Genetic risk factors – NeuRA Library https://library.neura.edu.au NeuRA Evidence Libraries Mon, 11 Apr 2022 01:49:39 +0000 en-AU hourly 1 https://wordpress.org/?v=5.8 https://library.neura.edu.au/wp-content/uploads/sites/3/2021/10/cropped-Library-Logo_favicon-32x32.jpg Genetic risk factors – NeuRA Library https://library.neura.edu.au 32 32 Genetic and non-genetic risk https://library.neura.edu.au/schizophrenia/risk-factors/non-genetic/risk-versus-genetic-risk/ Wed, 15 May 2013 06:02:04 +0000 https://library.neura.edu.au/?p=473 What is genetic and non-genetic risk?  Many disorders are the result of interaction between susceptibility genes and environmental influences. One example is cardiovascular disease; people with a family history of cardiovascular disease are more susceptible to heart problems, and environmental influences, such as diet, can increase this risk. Schizophrenia is also a complex disorder that can arise from both genetic and environmental influences, although heritability estimates are around 80%. What is the evidence for genetic and non-genetic risk? Moderate to high quality evidence found large increased risk of schizophrenia in people with one or two first-degree relatives with schizophrenia compared...

The post Genetic and non-genetic risk appeared first on NeuRA Library.

]]>
What is genetic and non-genetic risk? 

Many disorders are the result of interaction between susceptibility genes and environmental influences. One example is cardiovascular disease; people with a family history of cardiovascular disease are more susceptible to heart problems, and environmental influences, such as diet, can increase this risk. Schizophrenia is also a complex disorder that can arise from both genetic and environmental influences, although heritability estimates are around 80%.

What is the evidence for genetic and non-genetic risk?

Moderate to high quality evidence found large increased risk of schizophrenia in people with one or two first-degree relatives with schizophrenia compared to people without a relative with schizophrenia. Moderate quality evidence from twin studies suggests genetic effects contributing to risk of schizophrenia are much higher than environmental effects, although both factors are involved. Genetic risk scores for schizophrenia are associated with increased symptoms of schizophrenia, particularly negative and disorganised symptoms.

Moderate to low quality evidence suggests a medium increase in prevalence rates of subclinical psychotic symptoms in people with a family history of mental illness. There is a large increased risk of schizophrenia in offspring of people with schizophrenia compared to offspring of people with no mental disorder. There is no increased risk of depression, anxiety, disruptive disorders, substance use disorder, or attention deficit hyperactivity disorder in offspring of people with schizophrenia. There is high familial coaggregation of schizophrenia and bipolar disorder, with first-degree relatives of people with schizophrenia or bipolar disorder showing an increased risk of developing either disorder.

April 2022

Image: ©Photocreo Bednarek – Fotolia – stock.adobe.com

The post Genetic and non-genetic risk appeared first on NeuRA Library.

]]>
Genetics overview https://library.neura.edu.au/schizophrenia/risk-factors/genetic/genetics-in-schizophrenia/ Wed, 15 May 2013 06:03:28 +0000 https://library.neura.edu.au/?p=475 When a gene is associated with an illness, ‘typical’ inheritance patterns mean that a person carrying that gene will be affected by the illness, and the gene may be passed down to any offspring. However, schizophrenia is appearing to be much more complex. Hundreds of genes have been linked to schizophrenia and these genes do not appear to follow typical patterns of inheritance across generations. Moreover, the additional influence of environmental factors significantly complicates the identification of susceptibility genes. This suggests that a susceptibility to schizophrenia may involve associations with multiple genes which interact with each other, and with the...

The post Genetics overview appeared first on NeuRA Library.

]]>
When a gene is associated with an illness, ‘typical’ inheritance patterns mean that a person carrying that gene will be affected by the illness, and the gene may be passed down to any offspring. However, schizophrenia is appearing to be much more complex. Hundreds of genes have been linked to schizophrenia and these genes do not appear to follow typical patterns of inheritance across generations. Moreover, the additional influence of environmental factors significantly complicates the identification of susceptibility genes. This suggests that a susceptibility to schizophrenia may involve associations with multiple genes which interact with each other, and with the environment, to result in schizophrenia.

The sheer volume of information available has lead to the development of a website dedicated to compiling all the existing evidence for schizophrenia susceptibility genes. SchizophreniaGene (www.szgene.org) aims to collate the evidence for all genes and polymorphisms that have been implicated in schizophrenia, performing meta-analyses where possible to assess the strength of the evidence for each gene and its polymorphisms. Therefore, information on individual genes are not included in the Schizophrenia Library. Please see the Genetics in schizophrenia factsheet PDF (below) for general information on genetics and how to use the SchizophreniaGene website. There is no technical table for this topic.

August 2020

The post Genetics overview appeared first on NeuRA Library.

]]>