rachel patel radu reit taylor guffey harry han shelby hassberger daniel kim lauren morgan elizabeth...
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Rachel PatelRadu Reit
Taylor Guffey
Harry Han
Shelby Hassberger
Daniel Kim
Lauren Morgan
Elizabeth Morris
Pancreatic Cancer
◦ Fourth highest cancer deaths
◦ 35,240/42,450 people died in 2009
◦ Survival <1% after 5 years
http://www.cumc.columbia.edu/dept/cs/pancreas/ed_cancer_basics.html
Data to acquire◦CA19-9 Sensitivity◦Best current tests◦Future methods◦Demographics
Criteria◦Sensitivity/Specificity◦Cost◦Stage of Detection ◦Invasiveness◦Identify Age Group
Sensitivity Specificity
Avg Cost/Perso
n
Stage of Detectio
n
Invasiveness
EUS/FNA 95%2 98%2 $3,515 T17 3
EUS 95%2 93%2 $1,111 T17 3
CA-494 90%10 94%10 $225 T110 2
DR-70 90%5*** 93%5*** $100 T15 2
Ultrasound 90%1 90%1 $200 T26 1
CA19-9 88% 85% $129 T111 2
Spyglass 100%3 77%3 $617 T13 3
PET 90%2 81%2 $2,000 M112 2
MRI 89%2 77%2 $2,500 T213 1
CT 83%4 75%4 $2,200 T214 1
ERCP 80%9 61%9 $1,346 T315 3
MRCP 77%8 65%8 $1,145 T215 11Campbell 1988, 2Santo 2004, 4Park 2009, 3Fishman 2009, 5Kerber 2004, 6Berlolto 2007, 7Gress 1999, 8 Hänninen 2005, 9 Scheiman 2001, 10Friess, 11Pezzilli 1995, 12Berberat 1999, 13Ramsay 2004, 14Floer 2005, 15Andersson 2004 *** specific for 3
gastrointestinal cancers
DR70 Biomarker
CA-494
EUS
EUS/FNA
(+)(+)
(+)
Confirmed Pancreatic Cancer
(+)
Testing Population
Highly sensitive◦ DR 70: 90% Sensitive
93% Specific ◦ CA 494: 90% Sensitive
94% Specific
Affordable: ◦ $225 CA 494◦ $100 DR 70
DR 70 Positives◦ 33% Prevalence
DR70 Biomarker
CA-494
EUS
EUS/FNA
(+)(+)
(+)
Confirmed Pancreatic Cancer
(+)
Testing Populatio
n
Moderate cost ◦ $1,100
High Sensitivity◦ 95% Sensitive◦ 93% Specific
Images masses
Helmstaedter 2008
EUS
EUS/FNA
(+)(+)
(+)
Confirmed Pancreatic Cancer
(+)
CA-494DR70
Testing Populatio
n
Testing Populatio
n
Greatest Invasiveness ◦ Biopsy
Sensitive◦ 95% Sensitive◦ 98% Specific
Confirms diagnosisEUS
EUS/FNA
(+)(+)
(+)
Confirmed Pancreatic Cancer
(+)
CA-494DR70
http://www.psychiatrictimes.com/display/article/10165/110108?pageNumber=1&verify=0
10,000,000
EUS/FNA
EUS
DR70 Biomark
erCA-494
(+)(+)
(+)
TP: 6,434FP: 1,154TN: 9,991,709FN: 703
Sensitivity: 90.15%Specificity: 99.99%PPV: 84.79%NPV: 99.99%
TN = Previous FalsePositives * Specificity
TP = Previous TruePositives * Sensitivity
FP = Previous False Positives - TN
FN = Previous True Positives - TP
91.68% subjected to blood test◦ $325 total cost
0.6% spends >$2,000◦ 1 of 11 detected
Stage of Elimination in Strategy
Population Eliminated
DR70/CA-494 9,168,386
EUS 767,127
EUS/FNA 64,487
Sensitivity Specificity
Avg Cost/
Person
Stage of Detectio
n
Invasiveness
Our Strategy
90.15% 99.99% $431 T1 3
EUS/FNA 95%2 98%2 $3,515 T1 3
EUS 95%2 93%2 $1,111 T1 3
CA-494 90% 94% $225 T1 2
DR-70 90%5 93%5 $100 T1 2
Ultrasound 90%1 90%1 $200 > T1 1
CA19-9 88% 85% $129 T1 2
Spyglass 100%3 77%3 $617 T1 3
PET 90%2 81%2 $2,000 M1 2
MRI 89%2 77%2 $2,500 T2 1
CT 83%4 75%4 $2,200 T2 1
ERCP 80% 61% $1,346 > T2 3
MRCP 77% 65% $1,145 T2 1*** specific for 3 gastrointestinal cancers
PAM4 Marker◦ PAM4 antibody detects for MUC1 protein in
pancreas◦ PAM4 Activity shown by imaging
4 hours after injection up to 7 days
◦ MUC1 protein specific to cancerous organs◦ Test in developmental stage
Gold 2007,2008
Screening Frequency◦ Suggested Population Screened
50+ Family history Smoking Obesity
◦ Additional Screening Smoking and Obesity Annual testing
PAM4 antibody method ◦ Decreased invasiveness◦ Increased resolution and accuracy of detection
Yeo 2009
Number of Patients (%)
Characteristics
Overall
TOTAL 27,828
Age at Diagnosis
Mean Age 68.9
<50 6.7%
50-69 42%
>70 51.3%National Cancer Institute’s Surveillance Epidemiology and end results data from 1992-2002
Andersson, R., C. E. Vagianos, et al. (2004). "Preoperative staging and evaluation of resectability in pancreatic ductal adenocarcinoma." HPB 6(1): 5-12.
Berberat, P., H. Friess, et al. (1999). "Diagnosis and Staging of Pancreatic Cancer by Positron Emission Tomography." World Journal of Surgery 23(9): 882-887.
Bertolotto, M., M. D’Onofrio, et al. (2007). "Ultrasonography of the pancreas. 3. Doppler imaging." Abdominal Imaging 32(2): 161-170.
Campbell, J. P. and S. R. Wilson (1988). "Pancreatic neoplasms: how useful is evaluation with US?" Radiology 167(2): 341-344.
Fishman, D. S., P. R. Tarnasky, et al. (2009). "Management of pancreaticobiliary disease using a new intra-ductal endoscope: The Texas experience." World Journal of Gastroenterology 15(11): 1353-1358.
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Gold, D. V., D. M. Goldenberg, et al. (2008). "A novel bispecific, trivalent antibody construct for targeting pancreatic carcinoma." Cancer Research 68(12): 4819-4826.
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H. S. Park, J. M. Lee, H. K. Choi, S. H. Hong, J. K. Han, and B. I. Choi, "Preoperative evaluation of pancreatic cancer: comparison of gadolinium-enhanced dynamic MRI with MR cholangiopancreatography versus MDCT," Journal Of Magnetic Resonance Imaging: JMRI, vol. 30, pp. 586-595, 2009.
Hänninen, E. L., J. Ricke, et al. (2005). "Magnetic Resonance Cholangiopancreatography: Image Quality, Ductal Morphology, and Value of Additional T2‐ and T1‐weighted Sequences for the Assessment of Suspected Pancreatic Cancer." Acta Radiologica 46(2): 117-125.
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Santo, E. (2004). "Pancreatic Cancer Imaging: Which Method? " Journal Of The Pancreas 5(4): 253-257 Scheiman, J. M., R. C. Carlos, et al. (2001). "Can endoscopic ultrasound or magnetic
resonance cholangiopancreatography replace ERCP in patients with suspected biliary disease? A prospective trial and cost analysis." The American Journal of Gastroenterology 96(10): 2900-2904.
Yeo, T. P., R. H. Hruban, et al. (2009). "Assessment of "gene-environment" interaction in cases of familial and sporadic pancreatic cancer." Journal Of Gastrointestinal Surgery: Official Journal Of The Society For Surgery Of The Alimentary Tract 13(8): 1487-1494.
