Risk factors for hypocalcemia after total thyroidectomy

Shuchleib-Cung, Ariel; Garcia-Gordillo, Jose Antonio; Ferreira-Hermosillo, Aldo; Mercado, Moises; Shuchleib-Cung, Ariel; Garcia-Gordillo, Jose Antonio; Ferreira-Hermosillo, Aldo; Mercado, Moises

doi:10.24875/ciru.21000579

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Cirugía y cirujanos

versión On-line ISSN 2444-054Xversión impresa ISSN 0009-7411

Cir. cir. vol.90 no.6 Ciudad de México nov./dic. 2022 Epub 09-Dic-2022

https://doi.org/10.24875/ciru.21000579

Original articles

Risk factors for hypocalcemia after total thyroidectomy

Factores de riesgo para hipocalcemia después de una tiroidectomía total

Ariel Shuchleib-Cung¹^*

Jose Antonio Garcia-Gordillo²

Aldo Ferreira-Hermosillo³

Moises Mercado³

^¹Department of Surgery, ABC Medical Center

^²Department of Internal Medicine, ABC Medical Center

^³Medical Research Unit in Endocrine Diseases, Hospital de Especialidades, Centro Médico Nacional, Siglo XXI, Instituto Mexicano del Seguro Social (IMSS). Mexico City, Mexico

Abstract

Background:

Hypocalcemia is a common complication of total thyroidectomy; transient hypocalcemia has been reported in up to 68% of the patients.

Materials and methods:

Chart review of all patients undergoing total thyroidectomy from 2016 to 2020. Clinical, biochemical, and pathological information was registered. We sought correlations between the different variables and the occurrence of post-operative hypocalcemia. This is a retrospective study carried out at a tertiary care teaching hospital.

Objectives:

The aim of the study was to ascertain the incidence of hypocalcemia after thyroidectomy and to establish potential clinical and pathological risk factors for its development.

Results:

Three hundred and thirty-seven patients were included in this study (78% female), with a median age of 47 years. The majority (75%) harbored thyroid neoplasms. Post-operative hypocalcemia developed in 43 patients (12.7%). On bivariate analysis, the most significant risk factor was an intraoperative injury of the parathyroid glands (OR = 2.49, 95% CI = 1.11-5.59), followed by a surgical time > 2.5 h (OR = 2.0, 95% CI = 1.03-4.19), concomitant lymph node dissection (OR = 2.45, 95% CI = 1.2-4.9), and placement of drains (OR = 2.40, 95% CI = 1.19-4.87). Only parathyroid injury remained statistically significant on multivariable analysis.

Conclusions:

The most significant risk factor for the development of post-operative hypocalcemia after thyroidectomy is injury of the parathyroid glands, which is usually noticed by the surgeon.

Keywords Hypocalcemia; Hypoparathyroidism; Thyroidectomy; Thyroid cancer; Parathyroid glands

Resumen

Introducción:

La hipocalcemia es una complicación común después de una tiroidectomía; la hipocalcemia transitoria ha sido reportada hasta en el 68% de los pacientes posoperados.

Materials y métodos:

Revisión de expedientes de pacientes a los cuales se les realizo una tiroidectomía total entre el 2016 y 2020. La información clínica, bioquímica y patológica fue recopilada. Se busco una correlación entre las variables y el desarrollo de hipocalcemia. Es un estudio retrospectivo en un hospital escuela de atención terciaria.

Objetivos:

Determinar la incidencia de hipocalcemia pos-tiroidectomía y establecer posibles factores de riesgo clínicos y patológicos para desarrollarlo.

Resultados:

Se incluyeron 337 pacientes en este estudio (78% mujeres), con edad media de 47 años. La mayoría (75%) presentaron neoplasias tiroideas. Cuarenta y tres pacientes desarrollaron hipocalcemia (12.7%). En el análisis bivariado el factor de riesgo mas importante fue la lesión de paratiroides (RM = 2.49, IC95% = 1.11-5.59), seguido por un tiempo quirúrgico > 2.5 horas (RM = 2.0, IC 95% = 1.03–4.19), disección linfática (RM = 2.45, IC95% = 1.2-4.9) y la colocación de drenajes (RM = 2.40, IC95% = 1.19-4.87). Únicamente la lesión de paratiroides mantuvo significancia en el análisis multivariado.

Conclusiones:

La lesión de paratiroides es el factor de riesgo mas grande para desarrollar hipocalcemia y generalmente es identificado por el cirujano.

Palabras clave Hipocalcemia; Hipoparatiroidismo; Tiroidectomía; Cáncer de tiroides; Glándulas paratiroides

Introduction

Well-differentiated thyroid carcinoma (WTC) is the most frequent endocrine malignant neoplasia. Its incidence has been rising over the past two decades, at least in part due to the widespread use of neck ultrasound¹. According to Globocan, thyroid cancer in Mexico is the 4^th most common malignant tumor with 12,000 new cases diagnosed in 2018².

Total thyroidectomy is the treatment of choice in most cases of WTC (3). When this procedure is carried out by a high-volume surgeon, the morbidity and mortality are almost negligible³. However, thyroidectomy is not only performed by expert surgeons and in this setting the complication rate of the procedure increases considerably³. Transient post-operative hypocalcemia is perhaps the most frequent complication, occurring in 15-30% of cases, although in some series the reported incidence is over 60%⁴. Permanent hypocalcemia is considerably less frequent and its incidence ranges between 0.2% and 10%⁴,⁵. The risk factors that have been associated with the development of post-operative hypocalcemia include female gender, extrathyroidal tumor invasion, parathyroid injury, central compartment lymph node dissection, and obesity⁴. We here describe and analyze the occurrence of postoperative hypocalcemia in our center, seeking to find clinical and biochemical features that could serve as prognostic markers.

Material and methods

The electronic charts of patients undergoing a total thyroidectomy between January 2016 and December 2020 at the American British Cowdray Medical Center in Mexico City were retrospectively reviewed. The study protocol was approved by our Local Scientific and Ethics Committees. Patients younger than 16 years and patients with preoperative hypocalcemia or hypoparathyroidism as well as patients with scheduled concomitant parathyroid surgery were excluded from the study. The corresponding pathology reports were also assessed looking for the presence of parathyroid tissue. Hypocalcemia was defined as a total serum calcium < 8 mg/dL or an ionized calcium < 4.0 mg/dL. In those patients with discrepant results, the normal measurement was favored.

Variables were categorized into the following three groups:

a) Baseline variables: Gender, age, pre-operative hyper/hypothyroidism, history of neck surgery, and comorbidities.
b) Surgical variables: Indication for surgery, operating room (OR) time, a > 200 mL intraoperative bleeding, lymph node dissection, drain placement, surgeon’s yearly volume, and parathyroid identification, parathyroid gland incidental injury, and reimplantation when detected.
c) Tumor variables: Size, histological type, stage, lymph node invasion, capsular, and vascular lymphatic or neural invasion as well as locoregional and/or distant metastasis.

Statistical analysis

Nominal and ordinal variables were described as absolute numbers and percentages; numeric variables depending on their type of distribution were expressed as means with standard deviations medians with interquartile ranges. Continuous variables were analyzed with the T student test for independent variables when a normal distribution was present and with the U of Mann–Whitney when it was not. Nominal and ordinal variables were analyzed with a χ² test. All the losses from baseline variables were smaller than 15% so they were all substituted. The ordinal and nominal variables were substituted by mode and the continuous variables by means or medians, depending on their distribution. Finally, the association values like odds ratio and confidence intervals and the statistical significance were obtained with χ², as well as with linear and logistic regressions. p < 0.05 was considered statistically significant. All the information was consolidated on an unidentified spread sheet on Microsoft Excel version 2010 and the statistical analysis was done using IBM SPSS Statistics version 25.

Results

A total of 337 patients underwent a total thyroidectomy at our center over the study period. Median age was 47 years (interquartile range [IQR] = 37-69), 262 (77.7%) were women and 75 (22.2%) were men (Table 1). Preoperatively, the majority of patients had normal thyroid function tests; 43 (12.8%) had a prior diagnosis of hypothyroidism and were under levothyroxine replacement and 29 (8.6%) had evidence of hyperthyroidism (Table 1). In the majority of patients (253, 75.1%), the underlying diagnosis was WTC (Table 1). Other indications for surgery included goiter (38, 11.3%) and thyroiditis (15, 4.5%) (Table 1). Complete outcome information was available in 290 patients. Post-operative hypocalcemia was diagnosed in 38 (13.1%). Symptoms and signs of hypocalcemia ranged from perioral numbness to frankly positive Trusseau and Chvostek signs.

Table 1 Baseline characteristics of the cohort

	n	%
Median age (IQR)	47	(37-69)
Female gender	262	77.7
Hypothyroidism	43	12.8
Hyperthyroidism	29	8.6
Underlying diagnosis
– Thyroid cancer	253	75.1
– Goiter	38	11.3
– Thyroiditis	15	4.5
– Other	31	9.2

IQR: interquartile range.

Table 2 compares the characteristics of the patients who developed post-operative hypocalcemia with those who remained normocalcemic. A pre-operative diagnosis of hypothyroidism was more commonly present among patients who did not develop post-operative hypocalcemia (13.4% vs. 0%, p = 0.018). Post-operative hypocalcemia developed in 32 of the 219 patients with a diagnosis of thyroid cancer (14.6%), in two of the 31 patients with multinodular goiter (6.4%), and in two of the 15 patients with thyroiditis (13.3%); the difference in the rates of hypocalcemia among patients with these three different diagnostic categories did not reach statistical significance. Lymph node invasion and dissection as well as surgical time > 2.5 h were significantly more common among patients who became hypocalcemic after surgery. Parathyroid gland injury was significantly more frequent in patients who developed hypocalcemia than in those who remained normocalcemic, as was the need to leave a drain after surgery.

Table 2 Univariate analysis of clinical and surgical features of patients who developed post-operative hypocalcemia and those who did not

n (%)	Hypocalcemia 37 (12.7%)	Normocalcemia 253 (87.3%)	p
Age > 60	8 (21.6)	60 (23.7)	0.770
Female gender	24 (64.8)	199 (78.6)	0.063
Pre-operative hypothyroidism	0	34 (13.4)	0.018
Pre-operative hyperthyroidism	4 (10.8)	21 (8.3)	0.611
Underlying diagnosis
– Thyroid carcinoma	32 (86.4)	187 (74)	0.33
– Goiter	2 (5.4)	29 (11.4)	0.33
Lymph node invasion	15 (40.5)	54 (21.3)	0.01
Lymph node dissection	16 (43.2)	60 (23.7)	0.01
Surgical time > 2.5 h	18 (48.6)	79 (31.2)	0.03
Estimated blood loss > 200 mL	2 (5.4)	12 (4.7)	0.861
Parathyroid gland identification	35 (94.6)	238 (94)	0.891
Parathyroid gland reimplantation	1 (2.7)	18 (7.1)	0.311
Parathyroid gland injury	16 (43.2)	58 (23)	0.008
Drain placement	17 (46)	66 (26)	0.008

In bold: p statistically significant

On bivariate analysis, pre-operative hypothyroidism, intraoperative parathyroid gland injury, and the need to leave a drain were all significantly associated with the development of post-operative hypocalcemia (Fig. 1). However, on multivariate analysis, only documented parathyroid injury remained significantly associated with the development of post-operative hypocalcemia (OR = 3.68, 95% CI = 1.65-8.21, p = 0.001) (Fig. 2). Table 3 shows a side-by-side comparison between the bivariate and the multivariate analysis.

Figure 1 Bivariate model.

Figure 2 Multivariate model.

Table 3 Bivariate and multivariate analysis of factors associated with the development of postoperative hypocalcemia

	Bivariate analysis			Multivariate analysis

	OR	95% CI	p	OR	95% CI	p
Age	0.88	0.35-2.10	0.779	0.99	0.97-1.02	0.692
Hypothyroidism	0	0	0.018	0	0	0.008
Hyperthyroidism	2.06	0.56-7.08	0.611	1.49	0.45-4.85	0.507
Parathyroid injury	2.49	1.11-5.59	0.008	3.68	1.65-8.21	0.001
Drain placement	2.4	1.79-4.87	0.008	1.88	0.89-3.96	0.097

CI: confidence interval

Discussion

Parathyroid gland injury with the consequent post-operative hypocalcemia due to primary hypoparathyroidism (PHPT) is without a doubt, one of the most frequent complications of thyroid surgery, particularly of total thyroidectomy³,⁴. In a recently published meta-analysis, comprising 115 observational studies, the median rates of transient and permanent hypocalcemia were 27% (IQR = 19-38) and 1% (IQR = 0-3), respectively⁶. Post-operative hypocalcemia even when transient could hamper an appropriate surgical recovery and may prolong hospitalization⁴. Several risk factors have been variably associated with the occurrence of this complication, including concomitant central neck dissection specially when performed by a low volume surgeon, an underlying diagnosis of thyroid cancer or Graves’ disease, a lengthy surgical procedure particularly when accompanied by a > 200 mL intraoperative bleeding, as well as the lack of identification and/or inadvertent injury of parathyroid glands⁶.

The incidence of post-operative hypocalcemia in our cohort was unexpectedly low (12.7%) despite the fact that over 75% of our patients had an underlying diagnosis of thyroid cancer and that more than 25% had also been subjected to the central neck dissection. Although post-operative hypocalcemia tended to be more frequent among our patients with a thyroid malignancy, this did not reach statistical significance, likely because of the relatively small number of patients with a non-malignant underlying diagnosis included in the study. In contrast to other series whereby over half of the patients who develop post-operative hypocalcemia do so asymptomatically⁷,⁸, all of the hypocalcemic patients in our cohort had at least paresthesias appearing 8-12 h after the surgical event. Female gender and old age have both been associated with an increased risk of post-operative hypocalcemia⁶. Almost 80% of the patients in our cohort were women, and post-operative hypocalcemia tended to be more frequent in women than in men; however, this did not reach statistical significance.

It is controversial to what extent does the identification (and preservation?) of parathyroid glands during surgery impacts the probability of developing post-operative hypocalcemia. Some authors claim that the lack of identification of parathyroid glands is associated with transient⁹,¹⁰ as well as with permanent¹¹ hypocalcemia, irrespective of the underlying diagnosis, and the extent of thyroidectomy. Conversely, other studies have found that identifying the parathyroid glands during surgery is by itself associated with a greater likelihood of post-operative hypocalcemia¹². In our study, neither the identification nor the reimplantation of parathyroid glands was significantly associated with the development of hypocalcemia. Yet, we did find that parathyroid gland injury, be it inadvertent (i.e., parathyroid glands found in the pathology specimen) or advertent, significantly predicted the development of postoperative hypocalcemia in both, bivariate and multivariate analyses. Intuitively, thyroidectomies performed by large volume surgeons should have a lower rate of complications, including the development of post-operative hypocalcemia⁶,¹³. Our study was not designed to address this issue, since the majority of our patients were operated by large volume surgeons.

Patients undergoing thyroidectomy for diffuse toxic goiter or Graves’ disease appear to have an elevated risk of post-operative hypocalcemia¹¹. More recently, one of the few prospective studies evaluating post-operative hypocalcemia after thyroidectomy found that thyrotoxicosis diagnosed < 10 years before surgery was significantly associated with hypocalcemia⁸. Of the 29 hyperthyroid patients included in our cohort, only four developed post-operative hypocalcemia. Interestingly, however, none of the 43 patients with hypothyroidism became hypocalcemic after surgery and in the multivariate analysis, hypothyroidism was negatively associated with post-operative hypocalcemia.

Our study has several limitations such as its retrospective nature, the lack of a uniform surgical procedure due to the fact that it reflects the combined experience of several low volume and a few large volume surgeons, and perhaps more importantly, the lack of long-term follow-up. Despite these weaknesses, the present report takes place in a real-life setting and thus, our data are undoubtedly representative of what occurs in day-to-day life.

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FundingThe authors have no financial disclosures

Ethical disclosures

Protection of human and animal subjects. The authors declare that no experiments were performed on humans or animals for this study.

Confidentiality of data. The authors declare that they have followed the protocols of their work center on the publication of patient data.

Right to privacy and informed consent. The authors have obtained approval from the Ethics Committee for analysis and publication of routinely acquired clinical data and informed consent was not required for this retrospective observational study.

Received: July 12, 2021; Accepted: August 16, 2021

^* Correspondence: Ariel Shuchleib-Cung E-mail: dr.shuchleib@gmail.com

^{Conflicts of interest}

The authors declare that they do not have any conflicts of interest regarding this article.

Instituto Nacional de Cardiología Ignacio Chávez. Published by Permanyer. This is an open access article under the CC BY-NC-ND license