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Analysis of the diagnostic presentation profile, parathyroidectomy indication and bone mineral density follow-up of Brazilian patients with primary hyperparathyroidism

Abstract

Primary hyperparathyroidism is an endocrine disorder with variable clinical expression, frequently presenting as asymptomatic hypercalcemia in Western countries but still predominantly as a symptomatic disease in developing countries. The objective of this retrospective study was to describe the diagnostic presentation profile, parathyroidectomy indication and post-surgical bone mineral density follow-up of patients with primary hyperparathyroidism seen at a university hospital. We found 115 patients (92 women, median age 56 years) with primary hyperparathyroidism diagnosed during the last 20 years. We defined symptomatic patients based on the presence of any classical symptom affecting bone, kidney or the neuromuscular system. Surgical criteria followed the guidelines of the National Institutes of Health regarding asymptomatic primary hyperparathyroidism. Symptomatic patients and patients meeting surgical criteria for parathyroidectomy were 66 and 93% of the sample, respectively. Median calcium and parathyroid hormone values were 11.9 mg/dL and 189 pg/mL, respectively. After surgical treatment, 97% of patients were cured, with increases in bone mineral density of 19.4% in the lumbar spine and 15.7% in the femoral neck 3 years after surgery. Greater bone mass increases were detected in pre-menopausal women, men, and in symptomatic and younger patients, both in the lumbar spine and femoral neck. Our results support the previous findings of a predominantly symptomatic disease with a presentation profile that could be mainly related to a delayed diagnosis. Nevertheless, genetic and racial backgrounds, and nutritional factors such as calcium and vitamin D deficiency may play a role in the clinical presentation of primary hyperparathyroidism of Brazilian patients.

Primary hyperparathyroidism; Hypercalcemia; Clinical presentation; Parathyroidectomy; Bone mineral density


Braz J Med Biol Res, April 2007, Volume 40(4) 519-526

Analysis of the diagnostic presentation profile, parathyroidectomy indication and bone mineral density follow-up of Brazilian patients with primary hyperparathyroidism

U.E.M. Oliveira1, M.N. Ohe1, R.O. Santos2, O. Cervantes2, M. Abrahão2, M. Lazaretti-Castro1, J.G.H. Vieira1,3 and Correspondence and Footnotes O.M. Hauache1,3

1Disciplina de Endocrinologia e Metabologia, 2Disciplina de Otorrinolaringologia e Cirurgia de Cabeça e Pescoço, Escola Paulista de Medicina, Universidade Federal de São Paulo, São Paulo, SP, Brasil

3Instituto Fleury, São Paulo, SP, Brasil

Patients and Methods

References Correspondence and Footnotes Correspondence and Footnotes Correspondence and Footnotes

Abstract

Primary hyperparathyroidism is an endocrine disorder with variable clinical expression, frequently presenting as asymptomatic hypercalcemia in Western countries but still predominantly as a symptomatic disease in developing countries. The objective of this retrospective study was to describe the diagnostic presentation profile, parathyroidectomy indication and post-surgical bone mineral density follow-up of patients with primary hyperparathyroidism seen at a university hospital. We found 115 patients (92 women, median age 56 years) with primary hyperparathyroidism diagnosed during the last 20 years. We defined symptomatic patients based on the presence of any classical symptom affecting bone, kidney or the neuromuscular system. Surgical criteria followed the guidelines of the National Institutes of Health regarding asymptomatic primary hyperparathyroidism. Symptomatic patients and patients meeting surgical criteria for parathyroidectomy were 66 and 93% of the sample, respectively. Median calcium and parathyroid hormone values were 11.9 mg/dL and 189 pg/mL, respectively. After surgical treatment, 97% of patients were cured, with increases in bone mineral density of 19.4% in the lumbar spine and 15.7% in the femoral neck 3 years after surgery. Greater bone mass increases were detected in pre-menopausal women, men, and in symptomatic and younger patients, both in the lumbar spine and femoral neck. Our results support the previous findings of a predominantly symptomatic disease with a presentation profile that could be mainly related to a delayed diagnosis. Nevertheless, genetic and racial backgrounds, and nutritional factors such as calcium and vitamin D deficiency may play a role in the clinical presentation of primary hyperparathyroidism of Brazilian patients.

Key words: Primary hyperparathyroidism, Hypercalcemia, Clinical presentation, Parathyroidectomy, Bone mineral density

Introduction

Primary hyperparathyroidism (PHP) is an endocrine disorder characterized by hypercalcemia and elevated or inappropriately normal levels of parathyroid hormone. In its early descriptions, the classical disease was associated with involvement of the kidneys (renal calculi and nephrocalcinosis), skeleton (osteitis fibrosa cystica, with pain, pathological fractures and deformity), and neuromuscular system (proximal neuromuscular weakness) (1). In the 1970's, after the introduction of automated and routine measurement of serum calcium levels in developed countries, several studies reported a sharp increase in the diagnosis of PHP (2). The increased incidence of PHP in these countries was associated with a significant change in the presentation of the clinical spectrum of the disease. Most cases were asymptomatic at diagnosis, as opposed to the classical disease description (3).

In this context, studies currently conducted in Western countries show that less than 20% of the patients present symptomatic PHP, i.e., PHP with the early described classical features (4). Parathyroidectomy is indicated for these cases. Management guidelines deal specifically with the asymptomatic form of the disease. Following these guidelines, approximately 50% of the PHP patients will meet one or more criteria for parathyroidectomy, even though most of these patients are asymptomatic (5). In contrast to these findings, studies in developing countries like India, China, Brazil, and others still show a high incidence of symptomatic cases (6-9). Late diagnosis, related to limited access to routine measurement of calcium levels and/or poor recognition of PHP, as well as the possible high prevalence of vitamin D deficiency in these countries, may lead to a more symptomatic clinical profile (10). However, as we have demonstrated in a recent study, the proportion of symptomatic cases is gradually but still slowly decreasing in our public service (11).

We reviewed our PHP data regarding the clinical and laboratory findings before and after surgical treatment during the last 20 years. The main purposes of the present study were to analyze the diagnostic presentation and surgical indication profile of PHP and the recovery of bone mineral density (BMD) after parathyroidectomy in our patients, in São Paulo.

Patients and Methods

The study was retrospective and evaluated PHP patients followed at the Bone Metabolism Unit of the Federal University of São Paulo (UNIFESP). Reports of all patients with PHP diagnosed between 1985 and 2004 were reviewed. Since this is a reference service, most patients are referred to it by other specialties. The diagnosis of PHP was mainly based on calcium measurements ordered during the follow-up of menopausal patients or during the investigation of bone diseases and urolithiasis. Calcium measurement was not used as a routine screening method.

The diagnostic criterion for PHP was based on hypercalcemia (total calcium levels ³10.5 mg/dL and/or ionized calcium levels above the upper normal reference range) associated with high or inappropriately normal intact parathyroid hormone levels (iPTH, normal range 10-65 pg/mL). Patients with renal insufficiency, defined as creatinine >1.5 mg/dL, were excluded when kidney disease was not related to PHP.

A total of 131 PHP patients were diagnosed during the last 20 years. Of this group, 16 were excluded, 5 due to the fact that PHP was related with multiple endocrine neoplasia type 1, 3 because of familial isolated PHP, and 8 because of renal insufficiency that was not related to PHP.

The remaining 115 patients with sporadic PHP were classified as symptomatic or asymptomatic according to the presence of classical hyperparathyroidism findings, defined as clinical or radiological bone disease, nephrolithiasis, proximal neuromuscular weakness, and hospital admission related to hypercalcemic complications. Asymptomatic patients were further classified into surgical and non-surgical according to the criteria established by the National Institutes of Health Workshop on Asymptomatic PHP (12,13). Surgical criteria included age below 50 years, serum calcium concentrations 1 mg/dL above the upper normal limit, nephrolithiasis, 24-h urinary calcium excretion above 400 mg, and densitometric osteoporosis of the lumbar spine or hip. Patients satisfying at least one criterion were scheduled for parathyroidectomy, while the asymptomatic patients who did not meet surgical criteria were followed clinically. Patients classified as symptomatic fulfilled at least one such criterion and were all submitted to surgery. Data about perioperative and late postoperative complications as well as pathological findings were also reviewed.

Until 1993 (N = 21 patients), parathyroid hormone levels were measured by an amino-terminal specific radioimmunoassay. As of 1994, iPTH levels were measured by an immunofluorimetric assay. The median parathyroid hormone values calculated in this study refer only to these iPTH data obtained by immunofluorimetric assay. Total calcium levels were measured by colorimetric assays and ionized calcium with an ion-specific electrode. Bone densitometry of the lumbar spine (L1-L4) and femoral neck was obtained by dual-energy X-ray absorptiometry (DEXA) using Hologic QDR 4500 (Waltham, MA, USA) and Lunar DPX (Madison, WI, USA) devices. Measurements were always performed with the same device for each patient. The coefficient of variation based on repeated measurements with a spine phantom was lower than 0.5% for both devices and the service coefficient of variation was 3.5% for both lumbar spine and femoral neck. Absolute Hologic BMD data were converted to Lunar data for calculation and comparison of mean and median parameters and for the determination of longitudinal changes. Conversion equations were as follows, as defined elsewhere (14):

Lunar DPXlumbar spine = (1,074 x Hologic QDRlumbar spine) + 0.054

Lunar DPXfemoral neck = (1,013 x Hologic QDRfemoral neck) + 0.142

Patients were classified as osteoporotic when the BMD T-score was lower than -2.5 SD in relation to young adults from the DEXA manufacturer's database, according to the definition established by the World Health Organization.

Statistical analysis

Data are reported as median or means ± SD. Statistical comparisons were performed using the Student t-test and the Mann-Whitney test for quantitative variables and the c2 test for qualitative variables. BMD data were assessed by analysis of variance (ANOVA) to evaluate changes relative to baseline. A P value equal to or lower than 0.05 was taken to indicate a significant difference.

Results

The baseline clinical and laboratory data of PHP patients are reported in Table 1. Classical PHP signs and symptoms were detected in 66% of the sample. When compared to the asymptomatic patients, these symptomatic patients presented higher serum calcium, iPTH and urinary calcium levels and lower phosphorus levels (Table 2). However, even among the remaining asymptomatic patients, 79% also fulfilled at least one surgical criterion. Thus, as a whole, only 7% of these patients were not surgical candidates and 93% met at least one surgical criterion at presentation. The main surgical criteria were lumbar spine and/or femoral neck densitometric osteoporosis (71%) and total calcium 1 mg/dL above the upper normal limit (59%). Nephrolithiasis (39%), age less than 50 years (31%) and 24-h urinary calcium higher than 400 mg (28%) were less prevalent (Table 1).

Clinical and densitometric follow-up of the operated patients

Follow-up data were available for most of the 115 patients, 93% (N = 107) were scheduled for parathyroidectomy, but only 84% (N = 90) of them were operated. Patients were not operated either because their clinical conditions did not permit surgery or because they did not accept the procedure. These patients, as well as the asymptomatic patients who did not meet the surgical criteria, are currently being followed clinically. Of the operated patients, 30% needed intravenous calcium after surgery, 5% had transitory dysphonia and 2% had a cervical hematoma. After parathyroidectomy, all patients were discharged with a prescription of oral calcium and vitamin D supplements. The main pathological finding was parathyroid adenoma (77%). Parathyroid hyperplasia and carcinoma were found in 10 and 9%, respectively, while 4% had uncertain histopathological findings. Seventy-eight patients were followed up for a mean period of 47 months after surgery. Five patients (6%) were successfully submitted to a second surgery because of a first non-curative surgery for a parathyroid adenoma. Almost all patients (97%) submitted to parathyroidectomy were cured. Only 6% became permanently hypocalcemic. Five patients with histological parathyroid carcinoma with capsular and vascular invasion were normocalcemic during a mean follow-up period of 24 months after surgery, whereas three patients remained hypercalcemic and died during follow-up.

BMD increased significantly after surgery both in the lumbar spine (9.6% in 12 months and 19.4% in 36 months) and femoral neck (10.7% within 12 months and 15.7% within 36 months), as shown in Table 3. We analyzed these patients according to clinical parameters at presentation in order to find differences in bone mass evolution during the follow-up after surgery for a median period of 36 months (Table 4). All patient groups had significant increases in bone mass both in the lumbar spine and femoral neck. Asymptomatic patients who were not operated upon because they were not surgical candidates continued to have stable BMD during this period (-1% in the lumbar spine and 4% in the femoral neck). When we compared data between groups, we found greater bone mass increases in premenopausal women, in men, and in symptomatic and younger patients, both in the lumbar spine and femoral neck (Table 4).

Table 1
. Baseline clinical and laboratory data of patients with primary hyperparathyroidism.

Table 2.
Comparison of laboratory and bone mineral density (BMD) parameters of symptomatic and asymptomatic patients with primary hyperparathyroidism.

Table 3.
Bone mineral density (BMD) evolution of the operated patients with primary hyperparathyroidism at baseline and at 12 and 36 months after surgery.

Table 4.
Bone mineral density (BMD) evolution of primary hyperparathyroidism patients according to clinical parameters at baseline and after a median period of 36 months after curative parathyroidectomy.

Discussion

We observed that the pattern of clinical PHP presentation in our institution is mainly symptomatic, but we point out that only 115 patients were diagnosed between 1985 and 2004 at a reference public service. We think this low figure could be related to a delayed PHP diagnosis and to a still low recognition of the disease. In a city like São Paulo, with more than 10 million people, 115 patients diagnosed in 20 years at a reference service is far from the expected figure if we consider a prevalence of about 3/1000 in the general population (15). Most patients had a severe clinical and laboratory diagnostic presentation, probably as a result of several hypercalcemia complications owing to a late diagnosis. Perhaps only the more severe cases are referred to this service. The high prevalence of parathyroid carcinoma seen in our study could also be related to this selection bias, since it is much higher than the values reported in the Western literature (16), although similar prevalences have been found in other studies from developing countries (6,17). Nevertheless, we emphasize that this presentation profile is gradually changing, as stated by Ohe et al. (11), who studied most of these patients and observed that the diagnostic incidence of PHP as well as the proportion of asymptomatic patients slowly increased in the last few years.

Due to the high prevalence of symptomatic cases (66%), it was not a surprise that the majority of these patients were sent to surgery. Even among the remaining 38 asymptomatic patients, 79% still fulfilled surgical criteria. Consequently, only 7% of these patients were not scheduled for surgery (8 of 115 patients). These results agree with data obtained in other developing countries which also do not perform routine calcium measurements (6,17). The biochemical parameters of symptomatic patients were more compromised at presentation than those of asymptomatic patients, but BMD was reduced in both groups, with no significant difference between them.

Considering the surgical guidelines proposed for asymptomatic patients with PHP, Silverberg and Bilezikian (5) reported that about 50% of these patients would meet at least one surgical criterion. Although we consider our high prevalence of symptomatic patients (66%) and of surgical patients (93%) to be mainly a consequence of delayed diagnosis, it is also possible that differences in the genetic and racial backgrounds of our population may play a role. These differences could be somehow modulated by local environmental factors such as low calcium intake and vitamin D deficiency. As a consequence of the high racial admixture of our population, it is extremely difficult, if not impossible, to appropriately separate the different Brazilian ethnic groups. Calcium and vitamin D deficiencies have been related to the clinical profile of PHP (18). Moosgaard et al. (19) demonstrated that vitamin D deficiency or insufficiency is a common finding in PHP patients and occurs more often than in gender- and age-matched controls. As observed in endemic areas of vitamin D deficiency, low levels of vitamin D could be related to a more aggressive clinical presentation of PHP, with greater adenoma size and overt bone disease (10,15). Since we do not have data regarding the vitamin D status of our patients we cannot rule out this possibility.

As stated earlier, we observed a high prevalence of parathyroid carcinoma in our series, similar to those found in other series from developing countries (6,17). Our cases were based on surgical findings such as large and poorly circumscribed tumors adherent to the surrounding soft tissues of the neck or of the thyroid gland and on pathological findings such as capsular and vascular invasion (20). Unfortunately, the follow-up of these cases is limited: three have died because of complications related to hypercalcemia and the remaining ones were followed for a mean period of only 24 months (21).

BMD determinations by DEXA provide a noninvasive and objective parameter of disease activity in PHP. In addition, available data indicate that DEXA can be used to classify patients with PHP and can be helpful regarding the decision about recommending surgery or not for individual patients. In our study we found a high prevalence of osteoporosis (71%). Several studies have shown that regional BMD is decreased by 10 to 20% in untreated PHP patients, with greater involvement of the appendicular skeleton, which is compatible with a preferential cortical bone involvement in PHP (22). These densitometric studies as well as histomorphometric data have shown that high iPTH levels have a catabolic action on cortical bone and an anabolic action on trabecular bone, with relative preservation of bone mass in the lumbar spine (22). However, in our study, most of the osteoporotic patients had involvement of both femoral neck and lumbar spine BMD, with no preservation of lumbar spine BMD. Indeed, at presentation there were no differences in lumbar spine or femoral neck BMD between symptomatic and asymptomatic patients. In a 10-year follow-up study, 21% of asymptomatic PHP patients had a bone loss of more than 10% at one or more sites, whereas BMD was preserved in the remaining ones (23).

The remarkable BMD recovery observed in our patients after surgical treatment agrees with other studies. Silverberg et al. (24) found an increase of 12 to 13% in both lumbar spine and femoral neck BMD 4 years after parathyroidectomy. Nevertheless, it should be emphasized that these results were obtained for a majority of asymptomatic patients (76%), with similar BMD compared to patients without surgical criteria in that study. Our patients differed in this context because, although symptomatic and asymptomatic patients meeting surgical criteria had similar BMD reductions, their reductions were greater than in patients without surgical criteria. Three years after surgery, our patients had BMD increases of 19.4% in the lumbar spine and of 15.7% in the femoral neck, and symptomatic patients had greater increases of BMD than asymptomatic patients (23 vs 12% in the lumbar spine and 19 vs 10% in the femoral neck, respectively). Our asymptomatic patients also had significant increases in BMD, with results similar to those reported in the literature (23,24). Given this and the fact that parathyroidectomy is a low-risk procedure, we conclude that asymptomatic patients meeting surgical criteria for parathyroidectomy (5) should be submitted to surgery.

In this retrospective study we reviewed data of PHP patients seen at our institution during the last 20 years, and our results support previous findings of a predominantly symptomatic disease. This PHP presentation profile could be mainly related to a delayed diagnosis and may reflect the fact that we are seeing only the more severe cases. Nevertheless, one should consider that genetic and racial backgrounds as well as nutritional factors such as calcium and vitamin D deficiency may play a role in the clinical presentation of PHP in Brazilian patients. The surgical treatment was successful in almost all the patients and recovery of BMD reached 19.4% in the lumbar spine and 15.7% in the femoral neck 3 years after surgery.

Address for correspondence: O.M. Hauache, Disciplina de Endocrinologia e Metabologia, EPM, UNIFESP, Rua Pedro de Toledo, 781, 12º andar, 04039-032 São Paulo, SP, Brasil. E-mail: omar.hauache@fleury.com.br

Research supported by CNPq and Instituto Fleury. Received May 16, 2006. Accepted January 3, 2007.

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  • Correspondence and Footnotes

  • Publication Dates

    • Publication in this collection
      12 Feb 2008
    • Date of issue
      Apr 2007

    History

    • Received
      16 May 2006
    • Accepted
      03 Jan 2007
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