Hypopituitarism with secondary adrenocortical insufficiency and arginine vasopressin deficiency due to hypophysitis after COVID-19 vaccination: a case report.

BACKGROUND: Although vaccination against coronavirus disease (COVID-19) has several side effects, hypopituitarism due to hypophysitis has rarely been reported. CASE PRESENTATION: An 83-year-old healthy woman, who had received her fourth COVID-19 vaccine dose 2 days before admission, presented to the emergency department with difficulty moving. On examination, impaired consciousness (Glasgow Coma Scale: 14) and fever were observed. Computed tomography and magnetic resonance imaging of the head revealed swelling from the sella turcica to the suprasellar region. Her morning serum cortisol level was low (4.4 µg/dL) and adrenocorticotropic hormone level was normal (21.6 pg/mL). Central hypothyroidism was also suspected (thyroid stimulating hormone, 0.46 µIU/mL; free triiodothyronine, 1.86 pg/mL; free thyroxine, 0.48 ng/dL). Secondary adrenocortical insufficiency, growth hormone deficiency, delayed gonadotropin response, and elevated prolactin levels were also observed. After administration of prednisolone and levothyroxine, her consciousness recovered. On the 7th day of admission, the patient developed polyuria, and arginine vasopressin deficiency was diagnosed using a hypertonic saline test. On the 15th day, the posterior pituitary gland showed a loss of high signal intensity and the polyuria resolved spontaneously. On the 134th day, the corticotropin-releasing hormone loading test showed a normal response; however, the thyrotropin-releasing hormone stimulation test showed a low response. The patient's disease course was stable with continued thyroid and adrenal corticosteroid supplementation. CONCLUSIONS: Herein, we report a rare case of anterior hypopituitarism and arginine vasopressin deficiency secondary to hypophysitis following COVID-19 vaccination.

Impact of the severity of brain injury on secondary adrenal insufficiency in traumatic brain injury patients and the influence of HPA axis dysfunction on prognosis.

OBJECTIVE: To investigate secondary adrenal insufficiency post varying traumatic brain injuries' and its impact on prognosis. METHODS: 120 traumatic brain injury patients were categorized into mild, moderate and severe groups based on Glasgow Coma Scale. Adrenal function was evaluated through testing. RESULTS: Secondary adrenal insufficiency rates were 0% (mild), 22.85% (moderate) and 44.82% (severe). Hypothalamus-pituitary-adrenal axis dysfunction rates were 14.81% (mild), 42.85% (moderate) and 63.79% (severe). Differences among groups were significant (p < .05). Patients with intact hypothalamus-pituitary-adrenal axis had shorter hospital stays and higher Glasgow Coma Scale scores. Receiver operating characteristic analysis of 24-h urinary free cortisol showed an area of 0.846, with a 17.62 µg/24h cutoff, 98.32% sensitivity and 52.37% specificity. In the low-dose adrenocorticotropic hormone test, with an 18 µg/dL cutoff, the receiver operating characteristic area was 0.546, with 46.28% sensitivity and 89.39% specificity. CONCLUSION: As traumatic brain injury severity increases, secondary adrenal insufficiency incidence rises. The low-dose adrenocorticotropic hormone test is promising for hypothalamus-pituitary-adrenal axis evaluation. Patients with hypothalamus-pituitary-adrenal dysfunction experience prolonged hospitalization and worse prognosis.

[A 74 year old patient with recurrent shock caused by hypopituitarism]. / Een 74-jarige patiënte met een recidiverend shockbeeld veroorzaakt door een onderliggend hypopituïtarisme.

This article analyzes the case of a 74 year old patient who was hospitalized four times with recurrent complaints, which consisted of hypothermia, hypotension, weakness, and a hyponatremia, and were always caused by an underlying acute infection. Laboratory results showed an hypothyroidism, a secondary adrenal insufficiency, a secondary hypogonadism, and a growth hormone deficiency, which led to a diagnosis of pituitary dysfunction. Magnetic resonance imaging of the brain showed an 'empty sella', a non-visualization of the pituitary gland caused by an herniation of a supra-sellar cistern into the pituitary fossa. Considering the lack of an underlying pituitary tumor, a treatment consisting of partial hormonal substitution was started, eventually resulting in the full recovery of the patient.

Insuffisance surrénalienne secondaire : actualités diagnostiques et thérapeutiques: News in diagnosis and therapeutics of secondary adrenal insufficiency.

Immunotherapy and opioids treatment are new causes of secondary adrenal insufficiency (SAI). Prevalence of SAI with immunotherapy is more frequent with combined therapy (8% vs 4 to 10% with CTLA4 blocking antibody and 1% with PD1 blocking antibody). Although hypophysitis are more frequently observed with CTLA4 blocking antibody, some cases of Isolated SAI have been reported in patients treated by PD1 blocking antibody. SAI could be transient, requiring long-term monitoring. The use of opioid analgesics is increasing in many countries, thus becoming a public health problem. Prevalence of opioid-related SAI is unclear but recent prospective studies reveal a prevalence between 5 and 20%. The main risk factor to develop this pathology is morphine-equivalent daily dose. Diagnosis relies on 8.00 am plasma cortisol measurement and cortisol increase after Synacthen® administration. Recent cortisol immuno-assays, in agreement with mass spectrometry, give lower reference values, encouraging reevaluation of the current cut-off of 500 nmol/L. New modified-release hydrocortisone preparations have been recently developed to better mimic the physiological cortisol rhythm and to improve compliance in adrenocortical deficient patients. Nowadays, continuous subcutaneous hydrocortisone infusion seems to be a unique replacement therapy allowing adequate circadian biorhythm but should be restricted to specific patients due to the complexity of this substituting strategy. © 2019 Published by Elsevier Masson SAS. All rights reserved. Cet article fait partie du numéro supplément Les Must de l'Endocrinologie 2019 réalisé avec le soutien institutionnel de Ipsen-Pharma.

ATP7B Mutation Detection and Pathogenicity Analysis: One Atypical Case of Wilson's Disease with Adrenocortical Insufficiency.

Wilson's disease (WD) is an autosomal recessive disorder caused by defective function of the copper-transporting ATP7B protein. Symptoms are typically related to the brain and liver, while endocrinologic abnormalities are rare. Here, we reported a 12-year-old female patient that was initially presented with unusual skin darkening and low serum level of adrenocorticotropic hormone and diagnosed as having adrenocortical insufficiency. We further screened the mutation in ATP7B by direct DNA sequencing and found compound heterozygous mutations: a known pathogenic mutation in exon8:c.2333G>T (Arg778Leu) inherited from her mother and a variant in intron4:c.1707 + 5G>A inherited from her father. To explore the pathogenicity of the intronic variant, a minigene splicing assay was used to determine the effects of the splicing variant by analyzing reverse transcription PCR of ATP7B minigene transcript production. The result indicated that the c.1707 + 5G>A variant resulted in exon 4 skipping. We herein identified that 1707 + 5G>A intron 4 variant is a pathogenic mutation. Molecular genetic analysis and laboratory examination definitely confirmed the patient's condition as WD. Clinical status improved considerably after penicillamine treatment. Our results extended the mutation spectrum of ATP7B gene and highlighted the importance of molecular genetic analysis for the accurate diagnosis of atypical WD. WD may have diverse presentations and should be considered in children especially presenting with adrenocortical insufficiency as initial symptom, and this study highlights the importance of screening for hormone abnormal in WD.