In vivo biocompatibility evaluation of Zn-0.05Mg-(0, 0.5, 1wt%)Ag implants in New Zealand rabbits.

Bio-absorbable Zn alloys have been attractive replacements for the traditionally permanent implants due to their reasonable mechanical strength and elongation, degradation rate, and biocompatibility. The hybridization addition of Mg and Ag elements could greatly improve the mechanical properties and antibacterial ability of Zn, respectively. In the present paper, in vivo biocompatibility for the Zn-0.

Frequent gene flow blurred taxonomic boundaries of sections in Lilium L. (Liliaceae).

Gene flow between species may last a long time in plants. Reticulation inevitably causes difficulties in phylogenetic reconstruction. In this study, we looked into the genetic divergence and phylogeny of 20 Lilium species based on multilocus analyses of 8 genes of chloroplast DNA (cpDNA), the internally transcribed nuclear ribosomal DNA (nrITS) spacer and 20 loci extracted from the expressed sequence tag (EST) libraries of L.

Thrombin-loaded alginate-calcium microspheres: A novel hemostatic embolic material for transcatheter arterial embolization.

Transcatheter arterial embolization (TAE) is the best non-laparotomy choice for solid visceral organs rupture and bleeding nowadays. In our previous study, a new biodegradable macromolecule material thrombin-loaded alginate-calcium microsphere (TACM) was prepared and its characteristics were investigated preliminarily. In this study, we further investigated the biocompatibility of TACMs, as well as physical characteristic, application method and effect of TACMs with thrombus (embolic agent).

Viral and Bacterial Etiology of Acute Diarrhea among Children under 5 Years of Age in Wuhan, China.

Background: Acute diarrhea remains the serious problem in developing countries, especially among children under 5 years of age. Currently, only two or three common diarrhea pathogens were screened at most hospitals in China. The aim of this study was to provide a wide variety of diarrhea pathogens and their antimicrobial resistance patterns in children under 5 years of age.

Alginate-calcium microsphere loaded with thrombin: a new composite biomaterial for hemostatic embolization.

To date, transcatheter arterial embolization (TAE) has become a standard treatment to control intracavitary bleeding as an alternative to surgery. Due to excellent biocompatibility and no residual in vivo, biodegradable materials are preferred in TAE. However, gelfoam is the only commercially available biodegradable embolic material used to treat blunt trauma of solid abdominal viscera until now, and controversial on its stability and reliability never stopped in the past five decades.

Molecular characterization of clinical and environmental Vibrio parahaemolyticus isolates in Taiwan.

Vibrio parahaemolyticus is the most prevalent foodborne pathogen in Taiwan and it is frequently recovered from seafood. In this study, V. parahaemolyticus that was isolated in recent years from aquacultural environments and clinical specimens were comparatively analyzed by NotI-restricted pulsed-field gel electrophoresis (PFGE) and polymerase chain reaction, targeting common toxin genes (tdh, trh, ureC), MTase gene, toxR regulator, markers for pandemic strains (ORF8, group-specific toxRS) and representative genes of type three secretion systems T3SS1 (vcrD1, VP1680, vopD) and T3SS2α (vcrD2, vopD2, vopB2, vopP, vopC, vopT).

The effect of electrostatic microencapsulation process on biological properties of tumour cells.

Microencapsulation is one of the promising strategies to develop a three-dimensional in vivo tumour-mimic model in cancer research. Although previous studies have shown that tumour cells grow well during the microencapsulated culture, it is still not clear whether the electrostatic encapsulation process has an important effect on cellular characteristics. In this study, we investigated cellular response against non-physiological stress factors existing in the electrostatic microencapsulation process, such as the high-voltage electrostatic field, suspension and nutrition-free status.

Prevalence of Vibrio parahaemolyticus in oyster and clam culturing environments in Taiwan.

Vibrio parahaemolyticus is the most prevalent gastroenteritis pathogen in Taiwan and some other Asian countries, and it frequently occurs in oysters and other seafood. This study monitors changes in the density of V. parahaemolyticus and environmental parameters in oyster and hard clam aquacultural environments in Taiwan.

Spray-spinning: a novel method for making alginate/chitosan fibrous scaffold.

The subject of our investigations was the process of obtaining alginate/chitosan polyelectrolyte complex (PEC) fibers. In this study, a novel method named "spray-spinning" was developed for the making of these hybrid fibers. In spray-spinning, a chitosan solution was sprayed into a flowing sodium alginate solution and sheared into streamlines.

Hydro-spinning: a novel technology for making alginate/chitosan fibrous scaffold.

Alginate/chitosan polyelectrolyte complex (PEC) hybrid fibers are promising materials for scaffold-making in tissue engineering. In this study, a new method termed "hydro-spinning" was developed to make alginate/chitosan hybrid fibers. In hydro-spinning, a chitosan solution was pumped into a flowing sodium alginate solution and sheared into streamlines.

[Preparation and cultivation of microencapsulated recombinant CHO cells].

Transplantation of the microencapsulated recombinant cells is a novel alternative approach to gene therapy of tumors. The semi-permeable membrane of microcapsule protects cells from host's immune rejection, increases the efficiency of gene transfer and reduces the need for frequent injection. Optimization of the preparation and culture is needed to acquire biological microcapsule with high cell viability and protein production.

[Effect of the in vitro culture and cryopreservation on the growth of the microencapsulated recombinant cell and endostatin production].

Microencapsulated recombinant cells technology is a novel approach to tumors therapy. It is necessary to prepare a plenty of the microcapsules with better cell viability and higher endostatin production in order to bring this technology into the clinic. The in vitro culture and cryopreservation are very important parameters in the preparation of microencapsulated cells.

Differential role of microenvironment in microencapsulation for improved cell tolerance to stress.

The effect of the microenvironment in alginate-chitosan-alginate (ACA) microcapsules with liquid core (LCM) and solid core (SCM) on the physiology and stress tolerance of Sacchromyces cerevisiae was studied. The suspended cells were used as control. Cells cultured in liquid core microcapsules showed a nearly twofold increase in the intracellular glycerol content, trehalose content, and the superoxide dismutase (SOD) activity, which are stress tolerance substances, while SCM did not cause the significant physiological variation.

Synthesis of yttrium iron garnet using polymer-metal chelate precursor.

Two kinds of polymer-metal compounds, heterogeneous complexes (metal-chelating copolymer microspheres, MCP) and homogeneous complexes (water-soluble metal-chelating polymers, WSMCP), were synthesized to act as nucleation agents for YIG precursor preparation in this text. Both of the metal-chelating polymers have the same chelating group and high metal ion adsorption ability from the FTIR and ICP measurement. Furthermore, good YIG crystals can be obtained by treating the MCP precursor with a low calcination temperature at 600 degrees C from the XRD spectra and TEM micrograph.

Probing the role of microenvironment for microencapsulated Sacchromyces cerevisiae under osmotic stress.

Cell encapsulation opens a new avenue to the oral delivery of genetically engineered microorganism for therapeutic purpose. Osmotic stress is one of the universal chemical stress factors in the application of microencapsulation technology. In order to understand the effect and mechanism of the encapsulated microenvironment on protecting cells from hyper-osmotic stress, yeast cells of Saccharomyces cerevisiae Y800 were encapsulated in calcium alginate micro-gel beads (MB), alginate-chitosan-alginate (ACA) solid core microcapsules (SCM), and ACA liquid core microcapsules (LCM), respectively.

[Study of alginate/chitosan microcapsules for immobilization of Escherichia coli DH5 alpha].

Objective proteins synthesized from genetically recombined Escherichia coli strain (E. coli) have been successfully produced by microbe fermentation, but complicated separation and purification steps always make against the maintenance of activities as well as increase the cost. Aiming at simplifying the process, an idea of administrating directly the microencapsulated genetically recombined E.