Structural and functional impairment of skeletal system is a relevant cause of morbidity and disability in patients with Cushing's syndrome (CS). Approximately 30-50% of patients with CS experience fractures (particularly at the spinal level) consistent with the 50% incidence of osteoporosis. Growth failure, pubertal arrest are the hallmarks of CS in children and growing adolescents leading to reduced final adult height and peak bone mass. The decrease in osteoblast number and function, through different mechanisms, seems to play a central role in the bone loss in CS. Patients with CS have decreased serum levels of osteocalcin and alkaline phosphatase. Considering the preferential bone loss in the cancellous skeleton it is reasonable to measure BMD, possibly with Dual X-rays absorptiometry (DEXA) at lumbar spine, in all patients with CS.Patients cured from CS have increased prevalence of spine damage: therefore, a radiological follow-up of the skeleton should be included in the management of patients with CS not only during the active phase but also after cure.Glucocorticoid-induced osteoporosis is reversible. The recovery of bone loss in CS is slow, taking approximately ten years to become complete. In the meanwhile, patients with severe osteopenia are exposed to a high risk of fracture. Alendronate may induce a more rapid improvement in BMD than cortisol normalization alone and it could be useful in patients with persistent postsurgical hypercortisolism to prevent further bone loss. The decision to discontinue antiresorptive therapy should be based on clinical monitoring and DEXA measurements.
This study showed that the new long-acting somatostatin analogues, lanreotide SR and octreotide LAR, cause significant shrinkage of pituitary GH-secreting adenomas in previously untreated patients with acromegaly. This effect was more marked in macroadenomas than microadenomas, and did not correlate with control of GH hypersecretion.
COVID-19 extra-pulmonary features include several endocrine manifestations and these are becoming strongly clinically relevant in patients affected influencing disease severity and outcomes. At the beginning of COVID-19 pandemic no population data on calcium levels in patients affected were available and in April 2020 a first case of severe acute hypocalcemia in an Italian patient with SARS-CoV-2 infection was reported. Subsequently, several studies reported hypocalcemia as a highly prevalent biochemical abnormality in COVID-19 patients with a marked negative influence on disease severity, biochemical inflammation and thrombotic markers, and mortality. Also a high prevalence of vertebral fractures with worse respiratory impairment in patients affected and a widespread vitamin D deficiency have been frequently observed, suggesting an emerging “Osteo-Metabolic Phenotype” in COVID-19. To date, several potential pathophysiological factors have been hypothesized to play a role in determining hypocalcemia in COVID-19 including calcium dependent viral mechanisms of action, high prevalence of hypovitaminosis D in general population, chronic and acute malnutrition during critical illness and high levels of unbound and unsaturated fatty acids in inflammatory responses. Since hypocalcemia is a frequent biochemical finding in hospitalized COVID-19 patients possibly predicting worse outcomes and leading to acute cardiovascular and neurological complications if severe, it is reasonable to assess, monitor and, if indicated, replace calcium at first patient hospital evaluation and during hospitalization.
Context and Objective COVID-19 has become the most relevant medical issue globally. Despite several studies that have investigated clinical characteristics of COVID-19 patients, no data have been reported on the prevalence of vertebral fractures (VFs). Since VFs may influence cardiorespiratory function and disease outcomes, the aim of this study was to assess VFs prevalence and clinical impact in COVID-19. Design and Patients This was a retrospective cohort study performed at San Raffaele Hospital, a tertiary health care hospital in Italy. We included COVID-19 patients for whom lateral chest x-rays at emergency department were available. VFs were detected using a semiquantitative evaluation of vertebral shape on chest x-rays. Results A total of 114 patients were included in this study and thoracic VFs were detected in 41 patients (36%). Patients with VFs were older and more frequently affected by hypertension and coronary artery disease (P < 0.001, P = 0.007, P = 0.034; respectively). Thirty-six (88%) patients in VFs+ group compared to 54 (74%) in VFs− group were hospitalized (P = 0.08). Patients with VFs more frequently required noninvasive mechanical ventilation compared with those without VFs (P = 0.02). Mortality was 22% in VFs+ group and 10% in VFs− group (P = 0.07). In particular, mortality was higher in patients with severe VFs compared with those with moderate and mild VFs (P = 0.04). Conclusions VFs may integrate the cardiorespiratory risk of COVID-19 patients, being a useful and easy to measure clinical marker of fragility and poor prognosis. We suggest that morphometric thoracic vertebral evaluation should be performed in all suspected COVID-19 patients undergoing chest x-rays.
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