OPEN Research Support
head

Professor, PhD
René Klinkby Støving
Center for Eating Disorders & Department of Endocrinology. Odense University Hospital and Mental Health Services in the Region of Southern Denmark.


Projekt styring
Projekt status    Open
 
Data indsamlingsdatoer
Start 01.02.2023  
Slut 28.02.2028  
 



Cortisol Associations to depression, anxiety, disease severity and hippocampal and insula volume in Anorexia nervosa.

Short summary

EXCENTRICC is a platform for scientific collaboration between different disciplines, all working on a common theme: adrenocortical hormones. In this EXCENTRICC sub-study, associations are studied between cortisol levels and depression, anxiety, disease severity and hippocampal and insula volume in the brain in anorexia nervosa.


Rationale

ANOREXIA NERVOSA, CORTISOL, HIPPOCAMPUS AND INSULA Anorexia nervosa (AN) erodes quality of life (L. A. Winkler et al., 2014), carries the highest fatality rate of any psychiatric disease and any other chronic disease in adolescence (Chesney, Goodwin, & Fazel, 2014), and poses a huge health economic burden (Samnaliev, Noh, Sonneville, & Austin, 2015). There has been no significant improvement of treatments since the disease was described in the last century, and only a few pharmacologic treatments have been tested in a limited number of small, controlled studies. However, weight restoration is associated with cognitive improvements (Hemmingsen, Wesselhoeft, Lichtenstein, Sjogren, & Stoving, 2020). Starvation as well as psychological stress activates the hypothalamic - pituitary - adrenal (HPA) axis with secondary anorectic, depressiogenic, and cognition-impairing effects (Mattar, Huas, group, & Godart, 2012). It has been observed that the cortisol level correlated positively with anxiety and depression in AN (Lawson et al., 2009). Thus, glucocorticoids may be involved in a vicious circle in the development and maintenance of AN (Stoving, 2019). The hippocampus in the limbic system contains glucocorticoid receptors and is a critical structure for emotional processes as well as memory functions. Hippocampal atrophy clearly has been related to chronic stress and hypercortisolemia in studies on Cushing´s syndrome (Andela et al., 2015), depression (Lebedeva et al., 2018; Videbech & Ravnkilde, 2004) and AN (Martin Monzon et al., 2017). However, the cause - effect associations need to be resolved by further biochemical and neuroimaging experimental studies. Compared to other mental health disorders, the number of neuroimaging studies in AN is relatively small. However, studies have revealed global and regional grey matter volume reduction as well as white matter microstructure alterations. A meta-analysis showed that adolescent patients had greater reduction in grey matter volume than adults (Seitz, Konrad, & Herpertz-Dahlmann, 2018). Other affected neuroanatomic regions are the prefrontal, parietal and temporal cortex, amygdala, insula, thalamus and cerebellum as well as various white matter tracts such as corona radiata and superior longitudinal fasciculus (Kappou et al., 2021). Structural and functional alterations have been detected in the early course of the disease, most of them being partially or totally reversible with weight restoration (Kappou et al., 2021). An area of high interest is the insula. The insular cortex is implicated in a variety of functions such as emotional awareness, decision-making and complex social functions like empathy. An additional key function of the insula is the integration of interoceptive information, i.e., internal physical sensations including hunger (Kappou et al., 2021; Kaye, Wierenga, Bailer, Simmons, & Bischoff-Grethe, 2013). Furthermore, the right insula specifically is involved in "self-recognition" (Kappou et al., 2021). MRI studies have revealed increased volume of the right insula in adolescent and adult patients with AN and this finding has been correlated with the rumination of being fat while being emaciated (Frank, 2013).

CORTISOL SYNTHESIS INHIBITION Preliminary experimental evidence indicate that inhibition of pharmacological cortisol synthesis may have therapeutic effects on depression (Sonino & Fava, 2003). Mifepristone is a competitive cortisol antagonist used therapeutically in Cushing's syndrome. The elimination half-life is approximately 20 h. In a Cochrane metanalysis of treatment with anti-glucocorticoid drugs for psychosis and major depression, it was concluded that mifepristone in a dose range of 600-1200 mg/day may ameliorate psychotic and depressive symptoms in patients with major depression (Garner, Phillips, Bendall, & Hetrick, 2016). In four small studies, the incidence of side effects of mifepristone was similar to the placebo groups (Garner et al., 2016). The effect of mifepristone in AN has only been explored in one study with eight patients in a single dose of 10 mg/kg which demonstrated increase in urinary free cortisol excretion and in early morning cortisol plasma levels (Kling et al., 1993).

CORTISOL ASSESMENTS In healthy subjects, circulating cortisol has a diurnal pattern, with a stable day-night-sleep rhythm. Cortisol levels reach maximum concentrations in the morning and nadir at midnight. In plasma, cortisol circulates in three fractions: 80% circulates bound to cortisol binding globulin (CBG), 10-15% is bound to albumin, whereas the remaining 5-10% circulates as free and biologically active cortisol (Torpy & Ho, 2007). Estrogens stimulate CBG during treatment with oral contraception (OC) which leads to elevated total cortisol concentrations (Klose et al., 2007). Conversely, in severe illness, the stress imposed upon the patient causes CBG to decrease (mediated by interleukin-6 levels) which results in low total plasma cortisol levels. The HPA-axis activity may be assessed by measuring cortisol in plasma, saliva, urine, and hair (Greff et al., 2019). Urine, saliva and hair cortisol represent the free forms of cortisol, but most saliva assays do not take the rapid conversion of cortisol to cortisone into account (Perogamvros et al., 2009), and further, saliva concentrations may be biased by traces of oral medications and smoking (Kirschbaum, Wust, & Strasburger, 1992). Furthermore, there are advantages and drawbacks of acute assessment of cortisol (serum or saliva) versus integrated cortisol levels (diurnal urine or hair cortisol) (Inder, Dimeski, & Russell, 2012; Perogamvros et al., 2009). The steroid metabolic pathway is extremely complicated and a detailed "foot-print" of steroid metabolites may potentially add information beyond that of cortisol measurement. For instance, a ratio between different down-stream metabolites of cortisol may provide information about the course of cortisol excess. Finally, FK506-binding immunophilins, Fkbp4 and Fkbp5 regulate nuclear translocation of the glucocorticoid receptor, resulting in modulation of the glucocorticoid action. Measuring methylation status of the FKBP5 gene in leukocytes are suggested to be a biomarker for Glucocorticoid Replacement (B. K. Winkler, Lehnert, Oster, Kirchner, & Harbeck, 2017).


Description of the cohort

Women with anorexia nervosa referred to specialized treatment and age matched healthy, normal weight control women.


Data and biological material

Questionaire data. Blood, urine, saliva and hair. MRI brain scans.


Collaborating researchers and departments

Department of Endocrinology & Center for Eating Disorders. Odense University Hospital and Psychiatry in the region og Southern Denmark.

  • Principial investigator, professor, MD, PhD René Klinkby Støving
  • Jeanie Meincke Egedal, MD.

Department of Clinical Science, Umeå university, Umeå, Sweden.

  • Magnus Sjögren, Associate professor, MD, PhD.

Department of Radiology, Odense University Hospital

  • Ole Graumann, associate professor, MD.
  • Jonas Asgaard Bojsen, MD.

Ruhr-University of Bochum, Medical Faculty, University Clinic for Psychosomatic Medicine and Psychotherapy,.

  • Georgios Paslakis, MD, PhD.