tumors

Abstract

Detecting brain tumors early on is critical for effective treatment and life-saving efforts. The analysis of the brain with MRI scans is fundamental to the diagnosis because it contains detailed structural views of the brain, which is vital in identifying any of its abnormalities. The other option of performing an invasive biopsy is very painful and uncomfortable, which is not the case with MRI as it is free from surgically invasive margins and pieces of equipment. This helps patients to feel more at ease and hasten the diagnostic procedure, allowing physicians to formulate and practice action plans quicker. It is very difficult to locate a human brain tumor by manual because MRI scans produce large numbers of three-dimensional images. Complete applicability of pre-written computerized diagnostics, affords high possibilities in providing areas of interest earlier through the application of machine learning techniques and algorithms. The proposed work in the present study was to develop a deep learning model which will classify brain tumor grade images (BTGC), and hence enhance accuracy in diagnosing patients with different grades of brain tumors using MRI. A MobileNetV2 model, was used to extract the features from the images. This model increases the efficiency and generalizability of the model further. In this study, six standard Kaggle brain tumor MRI datasets were used to train and validate the developed and tested model of a brain tumor detection and classification algorithm into several types. This work consists of two key components: (i) brain tumor detection and (ii) classification of the tumor. The tumor classifications are conducted in both three classes (Meningioma, Pituitary, and glioma) and two classes (malignant, benign). The model has been reported to detect brain tumors with 99.85% accuracy, to distinguish benign and malignant tumors with 99.87% accuracy, and to type meningioma, pituitary, and glioma tumors with 99.38% accuracy. The results of this study indicate that the described technique is useful in the detection and classification of brain tumors. [ABSTRACT FROM AUTHOR]

Published

2024

50. Conserving a sense of self despite significantly impaired short-term memory through songwriting and formative events.

Author

Thorpe, Amanda J

Subjects

BRAIN physiology, MUSIC, PATIENT autonomy, GROUP identity, MUSIC therapy, FATIGUE (Physiology), LEARNING, DECISION making, EMOTIONS, ATTITUDE (Psychology), SPECIAL days, MEMORY, BRAIN injuries, SHORT-term memory, AFFECT (Psychology), SELF-perception, MEMORY disorders, WRITTEN communication, BRAIN tumors, HEALTH care teams

Abstract

This case study reflects on the use of improvisation and songwriting to support a patient with significantly impaired short-term memory and long-term memory interference as a result of acquired brain injury. Memory has long been associated with personal identity, linking the past with the present, and enabling us to project into the future. This continuity of consciousness helps us to learn from, and make sense of our experiences, strengthening our internal representation of self. Disruption to short-term memory can significantly impact decision making, planning and initiation, all of which are key components of personal identity and self-expression. Supporting patient autonomy and self-expression through improvisation, and crafting lyrical content around personal preferences and events, sessions were designed to bolster his internalised sense of self through both revisiting old memories and facilitating new memory formation within the present. While short-term memory has been considered a conduit to long-term memory consolidation, and integral to the individual's self-expression, this case study implies short-term memory was neither the gatekeeper to formation of long-term memories, nor critical to maintaining a sense of self, and reflects on how music helped the client create and access new learning beyond procedural memories, anchoring the self in newly internalised self-expression. [ABSTRACT FROM AUTHOR]

Published

2024