Initial versus Staged Thyroidectomy for Differentiated Thyroid Cancer: A Retrospective Multi-Dimensional Cohort Analysis of Effectiveness and Safety

Simple Summary The choice between total thyroidectomy and staged completion thyroidectomy for differentiated thyroid cancer remains debated. This study investigated the safety profiles and optimal timing of completion thyroidectomy by analyzing nearly 80,000 patients. The findings demonstrate that total thyroidectomy carries higher risks of temporary and permanent hypoparathyroidism compared to completion thyroidectomy. However, scheduling completion thyroidectomy within 1–6 months of the initial lobectomy can mitigate permanent complication rates. These results provide insights to guide personalized surgical decision-making for thyroid cancer patients. Abstract The optimal surgical approach for differentiated thyroid cancer remains controversial, with debate regarding the comparative risks of upfront total thyroidectomy versus staged completion thyroidectomy following the initial lobectomy. This study aimed to assess the complication rates associated with these two strategies and identify the optimal timing for completion thyroidectomy using a multi-dimensional analysis of four cohorts: an institutional series (n = 148), the National Surgical Quality Improvement Program (NSQIP) database (n = 39,992), the TriNetX repository (n > 30,000), and a pooled literature review (10 studies, n = 6015). Institutional data revealed higher overall complication rates with total thyroidectomy (18.3%) compared to completion thyroidectomy (6.8%), primarily due to increased temporary hypocalcemia (10% vs. 0%, p = 0.004). The NSQIP analysis demonstrated that total thyroidectomy was associated with a 72% increased risk of transient hypocalcemia (p < 0.001) and a 25% increased risk of permanent hypocalcemia (p < 0.001). TriNetX data confirmed these findings and identified obesity and concurrent neck dissection as risk factors for complications. A meta-analysis showed that total thyroidectomy increased the rates of transient (RR = 1.63) and permanent (RR = 1.23) hypocalcemia (p < 0.001). Institutional and TriNetX data suggested that performing completion thyroidectomy between 1 and 6 months after the initial lobectomy minimized permanent complication rates compared to delays beyond 6 months. In conclusion, for differentiated thyroid cancer, total thyroidectomy is associated with higher risks of transient and permanent hypocalcemia compared to staged completion thyroidectomy. However, performing completion thyroidectomy within 1–6 months of the initial lobectomy may mitigate the risk of permanent complications. These findings can inform personalized surgical decision-making for patients with differentiated thyroid cancer.


Introduction
Thyroid cancer (TC) represents the most rapidly increasing cancer diagnosis in the United States, with the incidence tripling over recent decades [1].Differentiated subtypes constitute over 90% of cases and have an excellent prognosis when appropriately treated [2].However, debate persists regarding the optimal initial surgical management for low-tointermediate-risk differentiated thyroid cancer (DTC) [2].
Standard therapy requires surgery, either an initial thyroid lobectomy or total thyroidectomy (TT) [3].Although a thyroid lobectomy is recommended for low-risk DTC with small tumor size without local invasion or nodal metastases [4,5], 25-85% of resection specimens reveal worrisome features like multifocality or lymphovascular invasion that prompt completion thyroidectomy (cT) for proper staging and adjuvant therapy eligibility [6,7].Staged cT is generally warranted for patients with lower-risk disease characteristics (tumors < 4 cm, absence of extrathyroidal extension or bulky lymphadenopathy) who have indications for completion surgery based on final pathology from the initial lobectomy.However, some of the literature suggests that cT escalates complication risks from repeat operations and contralateral lobe devascularization [8][9][10], while TT remains the preferred approach for more aggressive cancers.
Prior analyses have conflicting findings regarding the risks of TT versus cT.Some studies report lower complication rates and equivalent oncologic outcomes with cT [11][12][13].However, others reveal increased recurrent laryngeal nerve (RLN) injuries or hypoparathyroidism without differences in recurrence rates [14][15][16][17].Other studies found no significantly different outcomes between TT and cT, but these conclusions also require more support [12,18,19].Defining the optimal surgical strategy and timing remains actively debated to balance risks against prognosis [8,20,21], considering factors such as costs, anesthesia exposures, and patient preferences.In addition to oncologic considerations, patient preferences play a crucial role in determining the optimal surgical approach for DTC.Patients may have varying perspectives on the trade-offs between complication risks and the burdens of undergoing a staged procedure, which should be factored into individualized decision-making.
Currently, there is no consensus on whether one-stage TT or two-stage cT thyroidectomy is associated with greater risks [13,14,17,22,23].As more DTC cases are treated surgically [24], it is important to investigate outcomes following these procedures.We aimed to perform an extensive analysis of DTC patients undergoing TT or cT using four patient cohorts: (1) an institutional series of 148 patients; (2) a national sample of nearly 40,000 cases; (3) a multicenter database of over 30,000 cases; (4) a pooled literature review of over 7000 patients.By triangulating evidence across these diverse datasets, we sought to provide a rigorous and generalizable comparison of complication rates between surgical approaches.An ancillary objective was examining cT timing thresholds.These real-world data assessing comparative safety and effectiveness can facilitate personalized recommendations through risk-benefit profiling, enabling surgeons and patients to select an approach that aligns with individualized needs and values when oncologically appropriate.

Institutional Cohorts 2.1.1. Study Design
We conducted a retrospective cohort study following Institutional Review Board approval (#2023-452).The study period spanned 2010-2021, with an average follow-up period of 33.6 months (ranging from 1 to 115 months).Patients undergoing TT or cT for DTC at our institution were included.TT was defined as single-stage total resection, while cT consisted of removing the remaining lobe in those with a prior contralateral lobectomy.

Study Population
Patients were included if they were undergoing either TT or cT for thyroid cancer without prior neck surgery or radioactive iodine therapy.Exclusion criteria were loss to follow-up or incomplete data.

Study Variables
The parameters collected encompassed demographics, comorbidities, pathology details, genomic mutation status, American Thyroid Association recurrence risk stratification, and treatment modalities.Postoperative calcium and PTH levels were collected for patients who developed biochemical hypocalcemia (defined as total serum calcium < 8.5 mg/dL or ionized calcium < 1.0 mmol/L) within 30 days of surgery.The lowest recorded calcium and PTH values during this period were used for analysis.

Study Outcomes
The surgical complications assessed were hematoma, seroma, recurrent laryngeal nerve (RLN) injury, and hypocalcemia (calcium < 8.5 mg/dL or 2.12 mmol/L).Complications were categorized as temporary (<6 months duration) or permanent.Oncologic outcomes included recurrence events and disease-free and overall survival.Additional subgroup analysis compared 40 TT to 53 cT patients with tumor size ≤ 2 cm for complication rates.

Data Source
Data were obtained from the NSQIP database, an outcomes-based program established by the American College of Surgeons.The database collects information on patient demographics, preoperative risk factors, intraoperative variables, and 30-day postoperative outcomes [25].It allows participating hospitals to benchmark their surgical outcomes, identify areas for improvement, and implement targeted strategies to enhance patient care.

Study Population
The study population included thyroid cancer patients who underwent thyroid surgery from 2007 to 2020.The inclusion criteria were based on CPT procedure codes (Supplementary Table S1).Patients with incomplete records, previous neck surgery, radiation therapy, a prior history of thyroid cancer, or non-thyroid malignancies were excluded.Those who had a postoperative diagnosis of congenital thyroid abnormalities, unspecified thyroid disease, secondary malignancies, or parathyroid disorders were also excluded.

Study Variables
The variables examined included patient demographics and comorbidities such as diabetes, hypertension, congestive heart failure, etc.The American Society of Anesthesiologists (ASA) classification was used to assess a patient's physical health prior to anesthesia and surgery.Surgical variables included surgeon specialty, surgery duration, and transfusion requirements.

Study Outcomes
This study focused on comparing operative procedures and complication rates among cohorts.It analyzed various parameters, including operative time, transfusion rates, return to the operating room, length of stay, and various complications.Complications of interest included bleeding, superficial incisional infection, RLN injury, postoperative hypocalcemia, sepsis, septic shock, deep vein thrombosis/pulmonary embolism, and pneumonia.

Subgroup Analysis
An additional analysis was conducted to assess postoperative hypocalcemia risk stratified by neck dissection (ND) status among TT groups compared to the cT cohort.
Thirty-day hypocalcemia rates were compared via Chi-square analysis.Relative risk (RR) and 95% confidence intervals were calculated using cT as the reference group.

Data Source
We retrospectively analyzed de-identified electronic health records for over 135 million patients from 112 healthcare organizations across 16 countries, including the United States, via the TriNetX research platform.This analysis followed the Strengthening the Reporting of Observational Studies in Epidemiology STROBE (guidelines) for reporting observational studies.

Study Population
The study population included thyroid cancer patients who underwent thyroidectomy, identified using CPT procedure codes (Supplementary Table S1).Patients with incomplete records were excluded from the analysis.

Study Outcomes
The primary outcomes analyzed encompassed post-thyroidectomy complications, specifically temporary and permanent hypocalcemia and RLN injury.Hypocalcemia was defined as calcium < 8.5 mg/dL.The duration was defined as transient (lasting < 6 months) versus permanent (>6 months) based on the persistence of sequela or the need for ongoing supplementation.The prevalence and RR of complications were compared between TT and cT groups.

Literature Screening 2.4.1. Systemic Search
A systematic search was conducted using PubMed, ScienceDirect, and Google Scholar databases to identify studies comparing TT to cT for DTC.The search strategy incorporated terms related to "differentiated thyroid cancer", "total thyroidectomy", "completion thyroidectomy", and associated Medical Subject Headings terminology.Studies published in English through January 2024 were considered.

Eligibility Criteria
The inclusion criteria consisted of comparative studies analyzing complication rates between TT and cT for differentiated thyroid carcinoma.Eligible study designs included randomized trials, cohort studies, and case-control studies.Case reports, reviews, abstracts, and non-English studies were excluded.

Data Extraction
Four reviewers independently screened studies for eligibility and extracted data using predefined criteria.The extracted information included year, country, study design, sample size, population characteristics, and rates of complications, including nerve injuries and hypocalcemia.Disagreements in extraction were resolved by consensus.

Statistical Analysis
The statistical analysis was performed using R Studio version 2022.07.1 Build 554 (R Foundation for Statistical Computing, Vienna, Austria).Descriptive statistics included frequencies and percentages for categorical means and standard deviations or medians and interquartile ranges for continuous variables.Pearson's Chi-square or Fisher's exact tests were used for categorical variables, and Mann-Whitney U or Student's t-tests for continuous variables.Logistic regression models were used to identify predictors of surgical complications or disease recurrence, reporting odds ratios and 95% confidence intervals (95%CI).Time-to-event analysis was conducted using Kaplan-Meier curves to estimate survival probabilities over time, with the log-rank test evaluating differences between groups.Univariate Cox proportional hazards regression quantified hazard ratios for factors impacting disease-free and overall survival.Significant variables were further assessed in multivariate Cox models to determine independent prognostic variables.All statistical tests were two-tailed, and a significance level of p < 0.05 was used to determine statistical significance.The DerSimonian-Laird approach with the Mantel-Haenszel method was used for pairwise comparisons to calculate pooled RR and 95%CI.The "Metafor" R package was used.

Characteristics of the Study Population
The study included 148 DTC patients, comprising 137 papillary thyroid carcinomas (PTCs) and 11 follicular thyroid carcinomas (FTCs).Of these, 60 underwent TT, and 88 underwent cT.No patients had distant metastasis at presentation.There were no significant demographic or pathological differences between the TT and cT groups in terms of mean age (51.7 ± 14.4 years for TT vs. 52.1 ± 15.2 years for cT, p = 0.70), gender (81.7% female for TT vs. 81.8%for cT, p = 0.98), racial background (31.7% African American for TT vs. 38.6%for cT, p = 0.48), body mass index (30.6 ± 7.6 kg/m 2 for TT vs. 32.2± 8.3 kg/m 2 for cT, p = 0.24), tumor size (1.2 cm, IQR = 0.4-2.1 for TT vs. 1.56 cm, IQR = 0.9-2.4 for cT, p = 0.14), or the rate of intermediate/high-risk cancers per ATA criteria (29.3% for TT vs. 26.2%for cT, p = 0.88), as shown in Table 1.Among patients who developed biochemical hypocalcemia, the mean postoperative nadir total serum calcium level was 7.8 ± 0.4 mg/dL in the total thyroidectomy group and 8.1 ± 0.3 mg/dL in the completion thyroidectomy group (p = 0.09).The mean postoperative nadir PTH level was 12.6 ± 8.2 pg/mL in the total thyroidectomy group and 18.4 ± 11.5 pg/mL in the completion thyroidectomy group (p = 0.14).
Among the 148 patients undergoing thyroidectomy at our center, there were no significant differences in the mean number of parathyroid glands inadvertently excised (0.3 ± 0.6 for total thyroidectomy vs. 0.2 ± 0.5 for completion thyroidectomy, p = 0.28) between the two surgical groups.

Postoperative Complications and Disease Outcomes
Complications occurred more frequently in the TT group (18.3%) compared to the cT group (6.8%) (p = 0.038).This was driven by increased temporary hypocalcemia among TT patients (10% for TT vs. 0% for cT, p = 0.004).No permanent RLN injuries or permanent hypocalcemia events occurred.No mortality events occurred during follow-up.Only two patients (1.4%) suffered disease recurrence during a median follow-up of 24.4 months (IQR 5.0-55.3months), with no significant differences in recurrence rates (p = 0.16), diseasefree survival durations (p = 0.19), or overall survival times (p = 0.16) between surgical groups, as outlined in Table 1.On multivariate analysis, no factors independently predicted complications among all patients, as shown in Supplementary Table S2.

Subgroup Analysis for Small Tumors
Among 93 patients with small tumors, 40 underwent TT, and 53 underwent cT.The complication rate remained higher for TT patients (22.5%) compared to cT patients (7.5%), although this was not significant (p = 0.07).Temporary hypocalcemia occurred more frequently with TT (12.5%) versus cT (0%) for tumors < 2 cm in size (p = 0.013).No permanent RLN injuries, permanent hypocalcemia, wound complications, or hematomas/seromas were reported for either surgical group (Supplementary Table S3).

Cohort Selection Process from the NSQIP Dataset
The initial NSQIP cohort undergoing thyroid surgery consisted of 201,015 patients.Cases with undefined surgical procedures were first excluded (n = 6122), followed by the exclusion of partial thyroidectomies (n = 73,980) or missing demographics (n = 117).This left 112,737 patients undergoing one-stage total thyroidectomies and 8176 undergoing completion thyroidectomies.To focus the analysis on thyroid cancer treatment, nonmalignant conditions and concomitant thyroid disorders were additional exclusion criteria (n = 81,599), yielding a final cohort of 39,314 patients.Among these, 35,753 (90.9) had upfront total thyroidectomies, while 3561 (9.1%) had completion procedures after a prior partial thyroidectomy.

Predictors of Overall Mortality
Supplementary Figure S2 displays the results of the Cox regression analysis for 30-day mortality.On multivariate evaluation, diabetes mellitus emerged as the only comorbidity that increased mortality risk by over 2-fold (HR = 2.24, 95%CI = 1.06-4.72,p = 0.034).However, the central comparison by procedure type showed no distinction, with cT conferring similar 30-day mortality risk versus TT (unadjusted HR = 0.99, 95%CI = 0.29-3.35,p = 0.99).This suggests that the choice of surgical technique does not independently impact early perioperative death rates.

Cohort Selection Process from the TriNetX Dataset
The TriNetX collaborative health record network contains data on over 135 million patients globally.Within this database, 244,580 patients had a diagnosis of thyroid cancer.Of those with thyroid cancer, 31,707 (86.3%) were undergoing TT, and 5039 (13.7%) were undergoing cT.

Subgroup Analysis
When stratified by obesity status, the risk of postoperative complications remained higher in TT versus cT patients.Among non-obese patients, TT was associated with a significantly increased risk of transient hypocalcemia (RR = 1.68; p < 0.001), permanent hypocalcemia (RR = 1.23; p = 0.005), and permanent RLN injury (RR 1.13; p = 0.018) compared to cT.Similarly, TT patients with obesity had a higher risk of transient hypocalcemia (RR = 1.85; p < 0.001) and permanent hypocalcemia (RR = 1.48; p < 0.001) versus the cT group (Table 4).

Impact of Neck Dissection
When TT was accompanied by ND, the risks of postoperative complications were higher compared to cT alone.TT with ND had an increased risk of transient hypocalcemia (RR = 1.97; p < 0.001), permanent hypocalcemia (RR = 1.42; p < 0.001), transient RLN injury (RR = 1.28; p = 0.002), and permanent RLN injury (RR 1.24; p = 0.022) versus cT.Additionally, radical ND was associated with more complications than limited ND among patients undergoing TT.Radical ND had higher risks of transient hypocalcemia (RR = 1.41; p < 0.001), transient RLN injury (RR = 1.66; p < 0.001), and permanent RLN injury (RR = 1.95; p < 0.001) compared to limited ND.There was no difference in permanent hypocalcemia rates based on the extent of ND (RR = 1.14; p = 0.06) (Table 5).

Discussion
This multi-dimensional analysis of nearly 80,000 thyroidectomy patients provides valuable insights regarding safety profiles and optimal timing for completion thyroidectomy in DTC management.We demonstrated increased risks of transient and permanent hypocalcemia across cohorts, without a distinction in recurrent laryngeal nerve injury rates.
Our institutional data revealed an overall higher complication rate with total thyroidectomy, driven by increased temporary hypocalcemia.This likely relates to the more extensive bilateral dissection and parathyroid gland manipulation required for total thyroidectomy procedures.However, no permanent nerve injuries, permanent hypoparathyroidism, wound complications, hematomas/seromas, or mortality events occurred, although longerterm follow-up was limited.Further investigations with prolonged monitoring are warranted to clarify potential differences in permanent complication rates between procedures.
An examination of nearly 40,000 NSQIP cases echoed these institutional findings.TT conferred double the risk of postoperative hypocalcemia compared to cT, and this was exacerbated by central neck dissection.This reinforces that more extensive dissection escalates injury to vascularized parathyroid glands.Careful postoperative calcium monitoring and judicious supplementation are imperative, especially after comprehensive central compartment surgery.
This aligns with the TriNetX analysis of 30,000 patients demonstrating a 25-72% elevated hypocalcemia risk after TT relative to staged cT, compounded by obesity and radical lymphadenectomy.These real-world data verify that completion procedures mitigate complications as additional risk factors accumulate.
However, it is important to acknowledge that staged surgery is associated with higher costs, increased anesthesia risks, longer cumulative hospital stays, and extended total operative times compared to single-stage procedures.While our analysis focuses on the decreased hypocalcemia rates with staging, surgeons and patients must weigh the full range of trade-offs when considering staged surgery, including resource utilization, hospital stays, and total operative times.Cost-analysis studies evaluating the trade-offs between the two approaches in light of their complication profiles would help guide optimal surgical decision-making.
Incorporating patient preferences is also crucial when comparing surgical strategies.While staged procedures may offer advantages in terms of reducing certain complication rates, they also involve additional surgery, anesthesia, and recovery time, which may be undesirable for some patients.Thorough patient counseling and shared decision-making are essential in weighing the risks and benefits of staged versus single-stage procedures.Surgeons should provide clear information on the potential complications, recovery process, and long-term outcomes associated with each approach.Patient preferences may vary based on individual values, lifestyle factors, and personal experiences.Some patients may prioritize minimizing the risk of complications like transient hypocalcemia, while others may prefer to avoid multiple surgeries.The decision between a single-stage or staged procedure should be made collaboratively between the surgeon and patient, taking into account the patient's specific cancer characteristics, overall health status, and personal preferences.Future research should incorporate patient-reported outcomes and quality-oflife measures to better understand the impact of different surgical approaches on patient experiences and satisfaction.
Similarly, a pooled meta-analysis of over 6000 published cases across a wide geographic region further supports the increased transient (64%) and permanent (23%) hypocalcemia seen with TT.However, there was no significant difference between the two surgical procedures regarding nerve injury rates.The lack of permanent laryngeal nerve injury in each treatment group can possibly be attributed to the experience and surgical volume of the surgeon as well as the use of postoperative laryngoscopy rather than the type of surgery itself [26,27].
The optimal timing for cT remains controversial.Some studies have found no difference in complication rates when cT is performed between 10 and 90 days versus after 90 days from the initial thyroid surgery.However, other evidence suggests that delayed completion thyroidectomy lowers complication risks [8,20,21].Based on the TriNetX analysis, we determined 1-6 months following lobectomy as the "optimal window" with the lowest complication rates compared to later or earlier intervals.Our meta-analysis demonstrated no differences in complication rates based on a 3-month threshold for early versus delayed completion.This indicates a potential benefit in staging operations during the 1-6-month window to mitigate long-term risks of hypocalcemia and recurrent laryngeal nerve injury.The precise mechanism is unclear but may relate to avoiding extremes of acute inflammation with very early reoperation versus advanced scarring and anatomical distortions with later completion procedures.
This study has certain limitations.All datasets, apart from our single-center cohort, lacked granularity on surgical techniques, the extent of resection, and postoperative supplementation, which could modify complication rates.In addition, the meta-analysis was relatively underpowered to detect differences between granular timing thresholds.However, the rigorous compilation of evidence across institutional, multicenter, populationbased, and literature-derived datasets lends reliability with complementary results.
Moving forward, prospective multicenter registries can refine personalized decision algorithms through better patient and procedure characterizations.Cost analyses should also evaluate staged completion approaches in relation to hospital resources.Ultimately, delineating the precise trade-offs between surgical risks and oncologic outcomes can advance individualized and value-based thyroid cancer care.

Conclusions
This aggregate analysis demonstrates increased transient and permanent hypocalcemia risks with TT versus cT for DTC.The real-world data also identified an opportune 1-6-month completion window that positively impacts permanent postoperative sequelae.However, staged procedures also carry trade-offs in terms of increased costs, anesthesia exposures, cumulative hospital stays, and total operative times that must be weighed against their complication benefits.Factoring in patient preferences through shared decisionmaking is essential to tailor surgical strategies to individual needs and values.Randomized controlled data could help further clarify optimal completion thyroidectomy timing thresholds that best balance oncologic outcomes with morbidity.These multi-dimensional insights carry useful implications for surgical decision-making through individualized risk-benefit profiling.Assessing these nuances can guide staged and timely completion thyroidectomy approaches to optimize care for DTC.

Figure 1 .
Figure 1.Risk of postoperative complication rates in total versus completion thyroidectomy in patients with well-differentiated thyroid cancer.(A) Risk of transient hypocalcemia.(B) Risk of permanent hypocalcemia.(C) Risk of transient recurrent laryngeal nerve (RLN) injury.(D) Risk of permanent RLN injury.Toraih's 2024 study includes the current TriNetX analysis.Pairwise comparison was performed using Mantel-Haenszel method with DerSimonian-Laird estimator.Results are reported as relative risk (RR) and 95% confidence interval (CI).Due to absence of heterogeneity, results of fixed-effects model are reported.Red values indicate significant risk.Blue values indicate non-significant pooled estimates [9-14,16,17,22,23].

Figure 1 .
Figure 1.Risk of postoperative complication rates in total versus completion thyroidectomy in patients with well-differentiated thyroid cancer.(A) Risk of transient hypocalcemia.(B) Risk of permanent hypocalcemia.(C) Risk of transient recurrent laryngeal nerve (RLN) injury.(D) Risk of permanent RLN injury.Toraih's 2024 study includes the current TriNetX analysis.Pairwise comparison was performed using Mantel-Haenszel method with DerSimonian-Laird estimator.Results are reported as relative risk (RR) and 95% confidence interval (CI).Due to absence of heterogeneity, results of fixed-effects model are reported.Red values indicate significant risk.Blue values indicate non-significant pooled estimates [9-14,16,17,22,23].

Table 1 .
Characteristics and outcomes of thyroidectomy patients at our institution.

Table 2 .
Characteristics and outcomes of thyroidectomy patients in NSQIP dataset.

Table 3 .
Postoperative hypocalcemia risk stratified by type of neck dissection among total thyroidectomy groups.

Table 4 .
Risk of short-term and long-term postoperative complications in TriNetX dataset.
Data are presented as counts (percentages) of total thyroidectomy (TT) and completion thyroidectomy (cT) patients.Two-sided Chi-square test was used for comparison.Bold p-values indicate statistical significance < 0.05.

Table 5 .
Risk of postoperative complications stratified by extent of neck dissection in TriNetX dataset.Data are presented as counts (percentages) comparing (a) total thyroidectomy (TT) with neck dissection (ND) and completion thyroidectomy (cT) patients or (b) thyroidectomy with limited and radical neck dissection.Two-sided Chi-square test was used for comparison.Relative risk (RR) and 95% confidence interval (CI).Hypocalcemia was defined as calcium < 8.5 mg/dL.Duration was defined as transient (lasting < 6 months) versus permanent (>6 months).RLN: recurrent laryngeal nerve.Bold p-values indicate statistical significance < 0.05.

Table 6 .
Impact of timing of completion thyroidectomy on complication rates.