BioinformaticsandmedicineArewemeetingthechallenge

Click to edit Master title style,Click to edit Master text styles,Second level,Third level,Fourth level,Fifth level,*,Bioinformatics and medicine:Are we meeting the challenge?,1,Breadth of Submissions,Submissions 24,Major Categories of areas submitted,Cancer / genomics,Statistics/linkage analysis,Immunolgy/modelling,Image analysis,Transcriptomics,Classifiers,Implementation of high throughput pipelines,2,Potential for applications,Molecular Pathology,Diagnosis and detection,Molecular Medicine,Complex inherited disorders,Epigenetics and human disease,Genomic Medicine,Pathogens and vaccine development,Cancer,3,Challenges,The molecular biologist,The high throughput biologist,The systems biologist,The clinician,Biomedical informatics? Is that what we mean?,Who is ensuring the application of bioinformatic knowledge to medicine?,4,When will Bioinformatics activities substantially affect the practice of medicine?,VictorMaojo and Casimir A.Kulikowski,- Medical informatics,- clinical and bibliographic databases,- computerised medical records,- medical information systems,Perception that medline is simply a “data source”,“Bioinformatics and Medical Informatics: Collaborations on the Road to Genomic Medicine? “J Am Med Inform Assoc.2003 November;10 (6): 515522,5,potential synergies and competition between medical informatics (MI) and bioinformatics (BI) J Am Med Inform Assoc.2003 November;10 (6): 515522,6,The two major knowledge domains,Encoded human, model and pathogen reagents,Medical and scientific literature,Anatomy,Pathology,Epidemiology,Immunology,Biochemistry,Metabolism,Gene function, expression,Regulatory and interaction networks,Genetics,7,Growth and field convergence,Analysis of gene and protein technologies,Molecular Biology and biochemistry,Data quality and analysis, noise and uncertainty,Integration via curation,Ontologies, network models,Signal and image processing,Widely available tools,Education and training,1960s rapid launch on back of computer technologies in health care,Medical standardisation,Clinical data subjectivity create mining problem,Documentation, standards, vocabularies UML/SNOMED mostly non-public,Information systems,Clinical/radiologic image processing,Widely available information and tools,Consolidated training programmes,8,Combining Bioinformatics and Clinical data,- To be successful, applications needs to address integration of,the layers of datatypes available.,-Integration should reflect the system under examination,9,H-INV Disease edition,comprehensive functional link between the genome sequence scaffold and human diseases,Prostrate cancer,Text mining,Clinical records and information systems,Array and MPSS sampling,Combined domain experts PhD and Physician,10,Convergence of BI and MI for HIV in South Africa,Ontologies,Information systems,Genomics technologies,Phylogenetics,Immunology,Clinical and bioinformatics data mining techniques,Vaccine development,11,HIV CAPRISA-SAAVI network,Clinical,Analysis,LAB,CRF,Biostatistics,Admin,Molecular Integration,12,Actual implementation,Controlled vocabularies for CRF,Networked laboratory information systems and sample tracking,High throughput sequencing,HIV genome diversity analysis,High throughput epitope mapping,Clinicial pathology association with molecular pathology,Clinical trials,13,The presentations,Reconstructing Tumor Amplisomes,Raphael and Pevzner,The Cell-Graphs of Cancer,Gunduz et al,Prediction of Class I T-cell epitopes,Srinivasan et al,Exploring Williams-Beuren Syndrome using,my,GRID,Stevens et al,14,