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Open Access 10.01.2022 | Original Article

Parathyroidectomy May Cause Remission of Uraemic Tumoral Calcinosis in Haemodialysis Patients

verfasst von: Haiting Huang, Jun Lu, Pengwei Guo, Jun Pang, Jing Ma, Linlin He, Yanwu You

Erschienen in: Indian Journal of Surgery | Sonderheft 1/2024

Abstract

Few cases of uraemic tumoral calcinosis (UTC) have been reported. This study aimed to investigate the clinical efficacy of parathyroidectomy for UTC. Historical clinical data of patients with end-stage renal disease and UTC who underwent parathyroidectomy were analysed. Absorption of metastatic calcification was compared before and after operation. Changes in intact parathyroid hormone, serum calcium, phosphorus, and alkaline phosphatase levels were analysed before parathyroidectomy and at 1 week and 3, 6, and 12 months after parathyroidectomy. Eight patients met the enrolment criteria (men, 6; mean age, 38.6 SD 10.9 years). Uraemic tumoral calcinosis, which developed 2–8 years after dialysis began, was caused by secondary hyperparathyroidism. Massive calcium deposition was found in the shoulder (n = 6), hip (n = 3), and elbow (n = 2). Four patients had > 2 joints affected, and a single joint was involved for four patients. Seven patients had rapid remission (< 6 months) of the masses after parathyroidectomy. In one patient, the mass remained unabsorbed until 6 months postoperatively. Hypocalcaemia occurred in all patients where parathyroidectomy was successful, and calcium supplementation was required 1 year postoperatively. Serum intact parathyroid hormone levels on day 7 and at 3 and 6 months postoperatively decreased significantly from baseline and remained low 1 year postoperatively (22.015 SD33.134 pg/mL). Postoperative phosphorus levels were significantly lower than preoperative levels (p < 0.05), but no significant difference was found in alkaline phosphatase levels (p > 0.05). Parathyroidectomy has promising efficacy for UTC treatment and regulation of serum intact parathyroid hormone and phosphorus. Hypocalcaemia is a common complication after parathyroidectomy. Current Controlled Trials ChiCTR2000041311, date of registration: Dec. 23, 2020.
Hinweise
Jun Lu And Pengwei Guo are co-first authors

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Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Introduction

Uraemic tumoral calcinosis (UTC), a disease of abnormal bone and mineral metabolism, is a rare complication of end-stage renal disease (ESRD) that causes abnormal deposition of calcium and phosphorus around large articular structures. Most patients are asymptomatic for several years, although some may experience skin ulcerations and joint movement and activity limitations [1].
Little is known about its exact mechanism, and limited treatments show varied efficacies. Most researchers believe that UTC is usually caused by hypercalcaemia and hyperphosphataemia resulting from secondary hyperparathyroidism (SHPT). UTC typically occurs 8–36 months after the onset of SHPT, with morbidity rate of 0.5–3% in patients receiving haemodialysis [2]. Treatment strategies for UTC include reduction of the Ca × P product and contributors to mineralisation [3], kidney transplantation, or parathyroidectomy (PTX). Parathyroidectomy is considered effective for the treatment of UTC in haemodialysis patients with SHPT. In some UTC patients, however, PTX is ineffective [4]. This study aimed to investigate the clinical efficacy of PTX to treat UTC in eight patients to provide a reference for clinical practice.

Patients and Methods

Study Population

Patients with SHPT and UTC who underwent maintenance haemodialysis in our dialysis centre and underwent total PTX without transplantation (tPTX) between January 2008 and January 2019 were eligible for inclusion. The inclusion criteria were diagnosis of SHPT with tumour-like metastatic calcification and tPTX. The exclusion criteria were SHPT with a history of drug treatment and history of multiple neck operations. Clinical data, including age, sex, body mass index (weight/height; kg/m2), primary disease, dialysis method, dialysis duration, metastatic calcification duration, and degree and time of postoperative absorption of metastatic calcinosis, and levels of intact parathyroid hormone (iPTH), serum calcium, phosphorus, and alkaline phosphatase (ALP) before and after surgery, were collected. Informed consent was obtained from all the participants. This study was approved by the human research ethics committee of the Affiliated Hospital of Youjiang Medical College for Nationalities (YYFY-LL-2019–004).

Biochemical Examination

Intact parathyroid hormone, serum calcium, serum phosphorus, and ALP levels at 1 week and 3, 6, and 12 months after surgery were measured. Levels of iPTH (normal, 6–80 pg/mL) were measured using enzyme-linked immunosorbent assay. Serum calcium (normal, 2.02–2.6 mmol/L), serum phosphorus (normal, 0.81–1.62 mmol/L), and ALP (normal, 31–135 U/L) levels were measured using a Japanese 7600–010 Blood Biochemical Automatic Analyser (Roche Diagnostics). Patients 4 and 7 failed to return to our dialysis centre for postoperative re-examination due to family circumstances; thus, the results of the blood draws and re-examinations were obtained from the records of the local dialysis centres where the procedures were performed.

Image Analysis

X-ray or CT scans were performed 3, 6, and 12 months after the operations to compare the absorption of metastatic calcinosis at each time point. Two senior imaging physicians analysed the images independently. The patchy, lumpy, and cluster calcification in soft tissues and the calcification area of soft tissues were calculated.

Surgical Methods

All procedures were performed by the same gland surgery team. Given the current best evidence, together with our clinical experience and the attitudes of the patient and family members, general anaesthesia, cervical transverse incisions, and tPTX were performed in all eight patients. All resected glands were sent to the Department of Pathology of our hospital for histopathological examination.
Secondary hyperparathyroidism was diagnosed when the patient’s serum iPTH was > 800 pg/mL (continuous refers to more than two test results). Surgical success was defined as iPTH < 300 pg/mL in the first postoperative week. The phenomenon of extraosseous calcium deposition in the soft tissue around the joint in patients with end-stage renal disease is known UTC. The duration of UTC was defined as the time interval between the first discovery of the tumour and day of operation. The UTC size was defined as the size of the tumour protruding from the skin surface. With regard to the degree of UTC absorption, the tumour size and calcification area were reduced by more than half postoperatively, which was defined as obvious absorption. Complete absorption occurred if the tumour disappeared completely. The duration of dialysis covered the beginning of dialysis to the diagnosis.

Postoperative Calcium Supplementation

On the first postoperative day, after conventional administration of oral calcitriol (2 µg QN) and calcium bicarbonate (1.5 g TID), each patient received calcium gluconate injection, which was continuously pumped with a micropump at 2 mg/(kg/h). Serum calcium levels were evaluated every 6 h on the first postoperative day, and once a day on postoperative days 2–7. Intravenous calcium supplementation was terminated once the serum calcium concentration was > 2.8 mmol/L. Calcitriol and calcium bicarbonate doses were then halved, and the serum calcium concentration was re-evaluated once a month to adjust the oral calcium dose.

Statistical Analysis

All data were processed using SPSS 13.0 statistical software (IBM Corp., Armonk, NY, USA). Measurement data with normal distribution were expressed as mean and standard deviation, and measurement data with non-normal distribution were expressed as m (1/4, 3/4). When the measurement data were consistent with the homogeneity of variance, paired t-test was used for comparison between groups. Statistical significance was accepted when p < 0.05.

Results

Baseline Data

From January 2008 to January 2019, there were 519 maintenance haemodialysis patients in our dialysis centre, among which 205 (39.4%) patients developed SHPT and 10 (1.92%) patients had SHPT combined with UTC. Eight patients met the inclusion criteria of this study (among the two patients who did not meet the inclusion criteria, one patient underwent local resection of the shoulder joint tumour; despite wound healing after operation, the patient died of septic shock. The other patient’s buttock tumour subsided after oral administration of Sevelamer Carbonate Tablets for 2 months).
We enrolled eight patients (men, 6; aged 45–60 years, women, 2; aged 30–42 years) with SHPT and UTC. The primary disease was chronic glomerulonephritis for all eight patients. The dialysis duration was 2–8 (average, 4.75 SD 2.12) years. The UTC duration was 3–30 (average, 13.37 SD 11.51) months. At disease onset, all patients presented with a painless mass, and the surface of the mass ruptured, with chronic sinus formation occurring 1 year after onset in patient 1. The shoulder (n = 6), hip (n = 3), and elbow (n = 2) were involved, and patients had a single affected joint (n = 4) or > 2 affected joints (n = 4). Patient 2 had pulmonary metastatic calcification and calciphylaxis of the left heel. No patient had a history of trauma or surgery at disease site. Baseline data are compared in Table 1.
Table 1
Baseline data of 8 patients
 
Patient 1
Patient 2
Patient 3
Patient 4
Patient 5
Patient 6
Patient 7
Patient 8
Age (years)
45
45
30
43
42
43
46
50
Sex
Man
Man
Women
Man
Women
Man
Man
Man
Body mass index
22.27
27.34
19.31
24.22
21.88
20.51
20.42
26.02
Dialysis duration (years)
4
8
3
5
6
2
7
3
UTC duration(months)
26
30
3
3
12
6
24
3
Primary disease
GN
GN
GN
GN
GN
GN
GN
GN
Dialysis frequency
tiw
biw
biw
tiw
biw
biw
biw
biw
Preoperative treatment history
Calcitriol
Sevelamer
Calcitriol Sevelamer
Calcitriol Sevelamer
Calcitriol
Calcitriol
Calcitriol, Sildenafil
Calcitrio
Calcitriol
Lesion pain
None
None
None
None
None
None
None
None
Lesion hardness
Hard
Tough
Tough
Tough
Tough
Tough
Tough
Tough
Limited joint motion
Yes
None
None
None
None
None
None
None
Lesion site
Left elbow, both shoulders, left knee
Right shoulder, left elbow, lung
Right shoulder
Right hip
Left Hip
Right shoulder,
both hips,
right palm
Right shoulder,
left thoracodorsal
Both shoulders
Localised skin ulceration
Yes
None
None
None
None
None
None
None
X-ray/CT findings
 
All of them showed multiple lobulated calcinosis around the joint, which were well-defined from the surrounding tissue and did not invade the joint cavity and bone
Preoperative iPTH
(pg/mL)
591
2580
1022
1297
608
1267
1284
1468
Serum calcium (mmol/L)
2.19
2.24
2.56
2.29
2.2
2.36
2.3
2.18
Serum phosphorus (mmol/L)
2.92
1.8
3.0
2.21
2.9
2.43
2.7
2.4
Preoperative ALP (U/L)
57
831
141
154
114
83
158
610
GN glomerulonephritis

Surgical Results

All patients underwent tPTX, and seven of the surgeries were successful. In patient 4, only three parathyroid glands were found. One week after surgery, the iPTH level for this patient was still > 300 pg/mL, which did not meet the criteria for surgical success. The pathological types of the parathyroid glands were adenoma (n = 5) and hyperplasia (n = 3) (Table 2).
Table 2
Features of uraemic tumoral calcinosis and comparison of absorption lesions after operation
Patient no
UTC duration (months)
Postoperative absorption time (months)
Lesion location
W/wot postoperative recurrence
Pathology
Patient 1
26
12
Left elbow, both shoulders, left knee
Yes
Hyperplasia
Patient 2
30
6
Right shoulder, left elbow, lung
None
Adenoma
Patient 3
3
1
Right shoulder
None
Adenoma
Patient 4
3
2
Right hip
None
Adenoma
Patient 5
12
2
Left hip
None
Adenoma
Patient 6
6
2
Right shoulder, both hips, right palm
None
Hyperplasia
Patient 7
24
5
Right shoulder, left thoracodorsal
None
Adenoma
Patient 8
3
1
Both shoulders
None
Hyperplasia

Postoperative Absorption of UTC

The postoperative absorption of lesions in eight patients is detailed in Table 2. Nearly complete absorption of the lesions at the joint sites was observed in seven patients 1–6 months after surgery (Fig. 1AD), including patient 4 for whom the surgery was not surgically successful. At 6 months after surgery, patient 1 had slightly reduced metastatic calcification in the elbow joint, but at 12 months, the patient presented with an even greater density of metastatic calcinosis in the left elbow joint and a mass, which developed postoperatively (Fig. 1E). Patient 2 had pulmonary metastatic calcification and calciphylaxis of the left heel; the number of metastatic pulmonary calcifications significantly reduced 6 months after operation (Fig. 1F), but calciphylaxis on his left heel worsened (Fig. 1G). Symptoms of skin itching, bone pain, and insomnia were significantly improved in all patients. The blood pressure of patients with intractable hypertension before surgery was well controlled postoperatively.

Dynamic Monitoring of Serum iPTH, ALP, Calcium, and Phosphate Levels After PTX

Preoperative and postoperative biochemical indicators are compared in Table 3. In the successful surgery group, the serum iPTH level decreased significantly by day 7 and remained low at 3, 6, and 12 months after surgery (p < 0.001). In patient 4, the iPTH level gradually increased to preoperative levels 6 months after surgery. All seven patients whose surgery was successful developed hypocalcaemia, and they required long-term oral calcitriol and calcium carbonate treatments. Subsequently, the serum calcium levels in these patients dropped and were maintained at 1.70 SD 0.22 mmol/L at 1 year after surgery, and hypocalcaemia symptoms disappeared. The serum phosphorus levels of these patients also decreased significantly after surgery (p < 0.05), whereas ALP levels did not change significantly (p > 0.05).
Table 3
Dynamic changes of iPTH, Ca, P, and ALP after PTX
Time
Calcium (mmol/L)
Phosphorus (mmol/L)
iPTH (pg/L)
ALP (U/L)
Pre-op
2.28 SD 0.14
2.59 SD 0.42
1327.12 (956.5,1382.5)
284.71 SD 306.33
1 week post-op
1.88 SD 0.16
2.03 SD 0.43
3.2 (1.2,11.3)△
241.14 SD 246.29
3 months post-op
1.71 SD 0.20
2.11 SD 0.57
4.8 (2.2,10.0)△
183.85 SD 202.81
6 months post-op
1.58 SD 0.24
2.23 SD 0.59
2.8 (1.1,7.9)△
199.71 SD 59.42
12 months post-op
1.70 SD 0.22
2.11 SD 0.29
2.3 (1.8,6.7)△
169.714 SD 42.62
P value
 < 0.05
 < 0.05
 < 0.001
 > 0.05
The measurement data of normal distribution is represented by mean + standard deviation, and the measurement data of non-normal distribution is represented by M (1/4,3/4). When the measurement data were consistent with the homogeneity of variance, used paired t-test for comparison between groups. Compared with preoperative, * P < 0.05, △P < 0.001

Discussion

A total of eight patients who had metastatic calcinosis at various joint and non-joint sites (i.e. chest wall), including the shoulder joint (5/8), hip joint (3/8), and elbow joint (2/8), were included in this study. The predilection sites were consistent with those in previous studies [1]. It is unclear why UTC occurs frequently at large joints. Fukuta et al. [5] found that in patients with SHPT, pulmonary calcinosis often occurred in the upper lung, and onset was related to the presence of a pH gradient in the lung tissue. The pCO2 in the upper lung was lower than that in the lower lung, and the pH was alkaline, which resulted in calcium phosphate precipitation. This suggests that the onset of UTC in large joints may be related to a change in the pH of synovial fluid, which is similar to the appearance of tophi in the joints of individuals with gouty arthritis. However, no studies have examined the correlation between the change in pH in the synovial fluid of patients with SHPT and the occurrence and progression of UTC. Uraemic tumoral calcinosis often appears 8–36 months after SHPT onset, with an incidence rate of 0.5–3.0% [6, 7], and the actual incidence rate may be higher due to the lack of specific symptoms at the early disease stage. With the advancements in blood purification technologies, the incidence of SHPT is increasing annually, and the incidence of UTC increases accordingly [8].
A diagnosis of UTC mainly relies on the patient history and typical imaging findings. The primary clinical manifestation of UTC is a painless mass in the periarticular soft tissues that does not involve the synovium of the joint, and this slowly growing mass can lead to limited joint function. Uraemic tumoral calcinosis presents as subcutaneous papules or nodules in the skin, with no significant visible changes in the local skin, in which excessive tumours can form a sinus with white silt-like material flowing from the skin opening. Radiography, CT, and magnetic resonance imaging are highly sensitive and can show irregular lobulated hyperdense calcinosis without destruction of the periarticular bone [9, 10]. In this study, microscopically, amorphous calcium surrounded by dense fibrous tissue was observed, and the main components were hydroxyapatite and calcium pyrophosphate dihydrate crystals. An infiltration of macrophages, fibroblasts, and osteoclast-like giant cells was also observed in some cases. All eight patients had a painless mass at a large joint site as the first symptom. One patient had UTC for more than 30 months, the surface of the mass ruptured, and a chronic sinus formed. The texture became exceptionally hard, which was consistent with typical clinical manifestations of UTC.
The pathogenesis of UTC has not been elucidated, and some researchers believe that the disease is caused by autosomal dominant genetic malformation [3, 11]. Other researchers consider that a primary defect of the collagen tissue causes a stress response of the collagen fibres around the diseased joint [12]. Some scholars believe that the abnormal metabolism of calcium, phosphorus, and cholesterol results in the ectopic distribution of calcium [13]. Vieira et al. [14] also suggested that the disease was caused by calcium redistribution due to a local nutrient supply disturbance following trauma. At present, scholars mainly agree with the theory of abnormal calcium and phosphorus metabolism. Several UTC cases with a history of calcitriol pulse therapy have been reported [15, 16]. In the present study, eight patients had a long-term history of taking Calcitriol. Therefore, we believe that excessive intake of active vitamin D3 may be the main reason for the development of UTC. The primary disease of the eight patients with chronic renal failure was primary glomerulonephritis. We searched the literature at home and abroad and found 31 cases of UTC. There were 15 cases with glomerulonephritis as the primary disease, accounting for 58.9% of patients. Owing to the small number of cases, we cannot confirm the correlation between UTC and primary glomerulonephritis.
Currently, the main treatment options include medication (calcium phosphate binders, calcimimetics, and sodium thiosulfate), surgical resection of the tumour, PTX, and renal transplantation, but there have been no large-scale controlled studies on the optimal treatment modalities [17]. In previous case reports, PTX was considered an effective treatment for UTC, and metastatic calcinosis was completely absorbed 1–5 months after PTX [18, 19]. Zhou et al. [20] reported a case of PD complicated with UTC that was completely absorbed 3 months after PTX with forearm transplantation. Daisuke et al. [21] presented a case of parathyroid carcinoma partially controlled by cinacalcet, in which the tumoral calcinosis was successfully resolved 1 year after a total PTX. However, Jaeger et al. [22] reported that, among three patients who received PTX treatment due to SHPT with UTC, only one had a tumour that could be absorbed after surgery. The other two patients had low preoperative serum ALP levels, and the tumours showed no significant absorption after surgery. The authors concluded that PTX is usually effective only in dialysis patients with severe hyperparathyroidism and high serum ALP levels. Wang et al. [23] retrospectively analysed the clinical data of eight UTC patients treated with PTX and found that five showed complete tumour absorption within 1–6 months after surgery, while the other four showed no significant tumour absorption. They reported that the PTX effectiveness rate for the treatment of UTC was 62.5% and that the non-absorption of UTC after PTX was related to a history of lower ALP levels and UTC. Zhang et al. [24] believed that prolonged persistence of UTC induced more fibroblasts and collagen encasing around calcium hydroxyapatite crystals, and this was one of the reasons why the calcinosis was difficult to absorb after PTX. Bas et al. [25] found that macrophages were associated with mineralised resorption and those macrophages could transform into osteoclasts and degrade calcified elastin. In the present study, the preoperative ALP level was significantly lower in the patient who did not experience UTC absorption after PTX than in the other seven patients, and this result is consistent with those of Wang et al. [23]. However, those study results were controversial because of the small sample size. Experimental verification with large sample studies is required to determine whether there is a relationship between low preoperative ALP and UTC non-absorption after PTX. The mechanism of UTC absorption after PTX has not been elucidated, and it may be related to the ALP level and improvement of calcium and phosphorus metabolism after PTX. Serum calcium level and phosphate were decreased post-PTX, which then prevented the increase of tumour-like metastatic calcification [26]. Finally, hydroxyapatite and calcium pyrophosphate dihydrate crystals were dissolved. However, specific mechanisms of tumour absorption have not been reported. In our study, all eight patients with SHPT underwent PTX, of which seven showed complete UTC absorption within 1–6 months after PTX. Even for the patient whose surgery was unsuccessful, the tumour was completely absorbed 3 months after surgery. This confirmed the hypothesis that PTX can promote UTC absorption by improving calcium and phosphorus metabolism.
Regarding study limitations, first, this study followed a single-centre design, and due to the rarity of tumoral calcinosis in uremic SHPT patients, the number of patients in the study group was limited. Second, two patients failed to return to our hospital on time, and complete imaging data were not collected. Third, no experiments were performed to clarify mechanism of UTC absorption. In conclusion, this study shows the effectiveness of parathyroidectomy for the treatment of uraemic tumoral calcinosis. Thus, additional clinical studies with large sample sizes are needed to verify the effect of parathyroidectomy on uraemic tumoral calcinosis and to investigate the mechanism of uraemic tumoral calcinosis absorption after parathyroidectomy.

Declarations

This study was approved by human research ethics committee of the Affiliated Hospital of Youjiang Medical College for Nationalities (YYFY-LL-2019–004). All procedures performed in this study involving human participants were in accordance with the 1964 Helsinki Declaration and its later amendments or comparable ethical standards. The informed consent was obtained from all the participants.
Written informed consent was obtained from all participants included in the study.

Competing Interests

The authors declare no competing interest.
Written informed consent was obtained from all participants included in the study.
Open AccessThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://​creativecommons.​org/​licenses/​by/​4.​0/​.

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Metadaten
Titel
Parathyroidectomy May Cause Remission of Uraemic Tumoral Calcinosis in Haemodialysis Patients
verfasst von
Haiting Huang
Jun Lu
Pengwei Guo
Jun Pang
Jing Ma
Linlin He
Yanwu You
Publikationsdatum
10.01.2022
Verlag
Springer India
Erschienen in
Indian Journal of Surgery / Ausgabe Sonderheft 1/2024
Print ISSN: 0972-2068
Elektronische ISSN: 0973-9793
DOI
https://doi.org/10.1007/s12262-022-03283-w

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