This research proposes a simple and practical method to make low-stray-light gratings, where the substrate shifts about a 1 mm distance in the direction parallel or perpendicular to the exposure interference fringes. ...This research proposes a simple and practical method to make low-stray-light gratings, where the substrate shifts about a 1 mm distance in the direction parallel or perpendicular to the exposure interference fringes. When the substrate shifts, a reference grating next to the substrate is used to adjust in real time the phase of the exposure interference fringes relative to the substrate. Shifting eliminates the exposure defects and therefore decreases the stray light of gratings. Several gratings are successfully made by using this method, which have straighter grooves,smoother surfaces, and lower stray light than gratings made in conventional interference lithography.展开更多
Glioma is one of the most malignant primary tumors affecting the brain.The efficacy of therapeutics for glioma is seriously compromised by the restriction of blood-brain barrier(BBB),interstitial tumor pressure of res...Glioma is one of the most malignant primary tumors affecting the brain.The efficacy of therapeutics for glioma is seriously compromised by the restriction of blood-brain barrier(BBB),interstitial tumor pressure of resistance to chemotherapy/radiation,and the inevitable damage to normal brain tissues.Inspired by the natural structure and properties of high-density lipoprotein(HDL),a tumor-penetrating lipoprotein was prepared by the fusion tLyP-1 to apolipoprotein A-I-mimicking peptides(D4F),together with indocyanine green(ICG)incorporation and lipophilic small interfering RNA targeted HIF-1α(siHIF)surface anchor for site-specific photo-gene therapy.tLyP-1 peptide is fused to HDL-surface to facilitate BBB permeability,tumor-homing capacity and-site accumulation of photosensitizer and siRNA.Upon NIR light irradiation,ICG not only served as real-time targeted imaging agent,but also provided toxic reactive oxygen species and local hyperthermia for glioma phototherapy.The HIF-1αsiRNA in this nanoplatform downregulated the hypoxia-induced HIF-1αlevel in tumor microenvironment and enhanced the photodynamic therapy against glioma.These studies demonstrated that the nanoparticles could not only efficiently across BBB and carry the payloads to orthotopic glioma,but also modulate tumor microenvironment,thereby inhibiting tumor growth with biosafety.Overall,this study develops a new multifunctional drug delivery system for glioma theranostic,providing deeper insights into orthotopic brain tumor imaging and treatment.展开更多
基金supported by the National Natural Science Foundation of China under Grant No.51427805
文摘This research proposes a simple and practical method to make low-stray-light gratings, where the substrate shifts about a 1 mm distance in the direction parallel or perpendicular to the exposure interference fringes. When the substrate shifts, a reference grating next to the substrate is used to adjust in real time the phase of the exposure interference fringes relative to the substrate. Shifting eliminates the exposure defects and therefore decreases the stray light of gratings. Several gratings are successfully made by using this method, which have straighter grooves,smoother surfaces, and lower stray light than gratings made in conventional interference lithography.
基金The authors acknowledge financial support from National Natural Science Foundation of China(No.81872819,82073401,82073795 and 81903557)Natural Science Foundation of Jiangsu Province(No.BK20190802)+2 种基金Natural Science Foundation Youth Project of Nanjing University of Chinese Medicine(No.NZY81903557)the Open Project of Chinese Materia Medica First-Class Discipline of Nanjing University of Chinese Medicine(No.2020YLXK019)Natural Science Foundation of the Jiangsu Higher Education Institutions of China(No.19KJB350003).
文摘Glioma is one of the most malignant primary tumors affecting the brain.The efficacy of therapeutics for glioma is seriously compromised by the restriction of blood-brain barrier(BBB),interstitial tumor pressure of resistance to chemotherapy/radiation,and the inevitable damage to normal brain tissues.Inspired by the natural structure and properties of high-density lipoprotein(HDL),a tumor-penetrating lipoprotein was prepared by the fusion tLyP-1 to apolipoprotein A-I-mimicking peptides(D4F),together with indocyanine green(ICG)incorporation and lipophilic small interfering RNA targeted HIF-1α(siHIF)surface anchor for site-specific photo-gene therapy.tLyP-1 peptide is fused to HDL-surface to facilitate BBB permeability,tumor-homing capacity and-site accumulation of photosensitizer and siRNA.Upon NIR light irradiation,ICG not only served as real-time targeted imaging agent,but also provided toxic reactive oxygen species and local hyperthermia for glioma phototherapy.The HIF-1αsiRNA in this nanoplatform downregulated the hypoxia-induced HIF-1αlevel in tumor microenvironment and enhanced the photodynamic therapy against glioma.These studies demonstrated that the nanoparticles could not only efficiently across BBB and carry the payloads to orthotopic glioma,but also modulate tumor microenvironment,thereby inhibiting tumor growth with biosafety.Overall,this study develops a new multifunctional drug delivery system for glioma theranostic,providing deeper insights into orthotopic brain tumor imaging and treatment.
