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“An individualised laser skin treatment may enhance the treatment and reduces risks and side-effects. The optical properties (absorption and scattering coefficients) are important parameters in the propagation Torin 1 price of laser light in skin tissue. The differences in the melanin content of different skin phototypes influence the absorption of the light. The absorption coefficient at the treatment wavelength for an individual can be determined by diffuse reflectance spectroscopy, using a probe containing seven fibres. Six of the fibres deliver the light to the measurement site and the central fibre
collects the diffused reflected light. This is an in vivo technique, offering benefits for near-real-time results. Such a probe, with an effective wavelength band from 450 to 800 nm, was used to calibrate skin-simulating
phantoms consisting of intralipid and ink. The calibration constants were used to calculate the absorption coefficients from the diffuse reflectance measurements of three volunteers (skin phototypes, II, IV and V) for sun-exposed and non-exposed areas on the arm.”
“An environmentally friendly antibacterial agent, namely, Ag NP-loaded quaternized carboxymethyl chitosan/organic montmorillonite (QAOM) nanocomposite, was prepared. The novel QAOM nanocomposite was obtained through Fer-1 concentration an environmentally friendly process by using quaternized carboxymethyl chitosan (QCMC) and organic montmorillonite (OMMT) as reducing and stabilizing agent for Ag NP synthesis. Finished papers with QAOM nanocomposites were prepared by performing surface coating and internal additive methods. Physical properties and antimicrobial activity of the finished paper were investigated. MLN2238 manufacturer The results
revealed that Ag NP remained spherical in dry QAOM nanocomposites with uniform size and good dispersion, and the exfoliated montmorillonite layers were evenly distributed in the QCMC matrix. The presence of QAOM nanocomposites positively affected the tensile, tear, and bursting strengths of the finished paper. The paper prepared by using surface coating performed better than that produced by using the internal additive method. Moreover, the finished paper with QAOM nanocomposites showed an excellent antimicrobial capacity, and the antibacterial capacity of paper produced by using surface coating was stronger than that produced by using internal additive method. Therefore, this study provides basic data for an efficient and safe antibacterial agent that can be applied in the paper industry. (C) 2013 Elsevier B.V. All rights reserved.”
“High risk infants, especially preterm ones, often require the administration of blood products.