Hyperparathyroidism Clinical Trial
Official title:
18F-Fluorocholine PET/CT in the Pre-operative Localization of Hyperfunctional Parathyroid Gland in Primary and Secondary Hyperparathyroidism
Hyperparathyroidism is a common endocrine disorder which can result in many severe
complications. For patients with hyperparathyroidism, Tc-99m sestamibi imaging is the major
imaging tool for pre-operative localization of the hyperfunctioning gland. However, sestamibi
scan have only limited sensitivity in detecting multigland disease and hyperplastic foci. New
imaging tracer with 18F-fluorocholine (18F-FCH) has showed avidity in parathyroid tissues.
Nevertheless, the research data of 18F-FCH PET/CT are only preliminary.
The goal of our study is to compare the diagnostic performance of 18F-FCH PET/CT and single
isotope dual phase sestamibi scintigraphy for patients with hyperparathyroidism.
From Jan. 1st, 2018 till Dec. 31st, 2019, the investigators will prospectively enroll
patients with biochemical evidence of hyperparathyroidism and intended to receive
pre-operative image study. The patients will receive single isotope dual phase sestamibi
scintigraphy and 18F-FCH PET/CT. Each image will be evaluated by experienced interpreter for
abnormal uptake suspicious for hyperfunctioning parathyroid gland. The reference standard
will be the final surgical results. Diagnostic performance of both sestamibi scan and PET/CT
scan will be measured and calculated.
The investigators conducted a prospective study to investigate the performance of 18F-choline
(FCH) PET/CT and 99mTc- sestamibi scintigraphy in the pre-operative localization of
hyperfunctioning parathyroid glands.
Single isotope dual phase Tc-99m sestamibi imaging protocol:
Fasting is not needed before radiotracer injection. No specific drug restriction is needed.
Scan will be conduced by using a dual head gamma camera unit (Infinia Hawkeye; GE Medical
Systems, Milwaukee,Wis), and scans will be interpreted on a work station with the use of
compatible software (Xeleris).
An indwelling intravenous catheter connected to an infusion line and an saline syringe will
be set on each patient. 99mTc-sestamibi (925 +/- 10% MBq) will be injected intravenously
through the infusion line and will be flushed by saline. The image acquisition of the first
phase is to be taken 15 minutes after radiotracer injection. The second phase will be
acquired 2-4 hours after the initial tracer injection. The scintigraphic scan field will
cover from neck to chest. Additional field-of-view will be performed if the patient has known
surgically reimplanted parathyroid gland in the arms.
Two nuclear medicine physicians assess the single isotope dual phase 99mTc-sestamibi
scintigraphy. The investigators have access to the patients' history and interpreted
individually by each reader, with disagreements to be resolved by consensus. Uptake
conspicuity will be evaluated in 4-graded scale. 0. Unable to identify any focal uptake; 1.
Inconspicuous focus; 2. Focal mild uptake; 3. Focal intense uptake. For the determination of
a diagnosis, score 0 and 1 are considered a negative resulte and 2 to 3 a positive result.
18F-FCH PET imaging protocol: Fasting is not needed before radiotracer injection. No specific
drug restriction is needed. Scan will be conduced by using a PET/CT unit (Discovery ST; GE
Medical Systems, Milwaukee,Wis), and scans will be interpreted on a work station with the use
of compatible software (Xeleris).
An indwelling intravenous catheter connected to an infusion line and an saline syringe will
be set on each patient. 18F-FCH (185 +/- 10% MBq) will be injected intravenously through the
infusion line and will be flushed by saline. The injected 18F-FCH dose, injection time,
post-injection residual activity, time of start imaging and time of end imaging will be
recorded on case report form. 18F-FCH PET/CT scan acquisition is to be taken 5 to 10 minutes
after radiotracer injection. The PET/CT (80-120 mA, 120 kVp) scan field will cover from skull
to mid-thigh. Patient with reimplanted focus will be put into the field-of-view. The 18F-FCH
PET/CT scan time will require 35-40 minutes.
Two nuclear medicine physicians assess the 18F-FCH PET/CT images. The investigators have
access to the patients' history and interpreted individually by each reader, with
disagreements to be resolved by consensus. However, the interpreters have no access to the
sestamibi imaging results. For 18F-FCH PET/CT images, uptake conspicuity will be evaluated in
4-graded scale. 0. Unable to identify any focal uptake; 1. Inconspicuous focus; 2. Focal mild
uptake; 3. Focal intense uptake. For the determination of a diagnosis, score 0 and 1 are
considered a negative resulte and 2 to 3 a positive result.
Reference standard is established by surgical pathology:
The reference standard will be the surgical pathological results. Removed gland will be
histologically confirmed as parathyroid adenoma or hyperplasia. For in situ hyperfunctioning
parathyroid glands, the image results will be compared with the surgical results as correct
lateralization (right side or left side), and correct polarity (upper pole or lower pole),
sequentially. For ectopic and reimplanted glands, presence of pathological or biochemical
evidence of hyperfunctioning gland removal of the image suggested lesion will be the
reference standard.
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