The metabolic effect of Fo-Shou-San on blood deficiency mice was studied by using metabolomic method. UPLC-QTOF/MS was used to analyze the plasma metabolome in blood deficiency mice. MS data were processed by MarkerLynx software. With multivariate statistical analysis of plasma metabolite profiles, a clear separation among control, blood deficiency model, and Fo-Shou-San groups was achieved. Potential biomarkers were selected according to the parameters of variable importance in the projection (VIP) and identified according to MS information and database retrieval. The metabolic network of blood deficiency was predicted via MetPA database. Twenty-two potential biomarkers were identified and used to explain the thiamine metabolism, arachidonic acid metabolism, sphingolipid metabolism, glyoxylate and dicarboxylate metabolism, histidine metabolism, nicotinate and nicotinamide metabolism, cysteine and methionine metabolism, tryptophan metabolism, starch and sucrose metabolism, tyrosine metabolism and citrate cycle (TCA cycle). Those metabolic pathways were disturbed in blood deficiency mice, but which could be regulated nearly to normal state after Fo-Shou-San administration. In this study, the metabolomics of blood deficiency mice and the action mechanism of nourishing blood effect of Fo-Shou-San were evaluated. The physiological and metabolic state of the organism could be represented comprehensively by using metabolomics. And metabolomics can be used to evaluate the pharmacodynamics and related mechanisms of Chinese medicine and formulae.

Objective:To explore the function of the cya gene and the preliminary mechanism of attenuated strain.Methods:The biological characteristics of cya mutant in acid and alkali resistant,salt resistance,motility,biofilm components,poisonous to the cells of epithelial cell adhesion,invasion were analysis.Results:The mobility capabilities,acid and alkali resistance and salt tolerance of cya mutant were significantly lower than the parent strain;the composition testing revealed that the cya mutant did not produce cellulose,curli and biofilm;at the same time the adhesion and invasion to epithelial cells of cya mutant had a prominent depression,and the toxicity to HeLa cells was weaker than the parent strain.Conclusion:The function of cya gene is closely related to athletic ability, penetration of cell membrane, the formation biofilm and virulence.It will provide a theory reference to the functional research of Salmonella typhimurium cya gene and the mechanism of attenuated strain.This will contribute to the development of oral vaccine using attenuated Salmonella typhimurium as vector.

Retinitis pigmentosa (RP) and age-related macular degeneration (AMD) are two predominant causes of visual deterioration. Retinal prosthesis embeds a micro-electric chip or a micro-photoelectric diode array in the sub-retina or epi-retina, which is used to stimulate the remainder of inner retina, so as to restore some degree of sight. Retinal prosthesis has attracted most attention in the field of artificial visual function recovery, and along with deep-going research, many issues need to be resolved. In this paper, the theory of retinal prosthesis and the status quo of research in many countries are introduced, the key issues which influence the application of the retinal prosthesis are discussed in detail, and some notions and advices are presented.
Electric Stimulation Therapy ; instrumentation ; methods ; Humans ; Macular Degeneration ; surgery ; Photic Stimulation ; instrumentation ; methods ; Prosthesis Design ; Retinitis Pigmentosa ; surgery ; Visual Prosthesis ; standards ; trends

The application of artificial retina was introduced. The principal characteristics of artificial retina material were reviewed in particular. Moreover, the recent research development and application prospect were discussed.
Animals ; Bioartificial Organs ; trends ; Humans ; Prosthesis Design ; Retina ; Tissue Engineering ; methods

Subretinal prosthesis is one kind of retinal prosthesis, which means that a microimplant based on MEMS technology is inserted in the subretinal space to stimulate the optic nerve and elicit an electrical-evoked response on the cortical region. The subretinal implant is made up of extraocular part and intraocular part. As an important part, the latter consists of accessorial setting and stimulation chip that contains microphotodiode array (MPDA) and microelectrodes. The paper main body is made up of four parts. Firstly significance of the retinal prosthesis is given out; secondly fundamentals on both in retina physiology and retinal prosthesis theory are introduced simply. Then the key segment about the subretinal microimplant is presented in detail. In the third segment, first of all is its design concept, the second is fabrication of MPDA which consists of several parts. First is microscopic configuration, electric prototype schematic and chip image CMOS. The second is detailed fabrication flow with several special materials. Then is situation of its dimension. The fourth segment presents challenge and outlook.
Artificial Organs ; Electric Stimulation Therapy ; instrumentation ; Electrodes, Implanted ; Evoked Potentials, Visual ; physiology ; Humans ; Microelectrodes ; Prosthesis Implantation ; methods ; Retina ; physiology ; surgery ; Visual Perception ; physiology

The energy supply for the stimulation arrays is the key component in retinal implants. Usually, the thin film solar cell is used to supply energy, but it can not supply enough stimulation power. One of the general idea of incident energy supply is radio frequency (RF) circuit. Another method is to convert near infrared (NIR) radiation and enable retina cell stimulation. In this paper, firstly, we aim at listing these two energy supply methods, and introduce the characteristics of RF circuit and NIR conversion method. Especially, we present the design procedure in detail. The next part is a discussion on the advantage and disadvantage of adopting these two methods. At last, we explicate the new research and application of the energy supply for the use as retinal implants, and we envisage the future.
Animals ; Blindness ; rehabilitation ; Electric Power Supplies ; Electric Stimulation ; instrumentation ; methods ; Electrodes, Implanted ; Evoked Potentials, Visual ; physiology ; Humans ; Prosthesis Design ; Prosthesis Implantation ; methods ; Retina ; physiology

Objective To induce an NLRP3-/- mouse model of ulcerative colitis(UC)using different concentrations of dextran sulfate sodium(DSS)and different administration times,and to analyze and evaluate the advantages and disadvantages of the preparations to provide a more suitable animal model for the study of UC pathogenesis in humans and the development of therapeutic drugs.Methods Forty-eight male NLRP3-/- specific-pathogen-free mice were divided randomly into blank,2.5％7 d,3％7 d,and 3％5 d groups(n=12 mice per group).UC mouse models were induced using combinations of different concentrations and administration times of DSS.Body weight,DAI(disease activity index)score,hematoxylin and eosin(HE)staining,colon length,and related indicators(interleukin IL-6,tumor necrosis factor(TNF)-α,and tight junction protein(ZO-1))were observed and evaluated.Results(1)UC membrane type was induced in each group with different concentrations and administration times.(2)Mouse body weight decreased,the fecal occult blood became more positive,the DAI score increased,and more mice died with increasing DSS concentration and administration time.(3)Longer administration time and higher concentration of DSS were also associated with more severe damage to the intestinal mucosa,as shown by HE staining.(4)Immunohistochemistry showed that the inflammatory factors TNF-α and IL-6 were increased in the model group compared with the blank control group,while expression of ZO-1 was decreased compared with the blank group.Conclusions(1)Administration of 2.5％or 3％DSS for 7 days or 3％DSS for 5 days can induce UC in NLRP3-/- mice.(2)The combination of DAI score,HE staining,the detection of related indicators,and mouse survival rate indicated that NLRP3-/- mice treated with 3％DSS for 5 days produced the most suitable UC model to study the clinical manifestations and drug treatment of UC.

The power and signal transmission technology is one of the key technologies in neuroprosthetic research. This paper proposes firstly the related theory of power and signal transmission technology in neuroprosthetic, then summarizes the three key aspects of the power and signal transmission technology in neuroprosthetic. After analyzed the development of the inductive wireless power harvesting technology, the wireless telemetry technology and the wireless power harvesting telemetry technology, the emphasis on research contents will be proposed and discussed, which will help accelerate the further research of prosthetic.
Electric Power Supplies ; Electrodes, Implanted ; Humans ; Neural Prostheses ; Prosthesis Design ; instrumentation ; Signal Processing, Computer-Assisted ; instrumentation ; Telemetry ; instrumentation ; Wireless Technology ; instrumentation