via Trinity College Dublin
Bioengineers from Trinity have developed a prototype patch that does the same job as crucial aspects of heart tissue.
Their patch withstands the mechanical demands and mimics the electrical signalling properties that allow our hearts to pump blood rhythmically round our bodies. Their work essentially takes us one step closer to a functional design that could mend a broken heart.
One in six men and one in seven women in the EU will suffer a heart attack at some point in their lives. Worldwide, heart disease kills more women and men – regardless of race, than any other disease.
Cardiac patches lined with heart cells can be applied surgically to restore heart tissue in patients who have had damaged tissue removed after a heart attack and to repair congenital heart defects in infants and children.
Ultimately, though, the goal is to create cell-free patches that can restore the synchronous beating of the heart cells, without impairing the heart muscle movement.
Michael Monaghan, ussher assistant professor in biomedical engineering at Trinity, and senior author on the paper, said:
“Despite some advances in the field, heart disease still places a huge burden on our healthcare systems and the life quality of patients worldwide. It affects all of us either directly or indirectly through family and friends. As a result, researchers are continuously looking to develop new treatments which can include stem cell treatments, biomaterial gel injections and assistive devices.”
“Ours is one of few studies that looks at a traditional material, and through effective design allows us to mimic the direction-dependent mechanical movement of the heart, which can be sustained repeatably. This was achieved through a novel method called ‘melt electrowriting’ and through close collaboration with the suppliers located nationally we were able to customise the process to fit our design needs.”
This work was performed in the Trinity Centre for Biomedical Engineering, based in the Trinity Biomedical Sciences Institute in collaboration with Spraybase®, a subsidiary of Avectas Ltd. It was funded by Enterprise Ireland through the Innovation Partnership Program (IPP).
Dr Gillian Hendy, director of Spraybase® is a co-author on the paper. Dr Hendy commended the team at Trinity on the work completed and advancements made on the Spraybase® Melt Electrowriting (MEW) System.
The success achieved by the team highlights the potential applications of this novel technology in the cardiac field and succinctly captures the benefits of industry and academic collaboration, through platforms such as the IPP.
The Latest Updates from Bing News & Google News
Go deeper with Bing News on:
Heart patch
- Killer Instinct Anniversary Edition Patch Goes Live This Week
Iron Galaxy Studios lead game designer Adam "Keits" Heart hosted a two-hour livestream last week, which showed off every buff and nerf coming in the new patch. This is the first update for Killer ...
- Kathy Hilton Says Kyle Richards & Mauricio Umansky’s Separation ‘Just Broke’ Her Heart
Kathy Hilton is weighing in on Kyle Richards and Mauricio Umansky’s separation. “The Real Housewives of Beverly Hills” alum was on “Today with Hoda & Jenna” on Monday alongside her daughter, Paris ...
- Scientists create patch that may successfully treat congenital heart defects in infants and last a lifetime
Using laboratory engineered tissue, scientists at the University of Colorado Anschutz Medical Campus have created a full-thickness, biodegradable patch that holds the promise of correcting congenital ...
- New device and drug combination could revolutionize heart failure treatment
A newly-developed heart failure device and medication combination is safe and effective to use, and will allow patients to receive treatment from the comfort of their own home.
- Dog-owner's heart-felt warning over Alabama rot after losing her beloved cocker spaniel Betsy to killer disease
Hannah Povey, from Farringdon, Hampshire, had her beloved cocker spaniel Betsy put down by vets last Sunday. It was confirmed that Betsy died because of complications of Alabama Rot, an incurable ...
Go deeper with Google Headlines on:
Heart patch
[google_news title=”” keyword=”heart patch” num_posts=”5″ blurb_length=”0″ show_thumb=”left”]
Go deeper with Bing News on:
Artificial heart tissue
- AI Identifies Breast Cancer Patients Most Likely to Benefit from Chemo
AI tool is first to combine cancerous and non-cancerous cell patterns to predict outcomes in invasive breast cancer ...
- New AI Tool Transforms Breast Cancer Prognosis and Treatment
Northwestern Medicine's AI tool promises more precise breast cancer prognosis, aiming to minimize unnecessary chemotherapy treatments. AI tool could reduce disparities for patients who are diagnosed i ...
- AI may spare breast cancer patients unnecessary treatments
A new AI (artificial intelligence) tool may make it possible to spare breast cancer patients unnecessary chemotherapy treatments by using a more precise method of predicting their outcomes, reports a ...
- Magovern-Cromie Artificial Heart Valve
The causes of heart valve malfunction are numerous, and can include congenital malformation or acquired heart disease. Artificial heart valves were the first mechanical replacements of a natural ...
- Artificial Organs Produce Genuine Benefits
Even though human cells are used, tissue types do not require matching ... oxygenating blood as it returns to the heart (McGowan Center for Artificial Organs, Pittsburgh). "The IMO basically consists ...
Go deeper with Google Headlines on:
Artificial heart tissue
[google_news title=”” keyword=”artificial heart tissue” num_posts=”5″ blurb_length=”0″ show_thumb=”left”]
