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IRIDA: Canada’s federated platform for genomic epidemiology
William Hsiao, Ph.D.
[email protected] @wlhsiao
BC Public Health Microbiology and Reference Laboratory
and University of British Columbia ABPHM 2015
Genome Canada Bioinformatics Competition: Large-Scale Project
“A Federated Bioinformatics Platform for Public Health Microbial Genomics”
Our Goal
The IRIDA platform
(Integrated Rapid Infectious Disease Analysis) An open source, standards compliant, high quality genomic epidemiology
analysis platform to support real-time (food-borne) disease outbreak investigations
2 www.IRIDA.ca
3
Each year, one in eight Canadians (or four million people)
get sick with a domestically acquired food-borne illness.
Partnership among public health agencies and academic institutes to bridge the gaps between advancements in genomic epidemiology and application to real-life and real-
time use cases in public health agencies
- Project Team has direct access to state of the art research in academia - Project Team is directly embedded in user organization
Interviews with key personnel to identify barriers to implement genomic epidemiology in
public health agencies
5
GAP 1: PUBLIC HEALTH PERSONNEL LACK TRAINING IN GENOMICS
Solution 1a: Build a User Friendly, high quality analysis platform to process genomics data
• Carefully designed and engineered software platform is just the starting point… User
Interface
Secu
rity
File system
Metadata Storage Application
logic
REST API Workflow Execution Manager
Continuous Integration Documentation
• Easy to use interface hiding the technical details
Solution 1a: Build a User Friendly, high quality analysis platform to process genomics data
Solution 1a: Build a User Friendly, high quality analysis platform to process genomics data
Solution 1b: Build Portable and Transparent Pipelines
• Use Galaxy as workflow engine – large community support
• Retools to address usability, security, and other limitations
• Version Controlled Pipeline Templates • Input files, parameters, and workflow are
sent to IRIDA-specific Galaxy for execution • Results and provenance information are
copied from Galaxy
1. Input files sent to
Galaxy
3. Results downloaded from Galaxy
IRIDA UI/DB
Galaxy Assembly Tools
Variant Calling Tools
…
REST API
Shared File System
Worker Worker
2. Tools executed on Galaxy workers
Solution 1c: Start the training NOW!
• Canada’s National Microbiology Laboratory has hosted genomic workshops for partners and collaborators
• IRIDA Project has dedicated funding for hosting workshops in 4Q of 2015 and 2016
• We would like to hear about other training initiatives and share experience and training material
GAP 2: INFORMATION SHARING IS INEFFICIENT AND AD-HOC
Many Players in surveillance and outbreak – ineffective information sharing
Source: M. Taylor, BCCDC
Provincial public health dept.
National laboratory
Local public health dept.
Provincial laboratory
Cases
Physicians Frontline lab
Information
Bioinformatics and Analytical Capacities
Many Systems used in Reporting Diseases –require data re-entry and re-coding
National Ministry of Health
Provincial public health dept.
National laboratory
Local public health dept.
Provincial laboratory
Cases
Physicians Local laboratory
Fax/Electronic
Fax
Phone/Fax
Electronic/Paper
Electronic/Fax/Phone Mailing of Samples/Fax/Eelctroni
c
Source: M. Taylor, BCCDC
IRIDA is designed with these dilemma in mind
• Solutions: – 2a: Localized Instance of federated databases
– 2b: Permission Control – authentication /authorization for
information sharing
– 2c: User role-based display of information
Solution 2a: Local/Cloud Instances and Data Federation
• Data processing capacity pushed to data generating labs
• Allow data sharing securely for enhanced analysis • Eventually cultivating a culture of openness of data
sharing and collaborative development of tools
16
Authorization
Solution 2b: Security
• Local authorization per instance. • Method-level authorization. • Object-level authorization. • Allow secure, fine grained and
flexible information sharing
Solution 2c: Role-based Dynamic Display driven by Ontology
• Ontologies often lack a content management system (CMS) • An Interface Model Ontology (IFM) can define a CMS for an
ontology
IFM Interface View Permissions
Detailed View Restricted View
E.g. User role permissions control visibility and editing of content
GAP 3: INFORMATION REPRESENTATION IS INCONSISTENT
Solution 3a: Use Ontology
• Ontology: a way to describe types of entities and relations between them
• Why use ontology – Ontology is flexible and expandable – Lower levels of expressivity (e.g. controlled vocabulary,
data dictionary) are heavy handed and show low level of compliance and adoption
– Free text used as an alternative that are not computing friendly
– Ontology and semantic web technologies may be a solution
Many Domains of Knowledge are needed to describe an outbreak investigation
Build On, Work With: OBI TypON NGSOnto NIAID-GSC-BRC core metadata MIxS Ontology NCBI Biosample etc TRANS – Pathogen Transmission EPO Exposure Ontology Infectious Disease Ontology CARD, ARO for AMR USDA Nutrient DB EFSA Comp. Food Consump. DB Example gaps to be filled: Expand food ontology; expand CARD AMR data with others.
Lab Checklist/Ontology
• Currently finishing a lab/genomics checklist and starting an epidemiology checklist
• Metadata Domains: – Sample Collection – Sample Source – Environmental – Lab Analytics – Sequencing Process /QC – Sequencing Run /QC – Assembly Process / QC – Others overlapping with Epi: Demographic / Geographic /
etc.
GAP 4: GENOMIC DATA INTERPRETATION IS COMPLEX AND TECHNOLOGY IS EVOLVING
Solution 4a: Use of QA/QC in IRIDA
• Software Engineering – High quality software that meets regulatory guidelines – Open Source product to ensure “white box” testing – Ontology driven software development – Follow proper software development cycle
• Data Quality
– Built-in modules to check for input data quality – Warnings and Feedbacks during pipeline execution to laboratory technologists – Use of Ontology to check metadata (non-genomic) data quality
• Analytic Tool Quality
– Utilize validation datasets – Use of abstract pipeline description – with version control – Periodic analysis of exceptions and boundary cases to assess tool accuracy
Solution 4b: Generation of validation datasets
To Participate, Contact Rene Hendriksen [email protected] Or Errol Strain [email protected]
http://www.globalmicrobialidentifier.org/Workgroups#work-group-4
Solution 4c: Exploratory tools can access certain data via REST API securely
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http://pathogenomics.sfu.ca/islandviewer
IslandViewer
Dhillon and Laird et al. 2015, Nucleic Acids Research
http://kiwi.cs.dal.ca/GenGIS
Parks et al. 2013, PLoS One
Availability
• Jun 1 2015: IRIDA 1.0 beta Internal Release – Release to collaborators for installation and full test
• Jul 1 2015: IRIDA 1.0 beta1
– Announce Beta release, download, documentation available on website – www.irida.ca
• Aug 1 2015: IRIDA 1.0 beta2
– Cloud installer, with documentation – Additional pipelines as available – Visualization as available
Acknowledgements Project Leaders
Fiona Brinkman – SFU Will Hsiao – PHMRL Gary Van Domselaar – NML University of Lisbon Joᾶo Carriҫo National Microbiology Laboratory (NML) Franklin Bristow Aaron Petkau Thomas Matthews Josh Adam Adam Olson Tarah Lynch Shaun Tyler Philip Mabon Philip Au Celine Nadon Matthew Stuart-Edwards Morag Graham Chrystal Berry Lorelee Tschetter Aleisha Reimer Laboratory for Foodborne Zoonoses (LFZ) Eduardo Taboada Peter Kruczkiewicz Chad Laing Vic Gannon Matthew Whiteside Ross Duncan Steven Mutschall
Simon Fraser University (SFU) Melanie Courtot Emma Griffiths Geoff Winsor Julie Shay Matthew Laird Bhav Dhillon Raymond Lo BC Public Health Microbiology & Reference Laboratory (PHMRL) and BC Centre for Disease Control (BCCDC) Judy Isaac-Renton Patrick Tang Natalie Prystajecky Jennifer Gardy Damion Dooley Linda Hoang Kim MacDonald Yin Chang Eleni Galanis Marsha Taylor Cletus D’Souza Ana Paccagnella University of Maryland Lynn Schriml Canadian Food Inspection Agency (CFIA) Burton Blais Catherine Carrillo Dominic Lambert Dalhousie University Rob Beiko Alex Keddy
29
McMaster University Andrew McArthur Daim Sardar European Nucleotide Archive Guy Cochrane Petra ten Hoopen Clara Amid European Food Safety Agency Leibana Criado Ernesto Vernazza Francesco Rizzi Valentina
30 30
IRIDA Annual General Meeting Winnipeg, April 8-9, 2015
The IRIDA platform (Integrated Rapid Infectious Disease Analysis)
An open source, standards compliant, high quality genomic epidemiology analysis platform to support real-time (food-borne) disease outbreak
investigations
Contacts:
[email protected] @wlhsiao
31 www.IRIDA.ca