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Radioimmunotherapy with Lu-177 Labeled 6A10 Fab-fragments in Patients with Glioblastoma After Standard Treatment (RIT in GBM)

U

University Hospital Muenster

Status and phase

Enrolling
Phase 1

Conditions

Glioblastom WHO Grade 4

Treatments

Drug: Lu-177 labeled 6A10-Fab-fragments

Study type

Interventional

Funder types

Other

Identifiers

NCT05533242
UKM15_0027

Details and patient eligibility

About

Locoregional, intracavitary radioimmunotherapy (iRIT) with a newly developed radioimmunoconjugate (Lu-177 labeled 6A10-Fab-fragments) will be used to prevent or postpone tumour recurrence in patients with GBM following standard therapy .

Following study objectives will be analyzed:

  • Determining the Maximum Tolerated Dose (MTD)
  • Determining safety by assessing all new neurological, hematological and other AEs CTC grade 2 or higher
  • Determining absorbed dose to the 2 cm shell of the resection cavity (based on a series of SPECT/CTs of the head 2h,24h,48h, 72h p.i. and on day 5-7)
  • Determining absorbed dose values for the kidneys, the liver, the active marrow (based on a series of SPECT/CTs of the abdomen 2h,24h,48h, 72h p.i. and on day 5-7)
  • Determining 24 weeks Progression-Free-Survival (PFS), defined from the day of inclusion

Full description

In glioblastoma (GBM), tumour recurrence occurs adjacent to the initial tumor resection cavity in about 85% of cases (Albert et al., 1994; Bashir et al., 1988; Nestler et al., 2015). Therefore, local treatment concepts seem crucial for effective recurrence treatment strategies. We consider locoregional, intracavitary radioimmunotherapy (iRIT) to be a new therapeutic approach to delay or prevent the development of local tumour regrowth in GBM patients. By applying a radioimmunoconjugate (RIC) into the surgically created resection cavity (RC) the blood-brain barrier can effectively be by-passed, allowing the a deposit of high radiation doses locally while sparing sensitive organs like the bone marrow and the kidneys. LuCaFab (Lu-177 labeled 6A10- Fab-fragment) is a carbonic anhydrase XII-specific antibody Fab fragment developed by Helmholtz Munich, labeled with ITM's highly pure medical radioisotope, lutetium-177. (ITM IsotopeTechnologies Munich SE). Patients with GBM after standard therapy (surgery by radio-chemotherapy concomitant and adjuvant chemotherapy) Are eligible for the study. Patients will receive the calculated total doses of Lu-177-labeled 6A10-Fabs in three fractions with an interval of 4 weeks between injections, administered into the tumour cavity via an implanted reservoir. A patient specific dosing strategy will be applied and will depend on the individual RC volume. This investigator-initiated trial is sponsored by the University Hospital Münster, conducted in hospitals in Münster, Essen, Cologne, and Wuerzburg, and supported by ITM and Helmholtz Munich.

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Enrollment

15 estimated patients

Sex

All

Ages

18 to 80 years old

Volunteers

No Healthy Volunteers

Inclusion criteria

  • Written patient consent after comprehensive information
  • Age between 18 and 80 years
  • Primary supratentorial high grade glioma after standard therapy (fluorescence-guided surgery, radio-chemotherapy, concomitant + adjuvant chemotherapy), with no or stable small tumor residue (residual contrast enhancement of up to 5cm3) at earliest 6 weeks after completion of radiotherapy
  • Histological verification of glioblastoma and CA 12-expression of tumor cells confirmed
  • Karnofsky-score ≥ 60
  • Volume of resection cavity 2,5-25 cm3
  • Male and female patients with reproductive potential must use an approved contraceptive method
  • Pre-menopausal female patients with childbearing potential: a negative serum pregnancy test must be obtained prior to treatment start
  • Adequate bone marrow reserve: white blood cell (WBC) count ≥3000/μl, granulocyte count >1500/μl, platelets ≥100000/μl, hemoglobin ≥ 10 g/dl
  • Adequate liver function: bilirubin < 1.5 times above upper limit of normal range (ULN), alanine transaminase (ALT/SGPT) and aspartate transaminase (AST/SGOT) < 3 times ULN. In the case of documented or suspected Gilbert's disease bilirubin < 3 times ULN.
  • Blood clotting: INR (=PT) and PTT within acceptable limits according to the investigator
  • Adequate renal function: creatinine < 3 times above ULN; eGFR > (or equal) 60 ml/min

Exclusion criteria

  • Patient unable to undergo imaging by CT, PET or contrast-enhanced MRI for whatever reason (i.e., pacemaker)
  • Resection cavity with intraventricular access
  • Significant leakage of radioactivity into CSF spaces or ventricles
  • Other actively treated invasive malignancy
  • Breastfeeding women
  • Past medical history of diseases with poor prognosis, e.g., severe coronary heart disease, heart failure (NYHA III/IV), severe and poorly controlled diabetes, immune deficiency, residual deficits after stroke, severe mental retardation, pre-existing neurological diseases except those related to glioblastoma or other serious concomitant systemic disorders incompatible with the study (at the discretion of the investigator)
  • Any active infection (at the discretion of the investigator)
  • Previous participation in a registered clinical trial with therapeutic intervention less than 6 weeks prior to enrolment (date of informed consent)
  • Allergy against known constituents of study medication

Trial design

Primary purpose

Treatment

Allocation

N/A

Interventional model

Sequential Assignment

Masking

None (Open label)

15 participants in 1 patient group

Lu-177-labeled-6A10Fab-fragments
Experimental group
Description:
The patient will receive a predetermined dose of Lu-177-labeled- 6A10Fab-fragments via the intracavitary reservoir. Patients will receive 3 RIT-cycles with an interval of 4 weeks. The total activity, adjusted to the volume of the RC, will be injected in 3 fractions with 50%, 25% and 25% of the total activity to achieve the desired boost to the 2 cm margin.
Treatment:
Drug: Lu-177 labeled 6A10-Fab-fragments

Trial contacts and locations

7

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Central trial contact

Nils Warneke, Dr. med.; Walter Stummer, Prof. Dr.

Data sourced from clinicaltrials.gov

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