Biomedical Laboratory Science

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Showing posts with label Variants. Show all posts
Showing posts with label Variants. Show all posts

Saturday, October 29, 2016

Breast Cancer: The Body of Knowledge Grows

Scientists’ understanding of the genetics/genomics of breast cancer continues to grow; a revolution is underway both in terms of categorizing breast cancers and targeting treatment that will be effective in individual cases. New perspectives are being offered on the interpretation of biopsies, too. Here is a round-up of some very recent studies.

Genetic variants alter cells’ response to estrogen
An international study of almost 120,000 women has newly identified five genetic variants affecting risk of breast cancer, all of which are believed to influence how breast cells respond to the female sex hormone estrogen.

Estrogen acts as a trigger, binding to a molecule known as an estrogen receptor in most breast cells and triggering a cascade of signals that cause the cell to behave normally. However, the estrogen receptor is switched off in some cells and these do not respond to the hormone.



Tuesday, April 26, 2016

A personal interpretation

There is a clear move away from a ‘one size fits all’ approach to medicine and instead a new personalized medicine strategy is becoming more important. Mike Furness explains more about multiomics.

It has been known for a while that people with different genotypes respond to drugs differently. Knowledge gained from studying rare genetic disease has improved understanding of important biological pathways, creating the opportunity for more effective treatments.

For early developmental diseases this has meant that each symptom is investigated in isolation, by a specialist in that area. The patient is sent from one clinician to another. On average a child with a rare genetic disease will been seen by seven physicians over a five year period before a diagnosis may be found. For many of these children there will be no diagnosis but recent advances in genomics will address this problem.

It was against this background that the Discovering Development Disease (DDD) project was established between the NHS and the Wellcome Trust Sanger Institute. It has so far genotyped around 14,000 children with undiagnosed conditions and their parents, providing diagnoses for around 40% of these families, and identifying clusters of affected children that had similar clinical characteristics and shared damaging genetic variants in the same gene. Many of these genetic diseases are so rare that a clinician may see only one or two cases in a career; so being able to compare their patient’s genetics to this growing body of knowledge is a major step forward in helping consultants determine a definitive diagnosis.



Source: shutterstock
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