Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT03631095 |
| Other study ID # |
201805119RINA |
| Secondary ID |
|
| Status |
Completed |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
August 10, 2018 |
| Est. completion date |
October 29, 2020 |
Study information
| Verified date |
March 2020 |
| Source |
National Taiwan University Hospital |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
Metastatic vertebral disease is a major hazard for oncological patients because the
performance and life quality will substantially deteriorate if presence of neoplastic
compression. And the subsequent treatment and overall survival will be dismal. Restoration of
vertebral stability and prevention of neurological deterioration are treatment goal. Surgical
treatment is an important and effective method for metastatic spinal disease. For aggressive
surgical method, long-term control is better. However, massive bleeding is often encountered
in this surgery, and preoperative evaluation is very important for successful operation.
Imaging play major role in this tasks. MRI, angiography, and nuclear medicine studies are
common modalities, but take longer time and are often suboptimal. Dual-energy CT has the
ability to detect contrast medium enhancement in osseous structure. It therefore is a
potential optimal tool in the evaluate the metastatic spinal malignancy. It also own
advantage of rapid scanning, optimal resolution, and easy reformatting.In this study, we
intend to use this tool to establish the imaging biomarker for tumoural vascularity, to
compare its performance with other modalities, and to investigate its optimal imaging
condition, which will bring valuable information for treatment planning for aggressive spinal
surgery before metastatic disease.
Description:
Spinal metastasis is the leading course of vertebral malignancy. It cause neoplastic spinal
cord compression and neurological deficit. The treatment strategy depend on the pathological
type, performance status, and life expectancy.(1, 2) The goal of treatment is to avoid
neurological deterioration, to keep functional life, and to control bone pain. Because
disease cure is rarely the treatment goal in the circumstance of metastatic disease, the
treatment strategy involve multidisciplinary approaches. When evidence of neoplastic
compression, local oncological treatment is often needed to preserve neurological function
and to restore vertebral column stability. Radiation therapy can be applied for some
radiosensitive tumour, but surgery is often required to meet above goal. Simple decompression
and fixation is often applied, but the long-term control rate is suboptimal. Aggressive
spinal surgery has relative longstanding effect to maintain neurological and oncological
outcome in selective patients. (3)
Aggressive spinal surgery, including extensive corpectomy, vertebrotrectomy, and even
spondylectomy, however, is a massive procedure and may result in large amount, sometime
life-threatening blood loss. To achieve better surgical outcome and decrease complication,
preoperative evaluation needs understanding the detailed skeleton and vascular anatomy. The
status of vertebral column stability, extent of tumour involvement, condition of neurological
tissue, and vascularity of the tumoural tissue, are all important in determination of the
surgical planning and outcome. In many circumstances, preoperative embolization is often
required to control blood loss as well.(4, 5) Imaging plays major role in the above
information related to the surgical decision and planning.
Current preoperative imaging evaluation include MRI, angiography, bone scan and PET. (6) The
MRI is paramount in the spinal imaging. It provides outstanding soft tissue differentiation,
which usually depicting the abnormal tumoural tissue clearly. Therefore, MRI stands central
role in the surgical evaluation. Nevertheless, in real world, many patients are frail to
tolerate lengthy MRI study period, and the MR imaging quality is often suboptimal. For
vascular survey, angiography is capable to demonstrate spinal artery and tumour vascularity.
Since its relative invasiveness, it is only reserved for patients when preoperative
embolization is required or detection of spinal artery is warranted. And because the
angiography study for tumour involves selective catheterization of separate segmental artery,
the global evaluation of tumoural tissue is not possible. As for nuclear medicine studies,
including bone scan and PET, they are highly sensitive and very convenient in detecting
multifocal disease. But they are relative non-specific for variable pathology and the spatial
resolution is not adequate for surgical evaluation. Therefore, they provide less information
when diagnosis has been established.
CT is an important imaging tool for spinal disease. Because of its rapid acquisition,
adequate resolution, and easy reformatting, it is optimal for intolerable patients. (7)
Nevertheless, osseous structure is extremely radiopaque, evaluation of tumoural enhancement
in vertebrae is not easy. It is reserved in special condition, such as detection of vascular
structure for embolization and surgery. Recently commercialized dual-energy CT (DECT) can
meet the prior result of conventional CT with added value. (8) It uses different energy level
simultaneously to image the object. Therefore, optimal bony removal and contrast-noise-ratio
can be expected.(9, 10) In spinal disease, it has been used in the detection of marrow edema
and compression fracture. (9, 11) On the other hand, material-specific information can be
obtained, quantitative evaluation of tumoural enhancement by contrast medium is possible.
(12) Along with imaging post-processing technique, DECT can highlight the tumoural part in
the background of hyperdense bone. (13) DECT is a promising tool to study the vascularity of
the metastatic vertebral tumour. This information is valuable for the surgeon in the decision
making and planning for the operation.
We intend to use the dual energy CT in the preoperative evaluation of the vertebral
metastasis before aggressive surgery. The research potential and purposes are manifold.
First, we want to establish imaging biomarker for tumoural vascularity. Many different
enhancement parameters as potential candidate will be measured. Second, we intend to
establish one-stop imaging method; therefore, we will compare the diagnostic performance with
other imaging modalities. Third, the optimal imaging parameter in the evaluation of bony
lesion will be investigated, and many image technical condition will be studied.
Purposeļ¼
1. To establish the quantitative imaging biomarker for vascularity in metastatic vertebral
tumour
2. To obtain the optimal DECT scanning parameter and reformatting method in vertebral
osseous tumour
3. To provide detailed anatomical information for embolization and surgery
