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Various Advantages (various + advantage)

Distribution by Scientific Domains
Medical Sciences50%

Selected Abstracts

Intrinsic properties of human and murine memory B cells

IMMUNOLOGICAL REVIEWS, Issue 1 2006
Shannon M. Anderson
Summary:, The central question of how the immune system responds in a qualitatively and quantitatively better way upon re-exposure to a pathogen is largely unanswered. Both the increased frequency of antigen-specific memory cells and the intrinsic properties that memory cells acquire after antigen experience could contribute to the faster and more robust responses seen after repeated exposure to antigen. In the case of the memory B-cell response, it has been difficult to discern the individual contributions of these two effects. However, because of recent advances in identifying memory B cells, there is an increasing understanding of the intrinsic properties of these cells. The current insights into the unique properties of memory B cells and the progress that has been made in understanding how these affect secondary responses in both the human and the mouse systems are discussed. In addition, we compare the various advantages and disadvantages inherent in each of these systems, in terms of studying the intrinsic properties of memory B cells, and introduce the details of the system that we have developed using conventional heavy chain transgenic (Tgic) mice, which addresses some of the drawbacks of traditional memory models. [source]

Patients' preference for radiotherapy fractionation schedule in the palliation of symptomatic unresectable lung cancer,

JOURNAL OF MEDICAL IMAGING AND RADIATION ONCOLOGY, Issue 5 2008
JI Tang
Summary The palliative radiotherapeutic management of unresectable non-small-cell lung cancer is controversial, with various fractionation (Fx) schedules available. We aimed to determine patient's choice of Fx schedule after involvement in a decision-making process using a decision board. A decision board outlining the various advantages and disadvantages apparent in the Medical Research Council study of Fx schedules (17 Gy in two fractions vs 39 Gy in 13 fractions) was discussed with patients who met Medical Research Council eligibility criteria. Patients were then asked to indicate their preferred Fx schedules, reasons and their level of satisfaction with being involved in the decision-making process. Radiation oncologists (RO) could prescribe radiotherapy schedules irrespective of patients' preferences. Of 92 patients enrolled, 55% chose the longer schedule. English-speaking patients were significantly more likely to choose the longer schedule (P = 0.02, 95% confidence interval: 1.2,7.6). Longer Fx was chosen because of longer survival (90%) and better local control (12%). Shorter Fx was chosen for shorter overall treatment duration (80%), cost (61%) and better symptom control (20%). In all, 56% of patients choosing the shorter schedule had their treatment altered by the treating RO, whereas only 4% of patients choosing longer Fx had their treatment altered (P < 0.001). Despite this, all (100%) patients were satisfied with being involved in the decision-making process. The decision board was useful in aiding decision-making, with both Fx schedules being acceptable to patients. Interestingly, despite the longer average survival associated with longer Fx, nearly half of the patients believed that this was not as important as a shorter duration of treatment and lower cost. Despite patients' preferences, there were significant alterations of preferred schedules because of RO's own biases. [source]

Effects of alkali and silane treatment on the mechanical properties of jute-fiber-reinforced recycled polypropylene composites

JOURNAL OF VINYL & ADDITIVE TECHNOLOGY, Issue 3 2010
Xinxin Wang
Jute-fibers-reinforced thermoplastic composites are widely used in the automobile, packaging, and electronic industries because of their various advantages such as low cost, ease of recycling, and biodegradability. However, the applications of these kinds of composites are limited because of their unsatisfactory mechanical properties, which are caused by the poor interfacial compatibility between jute fibers and the thermoplastic matrix. In this work, four methods, including (i) alkali treatment, (ii) alkali and silane treatment, (iii) alkali and (maleic anhydride)-polypropylene (MAPP) treatment, and (iv) alkali, silane, and MAPP treatment (ASMT) were used to treat jute fibers and improve the interfacial adhesion of jute-fiber-reinforced recycled polypropylene composites (JRPCS). The mechanical properties and impact fracture surfaces of the composites were observed, and their fracture mechanism was analyzed. The results showed that ASMT composites possessed the optimum comprehensive mechanical properties. When the weight fraction of jute fibers was 15%, the tensile strength and impact toughness were increased by 46 and 36%, respectively, compared to those of untreated composites. The strongest interfacial adhesion between jute fibers and recycled polypropylene was obtained for ASMT composites. The fracture styles of this kind of composite included fiber breakage, fiber pull-out, and interfacial debonding. J. VINYL ADDIT. TECHNOL., 2010. © 2010 Society of Plastics Engineers. [source]

Hardening of Small Components with High-Power Diode Lasers

LASER TECHNIK JOURNAL, Issue 5 2010
Most efficient laser source for selective changes of surface properties
Hardening of metal parts is a common way to change properties of the material. Surface layer hardening processes are increasing the resistance against friction or pressure force loads. Conventional surface layer hardening processes are flame hardening or induction hardening. Hardening with a diode laser is an additional process that offers various advantages. [source]

Early Results of Photoselective Vaporization of the Prostate in Medical Control-failed Patients

LUTS, Issue 2 2009
Shen Kuang CHANG
Objectives: We present here our early results and learning curve for photoselective vaporization of the prostate (PVP) performed by an experienced urologist and we provide an analysis of the morbidity and early functional outcomes. Methods: Forty-four patients were selected, from May 2006 to January 2009, who had benign prostate hyperplasia (BPH) accompanied by lower urinary tract symptoms (LUTS). After undergoing PVP for BPH at our hospital, the patients were followed up for approximately 2 years. PVP was performed by the same experienced urologist using potassium-titanyl-phosphate (KTP) laser. Baseline characteristics, preoperative and perioperative data, and postoperative complications were evaluated. Regular outpatient department follow-up was conducted after patients were discharged from the hospital at 1, 4 and 12 weeks. Results: The mean age of the 44 patients was 71.6 years. The mean prostate volume was 47.52 mL. The mean PVP surgery time was 79.11 min. The mean urinary catheterization time was 23.41 h. Few complications arose after PVP, except that 47.7% of the patients developed pyuria after being discharged from hospital. The average hospital stay was 2.45 days. There were no significant differences in the efficiency of tissue vaporization among the patients. Conclusion: PVP for BPH has various advantages, including reducing postoperative complications. An experienced urologist can easily perform PVP. However, early results show no significant differences in the efficiency for the PVP technique. [source]

Comparison of Fixed and Fluidized Activated Carbon Beds for Removal of Organic Vapors

CHEMICAL ENGINEERING & TECHNOLOGY (CET), Issue 7 2004
I.E. Agranovski
Abstract Activated carbons are commonly used for removal of organic vapors from exhaust air streams. Two configurations, including fixed and fluidized carbon beds are usually employed in industry to meet various requirements of the industrial process which is being used. This paper investigates the performance of such configurations and provides a comparative analysis. It was found that for thin carbon layers, the fixed bed performs more efficiently with the difference exceeding 15,% for the layers with the thickness less than 15,mm. This difference is decreasing with increase of the layer thickness and becomes less than 5,% for the beds thicker than 100,mm. Considering various advantages of the fluidized beds over fixed beds, including lower resistance to the gas flow, excellent gas distribution and minimal possibility of clogging in case of existence of alien particles in the gas, they are recommended for use with the minimal thickness of the layer to be larger than 100,mm. [source]