Breakthroughs

• McGovern Medical School at UTHealth Houston launched the Center for Innovation in Congenital Heart Disease, a multidisciplinary center bringing together experts in medicine, science, and engineering to transform understanding and treatment of the condition. • A major research focus involves recreating early human heart development using stem cells and bioprinted structures to study how congenital defects form. • The center bridges discovery and clinical care by advancing research, developing technologies, and translating innovations into patient treatment solutions across a lifetime of care.

• Researchers from Binghamton University and University of Virginia developed a machine-learning system that analyzed over 55 million scientific papers and patents to identify truly disruptive research that changes the direction of science. • The new metric, published in Science Advances, measures "disruptiveness" — the degree to which a paper pulls a field away from its earlier path — and successfully identifies major simultaneous discoveries often overlooked by traditional citation-based measures. • The study addresses a critical gap in how science evaluates impact, recognizing that scientific progress occurs through abrupt changes rather than incremental steps, helping identify overlooked breakthrough moments in research history.

• Researchers at Binghamton University, State University of New York, along with colleagues at the University of Virginia, published a study in Science Advances mapping innovation landscapes to identify disruptive studies and patents that challenge existing scientific paradigms. • The method, developed by Sadamori Kojaku and colleagues, helps pinpoint discoveries that reshape the course of science, such as the theory of evolution, atomic splitting, and antibiotic development. • The robust measure of disruptiveness provides a systematic way to identify simultaneous breakthroughs across scientific fields and could accelerate recognition of transformative research.