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Query: UMLS:C0376358 (
prostate cancer
)
59,338
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Preservation of bone health remains a long-term clinical challenge in patients with breast and
prostate cancer
. Osteoporosis, defined by a loss of bone mass and microarchitecture, often results in fragility fractures that are typically associated with a high socioeconomic burden. Endocrine therapy, a mainstay treatment in the management of patients with hormone-sensitive breast and
prostate cancer
in the adjuvant setting, commonly exerts adverse effects on the musculoskeletal system and is associated with an increased risk of osteoporosis and fractures. Adjuvant use of gonadotropin-releasing hormone analogues, which can also be used in metastatic disease, in combination with tamoxifen in premenopausal women, and aromatase inhibitors in postmenopausal women with hormone-sensitive breast cancer, causes rapid bone loss and fragility fractures. By contrast, selective
oestrogen receptor
modulators, such as tamoxifen, have bone-protective effects in postmenopausal women. In men with castration-sensitive
prostate cancer
, androgen deprivation is achieved with drugs that lower gonadotropin levels, and these drugs can be combined with androgen receptor antagonists. These therapies induce a high bone turnover with rapid bone loss that is reminiscent of the changes occurring in early menopause and result in an increased risk of fracture. In this Review, we describe how adjuvant endocrine therapies of breast and
prostate cancer
impair bone health and outline evidence from randomised controlled trials of strategies to reduce risk of fracture.
...
PMID:Bone health during endocrine therapy for cancer. 2957 26
Cancer is a major cause of death. The diversity of cancer types and the propensity of cancers to acquire resistance to therapies, including new molecularly targeted and immune-based therapies, drives the search for new ways to understand cancer progression. The remodelling of calcium (Ca
2+
) signalling and the role of the Ca
2+
signal in controlling key events in cancer cells such as proliferation, invasion and the acquisition of resistance to cell death pathways is well established. Most of the work defining such changes has focused on Ca
2+
permeable Transient Receptor Potential (TRP) Channels and some voltage gated Ca
2+
channels. However, the identification of ORAI channels, a little more than a decade ago, has added a new dimension to how a Ca
2+
influx pathway can be remodelled in some cancers and also how calcium signalling could contribute to tumour progression. ORAI Ca
2+
channels are now an exemplar for how changes in the expression of specific isoforms of a Ca
2+
channel component can occur in cancer, and how such changes can vary between cancer types (e.g. breast cancer versus
prostate cancer
), and even subtypes (e.g.
oestrogen receptor
positive versus
oestrogen receptor
negative breast cancers). ORAI channels and store operated Ca
2+
entry are also highlighting the diverse roles of Ca
2+
influx pathways in events such as the growth and metastasis of cancers, the development of therapeutic resistance and the contribution of tumour microenvironmental factors in cancer progression. In this review we will highlight some of the studies that have provided evidence for the need to deepen our understanding of ORAI Ca
2+
channels in cancer. Many of these studies have also suggested new ways on how we can exploit the role of ORAI channels in cancer relevant processes to develop or inform new therapeutic strategies.
...
PMID:ORAI channels and cancer. 3008 6
Breast and prostate cancers are among the most prevalent cancers worldwide. Oestradiol and progesterone are major drivers for breast cancer proliferation, and androgens for
prostate cancer
. Endocrine therapies are drugs that interfere with hormone-activated pathways to slow cancer progression. Multiple new breakthrough drugs improving overall survival have recently been developed within this class. As the use of these latter drugs grows, incidence of cardiac arrhythmias has emerged as an unappreciated complication. These changes are not surprising given that sex hormones alter ventricular repolarization. Testosterone shortens action potential duration and QT interval duration, while oestradiol has an opposite effect. In patients with breast cancer, selective
oestrogen receptor
modulators are associated with more reports for long QT and torsade de pointes (TdP) than aromatase inhibitors, likely through an oestradiol-like effect on the heart. Cyclin-dependent kinase 4/6 inhibitors, a new class of anticancer drugs used in combination with endocrine therapies in hormone receptor positive breast cancer, are also variably associated with drug-induced long QT, particularly with ribociclib. In
prostate cancer
, androgen deprivation therapy is associated with long QT and TdP, and possibly atrial fibrillation for abiraterone. In this review, we have summarized the clinical and preclinical data focusing on cardiac arrhythmia considerations of hormone cancer therapies.
...
PMID:Cardiac arrhythmia considerations of hormone cancer therapies. 3069 86
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