期刊文献+
共找到5篇文章
< 1 >
每页显示 20 50 100
Electrochemical Bioencapsulation of Nanomaterials into Collagen for Biomedical Applications
1
作者 Xingguo Cheng Vasiliki Poenitzsch +2 位作者 Lauren Cornell Christopher Tsao Thomas Potter 《Journal of Encapsulation and Adsorption Sciences》 2013年第1期16-23,共8页
Here we reported a novel electrochemical encapsulation method to encapsulate various nanomaterials and bimolecules into collagen. The electrochemical encapsulation process involves assembling of collagen along with Na... Here we reported a novel electrochemical encapsulation method to encapsulate various nanomaterials and bimolecules into collagen. The electrochemical encapsulation process involves assembling of collagen along with Nano/bio materials using an isoelectric focusing mechanism. We have showed that a wide range of Nanomaterials such as carbon nanotubes, polymeric nanoparticles, magnetic calcium phosphate nanoparticles?and biomolecules can be encapsulated into collagen. These novel collagen-based composite materials possess improved electric, mechanical, antimicrobial, magnetic, bioactive properties. Thus, this novel electrochemical encapsulation process offers a means to fabricate novel biomaterials for various biomedical applications such as tendon/ligament, nerve, skin tissue engineering, tendon/ligament to bone grafts, and sutures, etc. 展开更多
关键词 NANOMATERIALS ELECTROCHEMICAL bioencapsulation COLLAGEN BIOMEDICAL APPLICATIONS
下载PDF
Compartmentalized Metabolic Engineering for Artemisinin Biosynthesis and Effective Malaria Treatment by Oral Delivery of Plant Cells 被引量:15
2
作者 Karan Malhotra Mayavan Subramaniyan +7 位作者 Khushboo Rawat Md. Kalamuddin M. Irfan Qureshi Pawan Malhotra Asif Mohmmed Katrina Cornish Henry Daniell Shashi Kumar1 《Molecular Plant》 SCIE CAS CSCD 2016年第11期1464-1477,共14页
Artemisinin is highly effective against drug-resistant malarial parasites, which affects nearly half of the global population and kills 〉500 000 people each year. The primary cost of artemisinin is the very expensive... Artemisinin is highly effective against drug-resistant malarial parasites, which affects nearly half of the global population and kills 〉500 000 people each year. The primary cost of artemisinin is the very expensive process used to extract and purify the drug from Artemisia annua. Elimination of this apparently unnecessary step will make this potent antimalarial drug affordable to the global population living in endemic regions. Here we reported the oral delivery of a non-protein drug artemisinin biosynthesized (~0.8 mg/g dry weight) at clinically meaningful levels in tobacco by engineering two metabolic pathways targeted to three different cellular compartments (chloroplast, nucleus, and mitochondria). The doubly transgenic lines showed a three-fold enhancement of isopentenyl pyrophosphate, and targeting AACPR, DBR2, and CYP71AV1 to chloroplasts resulted in higher expression and an efficient photo-oxidation of di- hydroartemisinic acid to artemisinin. Partially purified extracts from the leaves of transgenic tobacco plants inhibited in vitro growth progression of Plasmodium falciparum-infected red blood cells. Oral feeding of whole intact plant cells bioencapsulating the artemisinin reduced the parasitemia levels in challenged mice in comparison with commercial drug. Such novel synergistic approaches should facilitate low-cost production and delivery of artemisinin and other drugs through metabolic engineering of edible plants. 展开更多
关键词 bioencapsulation oral delivery of plant material dihydroartemisinic acid isopentenyl pyrophosphate plant transformation drug biosynthesis
原文传递
Silica Microcapsules Prepared by Interfacial Reaction Methods
3
作者 M Fujiwara K Shiokawa Y Nakahara 《复旦学报(自然科学版)》 CAS CSCD 北大核心 2007年第5期704-,共1页
1 Results Silica spherical particles with hollow structure are directly prepared by interfacial reaction methods using W/O/W emulsion (schematic diagram in Fig.1)[1].Fig.1 Silica microcapsule formationThe mixing of W/... 1 Results Silica spherical particles with hollow structure are directly prepared by interfacial reaction methods using W/O/W emulsion (schematic diagram in Fig.1)[1].Fig.1 Silica microcapsule formationThe mixing of W/O emulsion consisting of sodium silicate solution (inner water phase) and n-hexane solution (oil phase) to outer water phase dissolving NH4HCO3 or other salts affords silica microcapsules.The critical feature of this method is the direct formation of hollow structure.Therefore,the core com... 展开更多
关键词 SILICA MICROCAPSULE hollow sphere EMULSION bioencapsulation DIATOM
下载PDF
Effect of the enrichment time with the tuna orbital oil emulsion on the fatty acids profile of juveniles of Artemia franciscana
4
作者 Mario Nieves-Soto Ricardo Lozano-Huerta +3 位作者 Diana J.Lòpez-Peraza María A.Medina-Jasso Miguel AHurtado-Oliva JoséF.Bermudes-Lizárraga 《Aquaculture and Fisheries》 2021年第1期69-74,共6页
Artemia is deficient in polyunsaturated fatty acids(PUFAs),particularly in arachidonic(ARA,20:4n-6),eicosapentaenoic(EPA,20:5n-3),and docosahexaenoic acid(DHA,22:6n-3).The aim of this study was to determine the optima... Artemia is deficient in polyunsaturated fatty acids(PUFAs),particularly in arachidonic(ARA,20:4n-6),eicosapentaenoic(EPA,20:5n-3),and docosahexaenoic acid(DHA,22:6n-3).The aim of this study was to determine the optimal time in which the higher contents of PUFAs in juveniles of Artemia franciscana were obtained by the effect of enrichment with the tuna orbital oil emulsion.Six enrichment periods were evaluated:3,6,9,12,15 and 18 h,in addition to a control treatment(0 h).The most abundant fatty acids in A.franciscana were monounsaturated(43.10%±4.35–52.92%±5.82%),followed by saturated(33.83%±1.71–42.33%±2.31%)and PUFAs(8.86%±2.83%–21.32%±2.38%).ARA decreased over the enrichment time;the maximum content was 5.74±0.37%at 3 h,which was not statistically different with respect to the content recorded at 0 h.The highest content of EPA was at 3 h(6.47%±1.44%),without significant differences with the content registered at 0 h,while that from 6 h and until 15 h tended to decrease significantly.At 6 h,the content of DHA(8.84%±2.72%)was significantly higher compared to the rest of the treatments,which did not differ among themselves,or with the control.After to the 6 h and until 15 h,the content of PUFAs tended to decrease,which could indicate the metabolization of them by A.franciscana,coupled with the possible oxidation of these fatty acids in the enrichment solution. 展开更多
关键词 Artemia franciscana juveniles bioencapsulation Essential fatty acids Tuna orbital oil emulsion
原文传递
Size prediction of κ-carrageenan droplets formed in co-flowing immiscible liquid
5
作者 Jun-Yee Leong Tek-Kaun Lim +1 位作者 Ravindra Pogaku Eng-Seng Chan 《Particuology》 SCIE EI CAS CSCD 2011年第6期637-643,共7页
The formation of K-carrageenan droplets in channel emulsification was experimentally investigated. The dispersed phase was vertically injected into co-flowing immiscible palm oil in the direction of gravity. This stud... The formation of K-carrageenan droplets in channel emulsification was experimentally investigated. The dispersed phase was vertically injected into co-flowing immiscible palm oil in the direction of gravity. This study focused on predicting K-carrageenan drop size using force balance analysis. The force balance model considers the interracial tension to be the solitary attaching force, while a combination of the drag force from the co-flowing palm oil and the body force of the extruding K-carrageenan liquid act as the detaching forces. The conventional model gave poor predictions for droplet size, with an average relative deviation of 23%. This large deviation could be attributed to necking phenomena and an underestimation of the drag force generated on the shear-thinning K-carrageenan solution. By incorporating correction factors, the average relative deviation of the force balance model dronned to 4%. 展开更多
关键词 K-Carrageenan Droplet Channel emulsification Co-flowing Dripping bioencapsulation
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部