Objectives To assess long-term coronary arterial response to biodegradable polymer-coated sirolimus-eluting stent(BSES) in vivo by using virtual histology intravascular ultrasound(VH-IVUS).Methods 41 patients were enr...Objectives To assess long-term coronary arterial response to biodegradable polymer-coated sirolimus-eluting stent(BSES) in vivo by using virtual histology intravascular ultrasound(VH-IVUS).Methods 41 patients were enrolled in this study and VH-IVUS was performed to assess the native artery vascular responses to BSES compared with durable polymer-coated SES(DSES) during long-term follow-up(median =8 months).The presence of necrotic core abutting to the lumen was evaluated at follow-up.Results With similar in-stent late luminal loss(0.15[0.06,0.30]vs 0.19[0.03, 0.30]mm,P=0.772),the overall incidence of necrotic core abutting to the lumen was significantly less in BSES than DSES group(44%vs.63%,P=0.019)(proximal 18%,stented site 14%and distal 12%in BSES group,proximal 19%, stented site 28%and distal 16%in DSES group).Compared with stented segments each other,the DSES -treated segments had a significant higher incidence of necrotic core abutting to the lumen through the stent struts(73%vs.36%, P=0.005).In addition,more multiple necrotic core abutting to the lumen was observed in DSES group(overall:63%vs. 36%,P=0.015).Furthermore,among the total number of stented segments with necrotic core abutting to the lumen, DSES -treated lesions had more multiple necrotic core abutting to the lumen through the stent struts than BSES -treated lesions in evidence(74%vs.33%,P=0.027).Conclusions By VH-IVUS analysis at follow-up,a greater frequency of stable lesion morphometry was shown in lesions treated with BSESs compared with lesions treated with DSESs.The major reason was BSES produced less toxicity to the arterial wall and facilitated neointimal healing as a result of polymer coating on drug-eluting stent(DES) surface biodegraded as time went by.展开更多
PHOBOTEX~? RSY durable water repellent delivers best-in-class performance to support the industry's shift to non-fluorinated formulations Continuing to lead the textile sector’s transition to more sustainable and...PHOBOTEX~? RSY durable water repellent delivers best-in-class performance to support the industry's shift to non-fluorinated formulations Continuing to lead the textile sector’s transition to more sustainable and eco-friendly business models,Huntsman Textile Effects has introduced the new PHOBOTEX~?RSY non-fluorinated durable water repellent(DWR)that raises the standard for repellency especially on high-performance synthetic textiles.This new product will allow brands and retailers to meet global demand for eco-friendly clothing that require extreme rain-and stain-protection.展开更多
Biofilms at the tooth-restoration bonded interface can produce acids and cause recurrent caries. Recurrent caries is a primary reason for restoration failures. The objectives of this study were to synthesize a novel b...Biofilms at the tooth-restoration bonded interface can produce acids and cause recurrent caries. Recurrent caries is a primary reason for restoration failures. The objectives of this study were to synthesize a novel bioactive dental bonding agent containing dimethylaminohexadecyl methacrylate(DMAHDM) and 2-methacryloyloxyethyl phosphorylcholine(MPC) to inhibit biofilm formation at the tooth-restoration margin and to investigate the effects of water-aging for 6 months on the dentin bond strength and protein-repellent and antibacterial durability. A protein-repellent agent(MPC) and antibacterial agent(DMAHDM) were added to a Scotchbond multi-purpose(SBMP) primer and adhesive. Specimens were stored in water at 37 °C for 1, 30, 90, or 180 days(d).At the end of each time period, the dentin bond strength and protein-repellent and antibacterial properties were evaluated. Protein attachment onto resin specimens was measured by the micro-bicinchoninic acid approach. A dental plaque microcosm biofilm model was used to test the biofilm response. The SBMP + MPC + DMAHDM group showed no decline in dentin bond strength after water-aging for 6 months, which was significantly higher than that of the control(P < 0.05). The SBMP + MPC + DMAHDM group had protein adhesion that was only 1/20 of that of the SBMP control(P < 0.05). Incorporation of MPC and DMAHDM into SBMP provided a synergistic effect on biofilm reduction. The antibacterial effect and resistance to protein adsorption exhibited no decrease from 1 to 180 d(P > 0.1). In conclusion, a bonding agent with MPC and DMAHDM achieved a durable dentin bond strength and long-term resistance to proteins and oral bacteria. The novel dental bonding agent is promising for applications in preventive and restorative dentistry to reduce biofilm formation at the tooth-restoration margin.展开更多
文摘Objectives To assess long-term coronary arterial response to biodegradable polymer-coated sirolimus-eluting stent(BSES) in vivo by using virtual histology intravascular ultrasound(VH-IVUS).Methods 41 patients were enrolled in this study and VH-IVUS was performed to assess the native artery vascular responses to BSES compared with durable polymer-coated SES(DSES) during long-term follow-up(median =8 months).The presence of necrotic core abutting to the lumen was evaluated at follow-up.Results With similar in-stent late luminal loss(0.15[0.06,0.30]vs 0.19[0.03, 0.30]mm,P=0.772),the overall incidence of necrotic core abutting to the lumen was significantly less in BSES than DSES group(44%vs.63%,P=0.019)(proximal 18%,stented site 14%and distal 12%in BSES group,proximal 19%, stented site 28%and distal 16%in DSES group).Compared with stented segments each other,the DSES -treated segments had a significant higher incidence of necrotic core abutting to the lumen through the stent struts(73%vs.36%, P=0.005).In addition,more multiple necrotic core abutting to the lumen was observed in DSES group(overall:63%vs. 36%,P=0.015).Furthermore,among the total number of stented segments with necrotic core abutting to the lumen, DSES -treated lesions had more multiple necrotic core abutting to the lumen through the stent struts than BSES -treated lesions in evidence(74%vs.33%,P=0.027).Conclusions By VH-IVUS analysis at follow-up,a greater frequency of stable lesion morphometry was shown in lesions treated with BSESs compared with lesions treated with DSESs.The major reason was BSES produced less toxicity to the arterial wall and facilitated neointimal healing as a result of polymer coating on drug-eluting stent(DES) surface biodegraded as time went by.
文摘PHOBOTEX~? RSY durable water repellent delivers best-in-class performance to support the industry's shift to non-fluorinated formulations Continuing to lead the textile sector’s transition to more sustainable and eco-friendly business models,Huntsman Textile Effects has introduced the new PHOBOTEX~?RSY non-fluorinated durable water repellent(DWR)that raises the standard for repellency especially on high-performance synthetic textiles.This new product will allow brands and retailers to meet global demand for eco-friendly clothing that require extreme rain-and stain-protection.
基金the Natural Science Foundation of China NSFC 81500879(N.Z.),81400540(K.Z.)the Beijing Municipal Science and Technology Commission Z151100003915137(N.Z.)+2 种基金the Beijing Municipal Administration of Hospitals’YouthProgram QML20161501(N.Z.),QML20151401(K.Z.)the Beijing Municipal Hospitals’Program ZYLX201703(Y.B.),NIH R01 DE17974(H.X.)a Seed Grant(H.X.)from the University of Maryland School of Dentistry
文摘Biofilms at the tooth-restoration bonded interface can produce acids and cause recurrent caries. Recurrent caries is a primary reason for restoration failures. The objectives of this study were to synthesize a novel bioactive dental bonding agent containing dimethylaminohexadecyl methacrylate(DMAHDM) and 2-methacryloyloxyethyl phosphorylcholine(MPC) to inhibit biofilm formation at the tooth-restoration margin and to investigate the effects of water-aging for 6 months on the dentin bond strength and protein-repellent and antibacterial durability. A protein-repellent agent(MPC) and antibacterial agent(DMAHDM) were added to a Scotchbond multi-purpose(SBMP) primer and adhesive. Specimens were stored in water at 37 °C for 1, 30, 90, or 180 days(d).At the end of each time period, the dentin bond strength and protein-repellent and antibacterial properties were evaluated. Protein attachment onto resin specimens was measured by the micro-bicinchoninic acid approach. A dental plaque microcosm biofilm model was used to test the biofilm response. The SBMP + MPC + DMAHDM group showed no decline in dentin bond strength after water-aging for 6 months, which was significantly higher than that of the control(P < 0.05). The SBMP + MPC + DMAHDM group had protein adhesion that was only 1/20 of that of the SBMP control(P < 0.05). Incorporation of MPC and DMAHDM into SBMP provided a synergistic effect on biofilm reduction. The antibacterial effect and resistance to protein adsorption exhibited no decrease from 1 to 180 d(P > 0.1). In conclusion, a bonding agent with MPC and DMAHDM achieved a durable dentin bond strength and long-term resistance to proteins and oral bacteria. The novel dental bonding agent is promising for applications in preventive and restorative dentistry to reduce biofilm formation at the tooth-restoration margin.
