Estudio biocinético y dosimétrico de un kit de producción local de 177Lu-EDTMP para su uso como agente paliativo del dolor / Biokinetic and dosimetric study of 177Lu-EDTMP in the palliative treatment of skeletal metastasis

Los radiofármacos con afinidad por el tejido óseo como el ácido etilen-diamino-tetrametilen-fosfónico (EDTMP) marcado con radioisótopos emisores beta- han demostrado su eficacia en el tratamiento paliativo de las metástasis óseas. Se realizó un estudio biocinético y dosimétrico del 177Lu-EDTMP en ratones NIH. Los resultados obtenidos fueron extrapolados a humanos. Se estimó la dosis absorbida en órganos para dos modelos: un hombre adulto y una mujer adulta. El 177Lu-EDTMP posee una selectiva captación en hueso, una rápida eliminación en sangre e insignificante captación en tejidos no óseos. La dosis en hueso estimada para el hombre se encuentra entre 14,7-15,3 cGy/mCi y entre 19,6-20,4 cGy/mCi para la mujer. La toxicidad en médula ósea representa el factor limitante de este tipo de terapia, y para evitar superar la dosis máxima que ésta puede tolerar (200 cGy), se encontró que la actividad máxima segura de 177Lu-EDTMP que puede ser inyectada al hombre (73,9Kg), corresponde a un valor de 1,01 mCi/kg y a un valor de 1,25 mCi/Kg para la mujer (56,9Kg).

Bone-seeking radiopharmaceuticals like the ethylenediaminetetramethylene phosphonic acid (EDTMP) labeled with beta--emitting radioisotopes have demonstrated their efficacy in the palliative treatment of skeletal metastasis. A biokinetic and dosimetric study of 177Lu-EDTMP in NIH mice was performed. The results obtained were extrapolated to human. We estimate the absorbed doses in organs for two models: an adult male and an adult female. 177Lu-EDTMP has a selective uptake in bone, a rapid elimination from blood and negligible uptake in non-skeletal tissues. The estimated dose in bone is between 14.7-15.3 cGy/mCi for men and between 19.6-20.4 cGy/mCi for women. Bone marrow toxicity represents the limiting factor in this kind of therapy, and to avoid exceed the maximum dose it can tolerate (200 cGy), it was found that the maximum safe activity of 177Lu-EDTMP to be injected to male (73.9 kg), corresponds to a value of 1.01 mCi/kg and a value of 1.25 mCi/kg for female (56.9 kg).

Radiopharmaceuticals for the Therapy of Metastatic Bone Pain / 핵의학분자영상

Bone metastasis is a common sequelae of solid malignant tumors such as prostate, breast, lung, and renal cancers, which can lead to various complications, including fractures, hypercalcemia, and bone pain, as well as reduced performance status and quality of life. It occurs as a result of a complex pathophysiologic process between host and tumor cells leading to cellular invasion, migration adhesion, and stimulation of osteoclastic and osteoblastic activity. Several sequelae occur as a result of osseous metastases and resulting bone pain can lead to significant debilitation. A multidisciplinary approach is usually required not only to address the etiology of the pain and its complicating factors but also to treat the patient appropriately. Pharmaceutical therapy of bone pain, includes non-steroidal analgesics, opiates, steroids, hormones, bisphosphonates, and chemotherapy. While external beam radiation therapy remains the mainstay of pain palliation of a solitary lesions, bone seeking radiopharmaceuticals have entered the therapeutic armamentarium for the treatment of multiple painful osseous lesions. 32P, 89SrCl, 153Sm-EDTMP, 188Re/186Re-HEDP, and 177Lu-EDTMP can be used to treat painful osseous metastases. These various radiopharmaceuticals have shown good efficacy in relieving bone pain secondary to bone metastasis. This systemic form of metabolic radiotherapy is simple to administer and complements other treatment options. This has been associated with improved mobility in many patients, reduced dependence on narcotic and non-narcotic analgesics, improved performance status and quality of life, and, in some studies, improved survival. All of these agents, although comprising different physical and chemical characteristics, offer certain advantages in that they are simple to administer, are well tolerated by the patient if used appropriately, and can be used alone or in combination with the other forms of treatment. This article illustrates the salient features of these radiopharmaceuticals, including the usual therapuetic dose, method of administration, and indications for use and also describe about the pre-management checklists, and indication/contraindication and follow-up protocol.

The role of radioisotopes for the palliation of bone pain from bone metastases / 中国介入影像与治疗学

Bone metastasis occurs as a result of a complex pathophysiologic process between host and tumor cells leading to cellular invasion, migration adhesion, and stimulation of osteoclastic and osteoblastic activity. Several sequences occur as a result of osseous metastases and resulting bone pain can lead to significant debilitation. Pain associated with osseous metastasis is thought to be distinct from neuropathic or inflammatory pain. Several mechanisms, such as invasion of tumor cells, spinal cord astrogliosis,and sensitization of nervous system, have been postulated to cause pain. Pharmaceutical therapy of bone pain includes nonsteroidal analgesics and opiates. These drags are associated with side effects, and tolerance to these agents necessitates treatment with other modalities. Bisphosphonates act by inhibiting osteoclast-mediated resorption and have been increasingly used in treatment of painful bone metastasis. While external beam radiation therapy remains the mainstay of pain palliation of solitary lesions, bone-seeking radiopharmaceuticals have entered the therapeutic armamentarium for the treatment of multiple painful osseous lesions. 32p has been used for over 3 decades in the treatment of multiple osseous metastases. The myelosuppression caused by this agent has led to the development of other bone-seeking radiopharmaceuticals, including 89SrCl, and 153Sm-ethylenediaminetetramethylene phosphonic acid (153Sm-EDTMP). 89Sr is a bone-seeking radionuclide, whereas 153Sm-EDTMP is a bone-seeking tetraphosphonate; both have been approved by the Food and Drug Administration for the treatment of painful osseous metastases. While both agents have been shown to have efficacy in the treatment of painful osseous metastases from prostate cancer, they may also have utility in the treatment of painful osseous metastases from breast cancer and perhaps from non-small cell lung cancer. This article illustrates the salient features of these radiopharmaceuticals, including the approved dose, method of administration, and indications for use.