In conclusion, DDGS can be included in diets fed to growing pigs

In conclusion, DDGS can be included in diets fed to growing pigs in all phases of production, beginning at 2 to 3 wk postweaning, in concentrations Pitavastatin in vitro of up to 30% DDGS, and lactating and

gestating sows can be fed diets containing up to 30 and 50%, respectively, without negatively affecting pig performance.”
“PURPOSE: To determine the efficiency of an eye tracker after laser in situ keratomileusis (LASIK) flap creation with 1 of 2 femtosecond laser models.

SETTING: Tertiary referral center, Singapore National Eye Center, Singapore.

DESIGN: Randomized clinical trial.

METHODS: The LASIK flap was created with an IntraLase (Group A) or a VisuMax (Group B) femtosecond laser. An Advanced Control Eye Tracker was initiated 3 times to obtain iris recognition. Eye tracking was considered successful if the eye movements could be followed despite the presence or absence of an opaque bubble layer (OBL). Univariate-multivariate logistic regression analysis was performed.

RESULTS: Preoperatively, the mean values (ranges) of the 87 eyes were sphere, -5.64 diopters (D) +/- 2.17 (SD) (-9.75 to -0.25 D); cylinder 1.65 +/- 1.63 D (-3.75 5-Fluoracil mouse to 0.00 D); optical zone, 6.34 +/- 0.20 mm (5.6 to 7.0 mm); keratometry, 43.48 +/- 1.32 D (40.1 to 42.8 D); flap thickness, 109.30 + 5.21 mu m (90 to 115 mu m). Eye tracking was successful in 38 (90.5%) of 42 eyes

in Group A and 43 (95.6%) of 45 eyes in Group B. No specific type of OBL was seen in either group. The LASIK was completed in all eyes. There was a statistically significant association between positive tracking and a smaller optical zone (P = .03). There were no statistically significant differences in eye tracking between the 2 femtosecond lasers.

CONCLUSIONS: Eye tracking was achieved in more than 90% of cases after LASIK flap creation

with 1 of 2 femtosecond laser models, even in the presence of an OBL.”
“The present paper proposes to investigate the links between the microstructure of polyurethane foams and their sound absorbing efficiency, and more specifically the effect of membranes closing the cells. This study is based on the complete characterization of 15 polyurethane foam with various cell sizes and reticulation rates (i.e., open pore content): (i) characterization of the microstructure properties (cell size C(s), strut thickness t, reticulation rate R(w)…) from SEM pictures, (ii) characterization of nonacoustic parameters (porosity Phi, airflow resistivity sigma, tortuosity alpha infinity…) from direct and indirect methods. Existing analytical links between microstructure properties and nonacoustic parameters are first applied to fully reticulated materials. Then, they are improved empirically to account for the presence of the closed pore content. The proposed expressions associated to the Johnson-Champoux-Allard porous model allow a good estimation of the sound absorbing behavior of all polyurethane foams, fully reticulated or not.

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