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Query: UMLS:C0029463 (
osteosarcoma
)
16,637
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Although trace amounts of radioactivity are routinely used to detect
osteosarcoma
, the use of larger therapeutic amounts of radiation is often an unrecognized opportunity to treat metastatic osteosarcoma. This chapter will review a number of approaches to use ionizing radiation in the form of injectable radiopharmaceuticals. Since
bone metastases
are a common pattern of metastatic spread of cancer in general, a number of bone-seeking radiopharmaceuticals have been developed and FDA approved for treatment of
bone metastases
. Although
osteosarcoma
, a bone-forming cancer, would seem ideally suited to be treated with bone seekers, patterns of relapse involving non-ossifying metastases remain a major problem to be overcome. Thus, this review will not only describe experience using a number of bone-seeking radiopharmaceuticals such as 153-samarium-EDTMP, 153-samarium-DOTMP, and 223-radium against
osteosarcoma
, but also approaches to identify patients who may benefit as well as some means to the improve overall efficacy including combination therapy with routine agents and using nuclear imaging to develop best strategy for use. These include imaging with not only
99m
Tc-MDP standard bone scans, but also
99m
Tc-MDP bone scans with SPECT CT, bone-specific sodium fluoride PET-CT (Na
18
F), and
18
FDG-PET-CT. Accurate knowledge of oligometastatic active disease can facilitate more effective use of combination therapy, including radiosensitizers and local control measures, for example, stereotactic body radiotherapy (SBRT) and/or cryoablation to reduce disease burden as well as manage and prevent micrometastatic disease from growing and metastasizing. Finally, a new tumor-specific radiopharmaceutical, CLR 131, may also provide another radiopharmaceutical to treat both osteoblastic and non-ossifying areas of
osteosarcoma
.
...
PMID:Radiopharmaceuticals for Treatment of Osteosarcoma. 3248 29
Osteosarcoma
relapses not only herald a very poor prognosis but also opportunities to treat this genetically diverse complex cancer in new ways. This review will attempt to show that the field is a rapidly evolving one in which not only cytotoxic agents but also local control strategies and the immune system can be harnessed to improve the prognosis of relapsed patients. The molecular heterogeneity and the difficulty of effectively treating most common patterns of relapse with surgery and/or radiation (lung and/or
bone metastases
) have been responsible for a wide variety of approaches to learning whether agents are active against
osteosarcoma
. This chapter will highlight past, current, and potential future approaches to provide more effective systemic therapy for the problem of recurrent metastases of
osteosarcoma
. These include single-agent trials with a wide variety of agents, radiopharmaceuticals, and immune therapies. Finally, how such efforts are integrated into more effective local control strategies is also discussed.
...
PMID:Relapsed Osteosarcoma Trial Concepts to Match the Complexity of the Disease. 3248 33
Osteosarcoma
is the most common primary malignant tumor of the skeleton in teenagers and young adults and continues to confer a generally poor prognosis in patients who do not respond to chemotherapy or who present with metastatic diseases at diagnosis. The nitrogen-containing zoledronate, the third generation bisphosphonate (BP), effectively inhibits osteoclastic bone resorption and is widely utilized in the treatment of metabolic and metastatic bone diseases nowadays. Owing to an acceptable safety profile and tolerability, zoledronate is the only BP currently approved for the prevention and treatment of skeletal relevant events in patients with metastatic bone lesions, especially
bone metastases
from advanced renal cell carcinoma and prostate cancer, and breast cancer, due to all solid malignancy. Moreover, zoledronate possesses diverse anti-
osteosarcoma
properties and may have potential to become an adjunctive treatment for high-grade
osteosarcoma
to enhance survival rates and to obliterate complications of the chemotherapy. Herein we highlighted the pharmacology of BPs and its underlying molecular mechanisms in osteoclasts and various cancer cells. We further provided the available literature on in vitro studies to illustrate the new insights into the intracellular molecular mechanisms of zoledronate in human
osteosarcoma
cell lines and in vivo animal models that led to the development and regulatory approval of zoledronate in patients with human
osteosarcoma
. This review also addresses clinical trials to focus on the efficacy of zoledronate on human
osteosarcoma
.
...
PMID:New insights into molecular and cellular mechanisms of zoledronate in human osteosarcoma. 3256 77
Despite research and clinical advances during recent decades, bone cancers remain a leading cause of death worldwide. There is a low survival rate for patients with primary bone tumors such as
osteosarcoma
and Ewing's sarcoma or secondary bone tumors such as
bone metastases
from prostate carcinoma. Gap junctions are specialized plasma membrane structures consisting of transmembrane channels that directly link the cytoplasm of adjacent cells, thereby enabling the direct exchange of small signaling molecules between cells. Discoveries of human genetic disorders due to genetic mutations in gap junction proteins (connexins) and experimental data using connexin knockout mice have provided significant evidence that gap-junctional intercellular communication (Gj) is crucial for tissue function. Thus, the dysfunction of Gj may be responsible for the development of some diseases. Gj is thus a main mechanism for tumor cells to communicate with other tumor cells and their surrounding microenvironment to survive and proliferate. If it is well accepted that a low level of connexin expression favors cancer cell proliferation and therefore primary tumor development, more evidence is suggesting that a high level of connexin expression stimulates various cellular process such as intravasation, extravasation, or migration of metastatic cells. If so, connexin expression would facilitate secondary tumor dissemination. This paper discusses evidence that suggests that connexin 43 plays an antagonistic role in the development of primary bone tumors as a tumor suppressor and secondary bone tumors as a tumor promoter.
...
PMID:Antagonistic Functions of Connexin 43 during the Development of Primary or Secondary Bone Tumors. 3285 65
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