The Role of Bone-Seeking Radionuclides in the Palliative Treatment of Patients with Painful Osteoblastic Skeletal Metastases

Tomblyn, Michael

doi:10.1177/107327481201900208

Cited by 61 publications

(42 citation statements)

References 57 publications

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“…Uncontrolled systemic disease, asemptomatic bone metastasis less than three bone metastasis sites, pure osteolytic metastasis, poor bone marrow reserve and less than 60 days of life expectancy are relative contraindications of radionuclide therapy. Absolute contraindications are spinal cord compression, high risk of fracture or pathologic fracture of weight bearing bone, renal failure, pregnancy and breast feeding (Tomblyn, 2012). Strontium-89 hydrochloride (Sr-89), samarium-153 lexidronam (Sm-153) and rhenium-186 hydroxyethylidenediphosphonate (Re-186) are approved radiopharmaceuticals for radionuclide therapy.…”

Section: Radionuclide Therapy For Breast Cancer Bone Metastasismentioning

confidence: 99%

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Medical Treatment of Breast Cancer Bone Metastasis: From Bisphosphonates to Targeted Drugs

Erdoğan

Çiçin²

2014

Asian Pacific Journal of Cancer Prevention

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Breast cancer bone metastasis causing severe morbidity is commonly encountered in daily clinical practice. It causes pain, pathologic fractures, spinal cord and other nerve compression syndromes and life threatening hypercalcemia. Breast cancer metastasizes to bone through complicated steps in which numerous molecules play roles. Metastatic cells disrupt normal bone turnover and create a vicious cycle to which treatment efforts should be directed. Bisphosphonates have been used safely for more than two decades. As a group they delay time to first skeletal related event and reduce pain, but do not prevent development of bone metastasis in patients with no bone metastasis, and also do not prolong survival. The receptor activator for nuclear factor kB ligand inhibitor denosumab delays time to first skeletal related event and reduces the skeletal morbidity rate. Radionuclides are another treatment option for bone pain. New targeted therapies and radionuclides are still under investigation. In this review we will focus on mechanisms of bone metastasis and its medical treatment in breast cancer patients.

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Section: Radionuclide Therapy For Breast Cancer Bone Metastasismentioning

confidence: 99%

“…Transient myelosuppression is the most common toxicity. Generally thrombocytopenia is experienced, significant neutropenia and anemia develops less than thrombocytopenia (Tomblyn, 2012). There was a debate about combined use of bisphosphonate and radionuclides.…”

Section: Radionuclide Therapy For Breast Cancer Bone Metastasismentioning

confidence: 99%

Medical Treatment of Breast Cancer Bone Metastasis: From Bisphosphonates to Targeted Drugs

Erdoğan

Çiçin²

2014

Asian Pacific Journal of Cancer Prevention

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“…For example, the decay of 125 I has been shown to lead to the deposition of a very high dose (≈10 9 cGy/decaying atom) in the immediate vicinity (≈2 nm 3 ) of the decay site and a sharp and significant drop in the energy deposited (from ≈10 9 to ≈10 6 cGy) as a function of increasing distance (few nanometres) from the decaying 125 I atom (Kassis, 2011). For example, when 125 I is localized within the cytoplasm, the survival curve is of the low LET type and the number of decays needed to reduce survival is ≈80 times that of DNA-incorporated 125 I (Kassis, 2011 (Abbasi, 2012(Abbasi, , 2011Argyrou et al, 2013a;Bączyk, 2011;Bryan et al, 2009;Chakraborty et al, 2008;Daha et al, 2010;Das et al, 2009;Harrison et al, 2013;Lewington, 2005;Máthé et al, 2010;Neves et al, 2005;Nilsson et al, 2013bNilsson et al, , 2007Nilsson et al, , 2005aNilsson et al, , 2005bPandit-Taskar et al, 2014;Ramdahl et al, 2013;Sartor, 2004;Simón et al, 2012;Sivaprasad and Rajagopal, 2012;Tomblyn, 2012;Vigna et al, 2011;Volkert and Hoffman, 1999;Wang et al, 2011). Despite the growing number of radionuclides investigated for treatment of bone metastases, the use of 89 Sr and 153 Sm still accounts for the bulk of radiopharmaceutical bonetargeted therapeutics in the clinical context and the majority of the review articles available in the literature focus on those two radionuclides.…”

Section: Introductionmentioning

confidence: 99%

Palliative treatment of metastatic bone pain with radiopharmaceuticals: A perspective beyond Strontium-89 and Samarium-153

Liberal

Tavares

2016

Applied Radiation and Isotopes

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Purpose: The present review article aims to provide an overview of the available radionuclides for palliative treatment of bone metastases beyond 89 Sr and 153 Sm. In addition, it aims to review and summarize the clinical outcomes associated with the palliative treatment of bone metastases using different radiopharmaceuticals. Materials and Methods: A literature search was conducted on Science Direct and PubMed databases (1990 -2015). The following search terms were combined in order to obtain relevant results: "bone", "metastases", "palliative", "care", "therapy", "treatment", "radiotherapy", "review", "radiopharmaceutical", "phosphorus-32", "strontium-89", "yttrium-90", "tin-117m", "samarium-153", "holmium-166", "thulium-170", "lutetium-177", "rhenium-186", "rhenium-188" and "radium-223". Studies were included if they provided information regarding the clinical outcomes. Results and Conclusions: A comparative analysis of the measured therapeutic response of different radiopharmaceuticals, based on previously published data, suggests that there is a lack of substantial differences in palliative efficacy among radiopharmaceuticals. However, when the comparative analysis adds factors such as patient's life expectancy, radionuclides' physical characteristics (e.g. tissue penetration range and half-life) and health economics to guide the rational selection of a radiopharmaceutical for palliative treatment of bone metastases, 177 Lu and 188 Re-labeled radiopharmaceuticals appear to be the most suitable radiopharmaceuticals for treatment of small and medium/large size bone lesions, respectively.

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“…Low‐energy β ‐ emitting radionuclides, such as 177 Lu, 153 Sm, 175 Yb, and 186 Re, are used for palliation of bone pain, whereas radionuclides with higher energies including 166 Ho, 90 Y, and 188 Re are recommended for bone marrow ablation. Sometimes, the carrier and radionuclide are one and the same (as 32 P and 89 Sr) because of their similarity to the elemental composition of bone 17 , 18 , 19 , 20 , 21 …”

Section: Introductionmentioning

confidence: 99%

Production and quality control ¹⁷⁷Lu (NCA)—DOTMP as a potential agent for bone pain palliation

Salek

Shamsaei

Maragheh

et al. 2016

J Applied Clin Med Phys

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Skeletal uptake of radiolabeled‐1, 4, 7, 10‐tetraazacyclododecane‐1, 4, 7, 10‐tetramethylene phosphoric acid (e.g., 177Lu‐DOTMP) complex, is used for bone pain palliation. The moderate energy of β‐emitting .15em177Lu false(normalT1/2=6.7 d,normalEβmax=497 keVfalse) has been considered as a potential radionuclide for development of the bone‐seeking radiopharmaceutical. Since the specific activity of the radiolabeled carrier molecules should be high, the “no‐carrier‐added radionuclides” have significant roles in nuclear medicine. Many researchers illustrated no‐carrier‐added 177Lu production; among these separation techniques such as ion exchange chromatography, reversed phase ion‐pair, and electrochemical method, extraction chromatography has been considered more capable than other methods. In order to optimize the conditions, some effective factors on separation of Lu/Yb were investigated by EXC. The NCA 177Lu, produced by this method, was mixed with 300μ1 of DOTMP solution (20 mg in 1 mL of 0.5 M NaHCO3, pH=8) and incubated under stirring at room temperature for 45 min. Radiochemical purity of the 177Lu‐DOTMP complex was determined using radio‐thin‐layer chromatography (RTLC) method. The complex was injected to wild‐type rats and biodistribution was then studied for seven days. The NCA 177Lu was produced with specific activity of 48 Ci/mg and with a radinuclidic purity of 99.99% through irradiation of enriched 176Yb target (1 mg) in a thermal neutron flux of 4×1013 n.cm−2.normals−1 for 14 days. 177Lu‐DOTMP was obtained with high radiochemical purities (>98%) under optimized reaction conditions. The radiolabeled complex exhibited excellent stability at room temperature. Biodistribution of the radiolabeled complex studies in rats showed favorable selective skeletal uptake with rapid clearance from blood along with insignificant accumulation within the other nontargeted organs.PACS number(s): 87.57.un, 87.57.uq

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The Role of Bone-Seeking Radionuclides in the Palliative Treatment of Patients with Painful Osteoblastic Skeletal Metastases

Cited by 61 publications

References 57 publications

Medical Treatment of Breast Cancer Bone Metastasis: From Bisphosphonates to Targeted Drugs

Medical Treatment of Breast Cancer Bone Metastasis: From Bisphosphonates to Targeted Drugs

Palliative treatment of metastatic bone pain with radiopharmaceuticals: A perspective beyond Strontium-89 and Samarium-153

Production and quality control ¹⁷⁷Lu (NCA)—DOTMP as a potential agent for bone pain palliation

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The Role of Bone-Seeking Radionuclides in the Palliative Treatment of Patients with Painful Osteoblastic Skeletal Metastases

Cited by 61 publications

References 57 publications

Medical Treatment of Breast Cancer Bone Metastasis: From Bisphosphonates to Targeted Drugs

Medical Treatment of Breast Cancer Bone Metastasis: From Bisphosphonates to Targeted Drugs

Palliative treatment of metastatic bone pain with radiopharmaceuticals: A perspective beyond Strontium-89 and Samarium-153

Production and quality control 177Lu (NCA)—DOTMP as a potential agent for bone pain palliation

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Production and quality control ¹⁷⁷Lu (NCA)—DOTMP as a potential agent for bone pain palliation