Katerina Stefanaki scite author profile

Endocrine system plays a vital role in controlling human homeostasis. Understanding possible effects of COVID-19 on endocrine glands is crucial to prevent and manage endocrine disorders before and during hospitalization in COVID-19 infected patients, as well as to follow them up properly upon recovery. Many endocrine glands such as pancreas, hypothalamus and pituitary, thyroid, adrenal glands, testes, and ovaries have been found to express ACE2 receptors, the main binding site of the virus. Since the pandemic outbreak, various publications focus on the aggravation of preexisting endocrine diseases by COVID-19 infection or the adverse prognosis of the disease in endocrine patients. However, data on endocrine disorders, both during the phase of the infection (early complications) and upon recovery (late complications) are scarce. The aim of this review is to identify and discuss early and late endocrine complications of COVID-19. The majority of the available data refer to glucose dysregulation and its reciprocal effect on COVID-19 infection with the main interest focusing on the presentation of new onset of diabetes mellitus. Thyroid dysfunction with either low T3, low TSH or subacute thyroiditis has been reported. Adrenal dysregulation and impaired spermatogenesis in affected men have been also reported. Complications of other endocrine glands are still not clear. Considering the recent onset of COVID-19 infection, the available follow-up data are limited and therefore long-term studies are required to evaluate certain effects of COVID-19 on the endocrine glands.

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How we treat endocrine complications of immune checkpoint inhibitors

Paschou

Stefanaki

Ψαλτοπούλου

et al. 2021

ESMO Open

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Subcutaneous fat necrosis associated with severe hypocalcaemia in a neonate

Karochristou

Siahanidou

Kakourou-Tsivitanidou

et al. 2005

J Perinatol

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Subcutaneous fat necrosis (SFN) of the newborn is an uncommon disorder of the adipose tissue, mostly affecting full-term or post-term newborns who experience perinatal distress. The lesions of SFN typically occur during the first six weeks of life; they are usually self-limited and no specific therapy is required. The disorder may be rarely complicated with hypercalcaemia. We present the case of a neonate with perinatal asphyxia who manifested SFN followed by hypocalcaemia instead of hypercalcaemia and a biochemical profile of pseudohypoparathyroidism four weeks after the eruption of skin lesions. The infant was treated with alfacalcidiol. Blood biochemistry was normalized within one week and serum parathyroid hormone levels declined to normal over the next two months. It is suggested that perinatal asphyxia was the common etiopathogenetic factor for the development of both SFN and pseudohypoparathyroidism.

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