Spinal Tumor Clinical Trial
Official title:
Accuracy, Safety and Diagnostic Outcome of Percutaneous Fluoroscopic vs. CT Guided Transpedicular Core Needle Biopsy for Spinal Infections and Tumors. A Prospective Randomized Trial
Spinal biopsy is important to obtain culture and histopathological diagnosis in spine infection and tumors. To date, there is no prospective randomized study comparing both techniques. Therefore, the aim of this prospective randomized trial was to evaluate the accuracy, safety and diagnostic outcome of both these techniques.A prospective randomized trial was performed in 60 patients divided equally into fluoroscopic and CT guided spinal biopsy groups. Transpedicular approach was done with 8G core biopsy needle. Specimens were sent for histopathological examinations and cultures. Diagnosis were made based on biopsy results, clinical criteria and disease progression during 6 months follow up. Radiation expose to patients and doctors were measured with optically stimulated luminescence dosimeters (OSLDs).
This prospective randomized study was carried out in a single institution from November 2016
to June 2018.
Patients were recruited by three spine surgeons from the same institution after eligibility
assessment. Sixty consecutive patients were randomized equally into fluoroscopic and CT
guided spinal biopsy groups. Randomization procedure was performed using a computer generated
random number sequence on www.random.org. Separate individuals completed the random
allocation sequence, patient enrollment and outcome assessment. Outcome assessors were
blinded to group assignment.
Data collection Clinical data collected were: patient demographics, comorbidities, infective
parameters, tumor markers, Magnetic Resonance Imaging (MRI) findings and pre-biopsy pain
score at rest using visual analogue scale (VAS). Intraoperative data included radiation
exposure dosage, biopsy duration and complications encountered. Following biopsy, we recorded
the biopsy result, 6-hourly pain score (VAS) at for 48 hours, additional analgesia
requirement and complications.
Radiation measurement Commercial optically stimulated luminescence dosimeters, OSLDs
(NanoDotTM Dosimeter, Landauer Inc, Glenwood, IL) were used to measure radiation dose. Ten
OSLDs were placed on patients and doctors prior to all biopsies over selective areas
representing radiosensitive organs. Placements of the OSLDs were done by a single observer.
OSLDs were processed using MicroStar OSLD reader system (Landauer, Inc. Glenwood, IL). Each
OSLD was processed 3 times during each reading to obtain a mean value to minimize error. The
absorbed doses were measured in centigrays (cGy). Bleaching/zeroing of the OSLDs were done
using optical annealing system containing fluorescent lamps (Osram lumilux, 24 W, 280 ~780
nm) in between each use of OSLDs.
Biopsy technique Transpedicular approach with an 8-gauge T-Lok™ bone marrow biopsy needle
(Argon Medical Devices, Athens, TX, USA) was used in both arms. 10cc 2% lignocaine was
infiltrated prior to biopsy. Biopsy needle was tapped gently with mallet through the pedicle
and into the lesion under imaging guidance. Trocar was then withdrawn once it reached the
affected area. The cannula was rotated several times to disengage sample from surrounding
tissue. Then, aspiration of samples was done using 10-ml syringe prior to retraction of the
cannula. Tissue samples were retrieved from the cannula with the use of stylet.
Samples collected were sent to laboratories for histopathological examination (HPE), culture
and sensitivity (bacteriology, mycology and acid-fast bacilli), staining (Gram and
Ziehl-Neelsen) and polymerase chain reaction (PCR) test for Mycobacterium tuberculosis.
1. Fluoroscopy Guided Spinal Biopsy Arm: Fluoroscopy guided spinal biopsies were done by
spine surgeons in the operation theatre using C-Arm fluoroscopy device
(OECFluorostar7900Compact - GE®). C-arm image intensifier was positioned until
fluoroscopic beam was collinear with the corresponding vertebral body on AP view prior
to insertion of biopsy needle.
2. CT guided Spinal Biopsy Arm: CT guided spinal biopsies were done by radiologist under
guidance of 128-slice CT scanner (SOMATOM Definition AS+, Siemens Medical Solutions USA,
Inc.). Preliminary axial CT scanning was done in bone window (window width, WW:2500;
window level, WL:500) at the pre-selected levels decided from previous imaging to plan
the needle access. Biopsy was then performed under sequential CT-fluoroscopy scan.
Post biopsy care Antimicrobials were commenced upon completion of biopsy for patients who
were diagnosed to have spine infection. Disease progression was assessed based on clinical
symptoms, ESR, CRP and/or MRI repeated during 6 months follow up for patients who were not
treated for spinal infection.
For suspected spinal tumor cases, negative biopsies that were reported to have inadequate
sample, were repeated with the other method or other investigation modalities will be
resorted accordingly. Patients with negative biopsy that was reported to have adequate sample
were follow up for 6 months for disease progression.
Sample size Sample size was determined based on accuracy of biopsy as outcome variable, in
which the accuracy rate was 0.89. It was estimated using G*Power software (version 3.1.9.2)
based on 2 proportions formula (Fisher's exact test). With alpha level of 0.05, 95%
confidence interval and power of study 0.8, a minimum number of 52 patients (26 patients for
each arm) was required for this study.
Statistical analysis Data were analyzed with SPSS Inc., Chicago, IL (SPSS v 23). Continuous
data were reported as mean ± standard deviation and compared using t test. Chi-squared
testing was used for between-groups comparisons. Fisher-exact test was used for the
comparison of diagnostic accuracy between fluoroscopic and CT guided spinal biopsy. A p-value
of <0.05 was considered significant.
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