Sealed-off carbon dioxide lasers encounter problem of dissociation of CO2, Which causes the output power to fall. Reformation of CO2 is therefore essential for long life CO2 lasers. Au/Fe2O3 and Au/NiFe2O4 are promis...Sealed-off carbon dioxide lasers encounter problem of dissociation of CO2, Which causes the output power to fall. Reformation of CO2 is therefore essential for long life CO2 lasers. Au/Fe2O3 and Au/NiFe2O4 are promising candidates for this application.展开更多
This review comprehensively examines acute myocardial infarction with ventricular septal rupture(VSR),a rare yet lethal complication.We analyze its epidemiological,pathophysiological,clinical,and therapeutic aspects,e...This review comprehensively examines acute myocardial infarction with ventricular septal rupture(VSR),a rare yet lethal complication.We analyze its epidemiological,pathophysiological,clinical,and therapeutic aspects,emphasizing innovative strategies like bioabsorbable occluders and tissue engineering to reduce complications and improve prognosis.The integration of artificial intelligence and big data analytics for treatment decision-making and personalized surgical timing models is highlighted as transformative.Our analysis underscores the need for early diagnosis and tailored interventions,proposing future research directions in molecular mechanisms,multidisciplinary collaboration,and technology integration.These innovations promise to enhance VSR management and extend to other cardiovascular diseases,heralding a new era of precision and regenerative cardiovascular medicine.展开更多
文摘Sealed-off carbon dioxide lasers encounter problem of dissociation of CO2, Which causes the output power to fall. Reformation of CO2 is therefore essential for long life CO2 lasers. Au/Fe2O3 and Au/NiFe2O4 are promising candidates for this application.
基金Supported by Science and Technology Department of Yunnan Province-Kunming Medical University,Kunming Medical Joint Special Project-Surface Project,China,No.202401AY070001-164Yunnan Provincial Department of Science and Technology Science and Technology Plan Project—Major Science and Technology Special Projects,No.202405AJ310003.
文摘This review comprehensively examines acute myocardial infarction with ventricular septal rupture(VSR),a rare yet lethal complication.We analyze its epidemiological,pathophysiological,clinical,and therapeutic aspects,emphasizing innovative strategies like bioabsorbable occluders and tissue engineering to reduce complications and improve prognosis.The integration of artificial intelligence and big data analytics for treatment decision-making and personalized surgical timing models is highlighted as transformative.Our analysis underscores the need for early diagnosis and tailored interventions,proposing future research directions in molecular mechanisms,multidisciplinary collaboration,and technology integration.These innovations promise to enhance VSR management and extend to other cardiovascular diseases,heralding a new era of precision and regenerative cardiovascular medicine.
