Translational Development of Photon-counting CT Imaging
| Status: | Not yet recruiting |
|---|---|
| Conditions: | Cancer, Cancer |
| Therapuetic Areas: | Oncology |
| Healthy: | No |
| Age Range: | 18 - 100 |
| Updated: | 4/6/2019 |
| Start Date: | April 10, 2019 |
| End Date: | January 1, 2024 |
| Contact: | Tracy L Cropper, R.N. |
| Email: | tcropper@cc.nih.gov |
| Phone: | (301) 402-6132 |
Translational Development of Photon-Counting CT Imaging
Background:
Computed Tomography (CT) scans use x-rays to make three-dimensional images of the body. A new
type of CT scanner, called a photon counting CT, measures the x-rays differently than a
standard scanner. Researchers want to see if the new scanner can provide better images at a
lower x-ray dose. They also want to compare the new images and technique to the standard CT
scan images and techniques.
Objective:
To test a new type of CT scanner, called a photon counting CT, to see if it provides better
images at a lower x-ray dose.
Eligibility:
People ages 18 and older who are scheduled for a CT scan as part of their standard care at
the NIH Clinical Center
Design:
Participants will be screened with a collection and review of their medical records. Women of
child bearing age will provide blood and urine samples.
Participants past imaging data and studies done after the photon counting CT scan may be
collected, analyzed, and compared to the CT scans performed in this study.
Participants will have CT scans. During the test, they will lie on a padded table. The table
will slide into a donut-shaped machine. An x-ray tube will move around the body, taking many
pictures as it rotates.
Participants will be in the CT scan machine for about 20 minutes. The CT scans requested by
the participant s healthcare team will be performed. One CT scan with the new technology will
also be performed.
Computed Tomography (CT) scans use x-rays to make three-dimensional images of the body. A new
type of CT scanner, called a photon counting CT, measures the x-rays differently than a
standard scanner. Researchers want to see if the new scanner can provide better images at a
lower x-ray dose. They also want to compare the new images and technique to the standard CT
scan images and techniques.
Objective:
To test a new type of CT scanner, called a photon counting CT, to see if it provides better
images at a lower x-ray dose.
Eligibility:
People ages 18 and older who are scheduled for a CT scan as part of their standard care at
the NIH Clinical Center
Design:
Participants will be screened with a collection and review of their medical records. Women of
child bearing age will provide blood and urine samples.
Participants past imaging data and studies done after the photon counting CT scan may be
collected, analyzed, and compared to the CT scans performed in this study.
Participants will have CT scans. During the test, they will lie on a padded table. The table
will slide into a donut-shaped machine. An x-ray tube will move around the body, taking many
pictures as it rotates.
Participants will be in the CT scan machine for about 20 minutes. The CT scans requested by
the participant s healthcare team will be performed. One CT scan with the new technology will
also be performed.
NIH develops new imaging techniques as one of its priorities for accelerating science,
including methods for non-invasive patient assessments. Computed tomographic (CT) imaging is
a mainstay of diagnostic imaging. The latest major technological advance is photon counting
CT (PCCT) which uses a new x-ray detector that measures x-ray penetration of the body and the
energy of each x-ray photon. NIH has one of three prototype Siemens PCCT CounT systems in the
world for investigational use. The scanner can perform standard CT and PCCT imaging. In this
protocol, NIH patients already enrolled in a clinical research protocol and who are referred
to Radiology for diagnostic CT as part of that research may be enrolled in this study of
PCCT. The diagnostic CT scan requested by their medical care team will be performed on the
CounT scanner, providing the clinically indicated imaging, along with a single, brief PCCT
exam to support PCCT development. The data will be used to characterize quality of the PCCT
images and to develop testable hypotheses and new diagnostic applications using PCCT
capabilities.
Current CT systems, such as the Siemens SOMATOM Flash, have two x-ray tubes, each paired with
an x-ray detector that measures total x-ray penetration of the patient and uses that
information to create the images. The CounT scanner is a modified version of the Flash in
which one of the two standard detectors has been replaced with a PCCT detector. The two
imaging modes for the CounT scanner are (i) standard detector study as in a Flash scanner and
(ii) PCCT scan. The patient scan will thus include clinically indicated radiation exposure
with the standard detector and research radiation with the PCCT detector. The CounT system is
sited at the Clinical Center under a CRADA with Siemens Medical Solutions.
Compared to current scanners, PCCT offers four major advantages:
- lower radiation dose
- greater spatial resolution
- reduced imaging noise
- x-ray energy discrimination
The primary objectives are to:
- develop and characterize new medical imaging methods
- facilitate translation of PCCT advantages into clinically useful applications.
As a translational development protocol, all imaging studies are open-label and data may be
analyzed as they are collected. Bias is minimized using objective measurements. Observational
data may be characterized using descriptive statistics. Simple comparisons between the
standard CT and PCCT may use paired and unpaired parametric and non-parametric techniques.
These studies will form the foundation to develop advanced clinical imaging capabilities and
applications.
including methods for non-invasive patient assessments. Computed tomographic (CT) imaging is
a mainstay of diagnostic imaging. The latest major technological advance is photon counting
CT (PCCT) which uses a new x-ray detector that measures x-ray penetration of the body and the
energy of each x-ray photon. NIH has one of three prototype Siemens PCCT CounT systems in the
world for investigational use. The scanner can perform standard CT and PCCT imaging. In this
protocol, NIH patients already enrolled in a clinical research protocol and who are referred
to Radiology for diagnostic CT as part of that research may be enrolled in this study of
PCCT. The diagnostic CT scan requested by their medical care team will be performed on the
CounT scanner, providing the clinically indicated imaging, along with a single, brief PCCT
exam to support PCCT development. The data will be used to characterize quality of the PCCT
images and to develop testable hypotheses and new diagnostic applications using PCCT
capabilities.
Current CT systems, such as the Siemens SOMATOM Flash, have two x-ray tubes, each paired with
an x-ray detector that measures total x-ray penetration of the patient and uses that
information to create the images. The CounT scanner is a modified version of the Flash in
which one of the two standard detectors has been replaced with a PCCT detector. The two
imaging modes for the CounT scanner are (i) standard detector study as in a Flash scanner and
(ii) PCCT scan. The patient scan will thus include clinically indicated radiation exposure
with the standard detector and research radiation with the PCCT detector. The CounT system is
sited at the Clinical Center under a CRADA with Siemens Medical Solutions.
Compared to current scanners, PCCT offers four major advantages:
- lower radiation dose
- greater spatial resolution
- reduced imaging noise
- x-ray energy discrimination
The primary objectives are to:
- develop and characterize new medical imaging methods
- facilitate translation of PCCT advantages into clinically useful applications.
As a translational development protocol, all imaging studies are open-label and data may be
analyzed as they are collected. Bias is minimized using objective measurements. Observational
data may be characterized using descriptive statistics. Simple comparisons between the
standard CT and PCCT may use paired and unpaired parametric and non-parametric techniques.
These studies will form the foundation to develop advanced clinical imaging capabilities and
applications.
- INCLUSION CRITERIA:
- NIH patients currently on an NIH research protocol who are referred to RAD&IS for CT
examination as part of that research protocol
- 18 years old or greater
- Able to understand and sign informed consent
EXCLUSION CRITERIA:
- Studies that specifically require dual source CT scan capability or where dual source
CT scan is requested
- Studies ordered for an emergency indication
- Pregnant women. When uncertain of pregnancy status, subjects of child-bearing
potential will undergo serum or urine pregnancy testing on the day of examination.
Post-menopausal and surgically sterilized subjects are automatically exempt from this
testing
- Lactating women who are unable to stop breast feeding for 24 hours following the
administration of contrast
- Body weight >500 lbs (227 kg) or a body circumference that prevents the study subject
from lying flat in the scanner
- Patients who have undergone PCCT examination within the past year.
- Any contraindications that the research team identifies from the subject, RAD&IS CT
questionnaires, and/or History and Assessment
- Employees or staff supervised by the Principal Investigator or an Associate will not
be recruited to participate
We found this trial at
1
site
9000 Rockville Pike
Bethesda, Maryland 20892
Bethesda, Maryland 20892
301-496-2563
Phone: 800-411-1222
National Institutes of Health Clinical Center The National Institutes of Health (NIH) Clinical Center in...
Click here to add this to my saved trials
