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Genetics and Pathology. What can they do for each other?. Scottish Association of Histotechnology; Friday 27 th May 2011. National Initiatives Affecting Both Disciplines. Scottish Genetic Laboratory Consortium. Nationally funded NHS Genetic Services
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Genetics and Pathology What can they do for each other? Scottish Association of Histotechnology; Friday 27th May 2011
Scottish Genetic Laboratory Consortium • Nationally funded NHS Genetic Services • Four centre Consortium covering service Genetics for Scotland • Responsible for a wide range of inherited genetic conditions
Genetics and Pathology in NHS Tayside • Future workload of Genetics will increasingly be Molecular Pathology/Diagnostic tests • Changes at the chromosome and DNA level will • Aid diagnosis • Determine outcome • Define treatment pathways • Partnership with Pathology is crucial for effective delivery of Molecular Diagnostic tests • Excellent relationship between Pathology and Genetics in Tayside
Pathology Sample
The starting point for all Molecular tests is DNA 2x10mm • Yield is 1.1mg (20ml at 55ng/ml)
A good example of how Genetics and Pathology can work together for inherited cancer is Lynch syndrome • Familial colorectal cancer syndrome characterised by hundreds of colorectal polyps as well as extra-colonic tumours • Important to distinguish families at high risk of Lynch syndrome from sporadic disease • Done through combination of genetic techniques and IHC on tumour sections. • Allows targeted testing of tumours for MMR defects
“Best approach for identifying cases of Lynch syndrome is for Pathologists and Geneticists to work closely together” • “MSI and IHC were most cost effective when used as an initial screening strategy”
Diagnostic testing – HNPCC and MSI Medium Risk MSI + IHC
BAT-25 NR-21 NR-24 BAT-26 MONO-27 MSI+ / MHLH neg
Genetics and Sporadic Cancer “Not all cancer is inherited but all cancer is genetic” IgH & TCR gene rearrangements Diagnostic MSI BRAF p.V600E KRAS Prognostic cKIT / PDGFR Her2
Prognostic testing – KRAS and cKIT/PDGFRA • The presence of a mutation in KRAS in colorectal cancer or a cKIT / PDGFRA mutation in GIST can have significant implications for treatment. • KRAS • Approximately 30-50% of colorectal tumours have a mutation at 3 codons in gene • Tumours with a mutation will not respond to a specific class of treatment • Important for patients to know what the mutation status of their tumour is • GIST • 85-90% of GISTs have activating mutations in cKIT or PDGFRA • The position of the mutation can influence how the tumour will respond to specific treatment.
For KRAS testing crucial to get good quality tissue sections and to know the tumour load
What can be gained by working together? • Shared expertise, skills and capital equipment • Opportunities for integrated training at various career levels • Opportunity to develop specialist teams • Shared R&D • Collaborative working is only way of delivering Molecular Pathology/Diagnostics • Future proof both disciplines • Ultimately provide the best service to patients.
New initiatives in Scotland • Training in Molecular Pathology/Diagnostics funded by NES • Molecular Pathology Consortium
THANKS Everyone in Pathology at Ninewells Hospital