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Hypoxic cells in tumors have less oxygen than normal cells do, which leads to several changes inside the cells that lead to genetic chages making these cells resistant to treatment. The end result of this is increased tumor growth, spread of the tumor and poor outcome. Early studies have shown that [131]I-IAZA scans can help detect if there are hypoxic cells in the tumor. A [131]I-IAZA scan is a nuclear medicine test used to create pictures of the whole body after [131]I-IAZA is injected into a vein. Further scientific research will help understand how [131]I-IAZA is distributed throughout the body and how it can be used to treat hypoxic tumor cells.
The purpose of this study is to :
The proposed clinical trial will be a Phase I/II open-label, single site, radiopharmacokinetic and radiodosimetric study in participants with locally advanced or metastatic solid tumors. All participants will be administered oral potassium iodide tablets to block radioactive iodine uptake in the thyroid. After administration of 185 MBq [131]I-IAZA (range: 150 - 220 MBq), all participants will undergo a series of up to six whole body planar scans on a dual headed gamma camera, and blood sampling for radiopharmacokinetic evaluation. A single fecal sample will be collected for up to 5 participants 24 - 72 hours post-injection, if possible, and assessed for total radioactivity. A safety evaluation will be conducted on the first 10 consecutively enrolled participants (safety sub-group), consisting of: Thyroid stimulating hormone (TSH) pre-injection and 6 weeks ±1 week post-injection; vital signs pre-injection and after scans 3 and 4; haematology, and SMA-12 serum biochemistry profile pre-injection and after scans 3 and 4; and an AE assessment at each imaging time point, up to 8 days post-injection. The safety evaluation for the remaining participants will consist of an AE assessment at each imaging time point, up to 8 days post-injection of [131]I-IAZA.
The radiodosimetry of [131]I-IAZA in different tissues will be determined in the first 5 consecutively enrolled participants from the planar images and the measured radioactivity in the fecal samples, if available. SPECT/CT imaging of the tumor(s) will be acquired at 19-36 hours post-injection for all the participants and will be used along with the planar images to determine the radiodosimetry and pattern of dose distribution within the tumor(s). Dosimetry data will be potentially correlated with the participants' health status, or other relevant information, as applicable .
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| [131]I-IAZA whole body and SPECT imaging | Experimental | Injection of a single dose of 185MBq ( range 150-220MBq) of [131]I-IAZA prior to whole body imaging acquisition at 0-1 hrs,1-3 hrs , 4-8 hrs,19-36 hrs,41-72 hrs and 6-8 days post-injection. SPECT CT of target lesion(s) will be acquired at 19-36 hrs post injection. |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| [131]I-IAZA | Drug | Injection of a single dose of 185MBq ( range 150-220MBq) of [131]I-IAZA prior to whole body imaging acquisition at 0-1 hrs,1-3 hrs , 4-8 hrs,19-36 hrs,41-72 hrs and 6-8 days post-injection. SPECT CT of target lesion(s) will be acquired at 19-36 hrs post injection. |
| Measure | Description | Time Frame |
|---|---|---|
| Change in vital signs after [131]I-IAZA injection (first 10 patients) | Vital signs are measured before injection of [131]I-IAZA and after the third and fourth scans | Up to 36 hours post-injection |
| Change in hematology/SMA-12 serum biochemistry after [131]I-IAZA injection (first 10 patients) | Hematology and SMA-12 serum biochemistry will be performed before injection of [131]I-IAZA and after the fourth scan. | Up to 36 hours post-injection |
| Change in TSH level after [131]I-IAZA injection | TSH blood test will be performed before injection of [131]I-IAZA and 5-7 weeks after [131]I-IAZA injection. | Before [131]I-IAZA injection and 6 weeks ± 1 week after [131]I-IAZA injection |
| Number of participants with adverse events. | All participants will be evaluated for AE occurrence once [131]I-IAZA has been injected and for the following 8 days during which [131]I-IAZA scans will be acquired | Up to 8 days after [131]I-IAZA injection |
| Measure | Description | Time Frame |
|---|---|---|
| Biodistribution and tumor hypoxia avidity of [131]I-IAZA | Analysis of [131]I-IAZA whole body scans and SPECT-CT for biodistribution of [131]I-IAZA | Up to 8 days |
| Radioactivity of blood samples withdrawn at each imaging time point. |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Alexander JB McEwan, MB,FRCPC | University of Alberta | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Cross Cancer Institute | Edmonton | Alberta | T6G 1Z2 | Canada |
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Radioactivity will be measured in blood samples collected at each imaging time point.
| Up to 8 days |
| Estimating the whole body dosimetry of [131]IAZA in selected participants | The radiodosimetry of [131]I-IAZA will be determined by outlining organs of significant uptake on the planar images and determining the dose to each normal organ. | Up to 8 days |
| Dose of [131]I-IAZA taken up by the tumor (in mSv/MBq) at each imaging time point in patients with positive uptake. | The tumor activity values will be determined from [131]I-IAZA scans and combined into time-activity curves. | Up to 8 days |
| Dose (in mSv/MBq of [131]I-IAZA) to bone marrow | The bone marrow absorbed dose will be calculated using the blood activity and dosimetry data from the [131]I-IAZA whole body scans. | Up to 8 days |
| Time to maximum [131]I-IAZA uptake | The activity values of different organs will be determined form [131]I-IAZA scans and combined into time-activity curves. | Up to 8 days |
| Clearance characteristics of [131]IAZA | [131]I-IAZA scans will be analyzed for the rate and organs involved in clearance of [131]I-IAZA from the body. | Up to 8 days |