Cushing’s Syndrome Presenting as Non-Atherosclerotic Myocardial Infarction and Heart Failure

Posted on November 6, 2023 by MaryO

Abstract

Cushing’s syndrome is a rare cause of myocardial infarction and heart failure. Herein, we report a female patient who presented acute myocardial infarction and heart failure with reduced ejection fraction. The patient was found to have hypercortisolism secondary to adrenocortical adenoma and responded well to therapy. This case underlines the effects of hypercortisolism on the cardiovascular system. The clinical presentation of this patient is unique because non-atherosclerotic myocardial infarction is rarely reported in Cushing’s syndrome patients.

Introduction

Cushing’s syndrome is an endocrine condition associated with excessive secretion of cortisol. Hypertension, vascular atherosclerosis, and chronic cardiac remodelling and dysfunction are commonly recognized cardiovascular complications in Cushing’s syndrome patients.1 Herein, we report a rare case of Cushing’s syndrome patient with a primary diagnosis of non-atherosclerotic myocardial infarction and heart failure (HF).

Case Report

A 61-year-old female with a past medical history of chronic obstructive pulmonary disease was admitted with sudden onset chest pain on 6 February 2018. Electrocardiogram showed ST-segment elevation in leads V3–V5. Blood biochemical results of 1 h after the onset of chest pain: cardiac troponin I (cTnI) 0.06 ug/L↑, creatine kinase (CK) 63 U/L, creatine phosphokinase-MB (CK-MB) 22 U/L, aspartate transferase (AST) 19 U/L, and lactic dehydrogenase (LDH) 482 U/L. Myocardial injury markers were markedly elevated at the time point of 18 h after onset: cTnI 13.9 ug/L↑, CK 613 U/L↑, CK-MB 102 U/L↑, AST 112 U/L↑, and LDH 833 U/L↑. Due to the acute ECG changes and elevated myocardial injury markers, the patient was preliminarily diagnosed as ST-segment elevation myocardial infarction (STEMI) and underwent coronary angiography, which showed no stenosis, occlusion or dissection of coronary arteries (Figure 1). Echocardiography showed enlarged left atrial dimension (LAD, 55 mm) and left ventricular end diastolic dimension (LVDd, 57 mm), and reduced ejection fraction (EF, 33%). The patient was treated for STEMI and HF, and was started on aspirin, statin, diuretic of furosemide and spirolactone, metoprolol, and Sacubitril/valsartan (SV, initiated June, 2020). The patient was strictly adherent to the medication prescribed (Table 1).

Details are in the caption following the image

Coronary angiogram demonstrating no significant obstruction in coronary artery circulation.
Table 1. Echocardiography results
2020-06-22 2020-09-02 2021-03-29 2021-06-02 2021-09-01 2021-10-22 2021-12-21
LAD (mm) 55 55 46 52 47 44 41
LVDd (mm) 57 57 53 55 54 51 55
IVS (mm) 10 10 11 10 10 10 11
LVPW (mm) 11 11 11 10 11 9 10
EF (%) 33 30 31 39 47 49 52.5
  • EF, ejection fraction; IVS, interventricular septum; LAD, left atrium dimension; LVDd, left ventricular end diastolic dimension; LVPW, left ventricular posterior wall.

However, the patient’s condition was not improved despite optimized medication. On 26 January 2021, the patient was re-admitted with recurrent chest distress and oedema, with new symptoms of facial plethora, centripetal obesity, and hyperglycaemia (Figure S1). Abdominal CT scan showed a right adrenal adenoma (Figure 2). Cardiac magnetic resonance imaging revealed enlarged LVDd (62 mm), and reduced EF, with delayed myocardial enhancement and evidence of myocardial fibrosis and fatty deposits (Figure 3). Laboratory findings showed hypokalaemia: potassium 3.0 mmol/L, elevated serum cortisol level, low plasma ACTH level, and positive 1-mg overnight dexamethasone suppression test. Based on the above findings, the patient was diagnosed with Cushing’s syndrome and started treatment with the glucocorticoid receptor inhibitor mifepristone on 5 February 2021.

Details are in the caption following the image

Abdominal CT scan showed adrenal adenoma at the right.

Details are in the caption following the image

Cardiac magnetic resonance imaging revealed enlarged LVDd, reduced EF, with delayed myocardial enhancement, evidence of myocardial fibrosis and fatty deposits.

With mifepristone added to the previous medical therapy (aspirin, statin, sacubitril/valsartan, metoprolol and diuretic of furosemide and spirolactone, and mifepristone), the patient’s condition and cardiac function improved, and echocardiography (21 December 2021) showed increased EF (52.5%). The patient underwent partial adrenalectomy on 22 December 2021. Postoperative pathology confirmed adrenal cortical adenoma. At last follow-up on 29 May 2023, the patient showed marked improvement in face and body shape, with no complaints of chest distress or oedema (Figure S2).

Discussion

In this case, the patient was first evaluated for STEMI due to her symptoms of chest pain, and the elevated ST-segment on ECG, along with the moderately elevated troponin I and other cardiac enzyme levels. However, coronary atherosclerotic heart disease was ruled out by the normal cardiac catheterization. We presume that a possible reason for acute myocardial infarction (AMI) might be vasospastic angina due to abnormal hormone levels with Cushing’s syndrome, leading to increased excessive myocardial metabolic demand and relative myocardial hypoxia, which eventually induced myocardial infarction. Although coronary atherosclerotic heart disease is the main cause of AMI, many non-atherosclerotic processes can lead to an imbalance between decreased coronary blood flow and increased myocardial metabolic demand. To date, non-atherosclerotic myocardial infarction has rarely been reported in Cushing’s syndrome patients. Vieira JT et al. reported that a patient with Cushing’s disease was considered to have spontaneous coronary artery dissection, which is a rare reason for AMI.2

Cushing’s syndrome is associated with an increased risk of cardiac failure,3 with both structural alterations and functional impairment. In our case, the patient’s CMR imaging showed typical features of cardiac geometry, function, and fibrosis, in accordance with previous reports.4 The underlying mechanisms may be the enhanced responsiveness to angiotensin II and activation of the mineralocorticoid receptor in direct response to cortisol excess.5

Our patient responded well to the therapy of conventional anti-HF medication of sacubitril/valsartan, metoprolol, and diuretic, once mifepristone was added. This favourable response to the pharmacological regimen supports the benefits of the agents for the normalization of excess cortisol. This case indicates that early diagnosis and effective treatment of Cushing’s syndrome may be crucial in preventing irreversible cardiac dysfunction secondary to cardiovascular events and heart failure.

Acknowledgements

This work was financially supported by the National Natural Science Foundation of China (81900409 and 82172182) and the PLA Youth Training Project for Medical Science (19QNP037).

Conflict of interest

The authors declares that there is no conflict of interest.

From https://onlinelibrary.wiley.com/doi/10.1002/ehf2.14548

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First-of-its Kind Hormone Replacement Treatment Shows Promise in Patient Trials

Posted on October 25, 2023 by MaryO
Cortisol
Ball-and-stick model of the cortisol (hydrocortisone) molecule. Credit: Public Domain

A first-of-its kind hormone replacement therapy that more closely replicates the natural circadian and ultradian rhythms of our hormones has shown to improve symptoms in patients with adrenal conditions. Results from the University of Bristol-led clinical trial are published today in the Journal of Internal Medicine.

Low levels of a key hormone called cortisol is typically a result of conditions such as Addison’s and congenital adrenal hyperplasia. The hormone regulates a range of vital processes, from cognitive processes such as memory formation, metabolism and immune responses, through to  and blood sugar levels. When low, it can trigger symptoms of debilitating fatigue, nausea, , dangerously  and depression. Although rare, these adrenal conditions require lifelong daily hydrocortisone replacement therapy.

Although existing oral hormone replacement treatment can restore , it is still associated with an impaired quality of life for patients. Scientists believe this is because the current treatment does not mimic the body’s normal physiological timing, missing cortisol’s anticipatory rise and lacking its underlying ultradian and .

The new “pulsatility” therapy, the culmination of ten years’ research by the Bristol team, is designed to deliver standard hydrocortisone replacement to patients via a pump which replicates more closely cortisol’s natural rhythmic secretion pattern. The pulsatile subcutaneous pump has now revealed promising results in its first clinical trial.

Twenty participants aged 18 to 64 years with adrenal insufficiency conditions were assessed during the double-blinded PULSES six-week trial and treated with usual dose hydrocortisone replacement therapy administered either via the pump or the standard three times daily oral treatment.

While only psychological and metabolic symptoms were assessed during the trial, results revealed the pump therapy decreased fatigue by approximately 10%, improved mood and increased patient energy levels by 30% first thing in the morning—a key time frame when many patients struggle. Patient MRI scans also revealed alteration in the way that the brain processes emotional information.

Dr. Georgina Russell, Honorary Lecturer at the University’s Bristol Medical School, and the lead author, explained, “Patients on cortisol replacement therapy often have side effects which makes it difficult for them to lead normal lives. We hope this  will offer greater hope for the thousands of people living with hormone insufficiency conditions.”

Stafford Lightman, a neuroendocrinology expert and Professor of Medicine at Bristol Medical School: Translational Health Sciences (THS), and the study’s joint lead author, added, “Besides reduction in dosage, cortisol replacement has remained unchanged for many decades. It is widely recognized that current replacement therapy is unphysiological due to its lack of pre-awakening surge, ultradian rhythmicity, and post dose supraphysiological peaks. The new therapy clearly shows that the timing of cortisol delivery- in line with the body’s own rhythmic pattern of cortisol secretion—is important for normal cognition and behavior.

“Our findings support the administration of hormone  that mimics natural physiology, and is one of the first major advances in adrenal insufficiency treatment to date.”

Joe Miles, a participant on the PULSES trial, explained, “The Crono P pump has been life-changing. I noticed a very quick improvement compared to tablets when I was on the PULSES study. I went from feeling tired all the time to having sudden energy.

“When the PULSES study ended and I had to return the pump, I simply couldn’t cope with going back to how I used to be, so I made it my mission to write to as many doctors to have it prescribed privately.

“I’ve now been on it for six years and have introduced a number of other people with Addison’s disease to the pump, and all of them have said it’s life changing. Some have gone from being seriously ill to feeling better than they have done for years.”

Dr. Russell said, “Approximately 1% of the UK population is taking steroids at any moment in time; these individuals can experience debilitating psychological side effects. This trial has shown that even at physiological levels, brain functioning is disrupted and that we need to explore not only the dose but the pattern of steroids delivery when considering any type of steroid treatment.”

More information: Ultradian hydrocortisone replacement alters neuronal processing, emotional ambiguity, affect and fatigue in adrenal insufficiency: The PULSES trial, Journal of Internal Medicine (2023). DOI: 10.1111/joim.13721

Journal information: Journal of Internal Medicine

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Cushing’s Syndrome in Pregnancy in Which Laparoscopic Adrenalectomy was Safely Performed by a Retroperitoneal Approach

Posted on October 2, 2023 by MaryO

Abstract

Introduction

Laparoscopic adrenalectomy is the standard treatment for adrenal tumors caused by Cushing’s syndrome. However, few pregnant women have undergone adrenalectomy because of the risk of general anesthesia and surgery.

Case presentation

A 28-year-old woman presented with gradually worsening Cushing’s signs at around 12 weeks of pregnancy. Magnetic resonance imaging displayed a 38-mm left adrenal tumor, which was the cause of the adrenal Cushing’s syndrome. Metyrapone was started, which increased androgen levels. Since the management of Cushing’s syndrome by medication alone is challenging, unilateral laparoscopic adrenalectomy by a retroperitoneal approach was performed at 23 weeks of the pregnancy. No perioperative complications were noted.

Conclusion

Adrenalectomy is considered safe in pregnant women with Cushing’s syndrome. Laparoscopic adrenalectomy by retroperitoneal approach should be chosen and performed between 14 and 30 weeks of pregnancy to prevent mother and fetal complications.

Abbreviations & Acronyms

  • CS
  • Cushing’s syndrome
  • MRI
  • magnetic resonance imaging

Keynote message

We report a rare case of adrenalectomy performed via a retroperitoneal approach for Cushing’s syndrome in a pregnant woman. Cushing’s syndrome may affect the fetus, and surgery can be considered in addition to medical management. Adrenalectomy should be performed in the second trimester of pregnancy. Pneumoperitoneal pressure, position, and surgical approaches must receive careful attention.

Introduction

CS is characterized by excessive cortisol secretion and characteristic symptoms such as full moon-like facial features and central obesity. Premenopausal women with CS rarely become pregnant because excessive glucocorticoid secretion inhibits the synthesis of gonadotropins, leading to impaired ovarian and endometrial function, and causing amenorrhea or oligomenorrhea.1 Furthermore, even when women with CS become pregnant, the incidence of severe complications is high. CS can cause maternal hypertension, diabetes/glucose intolerance, osteopenia/osteoporosis, preeclampsia, pulmonary edema, heart failure, opportunistic infections, and even death. Additionally, CS can potentially cause stillbirth, prematurity, and intrauterine fetal growth restriction.16 Therefore, CS must be detected at an early stage in pregnancy; however, CS may go undetected because of the overlapping signs of preeclampsia and/or gestational diabetes.

A cortisol-secreting adrenal tumor is the underlying cause of CS, and laparoscopic adrenalectomy is the standard treatment to it. Medical treatment of CS can include medications that inhibit 11β-hydroxylase, such as metyrapone and osilodrostat, but surgical treatment is considered if the disease is difficult to control with medical treatment. Nonobstetric surgery during pregnancy is performed in 1%–2% of pregnant women.7 Although general anesthesia is relatively safe during pregnancy, the indication for the surgery must be carefully considered because of potential risks such as neurodevelopmental delay, sudden death, etc.

Herein, we present a case of a pregnant woman diagnosed with CS who underwent unilateral laparoscopic adrenalectomy by a retroperitoneal approach without any problems.

Case presentation

The patient was a 28-year-old primiparous woman. Since around 12 weeks of pregnancy, she has experienced facial and lower limb edema; gained 6-kg weight in 1 month; increased facial acne; and experienced subcutaneous bleeding on the forearms, red abdominal dermatitis, proximal muscle weakness, palpitations, insomnia, and decreased vision in eyes. Her symptoms gradually worsened from 14 weeks, and she was referred to our hospital to clarify the cause at 18 weeks of pregnancy.

Adrenal CS was suspected on the basis of her Cushing’s signs, cortisol 25 μg/dL, and adrenocorticotropic hormone <1.5 pg/mL. She had hypokalemia, hypogammaglobulinemia, and liver dysfunction, and her condition was rapidly worsening. Given her pregnant state, she was admitted for intensive testing for the case of CS from 19 weeks of pregnancy. MRI revealed a well-defined 38-mm left adrenal tumor, which was the cause of the adrenal CS (Fig. 1). She was started on metyrapone with 250 mg per day, which increased androgens (0.53–0.69 ng/mL in 1 week). We considered that the management of CS by medication alone would be challenging and performed adrenalectomy during her pregnancy. The dose of metyrapone was increased to 1000 mg per day eventually.

Details are in the caption following the image

Magnetic resonance imaging on admission shows a left adrenal tumor with a long axis of 38 mm (arrowhead). Signal reduction was partially observed on opposed-phase images, leading to diagnosis of cortical adenoma.

She was admitted to the hospital at 23 weeks and 2 days of gestation, and laparoscopic left adrenalectomy was performed via a retroperitoneal approach in the right lateral and jackknife position on the following day (Fig. S1). During the surgery, blood pressure was carefully controlled by an anesthesiologist and the patient’s position and fetal heart rate were monitored by an obstetrician. The operation time, insufflation time, and general anesthesia time were 68, 59, and 123 min, respectively, and the blood loss volume was 75 mL, without any complications. Pathological findings revealed an adrenocortical adenoma. The specimen was positive for one of the nine Weiss criteria (Fig. 2).

Details are in the caption following the image

(a) Intraoperative findings of the retroperitoneal approach. Arrowheads indicate the tumor. (b) Gross appearance of the resected adrenal tumor; a brownish-toned, substantial mass, 60 × 34 × 15 mm in size. (c, d) Hematoxylin–eosin staining showed that nodular lesion with a fibrous capsule, with foci of homogeneous cells with eosinophilic or pale, foamy sporangia and small round nuclei.

Postoperatively, metyrapone was discontinued and both lower leg edema, facial acne, fatigue, and muscle weakness improved. Metyrapone was discontinued after surgery. Hydrocortisone, which had been administered at 150 mg/day during the perioperative period, was reduced every few weeks and was taken at 30 mg/day at delivery. She delivered by cesarean section at 38 weeks and 2 days of gestation, with good outcomes for the mother and her infant. Hydrocortisone was discontinued 15 weeks after delivery.

We showed the changes in cortisol and ACTH from the first visit to postpartum (Fig. 3).

Details are in the caption following the image

The transition of Cortisol and ACTH. Cortisol decreases rapidly after surgery and rises again before delivery. As cortisol improved, ACTH also increased.

Discussion

CS seldom occurs during pregnancy. Symptoms such as weight gain, skin striae, fatigue, and a round face can also occur in normal pregnancies. The dexamethasone suppression test can result in false positives because of ACTH produced by placenta in normal pregnancy. During pregnancy, there is a physiological state of high cortisol levels. The disappearance of diurnal rhythm is a useful indicator for diagnosis of CS in pregnancy because circadian rhythm is maintained in normal pregnancy. Useful diagnostic criteria include urine cortisol levels greater than three times the upper limit of normal, loss of diurnal cortisol rhythm, and presence of adrenal tumors on MRI.

The pharmacologic treatment of endogenous cortisol is complex, and hormonal management is challenging. While the management of the cortisol levels is important, metyrapone is a risk factor for gestational hypertension and may inhibit fetal cortisol production by crossing the placenta.16812

In this case, because androgens were also elevated and drug management was expected to be challenging, the surgery was aggressively considered. Despite the reports of successful adrenalectomy is after 28 weeks of gestation,61314 The surgery should be performed by an experienced team between 14 and 30 weeks of pregnancy, that is, after organogenesis phase and before the fetus grows too large.11315

A few pregnant women with adrenal CS undergo adrenalectomy. However, the laparoscopic approach is safe, and maternal and fetal complications were higher in women who did not undergo surgery.16 Less postoperative pain, faster wound healing, and faster postoperative recovery are the main advantages of laparoscopic surgery.17

In pregnant women, pneumoperitoneal pressure should be kept <12 mmHg because increased intraabdominal pressure decreases placental blood flow and can cause fetal acidosis due to the absorption of carbon dioxide used for insufflation.

Laparoscopic adrenalectomy can be safely performed through both transperitoneal and retroperitoneal approaches.18 However, in pregnant women, performing the surgery by the retroperitoneal approach in the lateral position is preferable to prevent putting pressure on the fetus during the surgery. The retroperitoneal approach is advantageous, as less pressure is placed on the uterus and adhesions are prevented. After taking the lateral position, the obstetrician is advised to check the position and confirm that the abdomen is not compressed and that the fetal heart rate is normal.

Conclusions

We present a case of a pregnant woman diagnosed with adrenal CS who underwent a unilateral laparoscopic adrenalectomy by a retroperitoneal approach without any problems. Adrenalectomy is a useful treatment when CS is difficult to control despite metyrapone and other medical support.

Author contributions

Nobuyoshi Takeuchi: Conceptualization; methodology; project administration; writing – original draft. Yusuke Imamura: Conceptualization; methodology; supervision; writing – review and editing. Kazuki Ishiwata: Data curation; supervision. Manato Kanesaka: Data curation; supervision. Yusuke Goto: Data curation; supervision. Tomokazu Sazuka: Data curation; supervision. Sawako Suzuki: Data curation; supervision. Hisashi Koide: Data curation; supervision. Shinichi Sakamoto: Data curation; supervision. Tomohiko Ichikawa: Data curation; supervision.

Conflict of interest

The authors declare no conflicts of interest.

Approval of the research protocol by an Institutional Reviewer Board

Not applicable.

Informed consent

Informed consent for the release of the case report and accompanying images has been obtained from the patient.

Registry and the Registration No. of the study/trial

Not applicable.

From https://onlinelibrary.wiley.com/doi/10.1002/iju5.12637

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The Role of Endocrinology in Managing Polycystic Ovary Syndrome and Diabetes

Posted on September 28, 2023 by MaryO

Introduction to Endocrinology

Endocrinology is a medical specialty that focuses on the diagnosis and treatment of diseases related to hormones. Endocrinologists are experts in managing and treating diseases related to the endocrine system, which includes the thyroid, pituitary, adrenal glands, and pancreas. Endocrinologists are trained to diagnose and treat conditions such as diabetes, thyroid disorders, pituitary disorders, and other conditions related to hormones. Endocrinologists also specialize in reproductive health and fertility issues, including PCOS.

Endocrinology is a complex field that requires a deep understanding of the endocrine system and its role in regulating the body’s hormones. Endocrinologists must be able to interpret laboratory tests and understand the underlying causes of endocrine disorders. They must also be able to develop individualized treatment plans to address the specific needs of each patient.

Diagnosing PCOS and Diabetes

Endocrinologists are experts in diagnosing and managing PCOS and diabetes. PCOS is a hormonal disorder that affects the ovaries, and it is characterized by irregular menstrual cycles, excess facial and body hair, and infertility. To diagnose PCOS, an endocrinologist will perform a physical exam and order laboratory tests to measure hormone levels. The endocrinologist will also ask the patient about her symptoms and family history to determine if PCOS is the cause.

Diabetes is a chronic condition that affects the body’s ability to process sugar. To diagnose diabetes, an endocrinologist will perform a physical exam and order laboratory tests to measure blood sugar levels. The endocrinologist may also order imaging tests to check for signs of diabetes-related complications.

Treating PCOS and Diabetes

Once the endocrinologist has diagnosed PCOS or diabetes, they will develop an individualized treatment plan to address the patient’s specific needs. For PCOS, the endocrinologist may recommend lifestyle changes such as weight loss, exercise, and dietary changes to help manage symptoms. The endocrinologist may also prescribe medications to regulate hormone levels and improve fertility.

For diabetes, the endocrinologist may recommend lifestyle changes such as weight loss, exercise, and dietary changes to help manage blood sugar levels. The endocrinologist may also prescribe medications to help regulate blood sugar levels. In addition, the endocrinologist may recommend regular check-ups to monitor the patient’s progress and to adjust the treatment plan if needed.

Conclusion

Endocrinology plays an important role in managing PCOS and diabetes. Endocrinologists are experts in diagnosing and treating these conditions, and they are trained to develop individualized treatment plans that address the specific needs of each patient. By working with an endocrinologist, patients can get the help they need to manage their PCOS or diabetes and achieve their health goals.

Endocrinology is a complex field that requires a deep understanding of the endocrine system and its role in regulating the body’s hormones. An endocrinologist can help patients with PCOS and diabetes manage their conditions and achieve their health goals. By working with an endocrinologist, patients can get the help they need to manage their PCOS or diabetes and achieve their health goals.

From https://www.diabetesincontrol.com/the-role-of-endocrinology-in-managing-polycystic-ovary-syndrome-and-diabetes/

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Rare Challenges in Diagnosing Cushing’s Syndrome and Primary Aldosteronism: A Case Report of a Female With a Negative Workup

Posted on September 18, 2023 by MaryO

Abstract

Cushing’s syndrome with concurrent primary aldosteronism (PA) is a rare presentation, and establishing an early diagnosis is imperative to preventing morbidity and long-term sequelae. The diagnosis is established by sequential lab work, showing an elevated cortisol and aldosterone level.

Taking the above into consideration, it is evident that repeatedly negative results on all three tests can present an extremely challenging case. In this report, we discuss a female who presented with an adrenal incidentaloma and features suggestive of primary hyperaldosteronism as well as Cushing’s syndrome but no elevations in serum, urine, or salivary cortisol.

In this study, we present a 37-year-old female with resistant hypertension and tachycardia. She had several features suggestive of Cushing’s syndrome including resistant hypertension, proximal muscle weakness, weight gain, easy bruising, hair loss, and a history of tachycardia and chest pain. Examination revealed an obese female with thin silvery abdominal striae. The patient’s labs revealed normal serum cortisol, urine-free cortisol (UFC), late-night salivary cortisol, and a normal dexamethasone suppression test. An abdominal computed tomography (CT) scan revealed a right adrenal mass measuring 2.1 x 1.5 x 2.5 cm. Due to a high index of suspicion, adrenal venous sampling was performed, which revealed high levels of cortisol and aldosterone in the right vein, confirming the diagnosis. The patient subsequently underwent a right adrenalectomy. She developed hypotension post-op, leading to the diagnosis of glucocorticoid-remediable aldosteronism.

Introduction

Primary aldosteronism (PA) is the excess production of aldosterone by the adrenal glands, despite a low serum renin level. The presentation of hyperaldosteronism can be vague and include symptoms such as muscle weakness, fatigue, headaches, numbness, and cramps. More specific findings include resistant hypertension, low serum potassium, and metabolic alkalosis. The etiologies are variable and can include an adrenal adenoma (Conn syndrome) or bilateral adrenal hyperplasia [1].

Cushing’s syndrome is also caused by excess hormone secretion by the adrenal glands. The etiologies include a primary adrenal adenoma, hyperplasia, carcinoma, or exogenous corticosteroid use. It can also be caused by an adrenocorticotropic hormone (ACTH)-secreting pituitary adenoma or as a result of paraneoplastic ACTH secretion. The clinical presentation is highly variable and leads to difficulties in establishing a diagnosis.

The concurrent existence of primary hyperaldosteronism and Cushing’s syndrome creates additional hindrances in diagnosis, yet further obscured in a patient with a repeatedly negative workup for both conditions.

Case Presentation

A 37-year-old female presented to her primary care physician with complaints of proximal muscle weakness, tachycardia, and chest pain. Repeated blood pressure readings revealed that she was hypertensive, and she was started on amlodipine and benazepril, which elevated her blood pressure further. A computed tomography (CT) scan (Figure 1) of the abdomen was performed due to resistant hypertension, which revealed an adrenal incidentaloma (right adrenal gland measuring 2.1 x 1.5 x 2.5 cm). Precontract density was 5 Hounsfield units, and a 15-minute delayed washout showed 11 Hounsfield units for a 72% washout. She was thus referred to endocrinology.

Abdominal-CT-scan-showing-a-nodule-in-the-right-adrenal-gland-measuring-2.1-x-1.5-x-2.5-cm
Figure 1: Abdominal CT scan showing a nodule in the right adrenal gland measuring 2.1 x 1.5 x 2.5 cm

She presented to the endocrinology clinic on March 12, 2021. A thorough physical examination was performed, which revealed a well-appearing obese female (BMI of 38.86 kg/m2) with no acute distress. Her blood pressure was 144/108 mmHg, her pulse was 95, and she was afebrile. Thin silvery striations were present on the abdomen, and alopecia was present on the crown. A review of all other systems was unremarkable. A detailed family history revealed early-onset hypertension in her brother (age: 35 years) and her mother (age: 30 years). Personal history included elevated anxiety, weight gain, headaches (frontal band distribution), increased thirst, easy bruising as well as delayed clearance of bruises, and proximal muscle weakness presenting as difficulty in climbing stairs and inability to lift heavy objects. She reported no change in menstrual cycles. There was no history of exogenous corticosteroid use.

Serum biochemistries were sent (Table 1), which showed normal levels of thyroid stimulating hormone (TSH), creatinine, liver function tests, and serum electrolytes. However, mildly elevated aldosterone (23 ng/dl), mild hypokalemia (3.3 mEq/L), and suppressed ACTH and dehydroepiandrosterone (DHEA) sulfate were discovered. The aldosterone to renin ratio was also elevated at 59.9 on spironolactone and was 71.4 three months later when spironolactone was discontinued. These findings lead to a preliminary diagnosis of primary hyperaldosteronism.

Test Result
Calcium 9.1 mmol/L
Sodium 137 mmol/L
Potassium 4.1 mmol/L
Chloride 106 mmol/L
CO2 27
BUN 15 mmol/L
Glucose 95 mmol/L
Creatinine 1.1 μmol/L
AST 24 U/L
ALT 20 U/L
Albumin 4.4 g/L
Total protein 7.0 g/L
Total bilirubin 0.4 μmol/L
Alkaline phosphatase 40 U/L
Renin 0.44
Table 1: Patient serum biochemistries

BUN: Blood urea nitrogen; AST: Aspartate transaminase; ALT: Alanine transaminase.

A workup for elevated cortisol was also performed as the patient was phenotypically Cushingoid, and the following biochemistries were sent sequentially: serum cortisol, 24-hour urine-free cortisol (UFC), salivary cortisol, and a low-dose dexamethasone suppression test (Table 2). The bloodwork was hence nonconfirmatory.

Endocrine workup
Serum cortisol 4.5 mcg/dL
Urine-free cortisol 1.57 g/24 h
Salivary cortisol <0.03 μg/dL
Dexamethasone suppression test 1.5 mcg/dL
Aldosterone <4.0
Table 2: Patient follow-up bloodwork

Despite a repeatedly negative workup for Cushing’s syndrome, adrenal venous sampling was performed due to a high index of suspicion. The results revealed an inferior vena cava (IVC) cortisol of 20, left adrenal venous (LAV) cortisol of 81, and right adrenal vein (RAV) cortisol of 1280. The results of the IVC aldosterone were 24, LAV aldosterone was 660 and RAV aldosterone was 1500. The elevated levels of cortisol in the RAV were in complete contradiction to the aforementioned workup. A diagnosis of Cushing’s syndrome and concurrent PA was determined.

Adrenal veinous sampling was instrumental in establishing the diagnosis but was equivocal and did not lateralize aldosterone and cortisol excess. However, the amount of aldosterone and cortisol were both significantly higher on the right side. After a panel discussion with doctors from several disciplines, a laparoscopic adrenalectomy was planned. The procedure was successful, and the patient was initially showing clinical improvement. The specimen was sent for pathological evaluation and revealed an adrenal cortical adenoma.

After initial improvement, the patient developed hypotension, which was likely due to adrenal insufficiency. The patient was supplemented with 1-mg dexamethasone tablets, which stabilized her condition, and a diagnosis of glucocorticoid-remediable-aldosteronism was made.

Based on a strong family history of early onset-resistant hypertension, a genetic component was suspected. Several genes associated with PA with autosomal dominant inheritance have been identified [2], such as CYP11B2, CLCN2, KCNJ5, CACNA1D, and CACNA1H. The patient was offered genetic testing but was unable to follow through due to financial reasons.

Discussion

This patient presented as an extremely rare example of PA and Cushing’s syndrome, with negative serum cortisol, 24-hour UFC, late-night salivary cortisol, and a dexamethasone suppression test. Despite repeatedly negative lab results, the patient presented with a markedly elevated cortisol on adrenal venous sampling. In our literature search, we found an instance of a patient with several negative UFCs [3]; however, to the best of our knowledge, there have been no reported instances of a completely negative workup in a patient who is positive for Cushing’s syndrome. In fact, in the practice guidelines published by the Journal of Clinical Endocrinology & Metabolism [4], it is recommended that patients with a suspected diagnosis of Cushing’s syndrome or an adrenal incidentaloma and two concordant negative test results need not undergo further investigations.

One proposed mechanism for the misleading workup could be assay interference. Interference occurs when a substance or process falsely alters an assay result [5]. This can lead to incorrect diagnosis and subsequent treatment and poses a threat to the patient. Another suggested mechanism causing false negative test results could be the hook effect [6]. The hook effect is described as a phenomenon that leads to falsely low results due to the presence of excessive analyte.

In a study by Friedman et al. [7], it was noted that patients with “episodic Cushing’s syndrome” or those with mild symptoms had a negative workup. The study recommended serial monitoring for the disease. The interesting fact is that our patient had several features suggestive of active Cushing’s syndrome, and the hypotension seen postoperatively was a testament to the fact that there was in fact a cortisol excess, which led to adrenal insufficiency. In light of the above, a consistently negative workup is perplexing.

Zhang et al. suggested performing a low-dose dexamethasone suppression test in individuals presenting with PA, prior to adrenal vein sampling (AVS) and surgery due to the high prevalence of Cushing’s syndrome in patients with PA [8]. A positive test result can lead to a straightforward diagnosis; however, in this rare case where the patient had severe negative tests, it can present as a challenge in diagnosis and treatment.

Conclusions

The presence of PA and concurrent Cushing’s syndrome can present as a diagnostic challenge. It is recommended to follow up on the signs of Cushing’s syndrome with preliminary tests and to presume its absence if two concordant tests are negative. Our patient, however, was an exceptional case.

This case highlighted the importance of maintaining a high index of suspicion for patients presenting with several signs and symptoms of the disease and a negative workup. More attention should be paid to the patient’s history, and a thorough physical examination should be conducted. In those with an uncertain diagnosis, adrenal venous sampling can provide a clearer picture and lead to a more accurate understanding of the case.

References

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  2. Dutta RK, Söderkvist P, Gimm O: Genetics of primary hyperaldosteronism. Endocr Relat Cancer. 2016, 23:R437-54. 10.1530/ERC-16-0055
  3. Moloney KJ, Mercado JU, Ludlam WH, Broyles FE: Diagnosis of Cushing’s disease in a patient with consistently normal urinary free cortisol levels: a case report. Clin Case Rep. 2016, 4:1181-3. 10.1002/ccr3.647
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  6. The hook effect. (2014). Accessed: June 19, 2023: https://www.aacc.org/science-and-research/clinical-chemistry-trainee-council/trainee-council-in-english/pearls-of-lab….
  7. Friedman TC, Ghods DE, Shahinian HK, et al.: High prevalence of normal tests assessing hypercortisolism in subjects with mild and episodic Cushing’s syndrome suggests that the paradigm for diagnosis and exclusion of Cushing’s syndrome requires multiple testing. Horm Metab Res. 2010, 42:874-81. 10.1055/s-0030-1263128
  8. Zhang Y, Tan J, Yang Q, et al.: Primary aldosteronism concurrent with subclinical Cushing’s syndrome: a case report and review of the literature. J Med Case Rep. 2020, 14:32. 10.1186/s13256-020-2353-8

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