Biomedical Engineering Reference
In-Depth Information
[13]
Ramick, D. C., “Data Warehousing in Disease Management Programs,”
J. Healthc. Inf.
Manag.
, Vol. 15, 2001, pp. 99-105.
[14]
Studnicki, J., et al., “The Application of Volume-Outcome Contouring in Data Warehous-
ing,”
J. Healthc. Inf. Manag.
, Vol. 18, 2004, pp. 49-55.
[15]
Prather, J. C., et al., “Medical Data Mining: Knowledge Discovery in a Clinical Data Ware-
house,”
Proc. AMIA Annu. Fall Symp.
, 1997, pp. 101-105.
[16]
Kerkri, E., et al., “Application of the Medical Data Warehousing Architecture EPIDWARE
to Epidemiological Follow-Up: Data Extraction and Transformation,”
Stud. Health
Technol. Inform.
, Vol. 68, 1999, pp. 414-418.
[17]
Breault, J. L., Goodall, C. R., and Fos, P. J., “Data Mining a Diabetic Data Warehouse,”
Artif. Intell. Med.
, Vol. 26, 2002, pp. 37-54.
[18]
Stephen, R., Boxwala, A., and Gertman, P., “Feasibility of Using a Large Clinical Data
Warehouse to Automate the Selection of Diagnostic Cohorts,”
AMIA Annu. Symp. Proc.
,
2003, p. 1019.
[19]
Molina, L., et al., “Completion of Colorectal Cancer Screening in Women Attending
Screening Mammography,”
Acad. Radiol.
, Vol. 11, 2004, pp. 1237-1241.
[20]
Cao, X., et al., “A Web-Based Federated Neuroinformatics Model for Surgical Planning and
Clinical Research Applications in Epilepsy,”
Neuroinformatics
, Vol. 2, 2004, pp. 101-118.
[21]
Coblio, N. A., et al., “Use of a Data Warehouse to Examine the Effect of Fluoroquinolones
on Glucose Metabolism,”
Am. J. Health Syst. Pharm.
, Vol. 61, 2004, pp. 2545-2548.
[22]
Blewett, L. A., et al., “National Health Data Warehouse: Issues to Consider,”
J. Healthc.
Inf. Manag.
, Vol. 18, 2004, pp. 52-58.
[23]
Covitz, P. A., et al., “Cacore: A Common Infrastructure for Cancer Informatics,”
Bioinformatics
, Vol. 19, 2003, pp. 2404-2412.
[24]
Eckman, B. A., et al., “The Merck Gene Index Browser: An Extensible Data Integration Sys-
tem for Gene Finding, Gene Characterization and EST Data Mining,”
Bioinformatics
, Vol.
14, 1998, pp. 2-13.
[25]
Hu, H., et al., “Biomedical Informatics: Development of a Comprehensive Data Warehouse
for Clinical and Genomic Breast Cancer Research,”
Pharmacogenomics
, Vol. 5, 2004,
pp. 933-941.
[26]
Wheeler, D. L., et al., “Database Resources of the National Center for Biotechnology Infor-
mation,”
Nucleic Acids Res.
, Vol. 33, 2005, pp. D39-45.
[27]
Zdobnov, E. M., et al., “The EBI SRS Server-New Features,”
Bioinformatics
, Vol. 18, 2002,
pp. 1149-1150.
[28]
Zdobnov, E. M., et al., “The EBI SRS Server—Recent Developments,”
Bioinformatics
,
Vol. 18, 2002, pp. 368-373.
[29]
Fellenberg, K., et al., “Microarray Data Warehouse Allowing for Inclusion of Experiment
Annotations in Statistical Analysis,”
Bioinformatics
, Vol. 18, 2002, pp. 423-433.
[30]
Liang, F., et al., “ORFDB: An Information Resource Linking Scientific Content to a
High-Quality Open Reading Frame (ORF) Collection,”
Nucleic Acids Res.
, Vol. 32, 2004,
pp. D595-599.
[31]
Feng, Z., et al., “Ligand Depot: A Data Warehouse for Ligands Bound to Macromolecules,”
Bioinformatics
, Vol. 20, 2004, pp. 2153-2155.
[32]
Cheung, K. H., et al., “YeastHub: A Semantic Web Use Case for Integrating Data in the Life
Sciences Domain,”
Bioinformatics
, Vol. 21 Suppl 1, 2005, pp. I85-I96.
[33]
Shah, S. P., et al., “Atlas—A Data Warehouse for Integrative Bioinformatics,”
BMC
Bioinformatics
, Vol. 6, 2005, pp. 34.
[34]
Koehler, J., et al., “Linking Experimental Results, Biological Networks and Sequence Anal-
ysis Methods Using Ontologies and Generalised Data Structures,”
Silico. Biol.
, Vol. 5,
2005, pp. 33-44.
[35]
Schonbach, C., Kowalski-Saunders, P., and Brusic, V., “Data Warehousing in Molecular
Biology,”
Brief Bioinform.
, Vol. 1, 2000, pp. 190-198.
Search WWH ::
Custom Search