Heribert Haenscheid

[123I]Iodometomidate for Molecular Imaging of Adrenocortical Cytochrome P450 Family 11B Enzymes

BACKGROUND Due to advances in conventional imaging, adrenal tumors are detected with increasing frequency. However, conventional imaging provides only limited information on the origin of these lesions, which represent a wide range of different pathological entities. New specific imaging methods would therefore be of great clinical value. We, therefore, studied the potential of iodometomidate (IMTO) as tracer for molecular imaging of cytochrome P450 family 11B (Cyp11B) enzymes. METHODS Inhibition of Cyp11B1 and Cyp11B2 by IMTO, etomidate, metomidate, and fluoroetomidate was investigated in NCI-h295 cells and in Y1 cells stably expressing hsCyp11B1 or hsCyp11B2. Pharmacokinetics and biodistribution after iv injection of [(123/125)I]IMTO were analyzed in mice in biodistribution experiments and by small-animal single-photon emission computed tomography (SPECT). Furthermore, four patients with known adrenal tumors (two metastatic adrenal adenocarcinomas, one bilateral adrenocortical adenoma, and one melanoma metastasis) were investigated with [(123)I]iodometomidate-SPECT. RESULTS In cell culture experiments, all compounds potently inhibited both Cyp11B1 and Cyp11B2. Adrenals showed high and specific uptake of [(123/125)I]IMTO and were excellently visualized in mice. In patients, adrenocortical tissue showed high and specific tracer uptake in both primary tumor and metastases with short investigation time and low radiation exposure, whereas the non-adrenocortical tumor did not exhibit any tracer uptake. CONCLUSION We have successfully completed the development of an in vivo detection system of adrenal Cyp11B enzymes by [(123)I]IMTO scintigraphy in both experimental animals and humans. Our findings suggest that [(123)I]IMTO is a highly specific radiotracer for imaging of adrenocortical tissue. Due to the general availability of SPECT technology, we anticipate that [(123)I]IMTO scintigraphy may become a widely used tool to characterize adrenal lesions.

[131I]Iodometomidate for Targeted Radionuclide Therapy of Advanced Adrenocortical Carcinoma

CONTEXT In advanced adrenocortical carcinoma (ACC), many patients have progressive disease despite standard treatment, indicating a need for new treatment options. We have shown high and specific retention of [123I]metomidate ([123I]IMTO) in ACC lesions, suggesting that labeling of metomidate with 131I offers targeted radionuclide therapy for advanced ACC. OBJECTIVE Safety and efficacy of radionuclide therapy with [131I]IMTO in advanced ACC. DESIGN/SETTING This monocentric case series comprised 19 treatments in 11 patients with nonresectable ACC. PATIENTS AND INTERVENTION Between 2007 and 2010, patients with advanced ACC not amenable to radical surgery and exhibiting high uptake of [123I]IMTO in their tumor lesions were offered treatment with [131I]IMTO (1.6-20 GBq in one to three cycles of [131I]IMTO). MAIN OUTCOME MEASURE Tumor response was assessed according to response evaluation criteria in solid tumors (RECIST version 1.1) criteria, and side effects were assessed by Common Toxicity Criteria (version 4.0). RESULTS Best response was classified as partial response in one case with a change in target lesions of -51% from baseline, as stable disease in five patients, and as progressive disease in four patients. One patient died 11 d after treatment with [131I]IMTO unrelated to radionuclide therapy. In patients responding to treatment, median progression-free survival was 14 months (range, 5-33) with ongoing disease stabilization in three patients at last follow-up. Treatment was well tolerated, but transient bone marrow depression was observed. Adrenal insufficiency developed in two patients. CONCLUSIONS Radionuclide therapy with [131I]IMTO is a promising treatment option for selected patients with ACC, deserving evaluation in prospective clinical trials.

Functional characterization of adrenal lesions using [123I]IMTO-SPECT/CT.

CONTEXT Adrenal tumors are highly prevalent and represent a wide range of different pathological entities. Conventional imaging often provides only limited information on the origin of these lesions. Novel specific imaging methods are, therefore, of great clinical interest. OBJECTIVE We evaluated [(123)I]iodometomidate ([(123)I]IMTO) imaging for noninvasive characterization of adrenal masses. DESIGN/SETTING This was a prospective monocentric diagnostic study in a tertiary care center. PATIENTS AND INTERVENTION A total of 51 patients with an adrenal lesion underwent [(123)I]IMTO imaging after injection of 185 MBq of [(123)I]IMTO. Sequential planar whole-body scans until 24 hours postinjection and single photon emission computed tomography (SPECT)/computed tomography imaging 4 to 6 hours postinjection were performed. MAIN OUTCOME MEASURE Sensitivity and specificity of [(123)I]IMTO imaging for the noninvasive characterization of adrenal lesions were measured. RESULTS Adrenocortical tissue showed high and specific tracer uptake with a short investigation time and low radiation exposure. Qualitative analysis of SPECT/computed tomography data resulted in a sensitivity of 89% and a specificity of 85% for differentiating adrenocortical tumors from lesions of nonadrenocortical origin. Receiver-operating characteristic analysis of semiquantitative data revealed a sensitivity of 83% and a specificity of 86% for identification of adrenocortical lesions at a cutoff value of tumor to liver ratio of 1.3. CONCLUSIONS [(123)I]IMTO is a highly specific radiotracer for imaging of adrenocortical tissue with a short investigation time and low radiation exposure. Because of the general availability of SPECT technology, [(123)I]IMTO scintigraphy has the potential to become a widely used tool to noninvasively characterize the biology of adrenal lesions.

[123I]Iodometomidate Imaging in Adrenocortical Carcinoma

CONTEXT Imaging with [¹²³I]iodometomidate ([¹²³I]IMTO) has been shown to diagnose adrenocortical lesions with high sensitivity and specificity. OBJECTIVE Our objective was to evaluate the clinical utility of [¹²³I]IMTO imaging in adrenocortical carcinoma (ACC). DESIGN We conducted a prospective monocentric diagnostic study and a prospective case series at a single tertiary referral center. PATIENTS AND INTERVENTIONS Fifty-eight patients with histologically confirmed ACC, all European Network for the Study of Adrenal Tumors stage IV (with distant metastases), received 185 MBq [¹²³I]IMTO. Sequential planar whole-body scans until 24 hours post injection and single photon emission computed tomography/computed tomography (SPECT/CT) hybrid imaging 4 to 6 hours post injection were performed. MAIN OUTCOME MEASURES Outcome measures included uptake of [¹²³I]IMTO in ACC lesions, sensitivity and specificity of [¹²³I]IMTO imaging compared with conventional imaging, and number of patients eligible for [¹³¹I]IMTO therapy. RESULTS Of 430 lesions detected by conventional imaging, 30% showed strong, 8% moderate, and 62% no tracer accumulation. [¹²³I]IMTO detected both primary and metastatic lesions of ACC. However, a substantial percentage of lesions failed to show [¹²³I]IMTO uptake. The overall sensitivity and specificity values were 38% and 100%, respectively. Thirty-four patients (59%) had at least 1 [¹²³I]IMTO-positive lesion. Cortisol and aldosterone secretion by ACC was positively correlated to [¹²³I]IMTO uptake (P = .01); cytotoxic chemotherapy and mitotane treatment presumably did not influence tracer uptake. Twenty-one patients (36.2%) had radiotracer uptake in all lesions ≥ 2 cm and therefore were potential candidates for targeted systemic radiotherapy with [¹³¹I]IMTO. CONCLUSION About one-third of patients with ACC show specific retention of [¹²³I]IMTO in metastatic lesions. This study provides support for the conduct of a prospective trial to determine whether the first molecular informed therapy using [¹³¹I]IMTO will be of value to patients with metastatic ACC.

Frequency of transferrin receptor positive reticulocytes (TF-Ret) in blood as an indicator of total-body radiation exposure: a pilot study in nuclear medicine patients.

Approximately 3–20% of all reticulocytes in blood of healthy persons are immature and transferrin receptor positive (Tf-Ret). Tf-Ret were measured by flow cytometry in 27 patients treated with three different radiopharmaceuticals labeled with 131I and in 25 healthy controls. Patients were chronically exposed within 6 days to blood doses from 0.18–1.89 Gy (D6). Typically, two-thirds of D6 was administered within the first day (D1). The study had to be confined to intra-subject investigations due to high biological variability of Tf-Ret counts. A significant radiation-induced decline was found in patients D1 doses that were ≥0.5 Gy. Tf-Ret frequency declined during the first 4 to 5 days of nuclear therapy to about 30–60% of its initial value, and increased in the following 3 days without reaching the initial value. At the time of nadir, the relative frequency of Tf-Ret was more depressed than that of reticulocytes and lymphocytes. The relative Tf-Ret frequency at nadir could be fitted to the equation: %-Tf-Ret=exp-(D1/Do). Do was found to be 1.0 ± 0.4 Gy (Mean ± SEM). The study shows that Tf-Ret frequency in blood might be a good parameter for estimation of the radiation dose to red marrow.