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Adrenal insufficiency presenting as hypercalcemia and acute kidney injury

Authors Ahn SW, Kim TY, Lee S, Jeong JY, Shim H, Han YM, Choi KE, Shin SJ, Yoon HE

Received 4 April 2016

Accepted for publication 28 May 2016

Published 29 July 2016 Volume 2016:9 Pages 223—226

DOI https://doi.org/10.2147/IMCRJ.S109840

Checked for plagiarism Yes

Review by Single anonymous peer review

Peer reviewer comments 4

Editor who approved publication: Professor Ronald Prineas



Seung Won Ahn,1 Tong Yoon Kim,1 Sangmin Lee,1 Jeong Yeon Jeong,1 Hojoon Shim,1 Yu min Han,1 Kyu Eun Choi,1 Seok Joon Shin,1,2 Hye Eun Yoon,1,2

1Department of Internal Medicine, College of Medicine, The Catholic University of Korea, Seoul, 2Division of Nephrology, Department of Internal medicine, Incheon St. Mary’s Hospital, Incheon, Republic of Korea

Abstract: Adrenal insufficiency is an uncommon cause of hypercalcemia and not easily considered as an etiology of adrenal insufficiency in clinical practice, as not all cases of adrenal insufficiency manifest as hypercalcemia. We report a case of secondary adrenal insufficiency presenting as hypercalcemia and acute kidney injury in a 66-year-old female. The patient was admitted to the emergency department with general weakness and poor oral intake. Hypercalcemia (11.5 mg/dL) and moderate renal dysfunction (serum creatinine 4.9 mg/dL) were shown in her initial laboratory findings. Studies for malignancy and hyperparathyroidism showed negative results. Basal cortisol and adrenocorticotropic hormone levels and adrenocorticotropic hormone stimulation test confirmed the diagnosis of adrenal insufficiency. With the administration of oral hydrocortisone, hypercalcemia was dramatically resolved within 3 days. This case shows that adrenal insufficiency may manifest as hypercalcemia and acute kidney injury, which implicates that adrenal insufficiency should be considered a cause of hypercalcemia in clinical practice.

Keywords: hypercalcemia, adrenal insufficiency, acute kidney injury

Introduction

Hypercalcemia is a common disease found in emergency departments and in-patients. Although primary hyperparathyroidism and malignancy are the most common causes of hypercalcemia, adrenal insufficiency is a rare but important cause of hypercalcemia.1 As not all cases of adrenal insufficiency present with hypercalcemia, adrenal insufficiency is not easily considered an etiology of hypercalcemia. The prevalence of hypercalcemia at the time of diagnosis of Addison’s disease is reported to be ∼5.5%–6.0%.2 Previous studies have reported hypercalcemia associated with adrenal insufficiency; however, hypercalcemia and acute kidney injury (AKI) related with adrenal insufficiency is rarely reported. Here, we report a case of adrenal insufficiency that presented as hypercalcemia and AKI.

Case presentation

A 66-year-old female presented to the emergency department with 1 week duration of general weakness and poor oral intake. She had an underlying disease of diabetes and hypertension for 10 years and had been treated with medications at the local clinic, which included metformin, glimepiride, hydrochlorothiazide, losartan, and atorvastatin. She also had severe osteoarthritis at both knee joints and had multiple steroid injections at the local orthopedic clinic. Approximately 2 weeks before admission, she had been admitted for treatment of urinary tract infection (UTI). At that time, blood culture and urine culture showed growth of Escherichia coli and was treated with ceftriaxone and tazobactam. She was not on any antihypertensive medication for 2 weeks.

Physical examination showed the following findings: height 152 cm, body weight 57 kg, blood pressure 70/50 mmHg, heart rate 70 beats per minute, and respiratory rate 20 per minute, with body temperature 36.5°C. Decreased skin and tongue turgor were observed. Pulmonary, cardiac, abdominal, and neurologic examinations were unremarkable.

Table 1 shows the laboratory data at admission and those 2 weeks before admission. Her outpatient laboratory data checked at 2 weeks prior to admission showed normal levels of serum creatinine and calcium. Serum magnesium level decreased to a lower limit of normal range at admission. Fractional excretion of sodium was 1.0%.

Table 1 Laboratory data on admission and 2 weeks before


Abbreviations: HPF, high power field; MDRD-GFR, modification of diet in renal disease–glomerular filtration rate.

Having pyuria and hypotension, with a previous history of UTI, she was first diagnosed as UTI sepsis. She was admitted to the intensive care unit and antibiotics and massive hydration (30 mL/kg of crystalloids) were administered. The patient’s vital signs were stabilized after administration of crystalloids. Within 2 days, inflammatory signs and blood pressure were normalized. However, serum calcium and creatinine levels remained elevated, and the patient constantly complained about poor oral intake and general weakness.

On the third hospital day, administration of saline and calcitonin (40 IU per day) was begun. Serum calcium level decreased for the next 2 days (from 11.9 to 9.9 mg/dL) but began to increase again from the third day of calcitonin administration.

To evaluate the cause of hypercalcemia, contrast-enhanced computed tomography of chest and abdomen and whole body bone scintigraphy were performed, but the results showed no evidence of malignancy. Serum and urine protein electrophoresis, anti-neutrophil cytoplasmic antibody titers, and tumor marker studies were negative. Thyroid function profile revealed normal levels of thyroid stimulating hormone (0.68 μIU/L, normal range: 0.34–0.56 μIU/L) and free thyroxine (1.12 ng/dL, normal range: 0.58–1.64 ng/dL). The bone mineral density T-score was –1.4, which indicated osteopenia. Intact parathyroid hormone (PTH) was 7.5 pg/mL (normal range: 12–88 pg/mL), PTH-related peptide was undetectable (normal range: <1.1 pmol/L), and serum 25-hydroxy vitamin D was 16.32 ng/mL (normal range: 30–100 ng/mL). These results indicated a suppressed PTH–vitamin D axis.

We found that the patient had multiple steroid injections in both her knee joints in the past, although the amount of steroid could not be quantified. Adrenocortical function was assessed, and showed that her serum cortisol level was 2.36 μg/dL and adrenocorticotropic hormone (ACTH) was 32.51 pg/mL (normal range: 10–60 pg/mL). The ACTH stimulation test showed inadequate cortisol response to the pharmacological dose of ACTH (Table 2). As most people with secondary adrenal insufficiency fall within the range limit and usually below 35, the plasma ACTH level and ACTH stimulation test results suggested the diagnosis of secondary adrenal insufficiency.3 Hydrocortisone (1.5 mg/kg) was administered from the tenth hospital day. Her serum calcium level returned to normal within 3 days and her general weakness and anorexia were completely improved (Figure 1). With the normalization of calcium level, magnesium level trended toward normal range. After 2 weeks of follow-up, serum calcium level was maintained at 8.7 mg/dL. As the patient was at a high risk of developing osteoporosis and needed corticosteroid replacement, regular monitoring for bone mineral density was considered, but the patient was lost for follow-up.

Table 2 The ACTH stimulation test


Note: Cortisol reference range (6.7–22.6 μg/dL).


Abbreviation: ACTH, adrenocorticotropic hormone.

Figure 1 Clinical course of serum calcium, magnesium, and creatinine level.

Discussion

Hypercalcemia is a common finding in patients in emergency and in-patients. Although hypercalcemia can be related with adrenal insufficiency, adrenal insufficiency is not easily considered a cause of hypercalcemia. In this case, thorough evaluation for malignancy and parathyroid disease failed to make the diagnosis, but a test for adrenocortical function demonstrated the cause of hypercalcemia and AKI, and glucocorticoid replacement resolved hypercalcemia.

In this case, the patient had an unclear history of steroid injections. It was certain that the patient had multiple steroid injections in both her knee joints, but the amount of intra-articularly administered glucocorticoids could not be quantified. The prevalence of adrenal insufficiency secondary to locally applied glucocorticoids is not clear. According to one study, a single injection of intra-articularly administered glucocorticoids can cause adrenal suppression.4 The intra-articular injections of glucocorticoid medication might have interfered with normal pituitary function and caused secondary adrenal insufficiency.

It is reported that the prevalence of hypercalcemia is ∼5.5%–6.0% at the time of diagnosis of Addison’s disease.2 Previous studies have reported hypercalcemia associated with adrenal insufficiency; however, hypercalcemia and AKI related with adrenal insufficiency is rarely reported. The development of renal injury in individuals with hypercalcemia is related to the degree and duration of hypercalcemia. Long-standing hypercalcemia and hypercalciuria can lead to nephrogenic diabetes insipidus, nephrolithiasis, nephrocalcinosis, tubular atrophy with interstitial fibrosis and, thus, chronic kidney disease. Hypercalcemia can lead to a decrease in the glomerular filtration rate mediated by direct renal vasoconstriction and natriuresis-induced volume contraction.5,6 In this case, hypercalcemia can be the cause of AKI. However, the patient had hypotension and UTI at the arrival of emergency department and these could have had influence on the renal function. The fractional excretion of sodium was calculated to be 1% and in the urinary sediment, epithelial cells were present, which indicates that acute tubular necrosis may be present. Considering these results, in our opinion, the patient’s AKI was due to a mixture of prerenal (hypotension) and intrinsic (UTI sepsis and hypercalcemia) causes.

Patients with hypercalcemia can develop mild hypomagnesemia. This is partially explained by the fact that calcium and magnesium functionally compete for transport in the thick ascending limb of the loop of Henle.7 In this case, the initial magnesium level was 1.6 mg/dL, which was at the lower borderline of the normal range. Although the PTH level was not checked after the normalization of calcium and magnesium level, considering the change in magnesium level along with calcium level, we speculate that hypercalcemia caused hypomagnesemia and that both hypercalcemia and hypomagnesemia suppressed the PTH level.

Though the mechanism of hypercalcemia in adrenal insufficiency is unknown in detail, a number of mechanisms are thought to be the possible cause. First, adrenal insufficiency causes hypovolemia and a consequent reduction in glomerular infiltration rate. Decreased glomerular infiltration rate results in reduction in the amount of calcium filtered at the glomerulus, and increased calcium renal reabsorption in proximal tubule.8,9 Rehydration with normal saline will normalize the glomerular filtration rate as well as the level of filtered calcium. Second, the enzyme activity of 1-alpha-hydroxylase may be increased in adrenal insufficiency. The 1-alpha-hydroxylase is a renal enzyme that participates in conversion of calcidiol to the active form of vitamin D, calcitriol, leading to increased intestinal absorption of calcium.10 As prednisone inhibits 1-alpha-hydroxylase, thus reducing hypercalcemia, adrenal insufficiency may result in hypercalcemia. Third, a decrease in circulating stanniocalcin, a paracrine hormone secreted from the adrenal gland, could result in reduced levels of circulating calcium. Deficient adrenal hormone and decreased level of stanniocalcin may affect skeletal calcium efflux into circulation and result in hypercalcemia.11

In conclusion, this case shows that adrenal insufficiency may cause hypercalcemia, and it can present as hypotension and AKI. After excluding more common diseases, such as malignancy and primary hyperparathyroidism, the possibility of adrenal insufficiency should be considered the cause of hypercalcemia, especially in elderly patients with a history of glucocorticoid injection.

Acknowledgment

This research was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Science, ICT and Future Planning (2014R1A1A3A04050919). Written informed consent and ethical approval from a review board were unnecessary because it was a retrospective case review.

Disclosure

The authors report no conflicts of interest in this work.

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