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NCT06176066 · University of California, Los Angeles

PH Sensitive MRI Based Resections of Glioblastoma

What this study is about

Current the usual treatment therapy and all FDA approved adjuvant therapy for glioblastoma continue to provide less than 12 months of time without the disease getting worse (PFS) and less than 24 months of how long patients live (OS).

View original scientific description

Current standard of care therapy and all FDA approved adjuvant therapy for glioblastoma continue to provide less than 12 months of progression free survival (PFS) and less than 24 months of overall survival (OS). There is an extreme need for any novel therapy against glioblastoma that increases progression free survival and overall survival in patients diagnosed with this invasive form of cancer. A significant reason for such a poor prognosis is the infiltrative nature of this tumor in non-enhancing regions (NE) beyond the central contrast-enhancing (CE) portion of tumor, which is difficult to visualize and treat with surgical, medical, or radiotherapeutic means. Since tumor cells exhibit abnormal metabolic behavior leading to extracellular acidification, we theorize a newly developed pH-sensitive MRI technique called amine chemical exchange saturation transfer echoplanar imaging (CEST-EPI) may identify infiltrating NE tumor beyond what is clear on standard MRI with gadolinium contrast. This phase I safety study will use use intraoperative CEST-EPI guided resections in glioblastoma at increasing distances from areas of CE tumor to test whether this technique is safe and can remove additional areas of infiltrative NE tumor. The primary objective of this study is to assess the safety of pH-sensitive amine CEST-EPI guided resections for glioblastoma.The secondary objectives of this study include: 1. A preliminary efficacy analysis of CEST-EPI guided resections in extending progression free and overall survival. 2. To confirm that resected tissue obtained from pH-sensitive amine CEST-EPI guided resections contain infiltrating NE tumor. The primary endpoint for this study will be safety of resecting "CEST positive", acidic regions within T2 hyperintense regions of glioblastoma thought to contain active NE tumor at increasing distances from contrast enhancing tumor with development of a recommended maximal tolerated resection. 1. At the maximal tolerated resection, a preliminary efficacy study with endpoints of progression free survival (as defined by RANO Resect 2.0) 1 and overall survival. 2. Quantitation of infilitrating tumor burden on CEST-EPI resected tissue using immunohistochemical staining. 12 patients up to 24 patients based on resection limiting toxicities with potential expansion of up to 16 patients at the maximum tolerated resection. Inclusion Criteria: 1. Must be able to provide written informed consent 2. Male or female \> 18 years of age 3. Karnofsky Performance Scale (KPS) \> 70 (indicating good performance status). 4. Individuals with suspected, newly diagnosed or recurrent IDH wild type WHO IV glioblastoma (intraxial, expansile contrast-enhancing mass without evidence of metastatic disease. This will be reviewed by UCLA neuroradiology to only include patients with high likelihood of GBM) Exclusion Criteria: 1. Pediatric patients 2. Diagnostic uncertainty (reviewed by UCLA neuroradiology history extracranial malignancy or autoimmune disease) 3. Medical conditions that make patients a poor candidate for anesthesia and/or surgery (decision for surgery will follow standard pre-operative clearance guidelines and will not differ for this specific study from standard of care treatment plan) 4. Involvement of eloquent areas (as defined by MRI signal clearly involving areas that would lead to a qualifying neurologic deficit as defined in surgical limiting toxicity - this will specifically include: 1) primary motor cortex, 2) primary sensory cortex, 3) sensorimotor fibers as defined on pre-operative diffusion tensor imaging, 4) primary language areas (Broca, Wernicke), 5) arcuate fasiculus as defined on pre-operative diffusion tensor imaging Pre-operative: Standard of care pre-operative MRI including perfusion and pH-weighted amine CEST-EPI (which will add up to 15 minutes of scan time) for a single pre-operative exam prior to surgery. Surgery: 1 day (subjects to be admitted to the hospital) Follow-up: inpatient stay (1-3 days), 2 week clinical assessment (outpatient post-op clinic visit). MRI and clinical assessment at 4 weeks (end of resection limited toxicity window). Following this, there will be standard of care follow up with MRI and clinical assessment starting at 8 weeks +/- 4 weeks (per RANO 2.0). 1 Total study duration for recruitment, enrollment, and study completion of all subjects is up to 2 years. Single-arm, surgical resection escalation safety trial with a preliminary efficacy study at the maximal tolerated resection This safety evaluation will mimic a phase 1 dose escalation safety study using a rule based approach on based on a i3+3 design.2 Using standard of care resection of contrast enhancement as the baseline, we will begin with 3 subjects with maximal resection + "CEST positive" areas 0.7 cm from the contrast enhancing boundary within areas of T2 hyperintensity.

Interventions

PROCEDURE

CEST PH MRI based resection of glioblastoma

Using pre-operative amine chemical exchange saturation transfer pH weighted MRI, regions of interest that correspond to infiltrating glioblastoma will be identified and via intraoperative neuronavigation, guide resection of glioblastoma

Primary outcome measures

Resection limiting toxicities

Time frame: 2 months

Given the surgical nature of the trial, surgical AEs or RLTs will be pre-determined for monitoring. These will be compared to the standard of care protocols for surgery for glioblastoma. To qualify as a resection limiting toxicity, this must be diagnosed using imaging and/or laboratory analysis and must require intervention (IV antibiotics, repeat surgery). Surgical Events (see full protocol for full details) Infection, hemorrhage, seizure, cerebral edema, hydrocephalus, venous sinus thrombosis, ischemic infarct, unexpected significant qualifying (see full protocol for details) neurological deficit

Who can participate

This study lists these criteria on ClinicalTrials.gov. A study coordinator reviews eligibility during screening — this page does not determine whether you qualify.

Inclusion criteria

  • Male or female ≥ 18 years of age.
  • Written informed consent (and assent when applicable) obtained from subject or subject's legal representative and ability for subject to comply with the requirements of the study.
  • Karnofsky Performance Scale (KPS) \> 70 (indicating good performance status).
  • Individuals with suspected, newly diagnosed or recurrent IDH wild type WHO IV glioblastoma (intraxial, expansile contrast-enhancing mass without evidence of metastatic disease. This will be reviewed by UCLA neuroradiology to only include patients with high likelihood of GBM)

Exclusion criteria

  • Male or female \< 18 years of age
  • Presence of a condition or abnormality that in the opinion of the Investigator would compromise the safety of the patient or the quality of the data.
  • Not medically cleared for surgery as defined by standard pre-operative neurosurgery guidelines for open craniotomy for resection (not-biopsy) of tumor.
  • Involvement of eloquent areas (as defined by MRI signal clearly involving areas that would lead to a qualifying neurologic deficit as defined in surgical limiting toxicity - this will specifically include: 1) primary motor cortex, 2) primary sensory cortex, 3) sensorimotor fibers as defined on diffusion tensor imaging, 4) primary language areas (Broca, Wernicke), 5) arcuate fasiculus as defined on diffusion tensor imaging

Where

  • Los Angeles, California

Collaborators

Tower Cancer Research Foundation

Related conditions & keywords

Glioblastomamagnetic resonance imagingadvanced imagingsurgical oncology

Frequently asked questions

What is a clinical trial?

A clinical trial is a research study that tests new medical treatments, drugs, devices, or procedures to determine their safety and effectiveness. Trials are carefully designed and monitored to protect participants while advancing medical knowledge.

Is it safe to participate?

Clinical trials follow strict safety guidelines and ethical standards. Trials must be reviewed and approved, and participants are closely monitored by medical professionals throughout the study. You can withdraw at any time if you choose.

Will I be compensated?

Many clinical trials offer compensation for your time, travel expenses, and inconvenience. The specific compensation varies by study and will be discussed during the screening process. All study-related medical care is typically provided at no cost to participants.

Will I receive a placebo instead of treatment?

When effective treatment exists, participants typically receive either the standard treatment plus the study intervention, or the standard treatment plus placebo. You would not be denied effective care. Placebos are primarily used when no proven treatment is available, or in addition to standard care. Your trial consent form will clearly explain what treatments you may receive.

Can I leave a trial if I change my mind?

Absolutely. Participation in clinical trials is completely voluntary. You have the right to withdraw from the study at any time, for any reason, without penalty or loss of benefits to which you are otherwise entitled.

How long does a clinical trial last?

Trial duration varies widely depending on the study design and purpose. Some trials last just a few weeks, while others may continue for months or years. The study coordinator will provide specific timeline information during your screening call.

Data: ClinicalTrials.gov · synced May 4, 2026 · Source of record for eligibility and locations

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1 of 18 participants interested
6% interest

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RECRUITING

Los Angeles

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What participation can include

  • Study-related care provided by the research team
  • Close monitoring by medical professionals
  • Possible compensation for time and travel*
  • The option to withdraw at any time
  • Contributing to medical research that may help future patients

*Compensation varies by study. Confirm details with coordinator.

Typical next steps

  1. 1.Submit this form
  2. 2.Phone screening
  3. 3.In-person assessment if eligible
  4. 4.Begin participation

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Glioblastoma Treatment Options in Los Angeles, California

If you're searching for Glioblastoma treatment in Los Angeles, participating in a clinical research study may provide access to innovative approaches under expert medical supervision. This study is actively recruiting participants in Los Angeles and surrounding areas.

Clinical trials offer participants the opportunity to receive cutting-edge treatments while contributing to medical research that may help future patients with Glioblastoma. All study-related care is provided at no cost to participants.

Local Sites
1 locations in California
Now Enrolling
Up to 18 participants
Quick Start
Screening available now

Why Consider a Clinical Trial for Glioblastoma?

Potential Benefits

  • Access to new treatment approaches before public availability
  • Close monitoring by experienced medical professionals
  • Study-related care provided at no cost
  • Contribute to medical research for Glioblastoma

What to Expect

  • Initial screening to determine eligibility
  • Regular check-ups and monitoring visits
  • Possible compensation for time and travel
  • You can withdraw at any time

Frequently Asked Questions About This Glioblastoma Study

Important Clinical Trial Information

This information is provided for educational purposes and does not constitute medical advice. Clinical trial participation involves potential risks and benefits. Eligibility requirements apply and will be assessed during the screening process.

Study identifier: NCT06176066. For complete study details, visit ClinicalTrials.gov. Always consult with your healthcare provider before making decisions about your medical care or participating in clinical research.