Screening and Stimulation Testing for Residual Secretion of Adrenal Steroid Hormones in Autoimmune Addison's Disease

Primary Adrenal Insufficiency Clinical Trial

Official title:

Residual Secretion of Adrenal Steroid Hormones in Addison's Disease

Clinical Trial Details — Status: Active, not recruiting

Administrative data

• NCT number: NCT03793114
• Other study ID #: 2018/751/REK sør-øst A (REK)
• Status: Active, not recruiting
• Phase: N/A
• Start date: September 26, 2018
• Est. completion date: December 2025

Study information

• Verified date: November 2023
• Source: University of Bergen
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

In autoimmune adrenal insufficiency, or Addison's disease (AD), the immune system attacks the adrenal cortex. As a result, the adrenal cells producing hormones such as cortisol and aldosterone are destroyed, leaving the body with insufficient levels to meet its needs. The common perception is that upon diagnosis of Addison's disease, basically all adrenal hormone production has ceased.

There have, however, been found a few individuals who preserve some residual secretion of cortisol even years after diagnosis. The objectives of this study is to find out how common it is, and to explore if residual function have impact on patient outcome. That is, do patients with and without residual function differ when it comes to quality of life, working ability, medication dosages, and risk of adrenal crisis?

Description:

Autoimmune destruction of the adrenal cortex is the main cause of primary adrenal insufficiency (Addison's disease, AD). Autoimmune AD (AAD) becomes clinically manifest when 90 % of cortex of adrenal gland is destroyed. Current dogma says that adrenal insufficiency ultimately is complete, that is the adrenal cortex stops producing steroids altogether. However, several case reports indicate that there might be a subgroup of patients that retain some steroid production, even years after the diagnosis. This ability could be beneficial as it could protect against adrenal crises, ease medication, and leave the patient with better quality of life.

The objective of the study is to systematically assess to what extent patients with AAD have residual adrenocortical function, and to characterize this subgroup.

The study will be an open non-randomized three-stage multicenter clinical trial comprising patients from the Norwegian Registry for organ-specific autoimmune disease (ROAS), the Swedish Addison registry, and Germany. In stage 1, patients will be asked to fill out questionnaires and deliver medication-fasting samples for analyses of adrenal steroids. In addition, patients with congenital adrenal hyperplasia (CAH) and bilaterally adrenalectomized will serve as negative controls for adrenal steroids. In stage 2, AAD patients with residual steroid production will be invited to a cosyntropin stimulation test to estimate the maximum steroid output from the adrenal glands. Twenty patients with no sign of residual function will also be tested as a control group. In stage 3, AAD patients with confirmed residual function will be invited to go through a 30-hour ambulatory sampling of interstitial fluid for investigation of diurnal variation in adrenocortical hormone levels. Also, newly diagnosed AAD patients will be invited to repeated cosyntropin testing as a means of delineating the natural progression of adrenocortical failure.

Recruitment information / eligibility

• Status: Active, not recruiting
• Enrollment: 200
• Est. completion date: December 2025
• Est. primary completion date: December 2025
• Accepts healthy volunteers: No
• Gender: All
• Age group: 18 Years to 70 Years

Eligibility

Inclusion Criteria:

• Men and women with AAD, age 18-70 years old. This requires documented adrenal insufficiency and a positive test for 21-hydroxylase autoantibodies (biomarker for autoimmune cause) on at least one occasion.

• Provided written informed consent

• In case of concomitant endocrine/autoimmune diseases, the patients should be on stable adequate treatment at least the last 3 months prior to the study period.

• For Norwegian AD patients: enrolled in ROAS

• For Swedish AD patients: enrolled in the Swedish Addison registry

Exclusion Criteria:

• Antihypertensive treatment, with the exception of doxazosin, verapamil, and moxonidine.

• Active malignant disease, severe heart, kidney or liver failure.

• Diabetes mellitus type 1.

• Pregnancy or breast feeding.

• Pharmacological treatment with glucocorticoids (except their usual cortisone or hydrocortisone replacement therapy) or drugs that interfere with cortisol and catecholamine metabolism (antiepileptics, rifampicin, St. Johns wart).

• Use of other glucocorticoid replacement medication than cortisone acetate or hydrocortisone.

• Intake of grapefruit, grapefruit juice, or and liquorice juice the last week before or during the study period.

Related Conditions & MeSH terms

• Addison Disease
• Adrenal Insufficiency
• Primary Adrenal Insufficiency

Intervention

Diagnostic Test:
• Cosyntropin stimulation test
Blood samples are taken before (0 min), and 30 and 60 min after intravenously administration of 250 µg cosyntropin (tetracosactide acetate) with the patient placed in the recumbent position. The test will be performed non-fasting (but medication-fasting) between 08:00 and 10:00 a.m.
• Baseline blood tests
Medication-fasting morning levels of adrenocortical hormones.

Device:
• 30-hour ambulatory sampling of intestinal fluid
30-hour ambulatory sampling of intestinal fluid for analysis of adrenocortical hormones.

Other:
• Blood test
Cardiovascular and inflammatory biomarker profiles

Locations

Country	Name	City	State
Germany	Endokrinologie in Charlottenburg	Berlin
Norway	Haukeland University Hospital	Bergen
Sweden	Karolinska Institutet	Stockholm

Sponsors (3)

Lead Sponsor	Collaborator
University of Bergen	Charite University, Berlin, Germany, Karolinska Institutet

Countries where clinical trial is conducted

Germany,  Norway,  Sweden, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Other	Adrenocortical hormones in congenital adrenal hyperplasia (CAH) controls	Presence or absence of adrenocortical hormones in congenital adrenal hyperplasia (CAH) controls in a medication fasting morning baseline blood sample	1 day
Other	Adrenocortical hormones in bilaterally adrenalectomized controls	Presence or absence of adrenocortical hormones in bilaterally adrenalectomized controls in a medication fasting morning baseline blood sample	1 day
Other	Change in response to cosyntropin testing	Response to cosyntropin testing at 3, 6, 12, and 24 months after diagnosis	4 days
Other	Diurnal variation in adrenocortical hormone secretion	Variation in endogenous adrenocortical hormone secretion during 30 hour continuous sampling	2 days
Primary	The percentage of included patients with residual secretion of cortisol and aldosterone.	Percentage of included patients with detectable levels of adrenal steroid hormones.	1 day
Secondary	Medication-fasting adrenocorticotropic hormone (ACTH)-stimulated levels of metanephrines	Levels in blood samples	1 day
Secondary	Medication-fasting basal levels of cortisol	Levels in blood samples	1 day
Secondary	Medication-fasting basal levels of cortisol	Levels in urine samples	1 day
Secondary	Medication-fasting basal levels of cortisol	Levels in hair samples	1 day
Secondary	Medication-fasting basal levels of cortisol precursors	Levels in blood samples	1 day
Secondary	Medication-fasting basal levels of cortisol precursors	Levels in urine samples	1 day
Secondary	Medication-fasting basal levels of cortisol precursors	Levels in hair samples	1 day
Secondary	Medication-fasting basal levels of cortisol metabolites	Levels in blood samples	1 day
Secondary	Medication-fasting basal levels of cortisol metabolites	Levels in urine samples	1 day
Secondary	Medication-fasting basal levels of cortisol metabolites	Levels in hair samples	1 day
Secondary	Medication-fasting basal levels of aldosterone	Levels in blood samples	1 day
Secondary	Medication-fasting basal levels of aldosterone	Levels in urine samples	1 day
Secondary	Medication-fasting basal levels of aldosterone precursors	Levels in blood samples	1 day
Secondary	Medication-fasting basal levels of aldosterone precursors	Levels in urine samples	1 day
Secondary	Medication-fasting basal levels of aldosterone metabolites	Levels in blood samples	1 day
Secondary	Medication-fasting basal levels of aldosterone metabolites	Levels in urine samples	1 day
Secondary	Medication-fasting basal levels of renin in patients with and without residual function.	Levels in blood samples	1 day
Secondary	Medication-fasting basal levels of renin in patients with and without residual function.	Levels in urine samples	1 day
Secondary	Medication-fasting basal levels of ACTH in patients with and without residual function.	Levels in blood samples	1 day
Secondary	Medication-fasting basal levels of ACTH in patients with and without residual function.	Levels in urine samples	1 day
Secondary	Medication-fasting basal levels of metanephrines in patients with and without residual function	Levels in blood samples	1 day
Secondary	Medication-fasting basal levels of metanephrines in patients with and without residual function	Levels in urine samples	1 day
Secondary	Medication-fasting ACTH-stimulated levels of cortisol	Levels in blood samples	1 day
Secondary	Medication-fasting ACTH-stimulated levels of cortisol precursors	Levels in blood samples	1 day
Secondary	Medication-fasting ACTH-stimulated levels of cortisol metabolites	Levels in blood samples	1 day
Secondary	Medication-fasting ACTH-stimulated levels of aldosterone	Levels in blood samples	1 day
Secondary	Medication-fasting ACTH-stimulated levels of aldosterone precursors	Levels in blood samples	1 day
Secondary	Medication-fasting ACTH-stimulated levels of aldosterone metabolites	Levels in blood samples	1 day
Secondary	Cortisol replacement doses, including stress doses in patients with and without residual function.	Total daily dosage	1 day
Secondary	Cortisol stress doses in patients with and without residual function.	No. stress doses the last week	1 day
Secondary	Fludrocortisone replacement doses in patients with and without residual function.	Total daily dosage.	1 day
Secondary	In patients with and without residual function: disease-specific quality-of-life	Total score ranging from 30 to 120 in disease-specific quality-of-life questionnaire, Addison Quality of Life (AddiQoL). For every question, scoring is translated in points (1 = 1 point, 2 and 3 = 2 points, 4 and 5 = 3 points, 6 = 4 points) and the algebraic sum of points is calculated. A higher score reflects better health-related quality-of-life.	1 day
Secondary	In patients with and without residual function, generic health-related quality of life by the Short Form (36) Health Survey	The Short Form (36) Health Survey is a generic tool comprising 36 items evaluating patient reported quality of life concerning eight domains (physical functioning, role functioning physical, bodily pain, general health perception, vitality, social functioning, role functioning emotional, and mental health and general perception of change in health). Scores are expressed on a 0-100 scale with higher scores associated with better quality of life. The result of each domain is presented separately.	1 day
Secondary	Number of adrenal crises pr. 100 patient years	Number of crises pr. 100 patient years for all included patients as well as in patients with versus without residual adrenal function	1 day