Postoperative hypoparathyroidism (hypoPT) is the most frequent complication after total thyroidectomy (TT). It is caused by impaired parathyroid function, leading to low calcium levels, patient discomfort, reduced quality of life (QoL), and increased healthcare costs. Traditionally, all TT patients undergo routine postoperative blood testing and standard calcium supplementation, despite varying individual risk. This investigator-initiated project aims to improve patient outcomes by using intraoperative parathyroid hormone (ioPTH) measurements to guide postoperative care. The ioPTH decline reflect parathyroid function immediately after surgery and can identify patients at high or low risk of hypoPT. The study is designed as a prospective, randomized controlled trial (RCT) with two arms: Arm A (\<75% ioPTH decrease): Patients randomized to either omission of routine postoperative calcium/PTH blood tests or standard monitoring. Arm B (\>75% ioPTH decrease): Patients randomized to either early high-dose calcium and vitamin D supplementation or standard therapy. Primary outcomes are calcium and PTH levels postoperatively, incidence of hypocalcemia, and healthcare resource use. Secondary outcomes include QoL assessed by validated questionnaires (ThyPro39, SF-36, HPQ27), transient and permanent hypoPT rates, and other surgical complications. By tailoring care to individual risk, the study aims to safely reduce unnecessary blood tests and optimize early treatment for high-risk patients. This approach has the potential to shorten hospital stays, reduce symptoms, improve QoL, and lower costs. The findings may influence clinical guidelines nationally and internationally, supporting more personalized and evidence-based management of TT patients.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
150
Standard postoperative treatment includes low-dose calcium (400 mg x 2) and vitamin D (19 mikg x 2) is initiated for all patients. In the intervention group, patients are randomized to standard low-dose (control group) or standard high-dose treatment including immediate postoperative initiation of high-dose calcium (400 mg x 4), vitamin D (19 mikg x 4), and active vitamin D supplementation (2 mikg x 2). In the control group, treatment with active vitamin D is only initiated in case of low PTH (\<1.0 pmol/L) and low Ca2+ (\<1.10 mmol/L).
Patients are randomized to either clinical monitoring only, without routine postoperative POD1 measurements of Ca2+ and PTH in one group or standard postoperative care, including routine blood tests for Ca2+ and PTH at POD1. All patients will have Ca2+ and PTH measured after the first postoperative week
Department of Otorhinolaryngology, Head and Neck Surgery
Aarhus, Central Jutland, Denmark
Plasma ionized calcium (Ca2+) concentration at postoperative week 1 (POD7), by POD1 biochemical testing status
Comparison of plasma ionized calcium (Ca2+ mmol/L) and parathyroid hormone (PTH pmol/L) after one postoperative week between patients with and without biochemical measurements at post operative day 1 (POD1.)
Time frame: 2 years
Plasma ionized calcium (Ca2+ mmol/L) concentration on postoperative day 2 (POD2)
Comparison of plasma ionized calcium (Ca2+ mmol/L) between groups at postoperative day 2 (POD2).
Time frame: 1 year
Incidence of clinically significant hypocalcemia requiring medical intervention through 12 months
Proportion of participants with clinically significant hypocalcemia, defined as plasma ionized calcium (Ca2+) \< 1.10 mmol/L and/or presence of symptoms of hypocalcemia, necessitating medical intervention (e.g., IV calcium and/or initiation or escalation of oral calcium ± vitamin D). Incidence will be compared between arms.
Time frame: 2 years
Number of postoperative blood tests through 12 months
Total number of postoperative blood tests per participant (count), compared between arms.
Time frame: 2 years
Length of index hospital stay after surgery
Duration of initial postoperative hospital stay per participant, measured in days (or hours), compared between arms.
Time frame: 2 years
Change from baseline in Thyroid-Specific Patient-Reported Outcome measure (ThyPRO-39) score through 12 months
Change from baseline in Thyroid-Specific Patient-Reported Outcome measure (ThyPRO-39) score assessed at baseline and at 1 week, 2 months, 6 months, and 12 months. Scores are transformed to a 0-100 scale (minimum 0, maximum 100); higher scores indicate worse thyroid-related quality of life (more symptoms/impairment).
Time frame: 2 years
Change from baseline in 36-Item Short Form Health Survey (SF-36) score through 12 months
Change from baseline in 36-Item Short Form Health Survey (SF-36) domain scores assessed at baseline and at 1 week, 2 months, 6 months, and 12 months. Each domain score ranges from 0 to 100 (minimum 0, maximum 100); higher scores indicate better health status/quality of life.
Time frame: 2 years
Change from baseline in Hypoparathyroidism Patient Questionnaire (HPQ-27/HPQ-28) score through 12 months
Change from baseline in Hypoparathyroidism Patient Questionnaire (HPQ-27/HPQ-28) score assessed at baseline and at 1 week, 2 months, 6 months, and 12 months. Scores are transformed to a 0-100 scale (minimum 0, maximum 100); higher scores indicate worse disease control / greater symptom burden
Time frame: 2 years
Adverse events frequency through 12 months
Number and proportion of participants experiencing any adverse event, compared between arms.
Time frame: 2 years
Incidence of transient hypoparathyroidism through 12 months
Proportion of participants with transient hypoparathyroidism, defined as plasma ionized calcium (Ca2+) \< 1.10 mmol/L and/or need for treatment with alfacalcidol, with subsequent resolution (i.e., no longer meeting the definition and not requiring alfacalcidol) within 12 months. Incidence will be compared between arms.
Time frame: 2 years
Incidence of permanent hypoparathyroidism at 12 months
Proportion of participants meeting the hypoparathyroidism definition (plasma ionized calcium (Ca2+) \< 1.10 mmol/L and/or need for alfacalcidol) that persists at 12 months, with continued need for alfacalcidol beyond 12 months. Incidence will be compared between arms.
Time frame: 2 years
Incidence of postoperative bleeding complication through 30 days
Proportion of participants with postoperative bleeding/hematoma requiring intervention (e.g., re-operation), compared between arms.
Time frame: 2 years
Incidence of postoperative infection through 30 days
Proportion of participants with postoperative infection requiring antibiotics and/or drainage, compared between arms.
Time frame: 2 years
Incidence of nerve injury through 12 months
Proportion of participants with postoperative nerve injury, defined as recurrent laryngeal nerve palsy, assessed based on patient-reported voice function and confirmed by laryngoscopy, compared between arms.
Time frame: 2 years
Number of resected parathyroid glands
Number of resected parathyroid glands per participant (count) based on pathology report, compared between arms.
Time frame: 2 years
Number of lymph nodes removed
Number of lymph nodes removed per participant (count) based on pathology report, compared between arms.
Time frame: 2 years
Thyroid pathology findings
Final thyroid pathology diagnosis based on the postoperative histopathology report, categorized as cancer, goiter, or thyrotoxicosis-related pathology, and compared between arms
Time frame: 2 years
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