A Study to Compare the Safety and Imaging Pattern of Cyclotron-produced Technetium (CTC) vs. Generator-produced Technetium (G-PERT) in People With Thyroid Disorders Who Need Surgery

A Pivotal Phase III Study of Cyclotron-produced Tc-99m Pertechnetate (CTC) Compared to Generator-produced Tc-99m Pertechnetate (G-PERT) in Subjects With Thyroid Disorders

Status

Completed

Phases

Phase 3

Study type

Interventional

Source

ClinicalTrials.gov

Registry ID

NCT02980679

Enrollment

Registered

2016-12-02

Start date

2017-03-03

Completion date

2019-02-25

Last updated

2022-04-11

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Thyroid Gland Diseases

Brief summary

A 99mTc Pertechnetate (G-PERT) scan is a nuclear medicine test that can create an image of the thyroid gland and other organs. G-PERT is approved by Health Canada for the direct imaging and measurement of thyroid uptake. Doctors and researchers at the University of Alberta have developed a new method of producing 99mTc Pertechnetate (called CTC). It is made in a cyclotron at the Medical Isotope and Cyclotron Facility (MICF) at the University of Alberta, Edmonton, Alberta. This new production method will provide another source of 99mTc Pertechnetate. The aim of this study is to confirm that CTC is safe and can be used interchangeably with G-PERT.

Detailed description

The clinical trial will be a Phase III, prospective, crossover, image interpretation blinded, single site study. All subjects will receive Tc-99m pertechnetate (one CTC and one G-PERT administration separated by at least 48 hours) and subsequently be imaged for thyroid uptake and whole body biodistribution. The order of the scans will be randomized. The thyroid image will be interpreted for uptake / no uptake in the thyroid, and the whole body biodistribution image will be interpreted for uptake / no uptake in selected anatomical sites. Interpretation of thyroid imaging results will be compared with other clinical findings (such as pre-surgical ultrasound, fine needle aspirate, and post-surgical pathology results, when available). All imaging assessments will be conducted by 1 blinded Nuclear Medicine physician. A safety evaluation will be conducted on all subjects receiving CTC, consisting of vital signs, haematology and SMA-12 serum biochemistry profile (pre-injection and post-imaging), and, for both CTC and G-PERT, an adverse event assessment (until the subject leaves the Nuclear Medicine department) after each administration.

Interventions

DRUGCTC

After injection of CTC, a whole body and thyroid scan will be performed.

DRUGG-PERT

After injection of G-PERT, a whole body and thyroid scan will be performed.

Study design

Allocation

Intervention model

SINGLE_GROUP

Primary purpose

DIAGNOSTIC

Masking

NONE

Eligibility

Sex/Gender

ALL

Age

18 Years to 79 Years

Healthy volunteers

Inclusion criteria

1. Male or female ≥ 18 years of age and \< 80 years of age. 2. Have a proven or suspected thyroid pathology that requires surgery by standard clinical criteria. 3. Able and willing to follow instructions and comply with the protocol. 4. Provide written informed consent prior to participation in the study.

Exclusion criteria

1\. Nursing or pregnant females.

Design outcomes

Primary

Measure	Time frame	Description
Clinical Comparability of CTC with G-PERT	up to 1 year	The primary efficacy endpoint is the clinical comparability of CTC with G-PERT consisting of a combination of the following results: 1. A thyroid image, assessed for uptake or no uptake in the thyroid. 2. A whole body biodistribution study, assessed for uptake or no uptake in selected anatomical areas.

Secondary

Measure	Time frame	Description
Changes in haematology / SMA-12 serum biochemistry after CTC injection	Before CTC injection and after CTC scan (within ~30 min)	A blood sample is drawn before injection of CTC and after CTC scan. The haematology and SMA-12 serum biochemistry parameters will be recorded and all changes will be summarized.
Number of participants with adverse events	up to 1 year	Subjects will be monitored for adverse events after CTC and G-PERT scans while in the Nuclear Medicine Department. All adverse events observed or reported will be recorded and assessed.
Change in vital signs after CTC injection	Before CTC injection and after CTC scan (within ~30 min)	Vital signs are measured before injection of CTC and after CTC scan and changes will be summarized.
CTC diagnostic outcomes and parameters	up to 1 year	Calculation of diagnostic outcomes (TP, TN, FP, FN) and the corresponding diagnostic parameters (sensitivity, specificity, accuracy).
Overall clinical comparability of CTC with G-PERT	up to 1 year	The overall clinical comparability of CTC with G-PERT using diagnostic outcomes (True Positive, True Negative, False Positive, False Negative) to determine the corresponding diagnostic parameters (sensitivity, specificity, accuracy).
Correlation of CTC with other clinical findings	up to 1 year	Correlation of thyroid images with other clinical findings (such as pre-surgical ultrasound, FNA, and post-surgical pathology results, when available).

Countries

Canada

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Feb 4, 2026