Examining the Association of Trait-like vs. In-Vivo Catastrophizing and Experimental Pain Sensitivity

Catastrophizing cognitions, consisting of rumination, helplessness, and magnification, are associated with increased pain intensity and pain behaviors in individuals with chronic pain. Trait-like catastrophizing refers to levels of catastrophizing related to general past pain experiences. In-vivo catastrophizing refers to levels of catastrophizing related to a specific pain event, usually one that has just occurred. The current study examined the extent to which trait-like and in-vivo pain catastrophizing are differentially related to experimental pain tolerance. We hypothesized that: 1) In-vivo catastrophizing would have a stronger relationship with pain tolerance than trait-like catastrophizing. 2) Different components of catastrophizing (i.e. rumination, helplessness, and magnification) would be differentially related to pain tolerance.This study was supported by the Department of Psychology Research Award

Let the People Speak: Notice-and-Comment Rulemaking (Lessons from the Controversial New Source Review Proposal of the Clean Air Act)

Sections 165 and 173 of the CAA specifically note that any change in pollution levels from an existing source triggers NSR and accompanying technological upgrades. Nothing in the rulemaking\u27s proposed definition based on cost of changes or maintenance address this clear language of Congress.---Victor B. Flatt, A.L. O\u27Quinn Chair in Environmental Law, University of Houston Law Center, written comments submitted to EPA on February 26, 2003. Taken together, the two proposed exclusions from NSR would allow many grandfathered air polluters to operate indefinitely without installing state-of-the-art pollution control equipment. This would contravene the purpose of NSR, which is to ensure that grandfathered facilities eventually do improve their environmental performance.---Michael M. O\u27Hear, Assistant Professor, Marquette University Law School, written comments submitted to EPA on March 2, 2003. The CAA provides that when existing sources change their facilities in ways that increase their emissions they should be treated as new sources. That should be the end of the matter. —Mark Squillace, Professor of Law, University of Toledo College of Law, written comments submitted to EPA in March 2003. The proposed rule undercuts both the plain meaning of the CAA and Congress’s underlying intent. It breaches the plain meaning because “modification” is literally defined as “any physical change” that “increases the amount of any air pollutant.” Courts take this language literally, permitting exceptions only in deminimus situations [citations omitted]. —Robert R.M. Verchick, Ruby M. Hulen Professor of Law and Urban Affairs, and students of the University of Missouri-Kansas City School of Law, written comments submitted to EPA on March 31, 2003

Quantitative determination of free D-Asp, L-Asp and N-methyl-D-aspartate in mouse brain tissues by chiral separation and Multiple Reaction Monitoring tandem mass spectrometry

Several studies have suggested that free D-Asp has a crucial role in N-methyl D-Asp receptor-mediated neurotransmission playing very important functions in physiological and pathological processes. This paper describes the development of an analytical procedure for the direct and simultaneous determination of free D-Asp, L-Asp and N-methyl D-Asp in specimens of different mouse brain tissues using chiral LC-MS/MS in Multiple Reaction Monitoring scan mode. After comparing three procedures and different buffers and extraction solvents, a simple preparation procedure was selected the analytes of extraction. The method was validated by analyzing L-Asp, D-Asp and N-methyl D-Asp recovery at different spiked concentrations (50, 100 and 200 pg/μl) yielding satisfactory recoveries (75-110%), and good repeatability. Limits of detection (LOD) resulted to be 0.52 pg/μl for D-Asp, 0.46 pg/μl for L-Asp and 0.54 pg/μl for NMDA, respectively. Limits of quantification (LOQ) were 1.57 pg/μl for D-Asp, 1.41 pg/μl for L-Asp and 1.64 pg/μl for NMDA, respectively. Different concentration levels were used for constructing the calibration curves which showed good linearity. The validated method was then successfully applied to the simultaneous detection of D-Asp, L-Asp and NMDA in mouse brain tissues. The concurrent, sensitive, fast, and reproducible measurement of these metabolites in brain tissues will be useful to correlate the amount of free D-Asp with relevant neurological processes, making the LC-MS/MS MRM method well suited, not only for research work but also for clinical analyses

Acoustic characteristics evaluation of an innovative metamaterial obtained through 3D printing technique

The reduction of interior noise level in the transportation sector is a big problem to cope with in view to increase the comfort of passengers. For this reason a great emphasis from the research community is devoted to develop new technology which are able to satisfy the mechanical requirements with concrete benefits from the acoustic point of view. Currently, it does not exist a solution for wideband range of frequency. Indeed, porous materials are characterized by outstanding dissipation in the high frequency range but they exhibit poor performance in the low and medium frequency range, where instead resonant cavities systems have the best performances but with narrow-band sound absorption. For this reason, the design and development of new materials which offers a good acoustic absorption over a wide range of frequencies is requested. In this paper, a hybrid metamaterial is designed, by coupling resonant cavities with micro-porous material and obtained through additive manufacturing technique which enables to model complex geometries that could not be feasible with classical manufacturing. Numerical and experimental studies have been conducted on the manufactured samples of PLA, with an interesting focus on the effect of each parameter which affects the absorption properties

Development of a tomato pomace biorefinery based on a CO2-supercritical extraction process for the production of a high value lycopene product, bioenergy and digestate

Tomato peels and seeds (TP) are the most abundant canning industry waste actually used to produce biogas. TP is rich in lycopene (lyc) and represent a more sustainable feedstock than tomato fruits actually employed. It was therefore chosen as feedstock together with supercritical CO2 extraction (SFE-CO2) technology to develop a TP-SFE-CO2 biorefinery, topic scarcely investigated. Two TP were tested and although TP-SFE-CO2 parameters were the same, lyc recoveries depended by peel structure changes occurred during pre -SFE-CO2 drying step. Higher moisture (102.7 g kg-1 wet weight) permitted 97 % lyc recovery and gave a water-in-oil emulsion as extract. Mass balance confirmed that lyc isomerisation did not cause lyc losses. After a significant oil extraction, exhaust TP showed a biodegradability 64% higher than the raw one, attributable to fibre structure disruption. The biorefinery proposed (SFE_CO2+anaerobic digestion) determined positive economic revenue (+787.9 \u20ac t-1 TP) on the contrary of the actual TP management