Bone metastases are common in hepatocellular carcinoma (HCC), but their incidence, morbidity, and mortality are not well defined. The Memorial Sloan Kettering Cancer Center database was queried for all patients with HCC and metastases seen from 2002 to 2014. The prevalence of bone metastasis was determined and cumulative incidence function was used to estimate the probability of developing a bone metastasis. Regression models were created to identify risk factors for osseous metastasis. The frequency of skeletal-related events (SREs), defined as pathologic fracture, spinal cord compression, need for radiation therapy to bone, and/or surgical resection of bone, was determined and cumulative incidence function was used to estimate the probability of SRE development. Regression models were created to identify SRE risk factors. Correlation of clinicopathologic parameters, including bone metastases and SREs, with overall survival was analyzed using Kaplan-Meier methodology. A total of 459 patients with HCC and extrahepatic metastases were identified; 151 patients (32.9%) had or developed bone metastases: 128 (27.9%) as a primary site and 23 (4.6%) as a secondary site of extrahepatic disease. Among the 331 patients without bone metastasis at presentation, the yearly incidence of bone metastasis was 6.4% (95% CI, 3.6%-9.2%). Hepatitis B virus (HBV) infection increased the chance of developing a bone metastasis (=.02). The cumulative incidence of SREs was 50% at 6 months. Univariate analysis showed that patients with HBV-related HCC had a significantly higher incidence of SREs (=.02). Sorafenib and bisphosphonates each protected against SREs. The presence of SREs was independently associated with a worse overall survival (hazard ratio, 2.13; 95% CI, 1.52-2.97; <.01) in the multivariable model. Patients with AJCC stage IV HCC and bone metastases that are clinically evident on routine radiography or on clinical examination at presentation are apt to develop frequent, morbid, and mortal SREs, whereas those without evident bone metastasis at presentation are unlikely to develop these complications.
Sideroblastic anemia (SA) consists of a group of inherited and acquired anemias of ineffective erythropoiesis characterized by the accumulation of ring sideroblasts in the bone marrow due to disrupted heme biosynthesis. Congenital sideroblastic anemia (CSA) is rare and has three modes of inheritance: X-linked (XLSA), autosomal recessive (ARCSA), and maternal. Acquired SA is more common and can be a result of myelodysplastic syndromes (MDS) or other, generally reversible causes. The diagnostic approach to SA includes a work-up for reversible causes and genetic testing for CSA based on clinical suspicion, family history and genetic pedigree. The treatment of SA depends on the underlying etiology but remains primarily supportive with vitamin B6 supplementation for select cases of XLSA, thiamine for thiamine-responsive megaloblastic anemia subtype, red blood cell transfusions for symptomatic patients and iron chelation therapy for iron overload. The management of anemia in MDS subtypes with ring sideroblasts remains unique and includes the recently approved erythroid maturation agent, Luspatercept. Although there is currently no curative therapy for CSA, anecdotal reports of hematopoietic stem cell transplant demonstrate remissions in selective, non-syndromic cases. This review summarizes the genetics, pathophysiology, diagnosis and treatment of SA for general practitioners and clinical hematologists.
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