Domestic abuse survivors face long-term consequences

A new study from the University of Glasgow explored the mental health consequences associated with domestic violence and traumatic brain injury, and suggested that the impact can last for 27 years after the abuse ends.
The study, Intimate partner violence, traumatic brain injury and long-term mental health outcomes in mid-life: The Drake IPV study, is published in the BMJ Mental Health journal, and researchers said the issue had been 'neglected'.
Using data from the multi-centre PREVENT Dementia Study, the researchers found that 14% of 632 study participants, women aged 40 to 59 at recruitment, reported a history of domestic violence with physical abuse.
Compared with unexposed participants, domestic violence was associated with higher traumatic brain injury exposure, alongside higher lifetime and ongoing diagnoses of mental health disorders, such as depression, anxiety, sleep disorders and PTSD.
The risk of ongoing mid-life mental health disorders remained, despite exposure to domestic violence having ceased on average 27 years before assessment, according to the research.
A history of traumatic brain injury in those exposed to domestic violence was also associated with increased risk of ongoing PTSD symptoms and concurrent mental health disorders, the study found.
The work was funded by the Drake Foundation, the National Institutes of Health, the Medical Research Council, NHS Research Scotland, the Alzheimer's Society, and the Alzheimer's Association.
Professor Willie Stewart said: 'Given its prevalence, these findings highlight domestic violence as a public health issue with potential for long-lasting impacts on brain health.
'Our work also reinforces the need for more research in this previously neglected area.'
Dr Graciela Muniz-Terrera, a co-author on the study, said: 'This study highlights the importance of including questions about domestic violence in population research to advance our knowledge about its long-term effects.'

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Glasgow Times

7 hours ago

• Glasgow Times

Celebrated physicist visits old Glasgow school nearly 40 years later

Dr Calum Torrie, associate director and chief engineer at the USA-based Laser Interferometer Gravitational-Wave Observatory (LIGO), visited Cardonald Primary School on Tuesday, June 17, to present a special piece of science-themed artwork and talk about his career. Dr Torrie, who now lives in Pasadena, California, said: "I was proud to come back to Cardonald Primary nearly 40 years after I left to meet pupils and present them with their fantastic artwork representing the first detection of gravitational waves. "Having the opportunity to meet young people and get them engaged with science is always welcome, but being able to meet pupils who are growing up where I did was particularly special." Read more: New Glasgow research centre launched to help advance sustainable shipping (Image: Supplied) (Image: Supplied) He spoke to pupils about his time at the school in the 1980s, his studies in physics and astronomy at the University of Glasgow, and his current work at LIGO. Martin Coogan, headteacher at Cardonald Primary School, said: "We were delighted to welcome Dr Torrie back to the school to meet pupils, discuss his career, and present us with the artwork. "The children thoroughly enjoyed Dr Torrie's presentation, which focused on gravitational wave astronomy and how the remarkable sensitivity of the LIGO detectors was enabled by research at a local university. "It's fantastic to think that an internationally recognised scientist attended our school and studied at the University of Glasgow. "I am sure Dr Torrie's visit to our school will inspire some of our pupils to start thinking about science as a possible future career path." During the visit, Dr Torrie showcased a framed mosaic created by pupils in 2023 as part of a University of Glasgow project. Gravitational waves, first predicted by Albert Einstein in 1916, were detected for the first time in 2015 by LIGO. This discovery opened a new frontier in astronomy and was awarded the Nobel Prize in Physics in 2017. The mosaic visualises one of the signals detected by LIGO and is composed of 1,156 individual drawings contributed by pupils and staff. Dr Torrie also presented the pupils with a framed A3 poster, celebrating their work. Dr Andrew Spencer, University of Glasgow researcher who helped lead the development of the mosaics, said: "The Cardonald mosaic celebrates how this ground-breaking discovery was the work of many people. "The individual squares are recycled from the work of many University of Glasgow researchers, past and present, and each one was decorated by students and staff at Cardonald Primary. "Working with the School to produce the mosaic was a brilliant experience, and it was great to return with Dr Torrie and the final artwork. "We hope that future generations of Glasgow children will grow up to continue the tradition of scientific innovation." Read more: Glasgow University urges unpaid carers to take part in new survey (Image: Supplied) (Image: Supplied) University of Glasgow scientists played a key role in the development of LIGO, particularly in the design of its mirror suspensions and data analysis. Dr Torrie's visit to Cardonald Primary School comes as the global gravitational wave research community prepares to mark the 10th anniversary of the first detection. Glasgow will host the International Conference on General Relativity and Gravitation and the Edoardo Amaldi Conference on Gravitational Waves from July 14 to 18. This conference, organised by the Institute of Physics and supported by the University of Glasgow, will see gravitational wave and relativity researchers from across the globe come together to talk about their research.

Glasgow Times

4 days ago

• Glasgow Times

Glasgow University study sheds light on Alzheimer's risk

The research, led by the University of Glasgow, published in the journal npj Dementia, found that while better memory, reasoning, and reaction times were linked to a lower risk of Alzheimer's disease up to 15 years later, this protective effect was significantly reduced in people with a higher genetic risk. Researchers focused on the APOE e4 genotype, which is present in roughly one in four people and is the strongest known genetic predictor of late-onset Alzheimer's. Read more: Glasgow drugs trial to use genetics to 'personalise' treatments A single copy of the APOE e4 gene increases Alzheimer's risk threefold, while two copies raise the risk by twelvefold. Dr Donald Lyall, senior lecturer in population brain health at the University of Glasgow's School of Health and Wellbeing, said: "Our study adds to the knowledge gap that exists on the relationship between genetic factors, cognitive health generally, and subsequent risk of dementia in later life. "Our findings suggest that genetics plays a more significant role than previously thought and may influence the risk or protection conferred by other factors like premorbid cognitive health." In the study, people with above-average reasoning ability were found to have a 36% lower risk of developing Alzheimer's within 15 years. However, for those who also carried the APOE e4 gene, the risk reduction dropped to just 21%. More strikingly, individuals with high reasoning skills but who carried the APOE e4 genotype were more likely to develop Alzheimer's than those with below-average reasoning but no genetic risk factor. The researchers analysed data from over 252,000 UK Biobank participants aged 55 and older, with the average age at the start of the study being just over 62. To ensure long-term accuracy, individuals diagnosed with Alzheimer's within two years of testing were excluded. Researchers excluded individuals diagnosed with Alzheimer's within two years of cognitive testing. The study reinforces the challenges in identifying effective therapies for Alzheimer's, particularly given the influence of genetic factors. Read more: Public urged to shape health board's anti-racism strategy - how you can help Dr Lyall said: "Our study has important implications regarding dementia; namely that genetics clearly plays a significant role in influencing someone's overall risk of Alzheimer's disease as they age." The findings underscore the complex interplay between cognitive health and genetics and the challenges in developing therapies that can effectively prevent or treat Alzheimer's. While cognitive resilience still matters, the research highlights the urgent need to understand genetic risk factors in the fight against one of the world's most devastating neurodegenerative conditions.

STV News

5 days ago

• STV News

Genetic testing study 'could help personalise treatments for patients'

A new study aims to show how genetic testing could help personalise treatments by boosting medication response and reducing harmful side effects. The landmark trial will recruit up to 4,000 patients over the next two years in the NHS Greater Glasgow and Clyde area, to investigate how an individual's genetic profile affects their response to 60 common medications. It is hoped the Phoenix Study will to lead to wider implementation of genetic testing across Scotland, making 'precision medicine' routine, for the first time. Researchers hope it will pave the way for tailored prescribing across cardiology, stroke, surgery, orthopaedics, geriatrics, gynaecology, ENT, rheumatology, respiratory, neurology, psychiatry and other specialities. The trial will take place at the Queen Elizabeth University Hospital (QEUH) in Glasgow. Pharmacogenomics (PGx) – the study of how genes influence individual responses to drugs – has not been routinely used in clinical practice in the UK, amid hopes evidence will lead to change. Genetic test results will be sent to clinicians, allowing for treatment decisions to be adjusted, and patients will be followed up regularly to monitor the effects of any changes, to ensure they receive the highest standard of care. Patients will undergo a simple genetic test to analyse their DNA and the results, returned within days, will help doctors determine whether each patient is receiving the most suitable drug and dosage based on their genetic make-up. Around 15% are expected to carry genetic variants that may reduce the effectiveness of a medication or increase the risk of side-effects. In some cases, the prescribed drug may be ineffective, or a different dosage may be needed. The trial is open to adult in-patients in the QEUH and patients will be randomly assigned to either receive the pharmacogenomic test immediately, or at three months, which will allow the researchers to establish evidence of benefit. Without prior testing, these issues can go unnoticed, often leading to a trial-and-error approach to treatment, according to researchers. It is led by Sandosh Padmanabhan, Pontecorvo chair of Pharmacogenomics at the University of Glasgow, in partnership with the University of Glasgow's Living Laboratory, the NHSGGC-hosted West of Scotland Innovation Hub, and industry partners MyDNA and Agena Bioscience. Patient Eric Balish was asked to take part by consultants, after having a heart attack and subsequent surgery. He was immediately prescribed clopidogrel, one of the 60 drugs included in the study, but has since had his medication changed a number of times. Mr Balish said: 'I knew a bit about personalised medicine previously, and so when I was asked to take part in the Phoenix Study I was happy to do it. 'If you're asked to participate and support long-term research like this, then it's no great hardship to give something back and just do the right thing. I am hopeful my information can be of use to the trial and in the future.' Prof Padmanabhan, a consultant at the QEUH, said: 'Physicians and pharmacists increasingly recognise that PGx-informed prescribing and dispensing improves both the efficacy and safety of drug treatment. 'The primary goal of this trial is to evaluate the clinical and health-economic impact of PGx-guided prescribing. 'Specifically, we want to determine if a PGx-guided approach to prescribing can significantly reduce the incidence and severity of drug related side-effects and/or treatment failures. 'This evaluation will compare the outcomes of participants who receive PGx-guided medication management to those receiving standard care.' Dr Katriona Brooksbank, research and innovation lead for NHSGGC and the West of Scotland Innovation Hub, said: 'We are incredibly excited to be supporting this trial, which could have a major impact on the treatments patients are prescribed based on their own genetics. 'It will put precision medicine into action as researchers look to determine how a person's own genetic make-up can affect the drugs they are given as treatments. 'This could allow clinicians to reduce adverse reactions and side effects, ensuring the best possible outcomes for patients.' Allan Sheffield, co-founder of MyDNA, said: 'For MyDNA, the Phoenix Study embodies the future of healthcare. 'Our unique combination of pharmacogenomic clinical decision support and in-house Gene by Gene accredited testing empowers clinicians to move beyond guesswork. 'This trial will demonstrate the profound impact of precision medicine, paving the way for a future where this approach routinely drives better patient outcomes.' Get all the latest news from around the country Follow STV News Scan the QR code on your mobile device for all the latest news from around the country