Somatostatinrezeptor-PET/CT

Die vorliegende Handlungsempfehlung dient als Grundlage zur Qualitätssicherung der Somatostatinrezeptor (SSTR-) PET/CT bei onkologischen Patienten. Die Leitlinie wurde interdisziplinär erarbeitet und enthält neben der Definition und Zielsetzung einen Konsens hinsichtlich der erforderlichen klinischen Hintergrundinformationen, Indikationsstellung, Durchführung, Auswertung, Dokumentation und Befunderstellung. Dabei werden die beiden gebräuchlichsten Radiotracer der SSTRPET/ CT (68Ga-DOTATOC und 68Ga-DOTATATE) vertieft dargestellt. Die SSTR-PET/CT erfordert eine enge Interaktion zwischen den zuweisenden und ausführenden Fachdisziplinen unter Berücksichtigung bereits vorhandener Leitlinien und Handlungsempfehlungen europäischer und deutscher Fachgesellschaften, namentlich der European Association of Nuclear Medicine (EANM), der Deutschen Gesellschaft für Endokrinologie (DGE), Deutschen Gesellschaft für Nuklearmedizin (DGN) und Deutschen Röntgengesellschaft (DRG).

Radiolabeled peptides: valuable tools for the detection and treatment of cancer

Human cancer cells overexpress many peptide receptors as molecular targets. Radiolabeled peptides that bind with high affinity and specificity to the receptors on tumor cells hold great potential for both diagnostic imaging and targeted radionuclide therapy. The advantage of solid-phase peptide synthesis, the availability of different chelating agents and prosthetic groups and bioconjugation techniques permit the facile preparation of a wide variety of peptide-based targeting molecules with diverse biological and tumor targeting properties. Some of these peptides, including somatostatin, bombesin, vasoactive intestinal peptide, gastrin, neurotensin, exendin and RGD are currently under investigation. It is anticipated that in the near future many of these peptides may find applications in nuclear oncology. This article presents recent developments in the field of small peptides, and their applications in the diagnosis and treatment of cancer.

Biodistribution of two octreotate analogs radiolabeled with indium and yttrium in rats

BACKGROUND

In this study, two octreotate derivatives N-[4-carboxy-4-[4,7,10-tris(carboxymethyl)-1,4,7,10-tetraazacyclododecane-1-yl]butanoyl]-Tyr(3)-octreotate (DOTAGA-tate) and N-[[4,10-bis(carboxymethyl)-7-(1(1,3-dicarboxypropyl))-1,4,7,10-tetraaza-cyclododec-1-yl]acetyl]-Tyr(3)-octreotate (DOTA-t-GA-tate) were radio-labeled with (111)In or (88)Y and their biodistribution profiles together with their elimination characteristics in rats were compared.

MATERIALS AND METHODS

Radiolabeling of the peptides with high radiochemical purity was carried out in an acetate buffer with gentisic acid as radioprotective compound. Biodistribution profiles of the radiolabeled peptides were determined in intact male Wistar rats after an intravenous dose of 1 microg/kg. For elimination pathways analysis, studies in intact rats in metabolic cages and perfused rat kidney and liver were carried out.

RESULTS

Fast radioactivity clearance from rat tissues (excepting somatostatin receptor-rich organs and the kidney) was determined for all agents under study. Profound radioactivity uptake in organs with a high density of somatostatin receptors (namely the adrenals and pancreas as biomarkers of somatostatin receptor-positive tissue) was slightly higher for radiolabeled DOTAGA-tate when compared with DOTA-t-GA-tate. Significantly higher accumulation in kidney and somewhat lower urinary elimination of (111)In-labeled peptides in comparison with that of (88)Y-agents were determined. Perfused rat kidney experiments confirmed that glomerular filtration was the main elimination mechanism for the compounds under study; their bile clearances in the perfused rat liver were negligible.

CONCLUSION

(111)In((88)Y)-DOTAGA-tates exhibited higher distribution into somatostatin receptor-rich organs when compared with the corresponding radiolabeled DOTA-t-GA-tates. Higher uptake of (111)In-labeled peptides in the kidney is attributed to its different coordination properties.

Radiolabeled DOTATOC in patients with advanced paraganglioma and pheochromocytoma

AIM

Paragangliomas and pheochromocytomas are rare tumors arising from chromaffin cells. Approximately 10% are malignant. Treatment options are limited in metastatic, surgically incurable situations. These tumors often express somatostatin receptors in high density. Therefore, treatment with the radiolabeled somatostatin analogue [DOTA-Tyr(3)]-octreotide (DOTATOC) is an option. We evaluated the effectiveness and toxicity of radiolabeled DOTATOC in patients with metastatic paraganglioma and pheochromocytoma.

METHODS

Twenty-eight patients (16 female and 12 male) with surgically incurable paragangliomas and pheochromocytomas were included. Twenty-five patients were scheduled for treatment with a total of 200 mCi/m(2) body surface [(90)Y]DOTATOC and 3 for one cycle with 100 mCi/m(2) [(90)Y]DOTATOC followed by 2 cycles of 200 mCi [(177)Lu]DOTATOC. Restaging was performed 8-12 weeks after the last treatment cycle, followed by regular controls every 3 to 6 months.

RESULTS

The treatment was well tolerated. At restaging we found 2 partial remissions, 5 minor responses; 13 stable disease, 2 mixed responses and 6 patients remained progressive. We found 1 thrombocytopenia grade I and 1 anemia grade I. No non-hematological toxicity, especially no kidney toxicity occurred. The follow-up ranged from 6 to 50 months (mean: 19+/-14.6 months). Time to progression ranged from 3 to >42 months. Ten responses, 9 stable diseases and one partial remission, are still ongoing.

CONCLUSIONS

In these 28 patients, it was shown that radiolabeled DOTATOC can be effective in patients with somatostatin receptor positive paraganglioma. However, the therapy seems to be less effective than in gastroentero-pancreatic neuroendocrine tumors. Nevertheless, DOTATOC appears to be a treatment option for surgically incurable paragangliomas, because toxicity is very low and especially the fact that long lasting remissions could be achieved justifies the treatment. The final time to progression is not yet reached after a mean follow-up time of 19 months.

Targeted therapy in nuclear medicine—current status and future prospects

In recent years, a number of new developments in targeted therapies using radiolabeled compounds have emerged. New developments and insights in radioiodine treatment of thyroid cancer, treatment of lymphoma and solid tumors with radiolabeled monoclonal antibodies (mAbs), the developments in the application of radiolabeled small receptor-specific molecules such as meta-iodobenzylguanidine and peptides and the position of locoregional treatment in malignant involvement of the liver are reviewed. The introduction of recombinant human thyroid-stimulating hormone and the possibility to enhance iodine uptake with retinoids has changed the radioiodine treatment protocol of patients with thyroid cancer. Introduction of radiolabeled mAbs has provided additional treatment options in patients with malignant lymphoma, while a similar approach proves to be cumbersome in patients with solid tumors. With radiolabeled small molecules that target specific receptors on tumor cells, high radiation doses can be directed to tumors in patients with disseminated disease. Radiolabeled somatostatin derivatives for the treatment of neuroendocrine tumors are the role model for this approach. Locoregional treatment with radiopharmaceuticals of patients with hepatocellular carcinoma or metastases to the liver may be used in inoperable cases, but may also be of benefit in a neo-adjuvant or adjuvant setting. Significant developments in the application of targeted radionuclide therapy have taken place. New treatment modalities have been introduced in the clinic. The concept of combining therapeutic radiopharmaceuticals with other treatment modalities is more extensively explored.

68Ga-PET radiopharmacy: A generator-based alternative to 18F-radiopharmacy

Positron emission tomography (PET) is becoming a dominating method in the field of molecular imaging. Most commonly used radionuclides are accelerator produced 11C and 18F. An alternative method to label biomolecules is the use of metallic positron emitters; among them 68Ga is the most promising as it can be produced from a generator system consisting of an inorganic or organic matrix immobilizing the parent radionuclide 68Ge. Germanium-68 has a long half-life of 271 days which allows the production of long-lived, potentially very cost-effective generator systems. A commercial generator from Obninsk, Russia, is available which uses TiO2 as an inorganic matrix to immobilize 68Ge in the oxidation state IV+. 68Ge(IV) is chemically sufficiently different to allow efficient separation from 68Ga(III). Ga3+ is redox-inert; its coordination chemistry is dominated by its hard acid character. A variety of mono- and bifunctional chelators were developed which allow immobilization of 68Ga3+ and convenient coupling to biomolecules. Especially peptides targeting G-protein coupled receptors overexpressed on human tumour cells have been studied preclinically and in patient studies showing high and specific tumour uptake and specific localization. 68Ga-radiopharmacy may indeed be an alternative to 18F-based radiopharmacy. Freeze-dried, kit-formulated precursors along with the generator may be provided, similar to the 99Mo/99mTc-based radiopharmacy, still the mainstay of nuclear medicine.

99mTc-EDDA/HYNIC-octreotate scintigraphy, an efficient method for the detection and staging of carcinoid tumours: results of 3 years’ experience

PURPOSE

At all stages of the disease, serious difficulties are encountered in the imaging diagnosis of carcinoids. Somatostatin receptor scintigraphy (SRS) holds great promise for detecting primary tumours and metastases. 99mTc-EDDA/HYNIC-octreotate should significantly improve the diagnosis of carcinoids in comparison with 111In-Octreoscan owing to the better affinity for SSR2 and the higher count rate. The aim of this study was to assess the diagnostic efficiency of 99mTc-EDDA/HYNIC-octreotate scintigraphy in the detection and staging of carcinoid tumours.

METHODS

The study population comprised 75 patients (age 48.5+/-15.5 years): 46 with histological confirmation of carcinoid and 29 with suspected disease. 99mTc-EDDA/HYNIC-octreotate (740 MBq) SRS and CT were performed in all patients. Fifteen patients were examined with 111In-Octreoscan.

RESULTS

High-quality 99mTc-EDDA/HYNIC-octreotate images were obtained in all cases, with maximum tumour tracer accumulation 4 h p.i. The mean target/non-target ratios for whole body (WB) and SPECT scans were, respectively, as follows: primary lesions: 4.5 and 10.2; metastases: liver, 3.1 and 12.3; abdominal focal lesions, 2.7 and 5.8; lung, 2.7 and 8.3; mediastinum, 3.4 and 7.6; bones, 6.8 and 19.0. 99mTc-EDDA/HYNIC-octreotate WB scans revealed more metastases than 111In-Octreoscan, with better individual separation. 99mTc-EDDA/HYNIC-octreotate SRS revealed new metastatic lesions in seven patients with confirmed carcinoid, and in four with dissemination the primary focus was found. Five patients qualified for radioguided surgery and 11 were referred to 90Y-DOTA-TATE therapy. The sensitivity of SRS in comparison with CT was higher for primary lesions and liver and abdominal lymph node metastases. In the subgroup of patients with suspected neuroendocrine tumours, two duodenal carcinoids, one thymic carcinoid and one ileal carcinoid were found.

CONCLUSION

99mTc-EDDA/HYNIC-octreotate, with high imaging quality, is an excellent alternative to 111In-Octreoscan for staging of carcinoids, and it seems to be the method of choice for detection of the primary focus in patients with metastases from an unknown primary tumour.

Radiolabeled peptides in nuclear oncology: influence of peptide structure and labeling strategy on pharmacology

Radiometallo-labeled analogs of SS have shown great benefit in the in vivo localization and targeted radiotherapy of human tumors. The progress and innovation in this clinical application came from the change in strategy, leaving the most widely used radiohalogens for a coordination chemistry approach. The use of chelators appended to the biologically active peptide which convey high thermodynamic and kinetic stability to the radiopeptides did not only improve the pharmacokinetics and pharmacodynamics of the molecules, but surprisingly the biological potency as well. The most urgent problem to be solved in the field is to improve the kidney clearance of the radiopeptides. The kidney turned out to be the dose-limiting organ in this type of targeted radiotherapy. Coordination chemical strategies have already paved the way to a successful clinical application; it is most likely that chelator modification will further help to improve the renal handling of radiometallopeptides.

A comparison of (111)In-DOTATOC and (111)In-DOTATATE: biodistribution and dosimetry in the same patients with metastatic neuroendocrine tumours

[Yttrium-90-DOTA-Tyr(3)]-octreotide (DOTATOC) and [(177)Lu-DOTA-Tyr(3)-Thr(8)]-octreotide (DOTATATE) are used for peptide receptor-mediated radionuclide therapy (PRMRT) in neuroendocrine tumours. No human data comparing these two compounds are available so far. We used (111)In as a surrogate for (90)Y and (177)Lu and examined whether one of the (111)In-labelled peptides had a more favourable biodistribution in patients with neuroendocrine tumours. Special emphasis was given to kidney uptake and tumour-to-kidney ratio since kidney toxicity is usually the dose-limiting factor. Five patients with metastatic neuroendocrine tumours were injected with 222 MBq (111)In-DOTATOC and (111)In-DOTATATE within 2 weeks. Up to 48 h after injection, whole-body scans were performed and blood and urine samples were collected. The mean absorbed dose was calculated for tumours, kidney, liver, spleen and bone marrow. In all cases (111)In-DOTATATE showed a higher uptake (%IA) in kidney and liver. The amount of (111)In-DOTATOC excreted into the urine was significantly higher than for (111)In-DOTATATE. The mean absorbed dose to the red marrow was nearly identical. (111)In-DOTATOC showed a higher tumour-to-kidney absorbed dose ratio in seven of nine evaluated tumours. The variability of the tumour-to-kidney ratio was high and the significance level in favour of (111)In-DOTATOC was P=0.065. In five patients the pharmacokinetics of (111)In-DOTATOC and (111)In-DOTATATE was found to be comparable. The two peptides appear to be nearly equivalent for PRMRT in neuroendocrine tumours, with minor advantages for (111)In/(90)Y-DOTATOC; on this basis, we shall continue to use (90)Y-DOTATOC for PRMRT in patients with metastatic neuroendocrine tumours.

Comparing monoclonal antibodies and small peptidic hormones for local targeting of malignant gliomas

Monoclonal antibodies, F(ab')2 fragments and peptidic vectors have been clinically tested for systemic and locoregional treatment of malignant gliomas. Since these brain-intrinsic neoplasms are characterized by relentless tumor cell infiltration of normal brain parenchyma, targeting agents require diffusive properties in order to reach invading tumor cell clusters that migrate along vascular clefts and axonal pathways. Tumor uptake was significantly improved by using small peptidic hormone receptors, e.g. modified octreotide, following systemic injections as compared to macromolecules which only led to limited stabilization of the disease. More importantly, biodistribution was found to be superior following direct intratumoral injection by using these small drug-like radioconjugates. Rapid and extensive distribution within 30 minutes was observed in large tumors, even crossing the corpus callosum in bihemispheric lesions following injection of 2-3 ml of the radiopharmakon injected into the center of non-resected tumors. Distribution was far more extensive after direct intratumoral injection as compared to intracavitary injection after surgical debulking. Increased interstitial pressure gradients and the much larger and chaotic structure of the interstitial space of a tumor compared to the extremely tight architecture of normal brain tissue might explain this unexpected biodistribution pattern. Peptidic hormone vectors might become useful agents to deliver radiopharmaceuticals into human invasive gliomas.

The clinical value of [90Y-DOTA]-D-Phe1-Tyr3-octreotide (90Y-DOTATOC) in the treatment of neuroendocrine tumours: a clinical phase II study

PURPOSE

The aim of this phase II study was to evaluate the tumour response of neuroendocrine tumours to targeted irradiation with the radiolabelled somatostatin analogue 90Y-DOTATOC. In addition, the palliative effect of 90Y-DOTATOC treatment on the malignant carcinoid syndrome and tumour-associated pain was investigated.

PATIENTS AND METHODS

Forty-one patients (mean age 53 years) with neuroendocrine gastroenteropancreatic and bronchial tumours were included. Eighty-two percent of the patients had therapy resistant and progressive disease. The treatment consisted of four intravenous injections of a total of 6000 MBq/m2 90Y-DOTATOC, administered at intervals of six weeks.

RESULTS

The overall response rate was 24%. For endocrine pancreatic tumours it was 36%. Complete remissions (CR) were found in 2% (1 of 41), partial remissions (PR) in 22% (9 of 41), minor response in 12% (5 of 41), stable disease (SD) in 49% (20 of 41) and progressive disease (PD) in 15% (6 of 41). The median follow up was 15 months (range 1 month to 36 months). The median duration of response has not been reached at 26 months. The two-year survival time was 76 +/- 16%. Eighty-three percent of the patients suffering from the malignant carcinoid syndrome achieved a significant reduction of symptoms. The treatment was well tolerated. A reduction of pain score was observed in all patients (5 of 41) with morphine dependent tumour-associated pain. Side effects included grade III (NCIGC) pancytopenia in 5%, and vomiting shortly after injection in 23%. No grade III-IV renal toxicity was observed.

CONCLUSION

Targeted radiotherapy with 90Y-DOTATOC is a novel, well-tolerated treatment for neuroendocrine tumours with a remarkable objective response rate, survival time, and symptomatic response.

Radiopeptide transmitted internal irradiation of non-iodophil thyroid cancer and conventionally untreatable medullary thyroid cancer using

AIM

Differentiated thyroid carcinomas (DTC) and medullary thyroid carcinomas (MTC) overexpress somatostatin receptor subtypes (sstr). The aim of this pilot study was to evaluate the tumour response of thyroid carcinomas to targeted irradiation with the radiolabelled somatostatin analogue [90Y]-1,4,7,10-tetra-azacyclododecan-4,7,10-tricarboxy-methyl-1-yl-acetyl-D-Phe1-Tyr3-octreotide ([90Y]-DOTA-D-Phe1-Tyr3-octreotide, or 90Y-DOTATOC) which has a high affinity to subtype 2 and a low affinity to subtype 5. It shows no affinity to sstr1, sstr3 and sstr4.

PATIENTS AND METHODS

Twenty patients (mean age 58 years; 50% female, 50% male) with thyroid cancer were included (medullary thyroid cancer (MTC), 12 patients; differentiated thyroid cancer (DTC), seven patients; papillar carcinoma (PC), four patients; follicular carcinoma (FC), three patients; anaplastic carcinoma (AC), one patient). All patients had been therapy resistant and had progressive disease before 90Y-DOTATOC therapy. The dose applied was between totals of 1700 MBq x m(-2) to 7400 MBq x m(-2) 90Y-DOTATOC, administered in one to four injections at intervals of 6 weeks. In the case of tumour progression under therapy, treatment was terminated.

RESULTS

The overall antitumour effect (objective response and stable disease) was 35%; in MTC 42%, in DTC 29%, and in AC 0%. The objective overall response rate was 0%. A stable disease was achieved in 35% (7/20), and progressive disease was found in 65% (13/20). The median time to progression was 8 months, with a median follow-up of 15 months. The treatment was very well tolerated. There were no grade III/IV haematological or renal toxicities.

CONCLUSION

Targeted radiotherapy using 90Y-DOTATOC is able to stop tumour progression in a small number of patients and therefore may be an alternative treatment option for resistant disease. More significant tumour responses in thyroid and medullary thyroid cancer may be obtained by using radiopeptides with pan-somatostatin characteristics.

A new cause of renal thrombotic microangiopathy: yttrium 90-DOTATOC internal radiotherapy

The chelator somatostatin analogue dota-D-phe(1)-tyr(3)-octreotide (DOTATOC), which is stably labeled with the beta-emitting radioisotope yttrium 90 ((90)Y), is used as internal radiotherapy for the treatment of patients with advanced neuroendocrine tumors. We report 5 patients who developed chronic renal failure, caused in 3 patients by biopsy-proven thrombotic microangiopathy (TMA). Twenty-nine patients (14 men, 15 women) with normal renal function before therapy were treated with divided intravenous doses of (90)Y-DOTATOC approximately 6 weeks apart (mean normalized cumulative dose, 165.4 +/- 36.4 mCi/m(2)). Twenty-two of 29 patients were administered a normalized cumulative dose of 200 mCi/m(2) without side effects. Among the 7 patients (6 women, 1 man) administered a normalized cumulative dose greater than 200 mCi/m(2), 5 patients (4 women, 1 man) developed renal failure. Increasing serum creatinine levels were observed within 3 months after the last (90)Y-DOTATOC injection. The evolution was rapidly progressive in 3 patients, resulting in end-stage renal failure within 6 months. The remaining 2 patients developed chronic renal insufficiency (mean serum creatinine level, 300 micromol/L an average 16 months after the end of treatment). Renal biopsies performed in 3 patients showed typical signs of TMA involving glomeruli, arterioles, and small arteries. Patients treated with high-dose (90)Y-DOTATOC internal radiotherapy (cumulative dose > 200 mCi/m(2)) are at high risk to develop severe renal failure caused by TMA lesions. The histopathologic lesions are identical to those found after external radiotherapy, which suggests a causal relationship between (90)Y-DOTATOC and renal TMA.

Exceptional results in neuroendocrine-metastases-caused paraplegia treated with [90Y-DOTA]-D-Phe1-Tyr3-octreotide (90Y-DOTATOC), a radiolabelled somatostatin analogue

The case history is presented of a patient with paraplegia caused by progressive spinal cord compression due to bone metastases of a neuroendocrine pulmonary tumour. After failed external radiotherapy, the patient received targeted internal radiotherapy administered as a fractionated treatment with intravenous injections of a total of 7400 MBq/m2 of [90YDOTA]-D-Phe1-Tyr3-octreotide (90Y-DOTATOC), a radiolabelled somatostatin analogue. This case history highlights the value of 90Y-DOTATOC in the treatment of neuroendocrine tumours and the importance and possibility of good palliation of neuroendocrine bone metastases.

Receptor targeting for tumor localisation and therapy with radiopeptides

Receptor targeting with radiolabeled peptides has become very important in nuclear oncology in the past few years. The most frequently used peptides in the clinic are analogs of somatostatin (SRIF), e.g. OctreoScan, which contain chelators for the radioisotopes 111In, 86Y, 90Y, 67Ga, 68Ga and 64Cu or for 99mTc and 188Re. and were labelled with the halogens 123I and 18F. Radiolabeled analogs of &alpha-melanocyte-stimulating hormone (&alpha-MSH), neurotensin, vasoactive intestinal peptide (VIP), bombesin (BN), substance P (SP) and gastrin/cholecystokinin (CCK) are also being developed, evaluated in vitro and in vivo and tested for clinical application. This review focuses on the expression in tumors and the regulation of receptors for these neuropeptides as well as the development of novel chelator-peptide conjugates suitable for in vivo scintigraphy or internal radiotherapy. The state of the art of radiopeptide pharmaceuticals is illustrated with four SRIF analogs, modified with the macrocyclic chelator 1, 4, 7, 10-tetraazacyclododecane-1, 4, 7, 10-tetraacetic acid (DOTA): [D-Phe1]-octreotide (DOTAOC), [D-Phe1, Tyr3]-octreotide (DOTATOC), vapreotide (DOTAVAP) and lanreotide (DOTALAN). DOTA is almost a universal chelator capable of strongly encapsulating hard metals such as 111In and 67Ga for Single Photon Emission Tomography (SPET), 68Ga, 86Y and 64Cu for Positron Emission Tomography (PET) as well as 90Y for receptor-mediated radionuclide therapy and radiolanthanides which exhibit different interesting decay schemes. From biodistribution studies in experimental animals and from clinical data it is concluded that DOTATOC is currently the most suitable SRIF radiopeptide with the best potential in the clinic.

Detection of somatostatin receptor-positive tumours using the new 99mTc-tricine-HYNIC-D-Phe1-Tyr3-octreotide: first results in patients and comparison with 111In-DTPA-D-Phe1-octreotide

Indium- 111 labelled DTPA-D-Phe1-octreotide (DTPA-OC, OctreoScan) has been introduced into clinical routine for the detection of somatostatin receptor (SSTR)-positive tumours, which are predominantly of neuroendocrine origin. Potential further applications in other SSTR-positive cancers (e.g. small cell lung cancer, breast cancer, melanoma) have been limited mainly by the restricted availability and the high radionuclide costs. Previous attempts to introduce technetium-99m labelled analogues of octreotide have not been very successful in terms of the labelling procedure, in vivo biodistribution and/or tumour detection capabilities. The aim of this study was to assess the performance of the new 99mTc-labelled analogue HYNIC-D-Phe1-Tyr3-octreotide (HYNIC-TOC), using tricine as co-ligand, for the detection of SSTR-positive tumours in patients in comparison with 111In-DTPA-OC. Overall, 13 patients were examined using 99mTc-tricine-HYNIC-TOC. Twelve patients had proven SSTR-positive tumours, while one patient presented with an SSTR-negative tumour. In 9 of the 13 patients both tracers (99mTc-tricine-HYNIC-TOC and 111In-DTPA-OC) were used. Serial whole-body scans, spot views and/or single-photon emission tomography studies were performed. Images were qualitatively and semi-quantitatively (ROI analyses) evaluated. The biodistribution of 99mTc-tricine-HYNIC-TOC in patients showed high physiological uptake in kidneys, moderate uptake in liver and spleen and little uptake in the gut. The tracer showed predominantly renal and negligible hepatobiliary excretion. Known SSTR-positive tumour sites showed rapid and intense tracer accumulation. 99mTc-tricine-HYNIC-TOC demonstrated rapid tissue uptake within the first hour after injection and had basically no significant clearance (<20%) from normal or tumour tissue thereafter. In contrast, 111In-DTPA-OC showed continuous clearance from normal tissues as well as renal and very little hepatobiliary excretion. Nevertheless, the patterns of accumulation of 99mTc-tricine-HYNIC-TOC in tumours and normal organs were comparable to those of 111In-DTPA-OC. A lesion-by-lesion comparison showed comparable tumour detection capabilities in intrahepatic tumour sites and superior capabilities of 99mTc-tricine-HYNIC-TOC in respect of extrahepatic lesions. In conclusion, 99mTc-tricine-HYNIC-TOC shows promise as a tracer for SSTR imaging, given its favourable clinical characteristics (specific and high receptor affinity, good biodistribution, renal excretion, low radiation exposure, high imaging quality, on-demand availability) and cost-effectiveness. 99mTc-tricine-HYNIC-TOC allows earlier diagnosis (10 min-4 h) compared with 111In-DTPA-OC (4-24 h).

Yttrium-90 DOTATOC: first clinical results

In a pilot study, DOTA-d-Phe(1)-Tyr(3)-octreotide (DOTATOC), which can be labelled with the beta-emitting radioisotope yttrium-90, has recently been used for the treatment of patients with advanced somatostatin receptor-positive tumours who had no other treatment option. The aim of the present study was to elucidate the therapeutic potential of (90)Y-DOTATOC in a larger number of patients employing a standardized treatment protocol. Careful attention was paid to any side-effects (renal and/or haematological toxicity). Of 44 patients with advanced somatostatin receptor-positive tumours of different histology, 29 could be included in the study. The 15 patients who were excluded from the study protocol were assigned to our institution for purely compassionate reasons. The 29 patients who were included received four or more single doses of (90)Y-DOTATOC with ascending activity at intervals of approximately 6 weeks (cumulative dose 6120+/-1347 MBq/m(2)) with the aim of performing an intra-patient dose escalation study. In total, 127 single treatments were given. In eight of these 127 single treatments, total doses of > or = 3700 MBq were administered. In an effort to prevent renal toxicity, two patients received Hartmann-Hepa 8% solution during all therapy cycles, while 13 patients did so during some but not all therapy cycles; in 14 patients no solution was administered during the therapy cycles. The treatment was monitored by computed tomography and indium-111 DOTATOC scintigraphy. Blood parameters were controlled weekly, while tumour markers and liver enzymes were controlled 6-weekly. Of the 29 patients, 24 patients showed no severe renal or haematological toxicity (toxicity < or = grade 2 according to the National Cancer Institute grading criteria). These 24 patients received a cumulative dose of < or = 7400 MBq/m(2). Five patients developed renal and/or haematological toxicity. All of these five patients received a cumulative dose of >7400 MBq/m(2) and had received no Hartmann-Hepa 8% solution during the therapy cycles. Four of the five patients developed renal toxicity; two of these patients showed stable renal insufficiency and two require haemodialysis. Two of the five patients exhibited anaemia (both grade 3) and thrombopenia (grade 2 and 4, respectively). To date, 20 of the 29 patients have shown a disease stabilization, two a partial remission, four a reduction of tumour mass <50% and three a progression of tumour growth. (90)Y-DOTATOC could be a powerful and promising new therapeutic agent for anti-cancer treatment - at least in terms of an adjuvant starting point of the disease. However, problems with toxicity have to be solved. Evaluation of the effect of amino acid infusions (e.g. Hartmann-Hepa 8% solution) during (90)Y-DOTATOC treatments with the aim of reducing renal toxicity is ongoing.

Biokinetics and dosimetry in patients administered with (111)In-DOTA-Tyr(3)-octreotide: implications for internal radiotherapy with (90)Y-DOTATOC

Recent advances in receptor-mediated tumour imaging have resulted in the development of a new somatostatin analogue, DOTA-dPhe(1)-Tyr(3)-octreotide. This new compound, named DOTATOC, has shown high affinity for somatostatin receptors, ease of labelling and stability with yttrium-90 and favourable biodistribution in animal models. The aim of this work was to evaluate the biodistribution and dosimetry of DOTATOC radiolabelled with indium-111, in anticipation of therapy trials with (90)Y-DOTATOC in patients. Eighteen patients were injected with DOTATOC (10 microg), labelled with 150-185 MBq of (111)In. Blood and urine samples were collected throughout the duration of the study (0-2 days). Planar and single-photon emission tomography images were acquired at 0.5, 3-4, 24 and 48 h and time-activity curves were obtained for organs and tumours. A compartmental model was used to determine the kinetic parameters for each organ. Dose calculations were performed according to the MIRD formalism. Specific activities of >37 GBq/ micromol were routinely achieved. Patients showed no acute or delayed adverse reactions. The residence time for (111)In-DOTATOC in blood was 0.9+/-0.4 h. The injected activity excreted in the urine in the first 24 h was 73%+/-11%. The agent localized primarily in spleen, kidneys and liver. The residence times in source organs were: 2.2+/-1.8 h in spleen, 1.7+/-1.2 h in kidneys, 2.4+/-1.9 h in liver, 1.5+/-0.3 h in urinary bladder and 9. 4+/-5.5 h in the remainder of the body; the mean residence time in tumour was 0.47 h (range: 0.03-6.50 h). Based on our findings, the predicted absorbed doses for (90)Y-DOTATOC would be 7.6+/-6.3 (spleen), 3.3+/-2.2 (kidneys), 0.7+/-0.6 (liver), 2.2+/-0.3 (bladder), 0.03+/-0.01 (red marrow) and 10.1 (range: 1.4-31.0) (tumour) mGy/MBq. These results indicate that high activities of (90)Y-DOTATOC can be administered with low risk of myelotoxicity, although with potentially high radiation doses to the spleen and kidneys. Tumour doses were high enough in most cases to make it likely that the desired therapeutic response desired would be obtained.

Synthesis and physicochemical characterization of a novel precursor for covalently bound macromolecular MRI contrast agents

The ligand DOTASA was designed and synthesized in the aim of obtaining a kinetically and thermodynamically stable Gd(III) chelate which, through its uncoordinated carboxylate function, will provide an efficient pathway to couple the complex to bio- or macromolecules without affecting the coordination pattern of DOTA. Furthermore, it allows us to study the influence of an extra carboxylate arm on the parameters determining proton relaxivity in comparison to the commercial agent [Gd(DOTA)(H2O)]-. A combined variable-temperature 17O NMR, EPR and nuclear magnetic relaxation dispersion study on the Gd(III) chelate resulted in kex298 = (6.3 +/- 0.2) x 10(6) s-1 for the water exchange rate and tau R298 = 125 +/- 2 ps for the rotational correlation time. The slight increase in both kex298 and tau R298, as compared to those for [Gd(DOTA)(H2O)]-, is attributed to the presence of the extra negative charge. The longer rotational correlation time results in a proton relaxivity of 5.03 mM-1 s-1 for [Gd(DOTASA)(H2O)]2-, which is approximately 30% higher than that for [Gd(DOTA)(H2O)]-. The increased water exchange rate of [Gd(DOTASA)(H2O)]2- has no consequence for proton relaxivity since this latter is exclusively limited by fast rotation for both complexes. However, for slowly rotating macromolecular agents, which contain a covalently coupled DOTASA unit instead of a coupled DOTA, this increased exchange rate will have a significant positive effect.

DOTATOC: a powerful new tool for receptor-mediated radionuclide therapy

This study presents the first successful use of a peptidic vector, DOTATOC, labelled with the beta-emitting radioisotope yttrium-90, for the treatment of a patient with somatostatin receptor-positive abdominal metastases of a neuroendocrine carcinoma of unknown localization. Tumour response and symptomatic relief were achieved. In addition, the new substance DOTATOC was labelled with the diagnostic chemical analogue indium-111 and studied in three patients with histopathologically verified neuroendocrine abdominal tumours for its diagnostic sensitivity and compared with the commercially available OctreoScan. In all patients the kidney-to-tumour uptake ratio (in counts per pixel) was on average 1. 9-fold lower with 111In-DOTATOC than with OctreoScan. DOTATOC could be a potential new diagnostic and therapeutic agent in the management of neuroendocrine tumours.

Biodistribution of 111In-labelled SCN-bz-DTPA-BC-2 MAb following loco-regional injection into glioblastomas

We analyzed the biodistribution of the 111In-labelled murine anti-tenascin-C MAb BC-2 after intralesional injection in 15 glioblastoma patients. The activated ligand DTPA was conjugated via the isothiocyanato-benzyl group onto BC-2. Conjugates were labelled with 111In, displaying immunoreactivity greater than 90% and labelling efficiency of 99 +/- 1%. In contrast to i.v. injections, excellent tumor uptake was obtained by direct intralesional injection of conjugates that showed only slow systemic release. In serum, conjugates were found to be intact; in urine, only low-molecular-weight decay products were detected. In 8 patients, outflow from the site of injection into systemic circulation was low; daily activity in the serum and urine was found to be below 2% of the total injected radioactivity; most of the injected activity was retained within the tumor, resulting in effective half-lives of 58 +/- 5 hr. In contrast, higher outflow up to 10% of regionally injected 111In-DTPA-BC-2 MAb into systemic circulation resulted in considerable shortening of the effective half-lives to 20 to 40 hr in 7 patients. This outflow was found to correlate with tumor size and blood/brain barrier disruption. In one patient, HPLC analysis of tumor cyst fluid 3 and 6 days after intralesional injection revealed conjugates to be intact and allowed the estimate of about 70% of the total injected 111In-DTPA-BC-2 to be confined to tumor tissue. We conclude that different outflow patterns can be observed following locoregional injection of 111In-DTPA-BC-2, leading to considerable variations in the effective half-lives of isotopes within the tumor, requiring adjustment of the radiation dose in therapeutic trials.

Tumor uptake and metabolism of copper-67-labeled monoclonal antibody chCE7 in nude mice bearing neuroblastoma xenografts

METHODS

ChCE7, an internalizing, neuroblastoma-specific monoclonal antibody (MAb), and its F(ab')2 fragments were derived with the bifunctional ligand 4-(1,4,8,11-tetraazacyclotetradec-1-yl)-methyl benzoic acid tetrahydrochloride (CPTA) and labeled with the potential therapeutic nuclide 67Cu. After internalization and degradation of these immunoconjugates in SKN-AS human neuroblastoma cells, the terminal degradation product was found to be the lysine adduct of the copper complex. In vivo distributions in nude mice bearing neuroblastoma xenografts were studied and extracts from tumor and tissue samples were analyzed.

RESULTS

The intact MAb showed high tumor uptake, stable over 4 days postinjection (33.7% +/- 2.8% ID/g), with tumor/blood ratios increasing from 4.4 on Day 1 to 23.0 on Day 7 postinjection and low levels of radioactivity in other tissues. Analysis of tumor extracts by gel filtration chromatography and high-pressure liquid chromatography (HPLC) showed that over the period of 4 days radioactivity was present both in a high M(r) form, consisting of the MAb/antigen complex, as well as in a low M(r) form, consisting of the copper complex attached to short peptides, including the lys-CPTA complex. There was no evidence of aggregates or MAb/antigen complexes in the blood, radioactivity being exclusively in the form of intact MAb, and radioactivity in the liver was found to consist of intact MAb, MAb fragments and the lys-CPTA metabolite. In the case of the F(ab')2 fragments, high accumulation of radioactivity in the kidneys was observed and analysis of kidney extracts showed it to be due to rapid accumulation of the lys-CPTA complex. When kidney uptake and retention of the CPTA complex as well as of its lysine and glycine adducts was investigated, the lysine complex was taken up more strongly and retained longer in the kidneys than the other compounds.

CONCLUSION

Copper-67-labeled MAb chCE7 F(ab')2 fragments were prepared using a novel bifunctional copper ligand 1-(p-aminobenzyl)-1,4,7,10-tetraazacyclodecane-4,7,10-triacetate (DO3A). Compared with MAb-chCE7 F(ab')2 fragments labeled by the CPTA ligand, labels using the DO3A ligand showed improved biodistributions resulting, 48 hr postinjection, in a 4-fold increase in tumor uptake and a 4-fold reduction of radioactivity in the kidneys.

Comparison of chemotaxis and superoxide generation of indium-111-oxine- and technetium-99m-HMPAO-labelled granulocytes

The diagnostic value of imaging infection with labelled granulocytes depends on the functional integrity of the reinfused cells. The aim of this study was to compare the functional integrity of granulocytes labelled with indium-111-oxine and technetium-99m-hexamethylpropyleneamineoxime (HMPAO), respectively, in comparison to unlabelled control granulocytes. Granulocytes were purified from healthy subjects and labelled with either 111In-oxine or 99mTc-HMPAO. Chemotaxis and superoxide production induced by formyl-peptide and phorbol-myristate-acetate were measured. Granulocytes labelled with 111In-oxine had significantly (p < 0.001) decreased chemotaxis. Superoxide production of granulocytes stimulated with phorbol-myristate-acetate showed no significant difference between control cells and those labelled using either technique. In contrast, formyl-peptide-stimulated superoxide production was increased in granulocytes labelled with 111In-oxine (p < 0.01) and in cells labelled with 99mTc-HMPAO (p < 0.03), indicating a priming compared to unlabelled cells. In conclusion, 99mTc-HMPAO-labelled granulocytes show biological properties superior to 111In-oxine-labelled cells, and should therefore be favoured for use in leucocyte labelling and infectious disease imaging.

Quantitative comparison of direct antibody labeling and tumor pretargeting in uveal melanoma

SPECT radioimmunoscintigraphy with 99mTc-labeled anti-melanoma monoclonal antibodies (MAbs) 225.28S is being used to detect uveal melanoma. Recently, pretargeting methods have been described to reduce background activity and perform imaging in a shorter time interval.

METHODS

We compared the three-step pretargeting method with conventional radioimmunoscintigraphy in 15 patients with a clinical and laboratory diagnosis of uveal lesion. High-resolution SPECT radioimmunoscintigraphy was performed in all patients with directly labeled MAbs and, 1 wk later, with the three-step pretargeting technique. Eleven patients underwent eye enucleation and specimens of uveal melanoma were available for histology, whereas four patients underwent conservative therapy. The percent injected dose (%ID) delivered to the tumor and the tumor-to-background ratio were calculated.

RESULTS

In all three-step radioimmunoscintigraphy studies, there was a reduction of nonspecific nasopharyngeal background. The three-step radioimmunoscintigraphy tumor-to-nontumor ratio was 3.1 +/- 1.3 versus 1.5 +/- 0.5 of conventional radioimmunoscintigraphy, while the percent injected dose on the tumor was similar for the two methods (4.4 +/- 3.0 versus 3.8 +/- 2.8) x 10(-3).

CONCLUSION

Improved SPECT imaging with the three-step radioimmunoscintigraphy results from reduced background and from higher counting statistics due to reduction of time interval between radiotracer administration and imaging, whereas the absolute amount of tracer delivered to the tumor by the two methods is comparable.

Preclinical evaluation of 67Cu-labeled intact and fragmented anti-colon carcinoma monoclonal antibody MAb35

The anti-carcinoembryonic antigen murine monoclonal antibody MAb35 and its F(ab')2 fragment were labeled with 131I or the potential therapeutic nuclide 67Cu. In vivo distribution patterns were compared in nude mice bearing human tumor xenografts by coinjection of the 131I- and 67Cu-labeled materials, thereby minimizing variations due to xenograft and host animal. The results showed that the 67Cu-labeled intact MAb35 achieved twice the percentage of injected dose/g tumor when compared to its 131I-labeled counterpart, without significant impairment of the wholebody distribution pattern. However, this effect was not evident in the case of F(ab')2, where high uptake of 67Cu was found in the kidney without any enhancement of accumulation in the target xenografts. To investigate the underlying causes of the different distribution patterns observed, iodine labeling was also performed using a more stable linkage, and the results indicated that the observed differences cannot be explained by simple deiodination of conventionally labeled preparations. We conclude that the intact form of the 67Cu-labeled antibody may be superior to the F(ab')2 fragment for use in our intended clinical studies. Our continuing work on the processing of radiometal-labeled F(ab')2 fragments, at the systemic and cellular level, will hopefully lead to a strategy to circumvent the problem of high kidney accumulation.

Antibody labeling with copper-67 using the bifunctional macrocycle 4-[(1,4,8,11-tetraazacyclotetradec-1-yl)methyl]benzoic acid

The high kinetic stability of the Cu2+ complex of the chelator 4-[(1,4,8,11-tetraazacyclotetradec-1-yl)-methyl]benzoic acid was demonstrated at physiological pH as well as under acidic conditions. The chelating agent was conjugated to AB35, a monoclonal antibody directed against CEA, without a significant loss of immunoreactivity. The conjugate could, under optimal labeling conditions, be labeled with 67Cu in acetate buffer with a full occupancy of ligands within 20 min. This radiolabeled conjugate showed no transfer of radiocopper to serum proteins in human serum over 7 days. The biodistribution in tumor-bearing mice was measured and compared to that of iodinated AB35. Tumor uptake was high with 15 +/- 3% ID (injected dose)/g after 24 h and 32 +/- 7% ID/g after 96 h for the 67Cu-labeled antibody and 13 +/- 4% ID/g after 24 h and 14 +/- 2% ID/g after 96 h for the 125I-labeled antibody. Whereas radioactivity in normal organs decreased with time after 24 h, increased residence time was shown up to 4 days with the 67Cu-labeled AB35.

Synthesis and evaluation of two new bifunctional carboxymethylated tetraazamacrocyclic chelating agents for protein labeling with indium-111

The synthesis of two new N- and C-functionalized tetraazamacrocyclic ligands intended to be covalently linked to biomolecules like monoclonal antibodies and to bind the gamma-emitting isotope indium-111 in a thermodynamically and/or kinetically inert way is described. 12-(p-Nitrobenzyl)-1,4,7,10-tetraazacyclotridecane-1,4,7,10-tetraa cetic acid (L1) was synthesized by means of bimolecular cyclization with the appropriate malonic acid diethyl ester and triethylenetetraamine, followed by reduction with diborane and alkylation of the cyclic tetraamine with bromoacetic acid. The corresponding triscarboxymethylated ligand L2 was made by statistical alkylation of the tetraamine. Both ligands fulfill the criteria for antibody labeling using the bifunctional chelate approach, namely fast chelate formation, high radiochemical yield, and high stability under physiological conditions. Surprisingly the heptadentate ligand L2 confers higher stability to In3+ and exhibits faster complex formation than octadentate L1. 13C NMR spectra in solution indicate that the difference in stability is not due to incomplete coordination of all four carboxylate groups in In-L1.

The molecular structure of indium-DTPA

The x-ray structural characterization of Na2In(DTPA).7 H2O is described. The structure is notable for two reasons. It is the first In3+-complex with relevance to antibody attachment to be structurally characterized. Surprisingly, the complex has coordination number eight and is the first monomeric In3+-complex with such a high coordination number. The potentially octadentate ligand binds through three amino groups and five deprotonated carboxylate groups to the metal ion. The ligand atoms surround the central indium atom in a slightly distorted Archimedian antiprismatic configuration. High resolution nuclear magnetic resonance studies in solution show that this high coordination number also pertains in aqueous medium. Consequently, one may conclude that octadentate ligands are optimal for the thermodynamic and kinetic stabilization of In3+ in living systems. It is also indicated that bifunctional diethylenetriaminepentaacetic acid (DTPA) is superior to amide bound (= sevendentate) DTPA in antibody labeling.