Colorectal Cancer Clinical Trial
— ACRIN6664Official title:
The National CT Colonography Trial: Multicenter Assessment of Accuracy for Detection of Large Adenomas and Cancers in a Healthy Screening Population
| Verified date | November 2020 |
| Source | American College of Radiology Imaging Network |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Interventional |
RATIONALE: New diagnostic procedures such as computed tomographic colonography may improve the ability to detect colorectal cancer and may provide a less invasive method of detection. PURPOSE: This clinical trial is studying how well computed tomographic colonography works in screening healthy participants for colorectal cancer.
| Status | Completed |
| Enrollment | 2600 |
| Est. completion date | May 13, 2010 |
| Est. primary completion date | September 11, 2007 |
| Accepts healthy volunteers | Accepts Healthy Volunteers |
| Gender | All |
| Age group | 50 Years and older |
| Eligibility | 1. Inclusion Criteria - Male or female outpatients - Aged 50 years or older - Scheduled for screening colonoscopy - Participant's signed informed consent 2. Exclusion Criteria - Symptoms of disease of the lower gastrointestinal tract, including - Melanotic stools or/and hematochezia on more than one occasion in the previous six months - Lower abdominal pain that would normally require a medical evaluation - Inflammatory bowel disease and/or familial polyposis syndrome - Serious medical conditions that would increase the risk associated with colonoscopy or are so severe that screening would have no benefit - Pregnancy - Previous colonoscopy within the past five years - Anemia (hemoglobin less than 10 gm/dl) - Positive fecal occult blood test (FOBT) |
| Country | Name | City | State |
|---|---|---|---|
| United States | Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins | Baltimore | Maryland |
| United States | Beth Israel Deaconess Medical Center | Boston | Massachusetts |
| United States | University of Chicago Cancer Research Center | Chicago | Illinois |
| United States | Invision/Radiology Imaging Associates - Englewood | Englewood | Colorado |
| United States | M.D. Anderson Cancer Center at University of Texas | Houston | Texas |
| United States | Moores UCSD Cancer Center | La Jolla | California |
| United States | Jonsson Comprehensive Cancer Center at UCLA | Los Angeles | California |
| United States | Yale Cancer Center | New Haven | Connecticut |
| United States | Virginia Commonwealth University Massey Cancer Center | Richmond | Virginia |
| United States | Mayo Clinic Cancer Center | Rochester | Minnesota |
| United States | Mallinckrodt Institute of Radiology at Washington University Medical Center | Saint Louis | Missouri |
| United States | Veterans Affairs Medical Center - San Francisco | San Francisco | California |
| United States | Mayo Clinic Scottsdale | Scottsdale | Arizona |
| United States | Clinical Radiologists, S.C. at Memorial Medical Center | Springfield | Illinois |
| Lead Sponsor | Collaborator |
|---|---|
| American College of Radiology Imaging Network | National Cancer Institute (NCI) |
United States,
Hara AK, Blevins M, Chen MH, Dachman AH, Kuo MD, Menias CO, Siewert B, Cheema JI, Obregon RG, Fidler JL, Zimmerman P, Horton KM, Coakley KJ, Iyer RB, Halvorsen RA Jr, Casola G, Yee J, Herman BA, Johnson CD. ACRIN CT colonography trial: does reader's prefe — View Citation
Hara AK, Kuo MD, Blevins M, Chen MH, Yee J, Dachman A, Menias CO, Siewert B, Cheema JI, Obregon RG, Fidler JL, Zimmerman P, Horton KM, Coakley K, Iyer RB, Halvorsen RA Jr, Casola G, Johnson CD. National CT colonography trial (ACRIN 6664): comparison of th — View Citation
Johnson CD, Chen MH, Toledano AY, Heiken JP, Dachman A, Kuo MD, Menias CO, Siewert B, Cheema JI, Obregon RG, Fidler JL, Zimmerman P, Horton KM, Coakley K, Iyer RB, Hara AK, Halvorsen RA Jr, Casola G, Yee J, Herman BA, Burgart LJ, Limburg PJ. Accuracy of C — View Citation
Johnson CD, Herman BA, Chen MH, Toledano AY, Heiken JP, Dachman AH, Kuo MD, Menias CO, Siewert B, Cheema JI, Obregon R, Fidler JL, Zimmerman P, Horton KM, Coakley KJ, Iyer RB, Hara AK, Halvorsen RA Jr, Casola G, Yee J, Blevins M, Burgart LJ, Limburg PJ, G — View Citation
Siewert B, Gareen I, Vanness D, et al.: ACRIN 6664: patient acceptance and preferance of CT colonography compared to optical colonoscopy for colon cancer screening. [Abstract] J Clin Oncol 27 (Suppl 15): A-4034, 2009.
Vanness DJ, Knudsen AB, Lansdorp-Vogelaar I, Rutter CM, Gareen IF, Herman BA, Kuntz KM, Zauber AG, van Ballegooijen M, Feuer EJ, Chen MH, Johnson CD. Comparative economic evaluation of data from the ACRIN National CT Colonography Trial with three cancer intervention and surveillance modeling network microsimulations. Radiology. 2011 Nov;261(2):487-98. doi: 10.1148/radiol.11102411. Epub 2011 Aug 3. — View Citation
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Number of Participants With Advanced Adenomas (>=10mm) as Determined by Colonoscopy (Per Patient) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard (RS) for determining the existence of advanced adenomas.
RS+: Colonoscopy found at least 1 Advanced adenomas >=10mm (as measured at pathology) RS-: No Advanced adenomas >=10mm found by colonoscopy (as measured at pathology) |
within 30 days | |
| Primary | Number of Participants With Advanced Adenomas (>=9mm) Detected by CT Colonoscopy (Per Patient) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard (RS) for determining the existence of advanced adenomas.
RS+: Colonoscopy found at least 1 Advanced adenomas >=9mm (as measured at pathology) RS-: No Advanced adenomas >=9mm found by colonoscopy (as measured at pathology) |
within 30 days | |
| Primary | Number of Participants With Advanced Adenomas (>=8mm) Detected by CT Colonoscopy (Per Patient) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard (RS) for determining the existence of advanced adenomas.
RS+: Colonoscopy found at least 1 Advanced adenomas >=8mm (as measured at pathology) RS-: No Advanced adenomas >=8mm found by colonoscopy (as measured at pathology) |
within 30 days | |
| Primary | Number of Participants With Advanced Adenomas (>=7mm) Detected by CT Colonoscopy (Per Patient) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard (RS) for determining the existence of advanced adenomas.
RS+: Colonoscopy found at least 1 Advanced adenomas >=7mm (as measured at pathology) RS-: No Advanced adenomas >=7mm found by colonoscopy (as measured at pathology) |
within 30 days | |
| Primary | Number of Participants With Advanced Adenomas (>=6mm) Detected by CT Colonoscopy (Per Patient) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard (RS) for determining the existence of advanced adenomas.
RS+: Colonoscopy found at least 1 Advanced adenomas >=6mm (as measured at pathology) RS-: No Advanced adenomas >=16mm found by colonoscopy (as measured at pathology) |
within 30 days | |
| Primary | Number of Participants With Advanced Adenomas (>=5mm) Detected by CT Colonoscopy (Per Patient) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard (RS) for determining the existence of advanced adenomas.
RS+: Colonoscopy found at least 1 Advanced adenomas >=5mm (as measured at pathology) RS-: No Advanced adenomas >=5mm found by colonoscopy (as measured at pathology) |
within 30 days | |
| Secondary | Number of Advanced Adenoma or Cancer Lesions (>=10mm) Detected by CT Colonoscopy (Per Lesion) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard for determining the existence of advanced adenomas. CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered "detected" | within 30 days | |
| Secondary | Number of Advanced Adenoma or Cancer Lesions (>=9mm) Detected by CT Colonoscopy (Per Lesion) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard for determining the existence of advanced adenomas. CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered "detected" | within 30 days | |
| Secondary | Number of Advanced Adenoma or Cancer Lesions (>=8mm) Detected by CT Colonoscopy (Per Lesion) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard for determining the existence of advanced adenomas. CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered "detected" | within 30 days | |
| Secondary | Number of Advanced Adenoma or Cancer Lesions (>=7mm) Detected by CT Colonoscopy (Per Lesion) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard for determining the existence of advanced adenomas. CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered "detected" | within 30 days | |
| Secondary | Number of Advanced Adenoma or Cancer Lesions (>=6mm) Detected by CT Colonoscopy (Per Lesion) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard for determining the existence of advanced adenomas. CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered "detected" | within 30 days | |
| Secondary | Number of Advanced Adenoma or Cancer Lesions (>=5mm) Detected by CT Colonoscopy (Per Lesion) | Pathology results from Colonoscopy performed up to 30 days after a CTC examination were used as the reference standard for determining the existence of advanced adenomas. CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered "detected" | within 30 days | |
| Secondary | Interobserver Sensitivity Variability | Evaluate interobserver variability in Sensitivity (P(T+|D+)) and 95% CI) when interpreting CTC examinations Each study was randomly assigned to be read independently using either a primary 2D search method (conventional 2D image display with 3D endoluminal problem solving), or a primary 3D search method (including the capability of displaying multiplanar 2D) and without prior knowledge of the colonoscopy results. A second trained radiologist of similar skill was assigned to read the images using the other modality Readers were then classified as high performing or not high performing | at baseline |
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