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Article

Hypercalcemia Associated with Calcium Supplement Use: Prevalence and Characteristics in Hospitalized Patients

by
Maria C. Machado
1,
Araba Bruce-Mensah
2,
Melanie Whitmire
3 and
Ali A. Rizvi
1,4,*
1
Division of Endocrinology, University of South Carolina School of Medicine, Columbia, SC 29203, USA
2
University of South Carolina School of Medicine, Columbia, SC 29203, USA
3
Research Unit, Department of Internal Medicine, University of South Carolina School of Medicine, Columbia, SC 29203, USA
4
Department of Medicine, University of South Carolina School of Medicine, Columbia, SC 29203, USA
*
Author to whom correspondence should be addressed.
J. Clin. Med. 2015, 4(3), 414-424; https://doi.org/10.3390/jcm4030414
Submission received: 20 December 2014 / Revised: 27 January 2015 / Accepted: 3 February 2015 / Published: 9 March 2015
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Abstract

:
Background: The ingestion of large amounts of milk and antacids to treat peptic ulcer disease was a common cause of hypercalcemia in the past (the “milk-alkali syndrome”). The current popularity of calcium and supplements has given rise to a similar problem. Objectives: To evaluate the prevalence and characteristics of hypercalcemia induced by calcium intake (“calcium supplement syndrome”; or CSS) in hospitalized patients. Methods: We conducted a retrospective; electronic health record (EHR)-based review of patients with hypercalcemia over a 3-year period. Diagnosis of CSS was based on the presence of hypercalcemia; a normal parathyroid hormone (PTH) level; renal insufficiency; metabolic alkalosis; a history of calcium intake; and documented improvement with treatment. Results: Of the 72 patients with non-PTH mediated hypercalcemia; 15 (20.8%) satisfied all the criteria for the diagnosis of CSS. Calcium; vitamin D; and multivitamin ingestion were significantly associated with the diagnosis (p values < 0.0001; 0.014; and 0.045 respectively); while the presence of hypertension; diabetes; and renal insufficiency showed a trend towards statistical significance. All patients received intravenous fluids; and six (40%) received calcium-lowering drugs. The calcium level at discharge was normal 12 (80%) of patients. The mean serum creatinine and bicarbonate levels decreased from 2.4 and 35 mg/dL on admission respectively; to 1.6 mg/dL and 25.6 mg/dL at discharge respectively. Conclusion: The widespread use of calcium and vitamin D supplementation can manifest as hypercalcemia and worsening of kidney function in susceptible individuals. Awareness among health care professionals can lead to proper patient education regarding these health risks.

1. Introduction

The milk-alkali syndrome (MAS) is a disorder induced by intake of large amounts of milk, calcium preparations, and alkali for gastric acid neutralization and treatment of ulcer disease [1]. The hallmarks of MAS consist of hypercalcemia, metabolic alkalosis with elevated serum bicarbonate, and renal insufficiency [2]. Although it was a common cause of hypercalcemia in the past, the incidence of MAS reduced considerably with the decrease in popularity of traditional therapies for ulcer disease. The disorder was a cause of less than one percent of cases of hypercalcemia by the mid-1980s [3]. However, the past decade has seen a progressive reemergence of a slightly different version of MAS with its own epidemiologic and clinical characteristics [4,5,6]. The current day version is a manifestation of hypercalcemia and attendant laboratory abnormalities in predisposed individuals stemming from the widespread use of calcium and vitamin D therapy for osteoporosis or health maintenance [7,8], and therefore is more aptly labeled the “calcium supplement syndrome” (CSS). It is thought to be a relatively important cause of current-day hypercalcemia (12%), exceeded in frequency only by primary hyperparathyroidism and malignancy [7,9]. The factors leading to this change in presentation include the growing popularity of calcium intake for the maintenance of bone and musculoskeletal health and the prevention and treatment of osteoporosis.

2. Aims and Methods

This was a retrospective study utilizing the review of medical records of patients hospitalized over a three-year period. The study was approved by the Institutional Review Board, Palmetto Health Richland, Columbia, South Carolina, USA. The primary objective was to calculate the proportion of patients with non-parathyroid hormone (PTH)-dependent hypercalcemia that satisfied the criteria for CSS. The secondary objectives were to: (1) define the characteristics and components of CSS; and (2) describe the change in serum calcium and response to treatment during hospital stay.
A flow design of the proposed study is presented in Figure 1. Data were collected in a confidential manner and duly de-identified, without accessibility to patient identifiers. Information on admission and discharge ICD-9 diagnosis codes for hypercalcemia (275.42, V12.29) was obtained on all patients above age 18 years admitted to Palmetto Health Richland over a 3-year period (1 October 2010 to 30 September 2013). The records of patients with hypercalcemia (275.42, V12.29) were reviewed to ascertain if parathyroid hormone (PTH) levels were available. Those with elevated PTH level were assumed to have PTH-mediated hypercalcemia (the majority of which had primary hyperparathyroidism or PHP). In the remaining subjects, those with a specific non-PTH mediated etiology, such as malignancy, sarcoidosis, granulomatous disease, etc. were excluded. In the remaining subjects, a presumptive biochemical and clinical diagnosis of CSS was made on an individual basis (Data Abstraction Tool, Figure 2). The data was entered into a Microsoft Excel spreadsheet for analysis.

3. Data Analysis

To calculate and justify sample size, the output from PASS 2008 gave 95% confidence interval widths for sample sizes in the anticipated range of 100 to 200 and proportions in the anticipated range of 0.05 to 0.20. The proportion of patients with hypercalcemia that satisfied the criteria for CSS was computed by dividing the number of patients that meet the criteria for CSS by the number of patients that meet the inclusion criteria. Exact (Clopper-Pearson) 95% confidence limits on this proportion were computed using the R function exactci in the PropCIs package. Serum calcium, bicarbonate and creatinine levels at admission and discharged were collected. A descriptive analysis was undertaken to define the characteristics and components of CSS and response to treatment during hospital stay. The p value for statistical significance for the presence or absence of CSS and the following variables was calculated: gender, calcium intake, vitamin D intake, multivitamin use, hypertension, diabetes, and renal insufficiency (as defined by a serum creatinine above 1.3 mg/dL).

4. Results

A total of 429 patients with hypercalcemia were identified over the three year period. Sixty-one patients had elevated calcium levels and/or a known history of PHP, while in 296 patients no PTH level was available; they either had a known non-PTH mediated cause, or the hypercalcemia was transient and was not evaluated further. The medical records of the remaining 72 patients who had either a normal or low PTH level were reviewed to further exclude specific causes of hypercalcemia, and to evaluate whether the presentation and the clinical and biochemical features of individual patients could be attributable to CSS. In individual patients, a diagnosis of CSS was ascertained based on the presence of hypercalcemia (normal range 8.5–10.1 mg/dL), a normal or suppressed PTH level (normal range 10–65 pg/mL), renal insufficiency with elevated serum creatinine (normal range 0.6–1.3 mg/dL), and metabolic alkalosis with elevated serum bicarbonate (normal range 21–32 mmol/L), and supported by a history of prescription or over-the-counter intake of calcium.
Seventy-two of the 429 patients (16.8%) were identified with hypercalcemia accompanied by a normal or low PTH. Those in whom the hypercalcemia and the clinical presentation were felt to be on the basis of a known cause, could be attributed to a specific etiology, or who did not fulfill the above-mentioned criteria for CSS, were excluded from the final analysis.
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Figure 1. Study flow design.
Figure 1. Study flow design.
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Figure 2. Data abstraction for individual subjects with hypercalcemia.
Figure 2. Data abstraction for individual subjects with hypercalcemia.
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Of the 72 patients with non-PTH mediated hypercalcemia, 15 (20.8%) satisfied all the criteria for the diagnosis of CSS. Their characteristics are shown in Table 1. The mean age was 70.4 years, with a range from 54 to 87 years. There were 9 females (8 white and 1 black) and 6 males (3 white and 3 black). Fourteen (93.3%) patients had a history of hypertension and 9 (60%) had diabetes. Four patients carried a previous diagnosis of renal insufficiency. Only one patient (#12 in Table 1) was taking a thiazide diuretic. The mean serum calcium on admission was 13.3 mg/dL (range, 10.7 to 16.2), and at discharge was 9.26 mg/dL (range, 7.6 to 10.4). None of the patients had a known history of hypercalcemia in the past. The calcium level at discharge was normal in the majority (12 of the 15, or 80%) of patients, the highest level being 10.4 mg/dL. The mean PTH was 9.42 pg/mL (range, <2.5 to 53.1). The mean phosphorus level was 3.32 mg/dL (range, 2.1 to 4.6). The mean serum creatinine on admission was 2.4 mg/dL (range, 0.9 to 3.9), and at discharge was 1.6 mg/dL (range, 0.7 to 3.2). The creatinine level was normal in 7 of 15 (46.7%) patients at discharge. The mean serum bicarbonate level was 35 mg/dL (range, 32 to 43) on admission and 25.6 mg/dL (range, 17 to 33) at discharge, when it was within the normal range in all but one patient. Thus, resolution of CSS was evident by normalization or improvement in the abnormal biochemical parameters during hospital stay.
Although almost all patients suffered from cardiovascular, metabolic, and other chronic health conditions, 12 of 15 (80%) presented with complaints and manifestations consistent with, or for the most part felt to be due to, hypercalcemia (for example, weakness, fatigue, polyuria, abdominal pain, nausea, vomiting, constipation, mental status changes, and musculoskeletal discomfort). With regard to therapy, all 15 patients received rehydration with intravenous fluids, while 6 of 15 (40%) were treated with specific calcium-lowering drug treatment for the elevated calcium (4 with calcitonin and 2 with zoledronic acid).
All 15 patients were taking calcium supplements, while 12 (80%) were taking vitamin D supplements, 8 (53.3%) multivitamin tablets, and 2 (13.3%) calcium-containing antacids. Our retrospective review was unable to determine exact doses of these supplements in most patients, or whether they were being taken as over-the-counter or by prescription. It was also difficult to ascertain if the supplementation was for “health maintenance” (either self-medicated or on the advice of a health care provider) or as therapy for a specific medical condition such as osteoporosis or vitamin D deficiency. Calcium was not listed on any of the patients’ list of discharge medications. The possibility of calcium supplement-related hypercalcemia had been entertained in 5 patients by the treating physicians, although we could not find documentation of specific advice to patients to avoid excessive calcium and/or vitamin D intake.
Table 2 lists and their association with the diagnosis of CSS in our study. A history of calcium intake, presumably for health maintenance or treatment of bone disease, displayed the strongest association (p < 0.0001), while vitamin D and multivitamin ingestion were also significantly associated (p values 0.014 and 0.045 respectively). The presence of hypertension, diabetes, and renal insufficiency (serum creatinine above 1.2 mg/dL) showed a trend towards statistical significance (p = 0.051, 0.106, and 0.16 respectively).
Table
Table 1. Characteristics of 15 patients with hypercalcemia attributable to calcium and vitamin D supplements.
Table 1. Characteristics of 15 patients with hypercalcemia attributable to calcium and vitamin D supplements.
No.AgeSexRaceMedical ProblemsPresenting FeaturesMedsSupplementsAdm. Ca mg/dLLast Ca mg/dLPTH mg/mLSer. Cr mg/dLLast Cr mg/dLBic mg/dLLast Bic mg/dLPh mg/dLTreatment
167MBhypertensionabdominal painSimvastatin aspirinCalcium Vit D312.410.12.81.60.737293.8IV fluids
275FWOsteoporosis, hypertensionpolyuria, weakness, bone painLisinopril MetoprololCalcium 2 mg daily ibandronate16.28.812.52.20.937232.8IV fluids, calcitonin
374MWdiabetes, hypertension, CAD renal insufficiencymental status change, CVAMetoprolol Lisinopril glipizidecalcium supplement multivitamin with mineral Vit D 1000 IU10.910.312.42.42.433294.6IV fluids
460MBhypertensionabdominal pain, abdominal swellingHydralazine testosteroneCalcium vitamin D 2000 IU per day10.710.321.73.91.937173.3IV fluids
586MWhypertensionabdominal pain, dehydration, weakness, back painAmlodipine Labetalol aspirinCalcium multivitaminvit D 11.310.14.12.11.632272.1IV fluids
673FWdiabetes, hyperthyroidismnausea and/or vomiting, cough, SOBMethimazole metformincalcium supplement Vit D multivitamin11.69.0<2.50.90.833332.7IV fluids
772FWdiabetes, hypertension, CADgeneralized edema, chronic painSimvastatin furosemideCalcium supplement13.810.4<2.52.61.538262.7IV fluids, zoledronic acid
854FWdiabetes, hypertension, CAD renal insufficiencyabdominal pain, urinary retention, constipationNitroglycerin Amiodarone furosemideTUMS antacid 4–6 mg per day14.18.82.82.12.137254.1IV fluids, calcitonin
977FWdiabetes, hypertensionweaknessInsulin Losartan aspirinCalcium multivitamin14.59.03.62.21.533252.6IV fluids, calcitonin
1065MWdiabetes, hypertension, CADnausea and/or vomiting, chest painMetformin glipizide Metoprolol mag oxMultivitamin “large amount” of TUMS15.07.68.01.61.035284.2IV fluids
1155FWdiabetes, hypertension, renal insufficiencynausea and/or vomiting, chills, dizzinessInsulin Enalapril Furosemide aspirinMultivitamin Vit D antacid14.68.753.13.92.632202.6IV fluids, calcitonin
1283FWhypertensiondyspnea, hypoxiaAtorvastatin Metoprolol Furosemide Hctz aspirincalcium supplementmultivitamin Vit D13.77.7<2.51.41.043302.7IV fluids
1360FBdiabetes, hypertensionpain from woundsInsulin Valproic acidCalcium Vit D 50000 IU weekly13.89.17.82.71.133244.1IV fluids, zoledronic acid
1468MBdiabetes, hypertension renal insufficiencyhypercalcemiaHydralazine Levothyroxine Lisinopril amlodipinecalcium supplement TUMS antacid Vit D12.79.3<2.53.63.233233.5IV fluids
1587FWHypertension Arthritis GERD Venous thromosisencephalopathy, weakness, fatigueFurosemide Amlodipine Warfarin albuterolcalcium supplemen Vit D 1000 IU multivitamin13.89.7<2.52.61.032254.0IV fluids
Meds: medications on presentation; Ca: serum calcium; PTH: parathyroid hormone level; Cr: serum creatinine; bic: serum bicarbonate; Ph: serum phosphorus.
Table
Table 2. Prevalence of patient variables in subjects with and without CSS.
Table 2. Prevalence of patient variables in subjects with and without CSS.
VariableCSS (N = 15) n (%)Non-CSS (N = 57) n (%)p-Value
Gender (Female)9 (60.0)24 (42.1)0.216
Calcium Intake12 (80.0)8 (14.0)<0.0001
Vitamin D Intake9 (60.0)15 (26.3)0.014
Multivitamin Use7 (46.7)12 (21.1)0.045
Hypertension14 (93.3)39 (68.4)0.051
Diabetes9 (60.0)21 (36.84)0.106
Renal insufficiency (serum creatinine above 1.3 mg/dL)14 (93.3)44 (77.2)0.160

5. Discussion

The ingestion of large amounts of calcium and absorbable alkali is a prime precipitating factor for the development of MAS. The disorder was originally described in association with the use of milk and sodium bicarbonate for the treatment of peptic ulcer disease [5]. The modern clinical presentation of this complex disorder could aptly be called the “calcium supplement syndrome” (CSS). The two faces of this syndrome are contrasted in Table 3. Although traditional MAS was described predominantly in middle-aged men, CSS appears to be more common in women [6]. Patients often have non-specific symptoms, and hypercalcemia and renal insufficiency may be incidentally noted. Recovery is the rule with rehydration and discontinuation of calcium and vitamin D [10]. Concurrent bisphosphonate therapy may predispose to post-treatment hypocalcemia because of suppressed bone turnover [7].
Table
Table 3. A comparison of the traditional and modern-day presentations of the milk-alkali syndrome (or “calcium supplement syndrome”).
Table 3. A comparison of the traditional and modern-day presentations of the milk-alkali syndrome (or “calcium supplement syndrome”).
Milk-Alkali SyndromeCalcium Supplement Syndrome
Patient populationMiddle-aged menOlder women
SymptomsPresentAsymptomatic
PresentationAcute: nausea, vomiting, weakness, mental status changesHypercalcemia and renal insufficiency are incidental findings
Chronic: polyuria, polydipsia, muscle aches
Phosphorus levelNormal or high due to phosphate load from milkLow from lack of milk load and the binding properties of calcium carbonate
Post-treatment hypocalcemiaNot usually seenMay develop
PrognosisVariable Complete recovery with treatment (insufficient data)
We undertook a retrospective, records-based study to ascertain the prevalence and characteristics of CSS in hypercalcemic patients hospitalized over a three-year period. Our investigation revealed that the clinico-biochemcial diagnosis of CSS was present in one-fifth of hospitalized patients with PTH-independent hypercalcemia. Older age seemed to be a risk factor (mean age 70.4 years). Hypertension, diabetes, and renal insufficiency were more prevalent in CSS patients compared with hypercalcemic patients without CSS. As expected, all patients with CSS were taking calcium supplements, and a majority was taking vitamin D and multivitamins—these three factors being statistically significantly associated with CSS in our analysis. It is worth noting that only one patient was on a medication known to aggravate hypercalcemia (hydrochlorthiazide) [11]. Intravenous hydration was administered in all patients, supplements were discontinued, and 40% of the patients received calcium-lowering drug therapy.
The presence of all four criteria (renal insufficiency, metabolic alkalosis, elevated serum bicarbonate, and history of calcium/vitamin D ingestion) for diagnosis of calcium supplement syndrome was purposely done to make the clinical diagnosis as stringent and accurate as possible. This minimized and hopefully eliminated chance or coincidental occurrence, which would be unlikely. It would also substantially reduce the possibility of comorbidities as the sole cause of the presentation, as would the reversal of the abnormalities with appropriate therapy.
Our results reinforce a number of risk factors that may predispose to CSS, namely calcium ingestion, older age, volume depletion, and renal insufficiency with reduced glomerular filtration rate (GFR). The risks associated with calcium preparations are often assumed by patients as being minimal, with many patients likely taking high daily doses under the maxim that “more is better” [12,13]. Chronic health conditions and the use of medications such as thiazide diuretics, angiotensin converting enzyme inhibitors, angiotensin receptor blockers, and non-steroidal anti-inflammatory drugs (NSAIDs) have also been implicated [6].
It has been suggested that inadequate suppression of calcitriol in some individuals leads to intestinal hyperabsorption in response to large amounts of calcium ingestion, resulting in hypercalcemia [14,15]. The latter may predispose to renal vasoconstriction and acute kidney injury [16]. In this context, the presence of limited renal reserve appears to be a strong risk factor in the pathogenesis of CSS. The ensuing urinary sodium loss results in volume depletion, stimulating tubular absorption of bicarbonate. Thus, the combined effects of increased alkali intake, volume depletion, and decreased GFR results in metabolic alkalosis [17]. Volume contraction due to vomiting or diuretics worsens both hypercalcemia and alkalosis. In addition, older patients may have a reduced skeletal buffer against hypercalcemia [6].

6. Conclusions

CSS is of potentially significant public health importance. Calcium and vitamin D supplementation is thought to have general health and preventive benefits, and is also recommended for the treatment of osteoporosis and vitamin D deficiency. However, it is becoming evident that liberal calcium intake in susceptible individuals may not be entirely benign, with consequences not unlike the classic milk-alkali syndrome of the past. Awareness of its health implications should alert patients and clinicians alike to the dangers of excessive or indiscriminate use of calcium and vitamin D supplements.

Author Contributions

Ali A. Rizvi and Maria C. Machado conceived the study and wrote the initial manuscript. Araba Bruce-Mensah collected and organized the data. Melanie Whitmire assisted with the statistical analysis. All authors contributed to the final preparation of the manuscript.

Conflicts of Interest

The authors declare no conflict of interest.

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MDPI and ACS Style

Machado, M.C.; Bruce-Mensah, A.; Whitmire, M.; Rizvi, A.A. Hypercalcemia Associated with Calcium Supplement Use: Prevalence and Characteristics in Hospitalized Patients. J. Clin. Med. 2015, 4, 414-424. https://doi.org/10.3390/jcm4030414

AMA Style

Machado MC, Bruce-Mensah A, Whitmire M, Rizvi AA. Hypercalcemia Associated with Calcium Supplement Use: Prevalence and Characteristics in Hospitalized Patients. Journal of Clinical Medicine. 2015; 4(3):414-424. https://doi.org/10.3390/jcm4030414

Chicago/Turabian Style

Machado, Maria C., Araba Bruce-Mensah, Melanie Whitmire, and Ali A. Rizvi. 2015. "Hypercalcemia Associated with Calcium Supplement Use: Prevalence and Characteristics in Hospitalized Patients" Journal of Clinical Medicine 4, no. 3: 414-424. https://doi.org/10.3390/jcm4030414

APA Style

Machado, M. C., Bruce-Mensah, A., Whitmire, M., & Rizvi, A. A. (2015). Hypercalcemia Associated with Calcium Supplement Use: Prevalence and Characteristics in Hospitalized Patients. Journal of Clinical Medicine, 4(3), 414-424. https://doi.org/10.3390/jcm4030414

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