A Novel Polishing Paste (Mollusk Shells) for Poly (Methylmethacrylate)

Objective. The aim of this study was to evaluate the effectiveness of a mollusk shells polishing paste (Donax obesulus) on the surface roughness of acrylic resin poly (methylmethacrylate) (PMMA). Methods. This study was an in vitro experimental design. A sample size of 72 was divided into 4 groups of n = 18 each. PMMA specimens were prepared and polished with the evaluated pastes using mollusk shells (experimental paste) and pumice stone. Surface roughness (μm) was measured using a profilometer after polishing the PMMA samples. The paired Wilcoxon test was used to evaluate the roughness values at 24 and 48 hours. Then, the Mann–Whitney U test was used to identify the differences between the effects of the two groups evaluated with a significance level of α = 0.05. Results. The roughness difference between the pastes under study was compared, and mean values of 0.50 ± 0.07 μm (mollusk shell paste group) and 0.45 ± 0.12 μm (pumice group) were obtained. No statistically significant differences were found between the experimental paste and pumice stone paste p = 0.309 . The specimens polished with pumice stone paste showed higher roughness values, while those polished with the experimental paste exhibited the lowest values. Conclusion. In summary, mollusk shells polishing paste had a decrease in roughness values compared to pumice, although these differences were not statistically significant.

Evaluation of bait use for mammal richness

In this study, we aimed to evaluate the effectiveness of baits as a tool for estimating species richness for medium and large mammals. To this end, we installed 15 cameras in the Ecological Station of Jataí, São Paulo, Brazil (21°30′S – 47°40′W and 21°40′S/47°50′W). The cameras were placed in a grid with a distance of 1 km between each station. We randomly placed cameras with baits and those without baits and made observations for 4 weeks. Then, after a week’s break, the treatments were inverted and continued for another 4 weeks. We estimated species richness based on the presence or absence of species using the Jackknife1 estimator in the EstimateS program and compared the treatments using the paired Wilcoxon test. Species composition and estimated richness did not differ between treatments with baits (SJack1 = 20.97 ± 1.96) and those without baits (SJack1 = 20.95 ± 1.95; W = 30 p = 0.15). The rarefaction curves between the treatments were similar, suggesting that the use of baits did not increase or reduce the number of species recorded. In addition, the use of baits did not significantly increase capture rates. Analysis of the costs of the different treatments showed that the use of baits increased the project costs by more than 4 times. The findings of this study suggest that, for species surveys, camera traps do not need to be baited.

Effects of different anticoagulants on glycated albumin quantification

Introduction: In the last 20 years glycated albumin (GA) measurement has been demonstrated to be a reliable glycation marker and recently as the most innovative one in western countries. Glycated albumin has been already adopted by some Asian countries due to its usefulness in diabetes screening. The aim of the present study was to investigate for the first time the effects of different anticoagulants on GA assay. Materials and methods: From each of 60 patients a serum tube and K3EDTA, Li-Heparin and NaF-EDTA containing tubes were collected. All tubes were from Sarstedt (Verona, Italy). Glycated albumin was measured in duplicate in each sample tube in a single analytical run with quantILab glycated albumin (Instrumentation Laboratory SpA - A Werfen Company, Milan, Italy) on Architect c8000 analyser (Abbott SRL, Rome, Italy). Comparison of GA% in evaluated tubes was made by paired Wilcoxon test. Results: Median and interquartile range GA% concentrations were 15.4% (13.2 - 19.1) in serum, 15.7% (13.6 - 19.9) in K3EDTA, 15.6% (13.3 - 19.7) in Li-heparin and 15.5% (13.1 - 19.3) in NaF-EDTA samples, respectively. Glycated albumin mean relative bias respect to serum was within desirable bias derived from biological variation studies (± 2.9%) when K3EDTA (+ 2.8%), Li-heparin (+ 0.9%) or NaF-EDTA (+ 0.1%), were used as anticoagulants. Conclusions: Our results demonstrate that the GA% assay is not affected by relevant interferences when K3EDTA, Li-heparin or NaF-EDTA are used as anticoagulants, so they can be used interchangeably without a relevant impact on the clinical use of the test.

Real-Time Quantitative Polymerase Chain Reaction (RQ-PCR) On Peripheral Blood (PB) and Bone Marrow (BM) Samples for Monitoring Minimal Residual Disease (MRD) in Patients (pts) with Acute Promyelocytic Leukemia (APL) Treated with All-Trans-Retinoic Acid (ATRA) and Arsenic Trioxide (ATO).

Abstract 2623 Background: Monitoring minimal residual disease (MRD) using reverse transcriptase polymerase chain reaction (RT-PCR) for the PML-RARA fusion transcript in bone marrow (BM) samples has been used to predict relapse in patients (pts) with acute promyelocytic leukemia (APL). Rigorous, serial real-time quantitative PCR (RQ-PCR) has been shown to be the strongest predictor of relapse-free survival in APL (Grimwade D, JCO, 2009), and BM was more sensitive than peripheral blood (PB) for detecting pending relapse. However, the clinical utility of MRD monitoring and use of PB as a sample source for MRD detection remains to be established for APL pts treated with ATRA and ATO without chemotherapy. Purpose: To evaluate the reliability of using PB real-time quantitative PCR (RQ-PCR) in monitoring MRD in patients with APL treated with ATRA and ATO ± gemtuzumab ozogamicin (GO). Methods: From June 2007 to August 2011, 78 pts with newly diagnosed APL were treated on a clinical trial (NCT00413166) combining ATRA and ATO at our institution. High risk pts (WBC > 10 × 109/L) and pts with rising WBC also received GO on the first day or when WBC rose above 10, respectively. RQ-PCR for PML-RARα fusion transcript was performed on BM and PB after induction, every 3 months throughout consolidation (8 months of ATRA and ATO) for the first 2 years and then PB and/or BM analysis was performed every 6 months with follow up. The Spearman correlation and Paired Wilcoxon test were used to analyze the relation, generate the correlation coefficient and analyze the differences between BM and PB RQ-PCR values. Results: A total of 432 PB and 618 BM samples were obtained for RQ-PCR analysis. The median number of PB RQ-PCR and BM RQ-PCR obtained per patient were 6 (range, 0–16) and 8 (range, 0–14), respectively. Two hundred thirty six samples were obtained concomitantly from PB and BM (defined as obtained within a day of each other) from 63 patients. The median time to CR was 30 days (range, 9–63). The median time to complete molecular response (CMR) was 130 days (range, 20–271). Two patients died, 1 during induction (before assessing his response to treatment), the other one during 4th consolidation while in CR of unknown cause. Two pts have relapsed, one of them with CNS disease only, the other one with systemic then CNS relapse. Both patients had previously achieved CMR. The patient with CNS relapse remained RQ-PCR-negative on BM at the time of relapse (PB not available at time of relapse). The other relapsed patient had a positive PB RQ-PCR at time of relapse. There was a strong correlation (Spearman correlation, r=0.8, p <0.05) between PB and BM RQ-PCR on the 236 concomitant samples (fig 1); no significant difference were found between quantitative PCR values for BM and PB by paired Wilcoxon test analysis (p = 0.30, paired Wilcoxon test). The patient with systemic relapse (who had secondary APL) was successfully retreated with ATRA+ATO, then with systemic and intrathecal (IT) chemotherapy prior to allogeneic stem cell transplant at second relapse. The patient with CNS relapse was successfully treated with IT chemotherapy. Conclusions: Among the available paired samples, there is a strong correlation between BM and PB RQ-PCR for PML-RARα fusion transcripts for patients treated with ATRA+ATO. PB RT-PCR is a reliable and practical method to monitor pts in CMR and for possible impending relapse. Disclosures: Off Label Use: Arsenic trioxide is used off label for the treatment of acute promyelocytic leukemia.

Enhancement of intestinal hydrolysis of lactose by microbial β-galactosidase (EC 3.2.1.23) of kefir

The effect of microbial β-galactosidase (EC 3.2.1.23) activity on intestinal lactose digestion was estimated directly by following post-prandial venous plasma galactose concentrations. To avoid superimposing effects of free galactose, as with yogurt, fresh or heat-treated suspensions of mechanically disintegrated kefir grains in kefir, containing lactose but no free galactose, were fed to ten Göttingen minipigs. Each meal contained 101·1 (SEM 0·1) mmol lactose in kefir supplemented by either native or heat-treated kefir grains corresponding to a mean β-galactosidase activity of either 72 (SEM 8) U or zero. Feeding kefir with β-galactosidase activity resulted in a 30% enhancement of the mean post-prandial plasma galactose peak concentration from 33 (SEM 7) to 43 (SEM 12) μmol/l (n 10), as well as in 23% greater mean areas under the galactose-response curves (8·1 (SEM 1·5) v. 6·6 (SEM 1·2) mmol/min per 1) if compared with kefir with heat-treated grains. Both differences were significant (P < 0·05; paired Wilcoxon test by ranks). There was no induction of intestinal β-galactosidase (EC 3.2.1.108) activity or intestinal lactose-hydrolysing bacteria by lactose feeding. These results give direct evidence of an enhanced lactose digestion and absorption in native fermented milk products due to the microbial β-galactosidase activity.