Impact of Adrenalectomy on Morbidity in Patients with Non-Functioning Adrenal Cortical Tumours, Mild Hypercortisolism and Cushing's Syndrome as Assessed by National and Quality Registries

Hypertension and Cushing's syndrome: hunt for the red flag

INTRODUCTION

The prevalence of secondary hypertension is reported to be 5-15% of people with hypertension. Causes of secondary hypertension include Cushing's syndrome (CS), a rare but serious clinical condition characterized by chronic endogenous hypercortisolism associated with increased morbidity and mortality, especially for cardiovascular complications. The challenge for the clinician is thus to identify the phenotype of hypertensive patients who should be screened for endogenous hypercortisolism.

METHODS

This study was performed according to the PRISMA statement. The search was last updated in June 2023, and only English language studies were considered. Titles and abstracts have been screened for articles selection, identifying only those that dealt with prevalence of Cushing's syndrome in hypertensive patients. Finally, eight papers were included in the review. Data regarding year of publication, populations' characteristics, inclusion criteria, screening test and cut-off used, and CS prevalence have been extracted.

RESULTS

The study search identified eight studies, from 1977 to 2020, including a total number of 11,504 patients, ranging from 80 to 4429 patients for each study. The prevalence of CS reported was variable among the studies, ranging from 0 to 7.7%, having Cushing's disease (CD) a prevalence range of 0-1.2%. The highest prevalence has been found in selected populations of hypertensive patients younger than 40 years (6.2%) or harbouring an adrenal lesion (7.7%). The most used screening test was 1 mg overnight dexamethasone suppression test (1 mg DST), with different cut-off.

CONCLUSION

The most fitting CS profile encompasses younger age (i.e., < 40 years old), rapidly evolving hypertension and the presence of adrenal adenomas, along with subjects with pituitary lesions, who should still be prioritized in the diagnostic pathway. Overall, in the case of hypertensive patients presenting a clinical picture highly suggestive of CS, it is advisable to perform one of the available screening tests (UFC, 1 mg DST, LNSC). LNSC is likely the most discriminatory test and may be preferred, depending on its availability. Conversely, for hypertensive patients with an adrenal incidentaloma, the 1 mg DST is recommended as the screening test to exclude CS.

Diabetes Mellitus in Non-Functioning Adrenal Incidentalomas: Analysis of the Mild Autonomous Cortisol Secretion (MACS) Impact on Glucose Profile

Non-functioning adrenal incidentalomas (NFAIs) have been placed in relationship with a higher risk of glucose profile anomalies, while the full-blown typical picture of Cushing's syndrome (CS) and associated secondary (glucocorticoid-induced) diabetes mellitus is not explicitly confirmed in this instance. Our objective was to highlight the most recent data concerning the glucose profile, particularly, type 2 diabetes mellitus (T2DM) in NFAIs with/without mild autonomous cortisol secretion (MACS). This was a comprehensive review of the literature; the search was conducted according to various combinations of key terms. We included English-published, original studies across a 5-year window of publication time (from January 2020 until 1 April 2024) on PubMed. We excluded case reports, reviews, studies on T1DM or secondary diabetes, and experimental data. We identified 37 studies of various designs (14 retrospective studies as well 13 cross-sectional, 4 cohorts, 3 prospective, and 2 case-control studies) that analysed 17,391 individuals, with a female-to-male ratio of 1.47 (aged between 14 and 96 years). T2DM prevalence in MACS (affecting 10 to 30% of NFAIs) ranged from 12% to 44%. The highest T2DM prevalence in NFAI was 45.2% in one study. MACS versus (non-MACS) NFAIs (n = 16) showed an increased risk of T2DM and even of prediabetes or higher fasting plasma glucose or HbA1c (no unanimous results). T2DM prevalence was analysed in NFAI (N = 1243, female-to-male ratio of 1.11, mean age of 60.42) versus (non-tumour) controls (N = 1548, female-to-male ratio of 0.91, average age of 60.22) amid four studies, and two of them were confirmatory with respect to a higher rate in NFAIs. Four studies included a sub-group of CS compared to NFAI/MACS, and two of them did not confirm an increased rate of glucose profile anomalies in CS versus NFAIs/ACS. The longest period of follow-up with concern to the glycaemic profile was 10.5 years, and one cohort showed a significant increase in the T2DM rate at 17.9% compared to the baseline value of 0.03%. Additionally, inconsistent data from six studies enrolling 1039 individuals that underwent adrenalectomy (N = 674) and conservative management (N = 365) pinpointed the impact of the surgery in NFAIs. The regulation of the glucose metabolism after adrenalectomy versus baseline versus conservative management (n = 3) was improved. To our knowledge, this comprehensive review included one of the largest recent analyses in the field of glucose profile amid the confirmation of MACS/NFAI. In light of the rising incidence of NFAI/AIs due to easier access to imagery scans and endocrine evaluation across the spectrum of modern medicine, it is critical to assess if these patients have an increased frequency of cardio-metabolic disorders that worsen their overall comorbidity and mortality profile, including via the confirmation of T2DM.

Comorbidities in mild autonomous cortisol secretion and the effect of treatment: systematic review and meta-analysis

OBJECTIVE

To assess (1) comorbidities associated with and (2) treatment strategies for patients with adrenal incidentalomas and mild autonomous cortisol secretion (MACS; > 1.8 µg/dL (>50 nmol/L) cortisol level cut-off following the 1 mg dexamethasone suppression test).

DESIGN

Systematic review and meta-analysis.

METHODS

Seven databases were searched up to July 14, 2022. Eligible studies were (randomized) trials, cohort studies, and cross-sectional studies assessing comorbidities potentially attributable to cortisol excess or mortality in patients with adrenal incidentaloma with or without MACS or the effects of conservative or surgical management of MACS. Random-effects meta-analysis was performed to estimate pooled proportions (with 95% CIs).

RESULTS

In 30 cross-sectional and 16 cohort studies (n = 17 156 patients in total), patients with MACS had a higher prevalence of diabetes (relative risk [RR] 1.44 [1.23-1.69]), hypertension (RR = 1.24 [1.16-1.32]), and dyslipidemia (RR = 1.23 [1.13-1.34]). All-cause mortality (adjusted for confounders) in patients with MACS, assessed in 4 studies (n = 5921), was increased (hazard ratio [HR] = 1.54 [1.27-1.81]). Nine observational studies (n = 856) and 2 randomized trials (n = 107) suggest an improvement in glucometabolic control (RR = 7.99 [2.95-21.90]), hypertension (RR = 8.75 [3.99-19.18]), and dyslipidemia (RR = 3.24 [1.19-8.82]) following adrenalectomy.

CONCLUSIONS

The present systematic review and meta-analysis highlight the relevance of MACS, since both cardiometabolic morbidities and mortality appeared to have increased in patients with MACS compared to patients with non-functioning incidentalomas. However, due to heterogeneous definitions, various outcomes, selective reporting, and missing data, the reported pooled estimates need to be interpreted with caution. The small number of patients in randomized trials prevents any strong conclusion on the causality between MACS and these comorbidities.

Radical antegrade modular pancreatosplenectomy (RAMPS): does adrenalectomy alter outcomes?

BACKGROUND

Radical antegrade modular pancreatosplenectomy (RAMPS) has oncologic superiority compared to a standard distal pancreatectomy (DP). For tumors invading into the adrenal gland, a posterior RAMPS takes the left adrenal gland en bloc with the pancreas specimen. The aim of this analysis is to determine whether addition of adrenalectomy alters the outcomes of DP.

METHODS

The American College of Surgeons (ACS) National Surgical Quality Improvement Program (NSQIP) Procedure-Targeted Pancreatectomy database was accessed from 2014 to 2019. Patients with pancreatic ductal adenocarcinoma (PDAC) undergoing posterior RAMPS were compared to patients having a standard DP. 30-day outcomes were analyzed using multivariable regression.

RESULTS

3467 PDAC patients underwent DP; 159 (4.6%) also had an adrenalectomy. Posterior RAMPS patients had higher T stage (T3-4 77% vs. 58%, p < 0.01). On multivariable analysis, posterior RAMPS patients had worse perioperative outcomes including more transfusions (OR 2.78, p < 0.01), serious morbidity (OR 1.45, p = 0.04), prolonged hospital stay (OR 1.36, p < 0.05), and less optimal pancreatic surgery (OR 0.61, p < 0.01).

CONCLUSION

Radical antegrade modular pancreatosplenectomy with adrenalectomy (posterior RAMPS) is associated with worse perioperative outcomes compared to a standard distal pancreatectomy. Improved oncologic outcomes must be weighed against higher perioperative morbidity when selecting patients for this more extensive surgical resection.

Adrenal incidentaloma: Do patients with apparently nonfunctioning mass or autonomous cortisol secretion have similar or different clinical and metabolic features?

OBJECTIVE

Although there is growing evidence associating nonfunctioning adrenal incidentalomas (NFAI) with cardiovascular risk factors, there are limited data whether NFAI and autonomous cortisol secretion (ACS) groups have similar or different clinical and metabolic features. The aim of this study is to compare cardiometabolic clinic parameters among patients with ACS and NFAI, as well as controls.

DESIGN

Cross-sectional study.

PATIENTS

Eighty nine NFAI, 58 ACS and 64 controls were evaluated.

MEASUREMENTS

Diagnosis of NFAI (1 mg dexamethasone suppression test [1 mg-DST] ≤50 nmol/L [≤1.8 μg/dl]) and ACS (1 mg-DST > 50 nmol/L [> 1.8 μg/dl]) was established according to current guidelines. The control group was selected based on a normal adrenal imaging exam.

RESULTS

There were no differences between groups regarding age, gender, ethnicity, menopause or body mass index. Patients with adrenal incidentaloma presented higher frequency of hypertension (74.1 vs. 57.8%; p = .02), resistant hypertension (45.4 vs. 9.4%; p < .001), dyslipidemia (80.1 vs. 63.9%; p = .01), as well as metabolic syndrome (84.2 vs. 61.7%; p = .001) compared to the controls, respectively. NFAI and ACS patients presented similar frequency of arterial hypertension (70.8 vs. 79.3%) and resistant hypertension (41.3 vs. 51.1%), dyslipidemia (79.3 vs. 81.5%) and metabolic syndrome (83.3 vs. 85.7%); also, levels of HbA1c were similar between the groups. Binary logistic regression showed that NFAI (p = .004) and ACS (p = .001) were independent predictors for resistant hypertension (p = .003); also, ACS was an independent predictor for metabolic syndrome (p = .04).

CONCLUSIONS

NFAI and ACS presented a higher frequency of cardiometabolic morbidities in comparison with individuals with normal adrenal glands. Additionally, we demonstrated that both ACS and NFAI groups have similar cardiometabolic conditions.

Cardiometabolic profile and urinary metabolomic alterations in non-functioning adrenal incidentalomas: A review

BACKGROUND

The incidence of adrenal incidentalomas (AIs) has increased over the last 20 years, most of which are apparently non-functioning adrenal adenomas. However, increased evidence supports the existence of an association between non-functioning adrenal incidentalomas (NFAI) and an unfavourable cardio-metabolic profile.

METHODS

This study offers a comprehensive review of the available evidence supporting a higher cardiometabolic risk in NFAIs compared to controls without adrenal tumours. Moreover, it summarises the studies focused on the differential urinary metabolomic profile of NFAI and controls without adrenal lesions.

RESULTS

This adverse metabolic profile of patients with NFAI includes a higher prevalence of insulin resistance, obesity, hypertension, hyperglycaemia, dyslipidaemia, and cardiovascular alterations and mortality compared to healthy controls without adrenal tumours. Although the pathophysiology that explains the association between NFAI and the parameters of metabolic syndrome and cardiovascular risk is a relatively unexplored field of study, some evidence supports that there are a series of incipient alterations in cortisol metabolism not detected with the classical tests that led to this detrimental profile. These alterations may be potentially detected by a comprehensive metabolomics approach. Several studies detected a shift towards an increase of urinary cortisol metabolites excretion in NFAIs compared to controls without adrenal tumours.

CONCLUSION

In view of the higher cardiometabolic risk in NFAI than in controls without adrenal tumours, and the detected alterations in metabolomics profile of NFAI, I propose that the term of NFAI should be changed for another term that best fits to its linked cardiometabolic profile.

Integration of molecular imaging in the personalized approach of patients with adrenal masses

Adrenal masses are a frequent finding in clinical practice. Many of them are incidentally discovered with a prevalence of 4% in patients undergoing abdominal anatomic imaging and require a differential diagnosis. Biochemical tests, evaluating hormonal production of both adrenal cortex and medulla (in particular, mineralocorticoids, glucocorticoids and catecholamines), have a primary importance in distinguishing functional or non-functional lesions. Conventional imaging techniques, in particular computerized tomography (CT) and magnetic resonance imaging (MRI), are required to differentiate between benign and malignant lesions according to their appearance (size stability, contrast enhanced CT and/or chemical shift on MRI). In selected patients, functional imaging is a non-invasive tool able to explore the metabolic pathways involved thus providing additional diagnostic information. Several single photon emission tomography (SPET) and positron emission tomography (PET) radiopharmaceuticals have been developed and are available, each of them suitable for studying specific pathological conditions. In functional masses causing hypersecreting diseases (mainly adrenal hypercortisolism, primary hyperaldosteronism and pheochromocytoma), functional imaging can lateralize the involvement and guide the therapeutic strategy in both unilateral and bilateral lesions. In non-functioning adrenal masses with inconclusive imaging findings at CT/MR, [¹⁸F]-FDG evaluation of tumor metabolism can be helpful to characterize them by distinguishing between benign nodules and primary malignant adrenal disease (mainly adrenocortical carcinoma), thus modulating the surgical approach. In oncologic patients, [¹⁸F]-FDG uptake can differentiate between benign nodule and adrenal metastasis from extra-adrenal primary malignancies.