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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT03058198
Other study ID # 81672476
Secondary ID
Status Recruiting
Phase N/A
First received February 11, 2017
Last updated February 15, 2017
Start date January 2017
Est. completion date December 2020

Study information

Verified date February 2017
Source Huashan Hospital
Contact Dongxiao Zhuang, Professor
Phone +86-21-52888771
Email ernestzdx@163.com
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The epidermal growth factor receptor variant Ⅲ(EGFR vⅢ) is commonly detected in high-grade gliomas, which is also an important epitope in EGFR-targeted therapies and correlated to poor prognosis. However, detection of this mutant usually needs resected tumor samples. For biopsy samples, test results may not represent the EGFR vⅢ status of the whole tumor tissues because of the heterogeneity of tumor. It is also not applicable for patients who are not suitable for surgical procedure due to the tumor location or patients' general conditions. Because of the importance of the epidermal growth factor receptor (EGFR) signal pathway in oncogenesis, maintenance, and progression of high grade glioma, there has been an intense effort to develop noninvasive molecular imaging approach for the selection and monitoring of EGFR-targeted therapies.

Based on investigators' previous study, investigators plan to perform PET scanning on the participants with high grade gliomas after the injection of the second generation of EGFR tracer ,89Zr-ABT806, which can be specifically binded to EGFR vⅢ . After fusing the PET and MRI images, investigators precisely obtain the tissue from the"hot-spot" on the PET image through multimodal-neuronavigation-guided tumor biopsy. EGFRvⅢ status will be detected by molecular methods to analyze the correlation with the 89Zr-ABT806 PET image qualitatively and quantitatively. Investigators' final goal is to detect EGFR vⅢ by noninvasive molecular imaging procedure for the clinical outcome prediction and the selection of EGFR-targeted therapies.


Recruitment information / eligibility

Status Recruiting
Enrollment 40
Est. completion date December 2020
Est. primary completion date December 2018
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria:

1. Clinical manifestations and imaging examination (CT, MRI, et al) are in accordance with high grade glioma

2. No PET/CT scanning contraindications

3. No MRI scanning contraindications

4. Patients older than 18 years old

5. ECOG score between 0 to 2

6. Patients with sufficient bone marrow, kidney and liver function reserve.

7. All patients gave written informed consent.

Exclusion Criteria:

1. Patient who has received immune therapy, radiation therapy, chemotherapy, hormone drugs, biological products or other clinical trials within 14 days.

2. Patient who has received EGFR monoclonal antibody therapy within 4 weeks.

3. Patients who has not fully recovered form the past drug toxicity reaction (CTCAE in grade 2 or above).

4. Patient who has received major surgery within 7 days.

5. Patients with allergies to immunoglobulin.

6. Breastfeeding women.

7. pregnant women

8. Patients with severe clinical condition.

9. Inability to give informed consent

Study Design


Related Conditions & MeSH terms


Intervention

Diagnostic Test:
89Zr-ABT806 PET
Patients will be given IV bolus injection of 89Zr-ABT806(1-2mCi). The first 89Zr-ABT806 PET scan will be performed about 72 to 120 hours after injection of tracer. The second 89Zr-ABT806 PET scan will be performed about 120 to 168 hours after injection of tracer. Semi-quantitative analysis was performed using the maximum standardized uptake value (SUVmax) and T/N ratio.

Locations

Country Name City State
China Huashan hospital, Fudan university Shanghai

Sponsors (1)

Lead Sponsor Collaborator
Huashan Hospital

Country where clinical trial is conducted

China, 

References & Publications (16)

Batra SK, Castelino-Prabhu S, Wikstrand CJ, Zhu X, Humphrey PA, Friedman HS, Bigner DD. Epidermal growth factor ligand-independent, unregulated, cell-transforming potential of a naturally occurring human mutant EGFRvIII gene. Cell Growth Differ. 1995 Oct;6(10):1251-9. — View Citation

Ekstrand AJ, James CD, Cavenee WK, Seliger B, Pettersson RF, Collins VP. Genes for epidermal growth factor receptor, transforming growth factor alpha, and epidermal growth factor and their expression in human gliomas in vivo. Cancer Res. 1991 Apr 15;51(8):2164-72. — View Citation

Ekstrand AJ, Sugawa N, James CD, Collins VP. Amplified and rearranged epidermal growth factor receptor genes in human glioblastomas reveal deletions of sequences encoding portions of the N- and/or C-terminal tails. Proc Natl Acad Sci U S A. 1992 May 15;89(10):4309-13. — View Citation

Emrich JG, Brady LW, Quang TS, Class R, Miyamoto C, Black P, Rodeck U. Radioiodinated (I-125) monoclonal antibody 425 in the treatment of high grade glioma patients: ten-year synopsis of a novel treatment. Am J Clin Oncol. 2002 Dec;25(6):541-6. — View Citation

Feldkamp MM, Lala P, Lau N, Roncari L, Guha A. Expression of activated epidermal growth factor receptors, Ras-guanosine triphosphate, and mitogen-activated protein kinase in human glioblastoma multiforme specimens. Neurosurgery. 1999 Dec;45(6):1442-53. — View Citation

Lammering G, Hewit TH, Holmes M, Valerie K, Hawkins W, Lin PS, Mikkelsen RB, Schmidt-Ullrich RK. Inhibition of the type III epidermal growth factor receptor variant mutant receptor by dominant-negative EGFR-CD533 enhances malignant glioma cell radiosensitivity. Clin Cancer Res. 2004 Oct 1;10(19):6732-43. — View Citation

Lammering G, Valerie K, Lin PS, Hewit TH, Schmidt-Ullrich RK. Radiation-induced activation of a common variant of EGFR confers enhanced radioresistance. Radiother Oncol. 2004 Sep;72(3):267-73. — View Citation

Li G, Wong AJ. EGF receptor variant III as a target antigen for tumor immunotherapy. Expert Rev Vaccines. 2008 Sep;7(7):977-85. doi: 10.1586/14760584.7.7.977. Review. — View Citation

Libermann TA, Razon N, Bartal AD, Yarden Y, Schlessinger J, Soreq H. Expression of epidermal growth factor receptors in human brain tumors. Cancer Res. 1984 Feb;44(2):753-60. — View Citation

Malden LT, Novak U, Kaye AH, Burgess AW. Selective amplification of the cytoplasmic domain of the epidermal growth factor receptor gene in glioblastoma multiforme. Cancer Res. 1988 May 15;48(10):2711-4. — View Citation

Nagane M, Coufal F, Lin H, Bögler O, Cavenee WK, Huang HJ. A common mutant epidermal growth factor receptor confers enhanced tumorigenicity on human glioblastoma cells by increasing proliferation and reducing apoptosis. Cancer Res. 1996 Nov 1;56(21):5079-86. — View Citation

Nishikawa R, Ji XD, Harmon RC, Lazar CS, Gill GN, Cavenee WK, Huang HJ. A mutant epidermal growth factor receptor common in human glioma confers enhanced tumorigenicity. Proc Natl Acad Sci U S A. 1994 Aug 2;91(16):7727-31. — View Citation

Pedersen MW, Tkach V, Pedersen N, Berezin V, Poulsen HS. Expression of a naturally occurring constitutively active variant of the epidermal growth factor receptor in mouse fibroblasts increases motility. Int J Cancer. 2004 Feb 20;108(5):643-53. — View Citation

Sugawa N, Ekstrand AJ, James CD, Collins VP. Identical splicing of aberrant epidermal growth factor receptor transcripts from amplified rearranged genes in human glioblastomas. Proc Natl Acad Sci U S A. 1990 Nov;87(21):8602-6. — View Citation

Wong AJ, Ruppert JM, Bigner SH, Grzeschik CH, Humphrey PA, Bigner DS, Vogelstein B. Structural alterations of the epidermal growth factor receptor gene in human gliomas. Proc Natl Acad Sci U S A. 1992 Apr 1;89(7):2965-9. — View Citation

Yamazaki H, Fukui Y, Ueyama Y, Tamaoki N, Kawamoto T, Taniguchi S, Shibuya M. Amplification of the structurally and functionally altered epidermal growth factor receptor gene (c-erbB) in human brain tumors. Mol Cell Biol. 1988 Apr;8(4):1816-20. — View Citation

* Note: There are 16 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary The sensitivity and specificity of 89Zr-ABT806 PET After fusing the 89Zr-ABT806 PET and MRI images, investigators precisely obtained the tissue from the"hot-spot" on the PET image through multimodal-neuronavigation-guided tumor biopsy. EGFRv? status will be analyzed by molecular methods. The sensitivity and specificity of 89Zr-ABT806 PET will be measured with statistic methods. 4 years
Secondary The overall survival time of participants regular follow-up 4 years
Secondary The progression-free survival time of participants regular follow-up 4 year
Secondary The correlation between EGFRvIII mutation and prognosis of participants 4 year
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