Hyperglycemic emergencies such as Diabetic Ketoacidosis (DKA) or Hyperosmolar Hyperglycemic State (HHS) are commonly precipitated by infectious processes. Severe Acute Respiratory Syndrome-Coronavirus 2 (SARS-CoV-2) is a novel infectious process prompting hyperglycemic crisis. SARS-CoV-2 at the level of the lungs affects ACE2 functioning which in turns decrease the B cells proliferation at the pancreas and hinders insulin secretion. Advanced age and comorbidities such as hypertension, cardiovascular disease and diabetes mellitus are considered to be a risk factors for severe illness and mortality between patients with SARS-CoV-2. We present the case of a 39-year-old woman with medical history of uterine fibroma, who presented with complains of general malaise, polyuria and polydipsia of one week evolution, associated with sore throat, subjective fever, dry cough, abdominal pain, nausea and vomiting. Physical examination remarkable for dry oral mucosa, decreased skin turgor, and prolonged capillary refills. Vital signs significant for hypertension, tachycardia, and tachypnea. Laboratory work up remarkable for glucose of 1321 mg/dL, HCO3- of 16 mEq/L, serum osmolality of 333 mOsm/kg, serum ketones positive and HbA1C of 15%. ABG’s showed pH of 7.33, PCO2 of 29.8 and a PAO2 of 158.5 mmHg for a high anion gap metabolic acidosis (AG of 15.3 mEq/L), non-anion gap metabolic acidosis with respiratory alkalosis. Chest X-ray revealed bilateral perihilar, peribronchial cuffing. SARS-CoV-2 PCR testing was positive. Clinical and laboratory workup met criteria for diagnosis of HHS and Diabetes Mellitus de Novo most likely secondary to SARS-CoV-2 infection. Patient was treated with aggressive IV hydration and insulin infusion with resolution of hyperglycemia, ketonemia and symptoms. SARS-CoV-2 infection can precipitate acute metabolic complications in patients with diabetes or unknown diagnosis of diabetes. The effect of the virus could be direct effect on β-cell function. To our knowledge, there are only a few cases reported of HHS precipitated by SARS-CoV-2 infection therefore medical awareness is important for early diagnosis of possible triggering factors such as COVID-19 and early management of patients presenting with new onset hyperglycemic emergencies.
Introduction: Isolated adrenocorticotropic hormone (ACTH) deficiency is a rare pituitary hormone deficiency defined by secondary adrenal insufficiency and normal secretion of all other pituitary hormones. Patients present with fatigue, weakness, weight loss, anorexia, nausea, low cortisol levels and low ACTH levels. Isolated ACTH deficiency is more common in males and usually presents in the fifth decade of life. Main mechanisms involved in the pathogenesis are genetics and autoimmune causes, traumatic brain injury and infarction of the pituitary postpartum, known as Sheehan’s syndrome. Sheehan’s syndrome is characterized by postpartum hemorrhage, failure to lactate and menstrual irregularities and it can occur from immediate postpartum period to years after delivery. The most common hormone deficiencies are prolactin and growth hormone. Empty sella is the most common finding on brain MRI. We are reporting a case of a woman in her third decade with isolated ACTH deficiency due to Sheehan’s syndrome two years postpartum, able to lactate, with normal menses and normal brain MRI. Clinical Case: A 33-year-old woman G3P3A0 with hypothyroidism who was referred to Endocrinology clinics due to tiredness, fatigue and weakness. She reported postpartum hemorrhage requiring 4 PRBC transfusions and IV steroids after last pregnancy 5 years ago. Patient was able to lactate after pregnancy and continued in her usual state of health until 3 years ago when she referred loss of consciousness with traumatic head injury due to hypoglycemia. At Endocrinology office physical examination and vital signs were unremarkable, including no blood pressure or heart rate variations with positional changes. Despite hypothyroidism being adequately controlled, she continued with extreme fatigue and weakness affecting her quality of life, for which cortisol and ACTH levels were ordered. Laboratories showed normal electrolytes, negative autoantibodies, cortisol 0.20 μg/dL (5-25 μg/dL) and ACTH 22 pg/mL (10-60 pg/mL) suggesting partial isolated ACTH deficiency. ACTH stimulation test was done and noted with suboptimal response. Evaluation of other anterior pituitary hormones was normal. Brain MRI showed normal pituitary gland. She was started on hydrocortisone in AM and PM and symptoms resolved. Conclusion: Immediate recognition of isolated ACTH deficiency due to Sheehan’s syndrome is necessary due to the availability of effective treatment and morbidity and mortality associated with this serious condition. To our knowledge isolated ACTH deficiency due to Sheehan’s syndrome in which the patient was able to lactate and normal findings on brain MRI has not previously been reported.References: Shivaprasad C. Sheehan’s Syndrome: Newer advances. Indian J Endocrinol Metab. 2011 Sep; 15(3): S203-207. DOI:10.4103/2230-8210.84869.
Background: Upon evaluation of patients with recurrent hypoglycemia, both exogenous and endogenous causes should be excluded. Among endogenous hyperinsulinemic hypoglycemia (EHH) pathologies, Insulin Autoimmune Syndrome (IAS), even though extremely rare, must be considered. Most cases of IAS have been reported in the Oriental population, mostly Japanese. No gold standard of care for this condition has been established. Clinical Case: This is the case of an 82 year-old obese female patient with dyslipidemia, obstructive sleep apnea, and osteoarthritis that comes to the Endocrinology clinics for evaluation due to recurrent episodes of hypoglycemia. She refers that for the last three years she had been presenting with multiple episodes of symptomatic hypoglycemia, even levels as low as 30 mg/dL, requiring multiple hospitalizations. Consequently, she refers a 15-pound weight gain because of multiple daily snacks. Home medications were simvastatin and diclofenac. She denies using insulin, sulfonylureas, other hypoglycemic agents, alcohol, or illicit substances. Abdominal MRI and PET CT scan were remarkable only for an atrophic pancreas without focal masses. Patient was hospitalized for a supervised 72-hour fast, resulting in severe hypoglycemia within 14 hours with elevated insulin levels at 46.3 uIU/mL (1.7-31.0 uIU/mL), elevated C-peptide levels at 5.79 ng/mL (0.9-4.3 ng/mL) and elevated insulin antibodies 53µU/mL (<5µU/mL). Patient showed sufficient hepatic reserve after glucagon administration as well as intact cortisol and growth hormone axis upon severe hypoglycemia. With these results, a diagnosis of IAS was made; not associated with other autoimmune diseases, or with medications with sulfhydryl groups, such as the cases already reported on literature. This condition represents a therapeutic challenge because there is no gold standard of care. Literature recognizes diverse treatment options that range from diet modification to more aggressive therapies, including plasmapheresis and immunosupressants. Our patient was managed with diet modification including frequent snacks and Diazoxide with the goal of decreasing insulin levels and inducing hyperglycemia. Diazoxide therapy achieved a steady euglycemic state and decreased insulin antibodies. Patient developed intolerable bilateral lower extremity edema and treatment was modified to complex carbohydrates, frequent snacks in the daytime and Diazoxide only at bedtime, which is the longer fasting period. Patient has remained without episodes of hypoglycemia and diabetes has not been diagnosed since starting treatment two years ago. Conclusion: Early recognition of IAS is essential in order to avoid unnecessary studies and procedures which could delay management. Although no gold standard therapy has been identified for this condition, our case report identifies Diazoxide as a compelling medical treatment.
Introduction: Hyperthyroidism is a well-known non-parathyroid hormone-mediated cause of hypercalcemia. Hypercalcemia associated with thyrotoxicosis is usually asymptomatic. Increased osteoclastogenesis is one of the mechanisms underlying this etiology. Hyperthyroidism is associated with mild to moderate levels of hypercalcemia in approximately 20% of patients, but severe hypercalcemia is rare. We report a case of a male with Grave’s disease-induced symptomatic severe hypercalcemia. Clinical Case: A 36-year-old male with type 2 diabetes mellitus and arterial hypertension who was transferred from another institution to our Emergency Department due to suspected primary hyperparathyroidism for Endocrinology Services evaluation. Family history is non-contributory. Patient reports palpitations, irritability, and unintentional weight loss of approximately fifty pounds in nine months. One month ago, he started with constipation, anxiety, depression, abdominal discomfort, nausea, and vomiting for which decided to seek medical attention. Physical examination was remarkable for tachycardia, dry mucous membranes, and goiter. Laboratory tests showed lipase 69 U/L (13-60U/L), albumin-corrected calcium 14.3 mg/dL (8.8-10.3mg/dL), phosphorus 3.30 mg/dL (2.4-4.2mg/dL), magnesium 1.58 mg/dL (1.8-2.2mg/dL), creatinine 1.38 mg/dL (0.90-1.30 mg/dL), alkaline phosphatase 77 IU/L (43-115IU/L), iPTH 4 pg/mL (11-67pg/mL), PTHrp <0.4 pmol/L (≤4.2pmol/L), 25-OH vitamin D 32.1 ng/mL (30-100ng/mL), 1,25-dihydroxyvitamin D <5.0 pg/mL(19.9-79.3pg/mL), hemoglobin 11.6 g/dL (14-18g/dL), negative serum and urine protein electrophoresis, TSH 0.003 uIU/mL (0.45-5.33 uIU/mL), free T4 2.80 ng/dL (0.71-1.85ng/dL), total T3 2.57 ng/mL (0.80-2.00ng/mL), TSI: 486% (<140%), urine calcium 24hr 525mg/day (100-300mg/day). Thoracic and abdominopelvic CT scan without contrast was unremarkable for masses, adenopathies, osseous lesions, or acute abdominal processes. Patient was treated with IV isotonic saline and methimazole 10mg oral daily with resolution of symptoms. Finally, diagnosed with Graves’ disease as the cause of hypercalcemia after ruling out other etiologies. He was discharged home with calcium levels 10.8 mg/dL, normal renal function, methimazole, and follow up with Endocrinology Services. Conclusion: This is a case of an atypical presentation of hyperthyroidism-induced symptomatic hypercalcemia. It is important to consider hyperthyroidism in the differential diagnoses of severe hypercalcemia. Prompt suspicion is essential due to the effective treatments available for Graves’ disease. Early treatment of hypercalcemia is important for quick resolution of symptoms and decreased associated mortality.
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