131I]-TYR3-octreotide: clinical dosimetry and use for internal radiotherapy of metastatic paraganglioma and carcinoid tumors

Dosimetry and therapeutic application of [(131)I]-Tyr3-octreotide were evaluated in three patients with metastatic paraganglioma and carcinoid tumor. The in vitro stability of [(131)I]-Tyr3-octreotide was verified. Tumor uptake and residence time were between 0.02 and 0.1% and 0.5 to 9.8 h, respectively. The calculated tumor radiation doses were between 0.105 and 0.696 mGy.MBq(-1). No intolerance or adverse effects were observed after the therapeutic doses (3.3-6.6 GBq). A partial tumor response was obtained in one patient and no response occurred in two patients.     

125I-[Tyr3]-octreotide内化及杀伤NCI-H446细胞的研究

目的　探讨小细胞肺癌NCI H4 4 6细胞株内化 [Tyr3] 奥曲肽 ([Tyr3] octreotide,TOC)的能力及1 2 5I TOC杀伤NCI H4 4 6细胞的效应。方法　以1 2 5I TOC为放射配基 ,生长抑素受体 (SSTR)阳性细胞NCI H4 4 6于 37℃与1 2 5I TOC共同保温不同时间后 ,分别检测细胞的总结合、内化及结合到核上的1 2 5I TOC ;采用噻唑蓝 (MTT)法检测不同剂量1 2 5I TOC、游离1 2 5I及TOC在不同时间对细胞存活率的影响。结果　NCI H4 4 6细胞内化1 2 5I TOC和细胞核结合1 2 5I TOC呈时间依赖性 ,至 2 4h最高 ,结合到核上1 2 5I TOC的量为 0 5h的 7倍 ;1 2 5I TOC对SSTR阳性的NCI H4 4 6细胞的杀伤作用呈剂量 效应、时间 效应关系 ,以 74kBq1 2 5I TOC作用 96h的杀伤效应最大 ,细胞存活率降至 (4 4 8± 7 2 ) %。结论　1 2 5I TOC可在SSTR介导下内化进入细胞并可杀伤细胞 ,呈时间 效应和剂量 效应关系。     

Tumour uptake of the radiolabelled somatostatin analogue [DOTA0,TYR3]octreotide is dependent on the peptide amount

Radiolabelled tumour receptor-binding peptides can be used for in vivo scintigraphic imaging. Recently, the somatostatin analogue [Tyr³]octreotide (d-Phe-c(Cys-Tyr-d-Trp-Lys-Thr-Cys)-Thr(ol)) was derivatized with the chelator DOTA (tetra-azacyclododecane-tetra-acetic acid), enabling stable radiolabelling with both the high-energy beta particle-emitter yttrium-90 and the Auger electron-emitter indium-111. The thus produced radiolabelled compounds are promising for peptide receptor radionuclide therapy. Our previous in vitro and in vivo (rat) experiments with these radiolabelled compounds showed favourable binding and biodistribution characteristics with high uptake and retention in the target organs. We also demonstrated receptor-specific, time- and temperature-dependent internalization of radiolabelled [DOTA⁰,Tyr³]octreotide in somatostatin receptor subtype 2 (sst₂)-positive rat pancreatic tumour cell lines. In this study we have investigated the effects of differences in the amount of injected peptide on tissue distribution of ¹¹¹In-labelled [DOTA⁰,Tyr³]octreotide in normal, i.e. non-tumour-bearing, and CA20948 tumour-bearing rats. This was done in order to find the amount of peptide at which the highest uptake in target tissues is achieved, and thereby to increase the potential of radionuclide therapy while simultaneously ensuring the lowest possible radiotoxicity in normal organs. Uptake of radiolabelled [DOTA⁰,Tyr³]octreotide in sst₂-positive organs showed different bell-shaped functions of the amount of injected peptide, being highest at 0.05 (adrenals), 0.05–0.1 (pituitary and stomach) and 0.25 (pancreas) μg. Uptake in the tumour was highest at 0.5 μg injected peptide. The highest uptake was found at peptide amounts that were lower than those reported for [¹¹¹In-DTPA⁰]octreotide ((d-Phe-c(Cys-Phe-d-Trp-Lys-Thr-Cys)-Thr(ol), DTPA = diethylene-triamine-penta-acetic acid), consistent with the higher receptor affinity of the first compound. Our observations of mass-dependent differences in uptake of radiolabelled [DOTA⁰, Tyr³]octreotide, being the resultant of a positive effect of increasing amounts of peptide on, for example, receptor clustering and a negative effect of receptor saturation, are of consequence for rat radionuclide therapy studies with radiolabelled peptides and may also be of consequence for human radionuclide therapy studies with this compound. Received 6 January and in revised form 16 February 1999     

Human biodistribution and dosimetry of [123I]FP-CIT: a potent radioligand for imaging of dopamine transporters

This study reports on the biodistribution and radiation dosimetry of iodine-123-labelled N-ω-(flu- oropropyl)-2β-carbomethoxy-3β-(4-iodophenyl)tropane ([¹²³I]FP-CIT), a promising radioligand for the imaging of dopamine transporters. In 12 healthy volunteers, conjugate whole-body scans were performed up to 48 h following intravenous injection of approximately 100 MBq [¹²³I]FP-CIT. Attenuation correction was performed using a transmission whole-body scan obtained prior to injection of the radioligand, employing a ¹²³I flood source. Blood samples were taken and urine was freely collected up to 48 h after injection of the radiotracer. For each subject, the percentage of injected activity measured in regions of interest over brain, striatum, lungs and liver were fitted to a multicompartmental model to give time-activity curves. The cumulative urine activity curve was used to model the urinary excretion rate and, indirectly, to predict faecal excretion. Using the MIRD method, nine source organs were considered in estimating absorbed radiation doses for organs of the body. The images showed rapid lung uptake and hepatobiliary excretion. Diffuse uptake and retention of activity was seen in the brain, especially in the striatum. At 48 h following the injection of [¹²³I]FP-CIT, mean measured urine excretion was 60%±9% (SD), and mean predicted excretion in faeces was 14%±1%. In general, the striatum received the highest absorbed dose (average 0.23 mGy/MBq), followed by the urinary bladder wall (average 0.054 mGy/MBq) and lungs (average 0.043 mGy/MBq). The average effective dose equivalent of [¹²³I]FP-CIT was estimated to be 0.024 mSv/MBq. The amount of [¹²³I]FP-CIT required for adequate dopamine transporter imaging results in an acceptable effective dose equivalent to the patient. Received 14 July and in revised form 26 September 1997     

Evaluation of the use of a standard input function for compartment analysis of [<Superscript>123</Superscript>I]iomazenil data: Factors influencing the quantitative results

Adoption of standard input function (SIF) has been proposed for kinetic analysis of receptor binding potential (BP), instead of invasive frequent arterial samplings. The purpose of this study was to assess the SIF method in quantitative analysis of [123I]iomazenil (IMZ), a central benzodiazepine antagonist, for SPECT. SPECT studies were performed on 10 patients with cerebrovascular disease or Alzheimer disease. Intermittent dynamic SPECT scans were performed from 0 to 201 min after IMZ-injection. BPs calculated from SIFs obtained from normal volunteers (BPs) were compared with those of individual arterial samplings (BPo). Good correlations were shown between BP(o)s and BP(s)s in the 9 subjects, but maximum BP(s)s were four times larger than the corresponding BP(o)s in one case. There were no abnormal laboratory data in this patient, but the relative arterial input count in the late period was higher than the SIF. Simulation studies with modified input functions revealed that height in the late period can produce significant errors in estimated BPs. These results suggested that the simplified method with one-point arterial sampling and SIF can not be applied clinically. One additional arterial sampling in the late period may be useful.     

Determination of tumour hypoxia with [18F]EF3 in patients with head and neck tumours: a phase I study to assess the tracer pharmacokinetics, biodistribution and metabolism

PURPOSE: The aim of this study was to assess the pharmacokinetics, biodistribution and metabolism of [(18)F]EF3, a labelled 2-nitroimidazole hypoxia marker, in ten patients with head and neck cancer. METHODS: [(18)F]EF3 was administered intravenously (group 1, n = 5, mean dose +/- SD: 324 +/- 108 MBq; group 2, n = 5, mean dose +/- SD: 1,134 +/- 138 MBq) to patients (nine male, one female). Blood and urine samples and whole-body PET scans were obtained from 20 s to 4-6 h. Radioactivity was determined in several regions of interest. RESULTS: No serious adverse event was reported. [(18)F]EF3 concentration in blood exhibited a bi-exponential decline. [(18)F]EF3 was mainly eliminated in the urine. By 7 h 40 min after injection, 53 +/- 14% of the injected dose was collected in the urine. There was no significant difference between the low- and high-dose groups. A progressive accumulation occurred also in the colon, indicating a hepatobiliary excretion. Except in organs involved in the elimination of [(18)F]EF3, the tumour-to-organ ratio remained close to or below unity in muscle, lungs, heart and brain at various times after injection. In one patient, tumour hypoxia was observed with a tumour-to-blood ratio ranging from 1.4 to 1.9. Last, [(18)F]EF3 remained very stable after injection, with percentage of native tracer above 87% in the serum and 84% in the urine. CONCLUSION: Administration of [(18)F]EF3 in head and neck cancer patients is feasible and safe. Uptake and retention in tumour was observed, indicating the presence of hypoxia.     

Improved Stability and Practicality for Synthesis of 4-Borono-2-[18F]fluoro-l-phenylalanine by Combination of [18O]O2 Single-Use and [18F]CH3COOF Labeling Agents

Purpose4-Borono-2-[¹⁸F]fluoro-l-phenylalanine ([¹⁸F]FBPA) synthesized with [¹⁸F]F₂, produced using the ¹⁸O(p, n)¹⁸F reaction, has been reported for increasing radioactivity. However, a dedicated system and complex procedure is required to reuse the costly [¹⁸O]O₂ gas; also, the use of [¹⁸F]F₂ as a labeling agent reduces the labeling rate and radiochemical purity. We developed a stable and practical method for [¹⁸F]FBPA synthesis by combining [¹⁸F]F₂, produced using a [¹⁸O]O₂ single-use system, and a [¹⁸F]CH₃COOF labeling agent.MethodsThe produced [¹⁸F]F₂ was optimized, and then [¹⁸F]FBPA was synthesized. For passivation of the target box, 0.5% F₂ was pre-irradiated in argon. Gaseous products were discarded; the target box was filled with [¹⁸O]O₂ gas, and then irradiated (first irradiation). Then, the [¹⁸O]O₂ gas was discarded, 0.05–0.08% F₂ in argon was fed into the target box, and it was again irradiated (second irradiation). The [¹⁸F]F₂ obtained after this was passed through a CH₃COONa column, converting it into the [¹⁸F]CH₃COOF labeling agent, which was then used for [¹⁸F]FBPA synthesis.ResultsThe mean amount of as-obtained [¹⁸F]F₂ was 55.0 ± 3.3 GBq and that of as-obtained [¹⁸F]CH₃COOF was 21.6 ± 1.4 GBq after the bombardment. The radioactivity and the radiochemical yield based on [¹⁸F]F₂ of [¹⁸F]FBPA were 4.72 ± 0.34 GBq and 12.2 ± 0.1%, respectively. The radiochemical purity and molar activity were 99.3 ± 0.1% and 231 ± 22 GBq/mmol, respectively.ConclusionWe developed a method for [¹⁸F]FBPA production, which is more stable and practical compared with the method using [¹⁸O]O₂ gas-recycling and [¹⁸F]F₂ labeling agent.     

[111In]DOTATOC as a dosimetric substitute for kidney dosimetry during [90Y]DOTATOC therapy: results and evaluation of a combined gamma camera/probe approach

Purpose During [⁹⁰Y]DOTATOC therapy, for determination of kidney doses a conventional approach using co-injected [¹¹¹In]DOTATOC was evaluated for validity, reliability and reproducibility as well as for the influence of methodological variations and bremsstrahlung. Biologically effective doses were estimated by calculating the relative effectiveness (RE) of kidney doses.Methods Fractionated [⁹⁰Y]DOTATOC therapy (n=20 patients, 3.1±0.7 GBq/therapy cycle, 45 therapy cycles) included co-injection of 157±37 MBq [¹¹¹In]DOTATOC and a nephroprotective infusion regimen. From serial gamma camera/probe measurements, individual region of interest (ROI) sets were established and kidney doses were determined according to MIRDOSE3 (corrected for individual kidney mass) by use of three methodological variants: (1) correction for interfering organs (liver/spleen) and background activity, (2) correction for interfering organs alone and (3) no corrections. A phantom study was performed with ¹¹¹ In alone and with ¹¹¹In +⁹⁰Y to estimate the influence of ⁹⁰Y bremsstrahlung.Results Mean kidney dose (method 1, n=20 patients, 20 therapy cycles) was 1.51±0.60 Gy/GBq [⁹⁰Y]DOTATOC (1.41±0.48 Gy/GBq for n=20 patients, 45 therapy cycles). With partial correction (method 2) or no correction (method 3) for interfering activity, kidney doses increased significantly, to 2.71±1.26 Gy/GBq and 3.15±1.22 Gy/GBq, respectively. The span of REs ranged from 1.02 to 1.24. Inter-observer variability was as high as ±32% (±2SD). ⁹⁰Y bremsstrahlung accounted for a 4–11% underestimation of obtained target activity.Conclusion The obtained kidney doses are highly influenced by methodological variations. Full correction for interfering activity clearly underestimates kidney doses. By comparison, ⁹⁰Y bremsstrahlung and variability in the relative effectiveness of kidney doses cause minor bias. Inter-observer variability must be considered when interpreting kidney doses.     

125I粒子植入治疗盆腔及后腹膜肿瘤23例分析

目的 评价CT引导下放射性125I粒子植入治疗盆腔及后腹膜恶性肿瘤的临床疗效.方法 23例盆腔及后腹膜恶性肿瘤患者,在CT引导下行放射性125I粒子植入.粒子植入前1周行腹部或盆腔螺旋CT扫描,将图像传送到计算机三维肿瘤治疗计划系统;勾画靶区轮廓(同时勾画肿瘤周围危险器宫,如膀胱、肠管、大血管等);靶区及相关轮廓三维重建;确定肿瘤靶区放射剂量、粒子数量和粒子空间排列.术后随访均设定4个月,以观察局部治疗效果、有无消化道或泌尿系等不良反应、疼痛变化情况、局部肿瘤缓解情况.结果 本组23例中有16例患者术前有骶尾部或腰背部疼痛,术后5～14d疼痛缓解,缓解率为69.6％,局部疼痛缓解近期疗效较显著.肿瘤局部控制2个月时有效率(CR+PR)为47.8％(11/23);4个月时有效率为43.5％(10/23).患者术后随访未见腹痛、肠瘘、出血、尿痛等不良反应,也未见放射性肠炎、骨髓抑制等并发症.结论 初步研究表明CT引导下经皮穿刺植入125I粒子近距离内照射治疗盆腔及后腹膜肿瘤安全、局部疗效明显等优势.对于无法手术、术后复发及单纯化、放疗效果差的盆腔及后腹膜恶性肿瘤是一种有效的补救治疗措施,并有效改善患者生存质量、提高肿瘤局部控制率.     

5-[<Superscript>123</Superscript>I]Iodo-A-85380: assessment of pharmacological safety,radiation dosimetry and SPECT imaging of brain nicotinic receptors in healthy human subjects

Recently, 5-[123I]iodo-3-(2(S)-azetidinylmethoxy)pyridine ([123I]5IA) was developed as a ligand for imaging the nicotinic acetylcholine receptor (nAChR) in human brain using single photon emission computed tomography (SPECT). In the present study, the toxicity and radiation absorbed dose of [123I]5IA were investigated. Behavior and physiological parameters were examined in mice and rats after administration of 5IA. There were no changes in these parameters in animals administered 1 microg/kg of 5IA or less, indicating that the no observed effect level (NOEL) of 5IA was 1 microg/kg. [123I]5IA was then administered to healthy human subjects and serial whole-body images were acquired over 24 hr. Initially, high levels of radioactivity were observed in the liver and urinary bladder and moderate levels in the lungs, kidneys, and brain. Whole brain activity at 1 hr was 4.6 +/- 0.4% of the injected dose and this value gradually decreased with time. The majority (-75%) of the radioactivity was excreted in urine within 24 hr, and less than 1% remained in all organs tested. The biological half-life of [1231]51A averaged 7.2 +/- 4.0 hr. Based on the biodistribution data, radiation absorbed doses were estimated using MIRDOSE 3.1 software with the dynamic bladder model and the ICRP gastrointestinal (GI) tract model. Consequently, the effective dose equivalent was estimated to be 30 +/- 1.4 microSv/MBq, which is an acceptable radiation burden. Having determined the safety of this compound, we performed SPECT imaging in a healthy human subject using 171 MBq of [123I]5IA. SPECT images clearly revealed a cerebral distribution of radioactivity that was consistent with the known distribution of central nAChRs in humans. These results suggest that [123I]5IA is a promising ligand for imaging nAChRs in humans, with an acceptable dosimetry and pharmacological safety at the dose required for adequate SPECT imaging.     

2Beta-carbomethoxy-3beta-(4- and 2-[18F]fluoromethylphenyl)tropanes: specific probes for in vivo quantification of central dopamine transporter sites

Dopamine reuptake transporter binding kinetics of 2β-carbomethoxy-3β-(4-[¹⁸F]fluoromethylphenyl)tropane (p-FWIN) and 2β-carbomethoxy-3β-(2-[¹⁸F]fluoromethylphenyl)tropane (o-FWIN) were determined in vervet monkeys using positron emission tomography (PET). Ligand localization was rapid and specific to the striatum with kinetic estimates comparable with those of ¹¹C-labeled WIN 35,428 (CWIN). Binding was more specific with p-FWIN than with CWIN or o-FWIN. The relatively longer half-life of the ¹⁸F radiolabel enabled longer acquisition times with p-FWIN, resulting in less variability in the kinetic estimates.     

In vivo evaluation in mice and metabolism in blood of human volunteers of [123I]iodo-PK11195: a possible single-photon emission tomography tracer for visualization of inflammation

We report the in vivo evaluation (biodistribution, displacement and metabolization in blood, brain and heart) in mice and the metabolism in blood of human volunteers of iodine-123 labelled 1-(2-iodophenyl)-N-methyl-N-(1-methyl-propyl)-3-isoquinoline carboxamide ([¹²³I]iodo-PK11195), a potential radioligand for visualization of inflammation in humans by single-photon emission tomography. In three series of 18 white mice (NMRI, 20–25 g), the concentration of radioactivity was measured during 48 h. Blood samples were taken, organs and intestines were excised, excretion was collected and all tissues were weighed and counted for radioactivity. The tissue uptake of radioactivity was measured as % of the injected activity/g of tissue. The excretion was expressed as % of the injected activity. Selective tissue uptake was investigated by pretreatment of another three series of 18 mice with cold PK11195 (1 mg/kg body weight). There was an inflow of [¹²³I]iodo-PK11195 in the brain and among peripheral organs, heart (42.3%), lungs (133.5%) and kidneys (18.4%) had the highest uptake. After pretreatment with cold PK11195, there was a decrease in accumulation in the latter three organs, especially in heart (ca. 55%) and lungs (ca. 80%). Metabolite analysis was performed using high-performance liquid chromatography (HPLC). First, the extraction yield of [¹²³I]iodo-PK11195 from blood and tissue was assessed, and found to be >90%. From blank blood samples and organs spiked with [¹²³I]iodo-PK11195 it was concluded that no metabolization took place during the extraction procedure. Analysis of plasma, brain and heart of mice showed that 10 min p.i. [¹²³I]iodo-PK11195 was the only significant (ca. 95%) radioactive compound in brain and heart where-as in plasma other radioactive products (>60%) appeared. Analysis of plasma samples of the three human volunteers at 7, 20, 37 and 50 min p.i. showed that [¹²³I]iodo-PK11195 rapidly decomposes into two polar metabolites, which at these time points accounted for, respectively 31%, 62%, 75% and 77% of the total activity. Received 9 July and in revised form 17 October 1998     

Methionine-dependence phenotype of tumors: metabolite profiling in a melanoma model using L-[methyl-13C]methionine and high-resolution magic angle spinning 1H-13C nuclear magnetic resonance spectroscopy.

Tumors frequently have abnormal L-methionine (Met) metabolism, the so-called Met-dependence phenotype that refers to the inability to proliferate in the absence of Met. However, the origin of this phenotype is still unknown and may arise from one of several pathways of Met metabolism. To help characterize the metabolic features of Met-dependent/independent phenotypes, the fate of the methyl carbon of L-[methyl-13C]Met was chased in a murine model of malignant melanoma (B16-F1) in vitro and in vivo. Growth curves under Met restriction showed that melanoma cells in vitro were Met-independent, whereas implanted melanoma tumors in vivo were Met-dependent. Label-assisted high-resolution magic angle spinning 1H-13C NMR spectroscopy metabolite profiling showed that, in vitro, creatine and phosphatidylcholine 13C-enrichments were poor, but S-adenosyl-Met and posttranslationally N-methylated protein signals were strong. In contrast, in vivo, creatine and phosphatidylcholine enrichments were strong but S-adenosyl-Met and N-methylated protein signals were poor. In addition, in vivo, transsulfuration was very efficient, consumed one-carbon units originating from the methyl carbon of Met, and yielded taurine labeling. From these data, the Met-dependent/independent phenotypes appear closely related to the source of one-carbon units. Thus, L-[methyl-13C]Met-assisted NMR spectroscopy metabolite profiling allowed the discrimination between Met-dependence and Met-independence and provided novel mechanistic information on their origin.     

2β-carbomethoxy-3β-(4- and 2-[F]fluoromethylphenyl)tropanes: specific probes for in vivo quantification of central dopamine transporter sites

Dopamine reuptake transporter binding kinetics of 2β-carbomethoxy-3β-(4-[¹⁸F]fluoromethylphenyl)tropane (p-FWIN) and 2β-carbomethoxy-3β-(2-[¹⁸F]fluoromethylphenyl)tropane (o-FWIN) were determined in vervet monkeys using positron emission tomography (PET). Ligand localization was rapid and specific to the striatum with kinetic estimates comparable with those of ¹¹C-labeled WIN 35,428 (CWIN). Binding was more specific with p-FWIN than with CWIN or o-FWIN. The relatively longer half-life of the ¹⁸F radiolabel enabled longer acquisition times with p-FWIN, resulting in less variability in the kinetic estimates.     

Diagnostic impact of PET with <Superscript>18</Superscript>F-FDG, <Superscript>18</Superscript>F-DOPA and 3-<Emphasis Type="Italic">O</Emphasis>-methyl-6-[<Superscript>18</Superscript>F]fluoro-DOPA in recurrent or metastatic medullary thyroid carcinoma

Purpose In patients with medullary thyroid carcinoma (MTC), rising levels of the tumour markers calcitonin and CEA after primary surgery indicate tumour recurrence or metastases. The only chance of cure is the resection of localised tumour tissue. For positron emission tomography (PET) with ¹⁸F-fluorodeoxyglucose (¹⁸F-FDG) and ¹⁸F-dihydroxyphenylalanine (¹⁸F-DOPA), sensitivities of 78% and 63% have been reported, but in a considerable percentage of MTC patients the source of tumour marker elevation is not detected. The aim of this retrospective data evaluation was to compare the value of PET with ¹⁸F-FDG, ¹⁸F-DOPA and the amino acid tracer 3-O-methyl-6-[¹⁸F]fluoro-DOPA (¹⁸F-OMFD) in the detection of MTC recurrence. Methods Fifteen patients with elevated calcitonin were investigated with PET as part of their individual clinical work-up. All patients underwent ¹⁸F-FDG PET and ¹⁸F-DOPA PET, and ten patients underwent ¹⁸F-OMFD PET. Results With ¹⁸F-FDG, seven patients showed foci in the neck, mediastinum, upper abdomen or bone. In seven patients, ¹⁸F-DOPA revealed suspicious foci; five of these seven patients showed partially corresponding uptake of ¹⁸F-FDG in the neck and mediastinum. Two of these patients underwent surgery and metastases were verified. With ¹⁸F-OMFD, a small focus in the liver was suspected in one patient without a correlate on ¹⁸F-FDG PET, ¹⁸F-DOPA PET or conventional imaging. Conclusion ¹⁸F-FDG and ¹⁸F-DOPA showed foci that were highly suspicious for local recurrence or metastasis of MTC, although histological verification in these patients with numerous previous surgical interventions was performed in only two patients. The amino acid tracer ¹⁸F-OMFD had no diagnostic impact in these patients.