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NCT07532031
High-grade gliomas are the most common primary malignant brain tumors and are characterized by infiltration of the surrounding brain tissue beyond the visible tumor margins. This infiltrative growth represents a major challenge for treatment planning and contributes to tumor recurrence. Conventional magnetic resonance imaging (MRI) is limited in its ability to distinguish tumor infiltration from non-tumoral changes such as vasogenic edema in the peri-tumoral region. This prospective single-center observational study aims to improve the characterization of the peri-tumoral microenvironment in patients with suspected high-grade gliomas using advanced MRI techniques, including amide proton transfer-weighted (APTw) imaging and diffusion tensor imaging (DTI). These techniques provide complementary information about tissue composition and microstructure and may help identify areas of tumor infiltration that are not visible on conventional imaging. APTw- and DTI-derived maps will be combined to generate imaging-derived maps describing the likelihood of tumor infiltration within the peri-tumoral region. These maps will be compared with histopathological findings obtained from tissue samples collected during biopsy or tumor resection performed as part of standard clinical care. Histological analyses will include assessment of tumor cellularity using hematoxylin and eosin staining and additional immunohistochemical markers routinely used in neuropathological evaluation. Patients will undergo routine clinical follow-up and the prognostic significance of the imaging-derived map will be assessed. The overall goal of the study is to develop and validate imaging-based biomarkers capable of identifying infiltrated tissue within the peri-tumoral region. These findings may contribute to improved diagnostic accuracy and support future treatment planning strategies in patients with high-grade gliomas.
NCT06962215
The goal of this clinical trial is to demonstrate that simulation training for paramedical staff in neurosurgery departments, in announcing and accompanying patients with a brain tumor, improves patient satisfaction when a (potentially malignant) brain tumor is discovered, compared with usual care. The main question it aims to answer is: \- Are patients more satisfied (as measured by scores on the EORCT IN-PATSAT32 questionnaire) with their neurosurgical hospitalization following the discovery of a brain tumor in centers where paramedics have been trained by simulation? Researchers will compare the results of the EORTC IN-PATSAT32 questionnaire to determine whether paramedic training improves patient satisfaction between simulation-trained and untrained centers. Participants will be asked to complete the EORT IN-PATSAT32 questionnaire at the end of their hospital stay.
NCT07471100
The goal of this clinical trial is to learn whether Neuromodulation-Induced-Cortical-Prehabilitation (NICP)-using physical therapy (constraint-induced movement training, CIM) alone or combined with repetitive transcranial magnetic stimulation (rTMS)-can promote motor-cortex neuroplasticity before surgery in adults with high-grade gliomas near the motor pathway. It will also learn about the feasibility and safety of these prehabilitation strategies around the time of surgery. The main questions it aims to answer are: 1. Does CIM (with or without rTMS) produce measurable motor-cortex plasticity from baseline to pre-surgery as assessed by neuronavigated TMS (nTMS)? 2. Does adding rTMS to CIM lead to greater neuroplastic changes than CIM alone? 3. What clinical, radiological, and neurophysiological outcomes are observed after surgery in participants who receive prehabilitation compared with controls? Researchers will compare standard care (control) vs CIM-based physical therapy vs CIM plus rTMS to see if these approaches induce preoperative neuroplastic changes that may support better surgical outcomes. Participants will: 1. Be randomized to one of three groups: control, CIM physical therapy, or CIM + rTMS• Undergo nTMS motor mapping and excitability testing at baseline (T0) and the day before surgery (T1) 2. Undergo planned tumor surgery (according to standard methods of care) and complete postoperative clinical, imaging, and neurophysiological follow-up assessments.
NCT07186556
The goal of this research study is to learn about the effects of the RISE-YA intervention on cancer-related fatigue in young adults who are brain cancer survivors.
NCT07413796
The purpose of this study is to compare two commonly used methods of closing the skin after surgery for an intracranial tumor. Skin closure is one of the most important steps in neurosurgical procedures, as it has a major influence on how well the wound heals. In patients with brain tumors, proper wound healing is especially important because it may affect how soon additional treatments, such as radiotherapy or chemotherapy, can be started. There are different ways to close the skin after surgery, including running sutures and interrupted sutures. Both methods are widely used and considered safe. However, in oncological neurosurgery, there is limited scientific evidence comparing their effects, and the choice of technique is often based on the surgeon's personal experience. In this study, investigators will compare skin closure using running absorbable sutures with interrupted non-absorbable sutures. Investigators will evaluate how well, depending on used suturing methods, the wound heals and how often wound-related complications occur, such as infection, separation of the wound edges, or leakage of cerebrospinal fluid. Investigators believe that the results of this study will help improve wound care in patients undergoing neurosurgical treatment for brain tumors and, as a result, may contribute to better recovery and overall quality of life.
NCT07042620
The objective of this clinical investigation is to assess the safety and performance of the SonoClear® System. Performance will be assessed by analysis of the contrast-to-noise ratio (CNR) and assessment of image quality by using the Surgeon Image Rating (SIR) Scale. This is a prospective, multi-centre single arm study where the performance of the SonoClear® System relative to routinely used acoustic coupling fluid is investigated by each patient being their own control. Patients with the diagnosis of high-grade glioma (HGG) and low-grade glioma (LGG) at up to 5 sites in Germany will be included. Additionally, safety data are collected at 72 hours, 30 days and 6 months post procedure.
NCT07390539
The purpose of this research study is to test the safety and effectiveness of a cell therapy at different doses for children and young adults with recurrent or progressive brain tumors. Recurrent/recurred means a tumor that has gone away and then came back. This cell therapy is called B7- H3.CD28Z.CART, referred to as B7-H3 CAR T cells. B7-H3 is a protein that is over-expressed on many tumor cells, making it a good target for cancer cell therapy. The names of the study investigational therapies involved in this study are: * Fludarabine (a type of chemotherapy) * Cyclophosphamide (a type of chemotherapy) * B7-H3 CAR T cells (a type of cellular therapy)
NCT07225101
This research is studying a device already approved by the Food and Drug Administration (FDA) to treat wound closures. Researchers are studying a large group of people to continue to learn information about the safety of the STRATAFIX suture and how people's bodies react to using it over a long period of time. This research will provide additional information about using STRATAFIX sutures to close surgical wounds.
NCT07198256
This study aims to establish a large-scale, multi-center MRI database for malignant brain tumors. It will develop an artificial intelligence system for the segmentation and classification of multiple subtypes of brain tumors (including glioma, metastatic tumor and lymphoma et al.) using deep learning technology. This will address the issues of small sample sizes and limited classification performance in existing methods, thereby improving the accuracy of non-invasive preoperative diagnosis, reducing the need for biopsies, and having significant clinical translational value.
NCT06391294
Electrocortical stimulation (ECS) mapping is a procedure used during brain surgeries, for example when treating diseases like epilepsy or when removing brain tumors. ECS mapping helps surgeons locate areas of the cerebral cortex (the outer part of the brain) that are important for everyday tasks like movement and speech. ECS mapping has been used for decades, and is considered the "gold-standard" tool for locating important areas of cortex. Despite this long history, there is still no clear understanding of exactly how ECS works. The goal of this study is to learn details about the effects ECS has on the brain. The main questions the study aims to answer are: 1) how ECS affects the neurons of the cortex at the stimulation site; and 2) how ECS impacts brain regions that are critically important for human speech and language. These so-called "critical sites" can be physically distant from one another on the brain's surface, requiring extensive ECS mapping and long surgeries. Critical sites are thought to be part of a speech/language network of brain areas, and so the study's goal is to learn about how they are connected. In some participants, the brain's surface will also be slightly cooled. This is a painless procedure that does not harm the brain's function, but could provide insight as to which parts of the brain (the surface, or deeper parts) are responsible for the effects of ECS. By improving the understanding of how ECS affects the brain and improving the ability to identify critical sites, this study could potentially lead to shorter surgeries and better outcomes for future individuals who need this care. Participants will be recruited from among individuals who are undergoing brain surgery for epilepsy treatment or tumor removal. Participants will complete simple tasks like reading words or naming pictures, similar to standard testing that is already performed during their hospital stay.
NCT03731455
The WIN Study is a prospective, interventional, multi-center, open-label premarket study designed to confirm the safety, performance and intended use of the WISE Cortical Strip (WCS) for CE certification purposes. Participants with documented diagnosis of epilepsy or brain tumor requiring intracranial surgery, who meet all eligibility criteria, will undergo IntraOperative Neurophysiological Monitoring (IONM) during a neurosurgical intervention with the WCS and a comparator device.
NCT03213002
The purpose of this study is to evaluate the safety and efficacy of administering the medication capecitabine along with temozolomide when you start your monthly regimen of oral temozolomide for the treatment of your newly diagnosed glioblastoma multiforme (GBM). Capecitabine is an oral chemotherapy that is given to patients with other types of cancer. The study will evaluate whether the dosage of 1500 mg/m2 of capecitabine is tolerable after radiation, when taken along with temozolomide. It will also try to determine if the medication capecitabine helps patients respond to treatment for a longer period of time compared to just temozolomide alone, which is the standard of care.
NCT06796335
Caring for a loved one with a serious illness like acquired brain injury (ABI) or primary malignant brain tumors (PMBT) can be a challenging and burdensome experience, often affecting the well-being and quality of life of relatives. While family and friends can provide some support, this is not always enough to address the diverse needs of caregivers. Relatives often have different requirements for support, information, and involvement in the patient's care. Understanding these varying needs is key to ensuring both the patient and their caregivers are effectively supported during the illness journey. This study aims to develop and test an intervention that helps healthcare professionals better support relatives in their caregiving role. The intervention uses a dialogue tool, which is designed to help nurses assess and follow up on the differing needs of relatives for involvement in the care of patients with ABI and PMBT. The goal is to enhance the experience of both the patient and their caregivers throughout the illness process. The study will take place across seven units in two regions of Denmark, and it involves relatives of patients with ABI or PMBT. The main questions the study aims to answer are: * Can an intervention that involves relatives improve their role in the care of patients with ABI and PMBT? * Will this intervention help both patients and their relatives feel more supported and satisfied during the treatment process? Participants will receive support through an intervention that includes several key components: * Nurse training on how to use the dialogue tool to assess and address the varying needs of relatives for involvement. * A list created by relatives, for relatives, to share experiences and advice with one another. * Video materials explaining the background and purpose of the intervention to help relatives understand how it can benefit them. * Guidelines for documenting the involvement of relatives in the patient's electronic health record. By offering targeted support to relatives, this intervention aims to enhance their involvement in the treatment process, ensuring that both patients with ABI or PMBT and their families are better supported throughout the course of the illness.
NCT04742231
The primary purpose of this study is to assess the feasibility, safety and reliability of the use of handheld dynamometry in evaluating intraoperative motor function for patients undergoing awake craniotomy for the resection of brain lesions located within or adjacent to the motor cortex.
NCT04390906
Cranial radiation therapy (RT), commonly used to treat benign and malignant brain tumors, can lead to cognitive impairments in domains not related to neuroanatomic structures directly impacted by the tumor. The study will prospectively enroll 75 patients with benign and low-grade brain tumors who will undergo partial brain RT, with either conventionally fractionated or hypofractionated schedules. Subjects will receive MRI scans at baseline, 6 months, and 12 months. Given the role of the limbic system in key cognitive functions affected by RT, researchers have a particular interest in characterizing MRI changes in the limbic system and thalamus in relation to memory and related processes. Specific Aims: 1. To examine objective neurocognitive changes over time. The investigators hypothesize that they will see RT-induced neurocognitive impairment in up to 50% of patients after cranial RT. 2. To examine changes in brain tissue (via MRI) induced by off-target RT in patients with benign and low-grade brain tumors. The investigators specifically hypothesize that comapping of RT dose and MRI changes in the thalamus and limbic system (i.e., thalamic nuclei, hippocampus, fornix, hypothalamus/mammillary bodies, limbic lobe, cingulum) will be most distorted by off-target RT. 3. To examine the relationship between MRI changes for key neuroanatomic structures identified in Aim 1 with objective neurocognitive testing. The investigators hypothesize that cognitive decline will be correlated with damage revealed by MRI to limbic and thalamic structures. This research will help to define which neuroanatomic structures are most at risk from RT-induced damage and will help ultimately establish new dose constraint guidelines for important structures to improve cognitive outcomes.
NCT06776666
This study investigates the efficacy of pulse pressure variation (PPV) compared to central venous pressure (CVP) in guiding fluid management during intracranial tumor surgeries. Perioperative fluid therapy is critical to prevent complications arising from both hypovolemia (e.g., hypotension, tissue hypoperfusion, ischemia) and hypervolemia (e.g., pulmonary edema, delayed wound healing, infection). Traditional fluid therapy relies on static parameters such as CVP, which have limited sensitivity and specificity. Emerging technologies and dynamic parameters, including PPV and stroke volume variation (SVV), offer higher accuracy in evaluating fluid responsiveness. This randomized study includes 42 patients, aged 18-65 years, undergoing elective intracranial tumor surgery under general anesthesia. Patients are classified as ASA I-III and are randomized into two groups: 1. Group N: Fluid therapy guided by PPV. 2. Group S: Fluid therapy guided by CVP. The study follows standard perioperative protocols, with PPV (\>13%) and CVP (0-6 mmHg) used as primary parameters for fluid administration. Key outcomes include intraoperative fluid requirements (primary) and secondary parameters such as serum lactate levels, incidence of hypotension, brain relaxation scores, and ICU length of stay. PPV has been shown to be more reliable than CVP in predicting fluid responsiveness, particularly in mechanically ventilated patients with tidal volumes ≥8 mL/kg. However, its efficacy in neurosurgical patients remains underexplored. This study aims to determine if PPV can replace CVP as a superior guide for fluid therapy, enhancing patient outcomes and minimizing complications.
NCT04725032
Intraoperative flash visual evoked potentials (FVEPs) could monitor visual function during neurosurgery. There are fewer reports comparing the effects of sevoflurane-propofol balanced anesthesia and propofol-based total intravenous anesthesia under comparable bispectral index (BIS) levels on the amplitude and latency of flash visual evoked potentials (FVEPs) for sellar or parasellar tumors resection neurosurgeries.
NCT02599142
Patients having radiotherapy to their head and neck wear an immobilisation shell to prevent patient movement and improve treatment accuracy. These shells tend to cover the face and have the potential to cause anxiety and distress in patients, particularly if they suffer with claustrophobia or a similar fear. The study will use an 'open-face' shell that does not cover the face and compare this with the investigators' current 'closed-face' shell. The investigators will obtain treatment verification x-ray images to assess the daily set-up errors and compare these between the two shell type, and ask both patients and radiographers of their experiences from using the shells. Hypothesis: Open-face immobilisation shells offer equivalent accuracy and efficiency of radiotherapy delivery and are better accepted by patients and radiographers as compared to closed-face immobilisation shells for cranial radiotherapy.
NCT04113278
The study population was selected from high grade glioma pateints attending the Department of Clinical Oncology, Assiut University hospital during the period from December 2018 to September 2020, we analyzed human high grade gliomas paraffin block for FLG2 expression