Assessing fracture risk in early stage breast cancer patients treated with aromatase-inhibitors: An enhanced screening approach incorporating trabecular bone score

AbstractIntroductionAromatase-inhibitors (AIs) are commonly used for treatment of patients with hormone-receptor positive breast carcinoma, and are known to induce bone density loss and increase the risk of fractures. The current standard-of-care screening tool for fracture risk is bone mineral density (BMD) by dual-energy X-ray absorptiometry (DXA). The fracture risk assessment tool (FRAX®) may be used in conjunction with BMD to identify additional osteopenic patients at risk of fracture who may benefit from a bone-modifying agent (BMA). The trabecular bone score (TBS), a novel method of measuring bone microarchitecture by DXA, has been shown to be an independent indicator of increased fracture risk. We report how the addition of TBS and FRAX®, respectively, to BMD contribute to identification of elevated fracture risk (EFR) in postmenopausal breast cancer patients treated with AIs.Methods100 patients with early stage hormone-positive breast cancer treated with AIs, no prior BMAs, and with serial DXAs were identified. BMD and TBS were measured from DXA images before and following initiation of AIs, and FRAX® scores were calculated from review of clinical records. EFR was defined as either: BMD ≤−2.5 or BMD between −2.5 and −1 plus either increased risk by FRAX® or degraded microstructure by TBS.ResultsAt baseline, BMD alone identified 4% of patients with EFR. The addition of FRAX® increased detection to 13%, whereas the combination of BMD, FRAX® and TBS identified 20% of patients with EFR. Following AIs, changes in TBS were independent of changes in BMD. On follow-up DXA, BMD alone detected an additional 1 patient at EFR (1%), whereas BMD+ FRAX® identified 3 additional patients (3%), and BMD+FRAX®+TBS identified 7 additional patients (7%).ConclusionsThe combination of FRAX®, TBS, and BMD maximized the identification of patients with EFR. TBS is a novel assessment that enhances the detection of patients who may benefit from BMAs

Nurses' perceptions of aids and obstacles to the provision of optimal end of life care in ICU

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Current status and future potential role of exemestane in the treatment of early and advanced breast cancer (Review)

Exemestane is a new oral steroidal aromatase inactivator, active in postmenopausal women with hormonal sensitive breast carcinoma. This drug, at a dosage of 25 mg once daily, was shown to suppress in vivo aromatase activity by 97.9%, with a subsequent reduction superior to 85% of circulating oestrogen level. It exhibits definite antitumor activity at a relatively low daily dose, and is highly potent, highly selective, and well-tolerated. Moreover, for postmenopausal women with metastatic breast cancer, exemestane demonstrated a higher activity and lower toxicity profile when compared to megestrol acetate and tamoxifen in second- and first-line therapy, respectively. New data on exemestane are forthcoming both in the adjuvant and neoadjuvant setting, which could improve the management of early breast cancer in the future