Background:Genetic analysis in human patients has linked mutations in PIK3CA,the catalytic subunit of PI-3′Kinase,to sporadic incidences of vascular malformations.Methods:We have developed a mouse model with inducibl...Background:Genetic analysis in human patients has linked mutations in PIK3CA,the catalytic subunit of PI-3′Kinase,to sporadic incidences of vascular malformations.Methods:We have developed a mouse model with inducible and endothelial-specific expression of PIK3CA H1047R,resulting in the development of vascular malformations.Systemic induction of this mutation in adult mice results in rapid lethality,limiting our ability to track and study these lesions;therefore,we developed a topical and local induction protocol using the active metabolite of tamoxifen,4OH-T,on the ear skin of adults.Results:This approach allows us to successfully model the human disease in a mature and established vascular bed and track the development of vascular malformations.To validate the utility of this model,we applied a topical rapamycin ointment,as rapamycin is therapeutically beneficial to patients in clinical trials.We found that the induced ear lesions showed significant attenuation after treatment,which was easily quantified.Conclusions:These data collectively provide evidence of a new model to study vascular malformations in adult tissues,which should be particularly useful in environments lacking specialized small-animal imaging facilities.展开更多
This paper presents the results regarding the effect of nano aluminum powder pigment concentration on the protective properties of waterborne epoxy films in 3.5 wt pct NaCl solution. The anticorrosive performance of t...This paper presents the results regarding the effect of nano aluminum powder pigment concentration on the protective properties of waterborne epoxy films in 3.5 wt pct NaCl solution. The anticorrosive performance of the coatings with 0.5, 1, and 3 wt pct pigments and none pigment were investigated using electrochemical impedance spectroscopy (EIS), scanning electron microscopy (SEM) and Raman spectroscopy techniques. The results show that adding appropriate amount of nano-aluminium powder pigment can enhance the barrier properties of the epoxy coating, which is attributed to the surface effect of nanoparticles and the compatibility of the pigment with the waterborne epoxy coatings.展开更多
基金David E.Bryant TrustLeopold Fund for Vascular AnomaliesNational Institutes of Health,Grant/Award Number:1R01HL151679。
文摘Background:Genetic analysis in human patients has linked mutations in PIK3CA,the catalytic subunit of PI-3′Kinase,to sporadic incidences of vascular malformations.Methods:We have developed a mouse model with inducible and endothelial-specific expression of PIK3CA H1047R,resulting in the development of vascular malformations.Systemic induction of this mutation in adult mice results in rapid lethality,limiting our ability to track and study these lesions;therefore,we developed a topical and local induction protocol using the active metabolite of tamoxifen,4OH-T,on the ear skin of adults.Results:This approach allows us to successfully model the human disease in a mature and established vascular bed and track the development of vascular malformations.To validate the utility of this model,we applied a topical rapamycin ointment,as rapamycin is therapeutically beneficial to patients in clinical trials.We found that the induced ear lesions showed significant attenuation after treatment,which was easily quantified.Conclusions:These data collectively provide evidence of a new model to study vascular malformations in adult tissues,which should be particularly useful in environments lacking specialized small-animal imaging facilities.
文摘This paper presents the results regarding the effect of nano aluminum powder pigment concentration on the protective properties of waterborne epoxy films in 3.5 wt pct NaCl solution. The anticorrosive performance of the coatings with 0.5, 1, and 3 wt pct pigments and none pigment were investigated using electrochemical impedance spectroscopy (EIS), scanning electron microscopy (SEM) and Raman spectroscopy techniques. The results show that adding appropriate amount of nano-aluminium powder pigment can enhance the barrier properties of the epoxy coating, which is attributed to the surface effect of nanoparticles and the compatibility of the pigment with the waterborne epoxy coatings.
