A phase 2 study of high-activity 186Re-HEDP with autologous peripheral blood stem cell transplant in progressive hormone-refractory prostate cancer metastatic to bone

Purpose We investigated the potential for improvement in disease control by use of autologous peripheral blood stem cell transplant (PBSCT) to permit administration of high activities of ¹⁸⁶Re-hydroxyethylidene diphosphonate (HEDP) in patients with progressive hormone-refractory prostate cancer (HRPC). Methods Eligible patients had progressive HRPC metastatic to bone, good performance status and minimal soft tissue disease. Patients received 5,000 MBq of ¹⁸⁶Re-HEDP i.v., followed 14 days later by PBSCT. Response was assessed using PSA, survival, pain scores and quality of life. Results Thirty-eight patients with a median age of 67 years (range 50–77) and a median PSA of 57 ng/ml (range 4–3,628) received a median activity of 4,978 MBq ¹⁸⁶Re-HEDP (range 4,770–5,100 MBq). The most serious toxicity was short-lived grade 3 thrombocytopenia in 8 (21%) patients. The median survival of the group is 21 months (95%CI 18–24 months) with Kaplan-Meier estimated 1- and 2-year survival rates of 83% and 40% respectively. Thirty-one patients (81%, 95% CI 66–90%) had stable or reduced PSA levels 3 months post therapy while 11 (29%, 95% CI 15–49%) had PSA reductions of >50% lasting >4 weeks. Quality of life measures were stable or improved in 27 (66%) at 3 months. Conclusion We have shown that it is feasible and safe to deliver high-activity radioisotope therapy with PBSCT to men with metastatic HRPC. Response rates and survival data are encouraging; however, further research is needed to define optimal role of this treatment approach.     

<Superscript>188</Superscript>Re-HEDP combined with capecitabine in hormone-refractory prostate cancer patients with bone metastases: a phase I safety and toxicity study

Purpose

¹⁸⁸Re-HEDP is indicated for the treatment of pain in patients with painful osteoblastic bone metastases, including hormone-refractory prostate cancer patients. Efficacy may be improved by adding chemotherapy to the treatment regimen as a radiation sensitizer. The combination of ¹⁸⁸Re-HEDP and capecitabine (Xeloda®) was tested in a clinical phase I study.

Methods

Patients with hormone-refractory prostate cancer were treated with capecitabine for 14 days (oral twice daily in a dose escalation regimen with steps of 1/3 of 2,500 mg/m² per day in cohorts of three to six patients, depending on toxicity). Two days later patients were treated with 37 MBq/kg ¹⁸⁸Re-HEDP as an intravenous injection. Six hours after treatment post-therapy scintigraphy was performed. Urine was collected for 8 h post-injection. Follow-up was at least 8 weeks. The primary end-point was to establish the maximum tolerable dose (MTD) of capecitabine when combined with ¹⁸⁸Re-HEDP. Secondary end-points included the effect of capecitabine on the biodistribution and pharmacokinetics of ¹⁸⁸Re-HEDP.

Results

Three patients were treated in the first and second cohorts, each without unacceptable toxicity. One of six patients in the highest cohort experienced unacceptable toxicity (grade 4 thrombopaenia). The MTD proved to be the maximum dose of 2,500 mg/m² per day capecitabine. No unexpected toxicity occurred. Capecitabine had no effect on uptake or excretion of ¹⁸⁸Re-HEDP.

Conclusion

Capecitabine may be safely used in combination with ¹⁸⁸Re-HEDP in a dose of 2,500 mg/m² per day and 37 MBq/kg, respectively. Efficacy will be further studied in a phase II study using these dosages.

     

Dosimetry of 188Re-hydroxyethylidene diphosphonate in human prostate cancer skeletal metastases.

188Re-Hydroxyethylidene diphosphonate ((188)Re-HEDP) was used in previous studies for the palliative treatment of metastatic bone pain. However, the kinetic and radiation-absorbed doses have not been well documented. Therefore, the aim of this study was to gather dosimetric data for (188)Re-HEDP. METHODS: Thirteen prostate cancer patients with skeletal involvement were treated with 2,700-3,459 MBq (mean dose, 3,120 MBq) (188)Re-HEDP. Patients underwent whole-body scans 3, 20, and 28 h after therapy. The effective half-life, residence time, and radiation-absorbed dose values were calculated for the whole body, bone marrow, kidneys, and bladder as well as for 29 bone metastases. The urinary excretion rate was determined in 6 urine samples of each patient collected over 48 h at 8-h intervals beginning immediately after the administration of (188)Re-HEDP. After injection of (188)Re-HEDP, blood samples were taken weekly for 6 wk, and platelet and leukocyte counts were performed. RESULTS: The mean effective half-life was 15.9 +/- 3.5 h in bone metastases, 10.9 +/- 2.1 h in the bone marrow, 11.6 +/- 2.1 h in the whole body, 12.7 +/- 2.2 h in the kidneys, and 7.7 +/- 3.4 h in the bladder. The following radiation-absorbed doses were calculated: 3.83 +/- 2.01 mGy/MBq for bone metastases, 0.61 +/- 0.21 mGy/MBq for the bone marrow, 0.07 +/- 0.02 mGy/MBq for the whole body, 0.71 +/- 0.22 mGy/MBq for the kidneys, and 0.99 +/- 0.18 mGy/MBq for the bladder. (188)Re-HEDP showed a rapid urinary excretion within the first 8 h after therapy, with 41% of the (188)Re-HEDP administered being excreted. Forty-eight hours after therapy, the excretion rate was 60% +/- 12%. Only 1 patient showed a decrease of platelet count below 100 x 10(9) counts/L. None of the patients presented with a decrease of leukocyte count below 3.0 x 10(9) counts/L. CONCLUSION: (188)Re-HEDP is an effective radiopharmaceutical used in the palliative treatment of metastatic bone pain. The radiation-absorbed dose is acceptable for bone pain palliation with low doses for the normal bone marrow and the whole body.     

Dose escalation study with rhenium-188 hydroxyethylidene diphosphonate in prostate cancer patients with osseous metastases

The aim of this study was to determine the maximum tolerated dose of rhenium-188 hydroxyethylidene diphosphonate (HEDP) in prostate cancer patients with osseous metastases who are suffering from bone pain. Twenty-two patients received a single injection of escalating doses of carrier-added ¹⁸⁸Re-HEDP [1.3 GBq (35 mCi), 2.6 GBq (70 mCi), 3.3 GBq (90 mCi) and 4.4 GBq (120 mCi)]. Blood counts and biochemical parameters were measured weekly over a period of 8 weeks. Haematological toxicity (WHO grading) of grade 3 or 4 was considered unacceptable. Clinical follow-up studies including methods of pain documentation (medication, pain diary) were performed for 6 months after treatment. In the 1.3-GBq group, no haematological toxicity was observed. First haematotoxic results were noted in those patients with a dose of 2.6 GBq ¹⁸⁸Re-HEDP. In the 3.3-GBq group, one patient showed a reversible thrombopenia of grade 1, one a reversible thrombopenia of grade 2 and three a reversible leukopenia of grade 1. In the 4.4-GBq group, thrombopenia of grades 3 and 4 was observed in one and two patients (baseline thrombocyte count <200×10⁹/l), respectively, and leukopenia of grade 3 was documented in one patient. The overall nadir of thrombopenia was at week 4. The individual, maximum percentage decrease in thrombocytes in the 1.3-, 2.6-, 3.3- and 4.4-GBq groups was 17%, 40%, 60% and 86%, respectively. In two patients, a transient increase in serum creatinine was observed (max. 1.6 mg/dl). Pain palliation was reported by 64% of patients, with a mean duration of 7.5 weeks. The response rate seemed to increase with higher doses, reaching 75% in the 4.4-GBq group. It is concluded that in prostate cancer patients, the maximum tolerated dose of ¹⁸⁸Re-HEDP is 3.3 GBq if the baseline thrombocyte count is below 200×10⁹/l. In patients with thrombocyte counts significantly above 200×10⁹/l, a dose of 4.4 GBq might be tolerable. Thrombo- and leukopenia are the most important side-effects. Pain palliation can be achieved in 60%–75% of patients receiving a dose of 2.6 GBq or more of ¹⁸⁸Re-HEDP. Studies in a larger patient population are warranted to evaluate further the palliative effect of ¹⁸⁸Re-HEDP. Received 7 July and in revised form 6 October 1999     

Can bone marrow scintigraphy predict platelet toxicity after treatment with 186Re-HEDP?

The toxicity of 186Re-1,1-hydroxyethylidene diphosphonate (186Re-HEDP) therapy in patients with painful bone metastases is mainly limited to thrombocytopaenia. The aim of this study was to investigate the influence of bone marrow scintigraphy on the prediction of decreased platelet counts after 186Re-HEDP therapy. Twenty-nine prostatic cancer patients with multiple painful bone metastases were included in the study. From a pre-therapy nanocolloid bone marrow scintigram, the bone marrow index (BMI) was determined as an indicator of the extent of bone marrow involvement. The influence of the BMI on the prediction of percent decrease in platelet counts was investigated. The mean BMI was 59 +/- 20. Regression analysis showed that the BMI does not improve the relationship between percent reduction in platelet count and administered dose. In contrast, we previously showed that the bone scan index (BSI) does predict the percent reduction in platelet counts before treatment. We conclude that bone marrow scintigraphy does not provide any additional information on platelet toxicity after a therapeutic dose of 186Re-HEDP. Bone scintigraphy is preferred in the prediction of reduced platelet counts.     

Evaluation of toxicity and efficacy of 186Re-hydroxyethylidene diphosphonate in patients with painful bone metastases of prostate or breast cancer.

Twenty-eight patients (12 men with prostate cancer, 16 women with breast cancer) were included in a phase II trial to evaluate the efficacy of 186Re-hydroxyethylidene diphosphonate (HEDP) on pain from bone metastasis and the toxicity of this agent. METHODS: After intravenous administration of 1295 MBq 186Re-HEDP, the efficacy was evaluated by means of a daily log. RESULTS: We observed an objective response in 67% of prostate cancer patients and in 36% of breast cancer patients. The mean duration of response was 45 d for prostate cancer patients and 24 d for breast cancer patients. No major adverse effects were observed. Marrow toxicity did not exceed grade 2 for white blood cells and grade 3 for platelets using National Cancer Institute criteria. CONCLUSION: 186Re-HEDP provides safe symptomatic relief of pain in prostate cancer patients. The benefit of this treatment is less clear in breast cancer patients. Further studies should be conducted to evaluate treatment by 186Re-HEDP at an earlier stage of the disease.     

肿瘤骨转移疼痛患者对^188Re-HEDP的耐受性研究

目的 评价^188Re-1-羟基-1,1-二膦酸钠乙烷（即依替膦酸盐,HEDP）治疗肿瘤骨转移疼痛患者的安全性.方法 符合入选标准的31例患者（前列腺癌10例,乳腺癌9例,肺癌3例,肝癌5例,直肠癌2例,食管癌1例,肾癌1例,均随时间顺序人选）知情同意后接受了按体质量肘静脉单次注射^188ReHEDP,据药物递增剂量分为4个组：20 MBq/kg组6例、30 MBq/kg组6例、40 MBq/kg组9例、50 MBq/kg组10例.低剂量组安全性分析结束并显示安全后,才开始下一剂量组试验.如果患者出现由于用药引起的不可耐受的、WHO公布的Ⅲ或Ⅳ级骨髓毒性,即终止剂量递增,并认为前一组剂量为最大可接受剂量.观察指标包括给药前及给药后8周内每例患者的生命体征（用药后1,6,12,24,48,72 h和1,2,3,4,6,8周）,血细胞计数（用药后1,2,3,4,6和8周）,心电图,肝、肾功能,ALP（用药后4,8周）,＂反跳痛＂以及不良反应等.统计分析主要针对符合方案集（PP）人群,包括统计描述和统计推断（t检验）.结果 31例患者中有27例属于PP人群：20 MBq/kg组5例、30 MBq/kg组5例、40 MBq/kg组8例、50 MBq/kg组9例.在受试剂量范围内,没有观察到188Re-HEDP对患者生命体征、心电图、肝肾功能和ALP的不良影响.20 MBq/kg组的5例患者中仅1例自细胞出现WHO Ⅰ级毒性;30 MBq/kg组5例患者中2例白细胞出现WHO Ⅰ级毒性,其中1例合并血小板Ⅲ级毒性,但给药后8周白细胞和血小板均恢复正常;40 MBq/kg组8例患者中2例白细胞和血小板同时出现毒性反应,分别为WHO Ⅰ级和Ⅱ级,表现为白细胞和血小板同时、同级减低;50 MBq/kg组9例患者中3例白细胞出现WHOⅡ级毒性.全部患者的血小板均在给药后4周达最低水平,平均为143.5×109/L;白细胞均在给药后6周达最低水平,平均为5.4×109/L（两者与给药前基线值比较,t值分别为3.1325和3.3156,P均＜0.05）,给药后8周自细胞和血小板均恢复到基线水平;而血红蛋白在给药后8周最低（与基线值比较,t值为3.4917,P＜0.05）.PP人群27例中有2例出现＂反跳痛＂,发生率7.41%（2/27）.结论 按体质量注射188Re-HEDP 20,30,40和50 MBq/kg对肿瘤骨转移患者均无明显毒性及不良反应,且随着用药剂量增加,188Re-HEDP对骨髓的抑制有增加趋势.     

A comparative study of 188Re-HEDP, 186Re-HEDP, 153Sm-EDTMP and 89Sr in the treatment of painful skeletal metastases

AIM: The surface bone-seeking radiopharmaceuticals 188Re-HEDP, 186Re-HEDP and 153Sm-EDTMP, and the volume seeker 89Sr were investigated to determine the efficacy and toxicity in pain palliation of bone metastases. METHOD: The effect of treatment with 188Re-HEDP, 186Re-HEDP, 153Sm-EDTMP and 89Sr on pain symptoms, quality of life, and bone marrow function were studied. In total, 79 patients (18 with breast cancer and 61 with prostate cancer) were treated (31 patients with 188Re-HEDP, 15 patients each with 186Re-HEDP and 153Sm-EDTMP, and 18 patients with 89Sr). All patients were interviewed using standardized sets of questions before and after therapy weekly for 12 weeks. Blood counts were taken weekly for 6 weeks and after 12 weeks. RESULTS: In total, 73% of patients reported pain relief (77% after 188Re-HEDP, 67% after 186Re-HEDP 73% after 153Sm-EDTMP, and 72% after 89Sr). Fifteen percent of patients could discontinue their analgesics and were pain-free. Pain showed a decrease from 3.6+/-1.7 to a maximum of 2.2+/-1.8 at visual analogue scale in 10 steps (P<0.01). Patients described an improvement on the Karnofsky performance scale from 70+/-10% to 78+/-14% 12 weeks after treatment (P=0.15). There were eight patients with a thrombocytopenia grade I, two patients with grade II and one with grade III. The maximum nadir of platelet and leukocyte counts were observed between the 2nd to 5th week after treatment and was reversible within 12 weeks. There were no significant differences in pain palliation, Karnofsky performance status (KPS) and bone marrow toxicity between the different radionuclides (P=0.087-0.449). CONCLUSION: All radiopharmaceuticals were effective in pain palliation, without induction of severe side effects or significant differences in therapeutic efficacy or toxicity.     

Predictive implications of bone turnover markers after palliative treatment with 186Re-HEDP in hormone-refractory prostate cancer patients with painful osseous metastases

Purpose  

To prospectively evaluate the predictive value of various bone formation and resorption markers in patients with bone metastases from prostate cancer after palliative treatment with ¹⁸⁶Re-1,1-hydroxyethylidene diphosphonate (¹⁸⁶Re-HEDP).     

Indium-111-labelled liposomes: dosimetry and tumour detection in patients with cancer

Neutral phospholipid vesicles (VesCan), which had been prepared for clinical use, were loaded with 37 MBq indium-111 and administered to seven patients with malignant tumours. The median lipid dose was 2.0 mg/kg. Sequential images showed rapid blood clearance at the early stage, with homogeneous uptake of ¹¹¹In-labelled VesCan (¹¹¹In-labelled V-liposomes) in the liver and spleen. Dosimetric estimates for these organs were 1.2 and 1.5 mGy/MBq, respectively, with a whole-body exposure dose of 0.076 mGy/MBq. Total renal excretion of ¹¹¹In was less than 10% of the injected dose, occurring mainly as ¹¹¹In-EDTA in three patients. Gamma camera images 24–48 h after administration revealed increased activity in the tumours of four patients. ¹¹¹In-labelled V-liposomes may enable the demonstration of the tumour site without toxicity and with radiation doses comparable to other radionuclide imaging techniques. Correspondence to: A. Kubo     

186Re-HEDP in the treatment of patients with inoperable osteosarcoma.

The aim of this study was to examine the safety and efficacy of (186)Re-hydroxyethylidene diphosphonate (HEDP) as an adjuvant to external-beam radiotherapy (EBRT) in the treatment of patients with osteosarcoma. METHODS: Thirteen patients (9 male, 4 female; age range, 12-42 y) were treated with combination chemotherapy (standard U.K. protocol) and (186)Re-HEDP therapy (18.5 MBq/kg, intravenously), followed by EBRT. A full blood count; liver function test; and measurements of urea and electrolytes, glomerular filtration rate, and left ventricular function were performed on all patients before and after therapy. Tumor volume and composition were obtained from CT or MRI data. Dosimetric calculations were performed using the MIRD formalism. RESULTS: Of the 13 patients, 1 is still under follow-up. The median survival time was 36 mo (range, 12-216 mo) from diagnosis and 5 mo (range, 1-60 mo) from the last (186)Re-HEDP treatment. The mean tumor dose delivered with (186)Re-HEDP was calculated to be 5.8 Gy (range, 0.5-16 Gy). CT and MRI revealed the tumors to have a complex structure, comprising "ossified," "partially calcified," and "soft-tissue" components. Posttherapy scans showed a heterogeneous distribution of (186)Re-HEDP in the tumor mass: Although the "soft-tissue" component showed minimal uptake of the therapeutic dose, the "ossified component" showed intense uptake. The 3 long-term survivors in whom tumor sterilization was achieved received calculated mean tumor doses in the range of 2.0-3.1 Gy, which was believed to be an underestimate of the actual tumor doses delivered. CONCLUSION: This study indicates that a simple approach to tumor dosimetry based on mean tumor dose is inappropriate because it may underestimate the dose delivered to these heterogeneous tumors. The data also indicate that EBRT combined with a standard dose of 18.5 MBq/kg of (186)Re-HEDP does not provide a sufficient dose to achieve tumor sterilization. A dose estimation technique is required that is based on the determination of tumor dose at the individual voxel level and that is able to represent the heterogeneous uptake observed in these complex tumor structures with highly nonuniform composition. This, coupled with individualized dose escalation, may then achieve the goal of tumor sterilization.     

Therapeutic effects of a 186Re-complex-conjugated bisphosphonate for the palliation of metastatic bone pain in an animal model.

Previously, based on the concept of bifunctional radiopharmaceuticals, we developed a highly stable (186)Re-mercaptoacetylglycylglycylglycine (MAG3) complex-conjugated bisphosphonate, [[[[(4-hydroxy-4,4-diphosphonobutyl)carbamoylmethyl]carbamoylmethyl]carbamoylmethyl]carbamoylmethanethiolate] oxorhenium(V) ((186)Re-MAG3-HBP), for the treatment of painful bone metastases. This agent showed a superior biodistribution as a bone-seeking agent in normal mice when compared with (186)Re-1-hydroxyethylidene-1,1-diphosphonate ((186)Re-HEDP). In this study, we evaluated the therapeutic effects of (186)Re-MAG3-HBP using an animal model of bone metastasis. METHODS: The model was prepared by injecting syngeneic MRMT-1 mammary tumor cells into the left tibia of female Sprague-Dawley rats. (186)Re-MAG3-HBP (55.5, 111, or 222 MBq/kg) or (186)Re-HEDP (55.5 MBq/kg) was then administered intravenously 21 d later. To evaluate the therapeutic effects and side effects, tumor size and peripheral blood cell counts were determined. Palliation of bone pain was evaluated by a von Frey filament test. RESULTS: In the rats treated with (186)Re-HEDP, tumor growth was comparable with that in untreated rats. In contrast, when (186)Re-MAG3-HBP was administered, tumor growth was significantly inhibited. Allodynia induced by bone metastasis was attenuated by treatment with (186)Re-MAG3-HBP or (186)Re-HEDP, but (186)Re-MAG3-HBP tended to be more effective. CONCLUSION: These results indicate that (186)Re-MAG3-HBP could be useful as a therapeutic agent for the palliation of metastatic bone pain.     

A multicentre observational study of radionuclide therapy in patients with painful bone metastases of prostate cancer

A multicentre observational study was conducted by the Italian Association of Nuclear Medicine between 1996 and 1998. Twenty-nine Nuclear Medicine Departments participated. The aims of the study were to systematically evaluate the efficacy, toxicity and repeatability of radionuclide therapy of painful bone metastases (RTBM) in a large number of patients and to assess its incidence in patients with prostate cancer. Out of 818 treatments performed with a single i.v. dose of 148 MBq of strontium-89 chloride or 1,295 MBq of rhenium-186 hydroxyethylidene diphosphonate (HEDP), 610 could be evaluated (527 with ⁸⁹Sr and 83 with ¹⁸⁶Re-HEDP). Eighty-one patients received multiple (up to five) RTBM. The total number of retreatments was 100. Patients were followed up for a period of 3-24 months. Results, assessed according to pain relief and consumption of analgesic drugs, were expressed at four levels: 1, no response; 2, mild response; 3, good response; 4, excellent response. Responses were: level 1 in 19%, level 2 in 21.3%, level 3 in 33.3% and level 4 in 26.4% of cases. Retreatments showed significantly (P<0.01) worse responses (48% levels 3+4), in comparison to first RTBM. Duration of palliation was 5.0Dž.5 months, and was longer in cases of excellent response, in first RTBM, in patients with limited metastases and when ⁸⁹Sr was used. Better responses were found in cases of limited skeletal disease, under good clinical conditions, when life expectancy exceeded 3 months, and in radiologically osteoblastic or mixed bone lesions. The only statistically significant predictive factor was life expectancy (P<0.001). Flare phenomenon (14.1% of cases) did not correlate with the response. Haematological toxicity (mild to moderate in most cases) mainly affected platelets, and was observed in 25.5% of cases overall and in 38.9% of retreatments. RTBM did not seem to prolong life, though in some cases scintigraphic regression of bone metastases was observed. The two radiopharmaceuticals did not show any statistically significant differences in palliative efficacy and toxicity, either in first RTBM or in retreatments.     

188Re—HEDP治疗肿瘤骨转移痛药代动力学研究

目的研究188Re标记的1-羟基-1,1-二膦酸钠乙烷（即依替膦酸盐,HEDP）在肿瘤骨转移患者体内的分布和排泄,分析不同剂量188Re—HEDP在患者体内的药代动力学特点。方法将40例肿瘤骨转移患者分为4组,每组10例,4组分别按体质量“弹丸”式经肘静脉注射188Re—HEDP20,30,40和50MBq／kg,给药时及给药后1,2,4,5,12,24,36,48,60和72h分别用SPECT仪采集胸前区和前后位、后前位全身图像,并收集患者尿液,测量放射性。利用感兴趣区（ROI）技术在左心室区测得经本底校正的放射性,作为血液放射性。将1h全身前位、后位放射性总计数率经死时间和时间衰减校正后的几何平均值设定为100％注射剂量（ID）,据此估算上述各时间点全身和各器官的百分注射剂量率（％ID）。各组间的计量资料采用元、中位数、范围等表示,组间比较采用方差分析或t检验。结果20～50MBq／kg范围内,188Re—HEDP在体内的时间-放射性曲线下面积（AUC）与其剂量呈线性关系,r^2=0．9376。4组均符合静脉给药二室模型,AUC值中位数分别为3．32×10^5,3．97×10^5,7．83×10^5,8．58×10^5;分布速度常数（α值）中位数分别为0．06,0．05,0．04,0．06;消除速度常数（B值）中位数分别为1．16×10^-3,1．16×10^-3,1．03×10^-3,1．15×10^-3;指数项系数A值中位数分别为3591．21,4858．23,5642．48,4167．05;指数项系数B值中位数分别为293．97,352．95,614．41,1063．82;药物分布相半衰期T1/2值中位数分别为12．51,12．83,15．41,12．02min;药物消除相半衰期T1／2（β）中位数分别为595．47,596．50,673．09,600．93min。骨组织是摄取188Re—HEDP的主要组织,给药后4h放射性摄取高,约为40％ID,其他组织未见明显摄取188Re—HEDP0188Re．HEDP主要通过泌尿系统排泄,给药后24h排出66．79％ID,其中74％在给药后5h内排出。结论20～50MBq／kg范围内,188Re—HEDP在机体内的药代动力学符合血管给药二室模型。188Re—HEDP T1/2（β）平均为616．50min。188Re—HEDP主要通过泌尿系统排泄;骨组织是摄取188Re—HEDP的主要组织。     

Bone uptake studies in rabbits before and after high-dose treatment with 153Sm-EDTMP or 186Re-HEDP.

The aim of this animal study was to measure the bone uptake of (99m)Tc-hydroxymethylene diphosphonate (HDP) before and after high-dose treatment with (153)Sm-ethylenediaminetetramethylenephosphonate (EDTMP) or (186)Re-(tin)1,1-hydroxyethylidene diphosphonate (HEDP) to prove or disprove post-therapeutic alterations of bone uptake of radiolabeled bisphosphonates. METHODS: Quantitative bone scanning using 100 MBq (99m)Tc-HDP was performed on 12 rabbits before and 8 wk after radionuclide therapy with 1,000 MBq of either (153)Sm-EDTMP or (186)Re-HEDP. Whole-body images were acquired at 3 min, 3 h, and 24 h after injection, and the activities for the whole body, urinary bladder, and soft tissue were measured by region-of-interest technique. From these data, bone uptake was calculated as initial whole-body activity minus urinary excretion and remainder soft-tissue activity. RESULTS: In animals treated with (153)Sm-EDTMP (n = 6), no differences could be proven for the bone uptake of (99m)Tc-HDP at 24 h after injection before and after therapy (51.1% +/- 5.5% vs. 48.0% +/- 6.1%, P > 0.05). There were also no significant differences for the remainder soft-tissue activities and the urinary excretion rates before and after therapy. Similar results were obtained in rabbits treated with (186)Re-HEDP: Bone uptake (44.8% +/- 6.7% vs. 40.4% +/- 4.9%, P > 0.05) and urinary excretion revealed no significant differences before and after treatment. CONCLUSION: No significant impairment of bone uptake of (99m)Tc-HDP could be observed 8 wk after high-dose radionuclide bone therapy. Because both the biokinetic data obtained for (186)Re-HEDP and (153)Sm-EDTMP and the myelotoxic effects were quite similar in rabbits to those in patients, it seems justifiable to expect the same result (i.e., no significant alteration of bone uptake of radiolabeled bisphosphonates) in patients undergoing a second radionuclide therapy within 2-3 mo after standard treatment with (186)Re-HEDP or (153)Sm-EDTMP.     

Short- and long-term effects of 186Re-1,1-hydroxyethylidene diphosphonate in the treatment of painful bone metastases.

This study evaluates the short- and long-term therapeutic efficacy of 186Re-1,1-hydroxyethylidene diphosphonate (HEDP) in the palliation of painful bone metastases and the influence of variables before therapy in determining the characteristics of pain palliation. METHODS: Sixty patients with painful bone metastases from different tumor types were treated with 1406 MBq 186Re-HEDP. After treatment, the patients were followed up clinically at weekly intervals for the first month and monthly thereafter up to 1 y, until death or pain relapse. Pain response was graded as complete, partial, minimal, or absent using the Wisconsin test scoring system. Duration of pain relief, performance status, tumor markers, serum alkaline phosphatase levels, hematologic toxicity, and metastatic bone progression were also evaluated. RESULTS: Overall, 80% of individuals experienced prompt relief of pain, with 31% complete, 34% partial, and 15% minimal responses. Transient World Health Organization grade 1-2 hematologic toxicity was apparent, with a decrease in the mean platelet (32%) and mean leukocyte (18%) counts at 3 and 4 wk, respectively. The degree of pain response did not correlate with any pretreatment variable. The duration of pain relief ranged from 3 wk to 12 mo and correlated positively with the degree of response (P = 0.02) and negatively with pretreatment scintigraphic scores and alkaline phosphatase levels (P = 0.02). CONCLUSION: 186Re-HEDP is effective for fast palliation of painful bone metastases from various tumors. The effect tends to last longer if patients are treated early in the course of their disease.     

Phase I/II trials of <Superscript>186</Superscript>Re-HEDP in metastatic castration-resistant prostate cancer: post-hoc analysis of the impact of administered activity and dosimetry on survival

Purpose

To investigate the role of patient-specific dosimetry as a predictive marker of survival and as a potential tool for individualised molecular radiotherapy treatment planning of bone metastases from castration-resistant prostate cancer, and to assess whether higher administered levels of activity are associated with a survival benefit.

Methods

Clinical data from 57 patients who received 2.5–5.1 GBq of ¹⁸⁶Re-HEDP as part of NIH-funded phase I/II clinical trials were analysed. Whole-body and SPECT-based absorbed doses to the whole body and bone lesions were calculated for 22 patients receiving 5 GBq. The patient mean absorbed dose was defined as the mean of all bone lesion-absorbed doses in any given patient. Kaplan–Meier curves, log-rank tests, Cox’s proportional hazards model and Pearson’s correlation coefficients were used for overall survival (OS) and correlation analyses.

Results

A statistically significantly longer OS was associated with administered activities above 3.5 GBq in the 57 patients (20.1 vs 7.1 months, hazard ratio: 0.39, 95 % CI: 0.10–0.58, P?=?0.002). A total of 379 bone lesions were identified in 22 patients. The mean of the patient mean absorbed dose was 19 (±6) Gy and the mean of the whole-body absorbed dose was 0.33 (±0.11) Gy for the 22 patients. The patient mean absorbed dose (r?=?0.65, P?=?0.001) and the whole-body absorbed dose (r?=?0.63, P?=?0.002) showed a positive correlation with disease volume. Significant differences in OS were observed for the univariate group analyses according to disease volume as measured from SPECT imaging of ¹⁸⁶Re-HEDP (P?=?0.03) and patient mean absorbed dose (P?=?0.01), whilst only the disease volume remained significant in a multivariable analysis (P?=?0.004).

Conclusion

This study demonstrated that higher administered activities led to prolonged survival and that for a fixed administered activity, the whole-body and patient mean absorbed doses correlated with the extent of disease, which, in turn, correlated with survival. This study shows the importance of patient stratification to establish absorbed dose–response correlations and indicates the potential to individualise treatment of bone metastases with radiopharmaceuticals according to patient-specific imaging and dosimetry.

     

A multicentre observational study of radionuclide therapy in patients with painful bone metastases of prostate cancer

A multicentre observational study was conducted by the Italian Association of Nuclear Medicine between 1996 and 1998. Twenty-nine Nuclear Medicine Departments participated. The aims of the study were to systematically evaluate the efficacy, toxicity and repeatability of radionuclide therapy of painful bone metastases (RTBM) in a large number of patients and to assess its incidence in patients with prostate cancer. Out of 818 treatments performed with a single i.v. dose of 148 MBq of strontium-89 chloride or 1,295 MBq of rhenium-186 hydroxyethylidene diphosphonate (HEDP), 610 could be evaluated (527 with 89Sr and 83 with 186Re-HEDP). Eighty-one patients received multiple (up to five) RTBM. The total number of retreatments was 100. Patients were followed up for a period of 3-24 months. Results, assessed according to pain relief and consumption of analgesic drugs, were expressed at four levels: 1, no response; 2, mild response; 3, good response; 4, excellent response. Responses were: level 1 in 19%, level 2 in 21.3%, level 3 in 33.3% and level 4 in 26.4% of cases. Retreatments showed significantly (P<0.01) worse responses (48% levels 3+4), in comparison to first RTBM. Duration of palliation was 5.0+/-3.5 months, and was longer in cases of excellent response, in first RTBM, in patients with limited metastases and when 89Sr was used. Better responses were found in cases of limited skeletal disease, under good clinical conditions, when life expectancy exceeded 3 months, and in radiologically osteoblastic or mixed bone lesions. The only statistically significant predictive factor was life expectancy (P<0.001). Flare phenomenon (14.1% of cases) did not correlate with the response. Haematological toxicity (mild to moderate in most cases) mainly affected platelets, and was observed in 25.5% of cases overall and in 38.9% of retreatments. RTBM did not seem to prolong life, though in some cases scintigraphic regression of bone metastases was observed. The two radiopharmaceuticals did not show any statistically significant differences in palliative efficacy and toxicity, either in first RTBM or in retreatments.     

Yttrium-90 DOTATOC: first clinical results

In a pilot study, DOTA-d-Phe¹-Tyr³-octreotide (DOTATOC), which can be labelled with the β-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 ⁹⁰Y-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 ⁹⁰Y-DOTATOC with ascending activity at intervals of approximately 6 weeks (cumulative dose 6120±1347 MBq/m²) 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 ≥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 ≤ grade 2 according to the National Cancer Institute grading criteria). These 24 patients received a cumulative dose of ≤7400 MBq/m². Five patients developed renal and/or haematological toxicity. All of these five patients received a cumulative dose of >7400 MBq/m² 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. ⁹⁰Y-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 ⁹⁰Y-DOTATOC treatments with the aim of reducing renal toxicity is ongoing. Received 12 February and in revised form 16 May 1999