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Low-cost test could open new avenues for earlier diagnosis, treatment of rare genetic disorders

A newly developed test to screen for three rare genetic disorders simultaneously in newborns was feasible, reliable and scalable, according to a new study.

United statesDavid amorDavid godlerChrissy ciminoPrader williDoris hamilton brownJaala pulfordEmily hendersonJournal of the american medical association networkVictorian medical research acceleration fundMurdoch children research instituteMurdoch childrenResearch instituteAmerican medical association network openMethylation specific quantitative melt analysisVictorian state government

New Test Can Screen Newborns for Three Rare Genetic Disorders Simultaneously

According to a study, a newly developed test to screen for three rare genetic disorders simultaneously in newborns was feasible, reliable and scalable.

United statesDavid amorDavid godlerChrissy ciminoPrader williDoris hamilton brownJaala pulfordJournal of the american medical association networkVictorian medical research acceleration fundMurdoch children research instituteMurdoch childrenResearch instituteAmerican medical association network openMethylation specific quantitative melt analysisState governmentMedical research acceleration fund

CSL s new headquarters will be home to biotech incubator

CSL, the Walter and Eliza Hall Institute (WEHI) and the University of Melbourne have secured funding to create a start-up incubator to support

Paul perreaultAndrew nashDaniel andrewsJaala pulfordEliza hall instituteVictorian medical research acceleration fundRna victoria research acceleration fundBreakthrough victoria fundResearch professor jim mccluskeyUniversity of melbourneUniversity of melbourne deputy viceMelbourne biomedicalVictorian governmentBreakthrough victoriaPremier daniel andrewsProfessor doug hilton

New Technique Breaks the Mould for 3D Printing Medical Implants

Researchers have flipped traditional 3D printing to create some of the most intricate biomedical structures yet, advancing the development of new technologies for regrowing bones and tissue.

Anita quigleyElena pigorovaStephanie doyleCarmine onofrilloCathal oconnellVictorian medical research acceleration fundUniversity of melbourneUniversity of wollongongSwinburne university of technologyUniversity of melbourne dr serena duchiSt vincent hospital melbourne research endowment fundHospital melbournePostdoctoral fellowAdvanced materials technologiesAssociate professor claudia di bellaNegative embodied sacrificial template

New technique breaks the mould for 3D printing medical implants

Loading video. VIDEO: Researchers have flipped traditional 3D printing to create some of the most intricate biomedical structures yet, advancing the development of new technologies for regrowing bones and tissue. Instead of making. view more Credit: RMIT University Researchers have flipped traditional 3D printing to create some of the most intricate biomedical structures yet, advancing the development of new technologies for regrowing bones and tissue. The emerging field of tissue engineering aims to harness the human body s natural ability to heal itself, to rebuild bone and muscle lost to tumours or injuries. A key focus for biomedical engineers has been the design and development of 3D printed scaffolds that can be implanted in the body to support cell regrowth.

Anita quigleyStephanie doyleElena pigorovaCarmine onofrilloCathal oconnellVictorian medical research acceleration fundUniversity of melbourneUniversity of wollongongSwinburne university of technologyUniversity of melbourne dr serena duchiSt vincent hospital melbourne research endowment fundHospital melbournePostdoctoral fellowAdvanced materials technologiesAssociate professor claudia di bellaNegative embodied sacrificial template

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