The atomic absorption spectroscopy and inductively coupled-mass-spectroscopy analysis quantitatively verifies the amount of BCtCM dye molecules present on ZnO NPs surface area about three times higher than that of BCMoxo dye molecule without anchor groups. (C)
2009 American Institute of Physics. [doi: 10.1063/1.3245398]“
“Objective-To evaluate fracture healing after minimally invasive plate osteosynthesis (MIPO) or open reduction and internal fixation (OR IF) of coexisting radius and ulna fractures in dogs via ultrasonography and radiography.
Design-Prospective cohort study.
Animals-16 dogs with radius-ulna fractures that underwent MIPO (n = 9; 2 dogs were subsequently not included in the analyses because of incomplete follow-up information) or ORIF (7).
Procedures-Dogs in the 2 treatment selleck products groups were matched by age, body weight, and configuration of the fractures. Fracture healing find more was evaluated with ultrasonography, power Doppler ultrasonography, and radiography every 3 to 4 weeks until
healing was complete; a semiquantitative score based on the number of Doppler signals was used to characterize neovascularization, and subjective B-mode ultrasonographic and radiographic scores were assigned to classify healing.
Results-Fractures in dogs that underwent MIPO healed in significantly less time than did fractures in dogs that underwent ORIF (mean +/- SD; 30 +/- 10.5 days and 64 +/- 10.1 days, respectively). Radiography revealed that fractures in dogs that underwent MIPO healed with significantly more callus formation than did fractures in dogs that underwent ORIF. Although Doppler ultrasonography revealed abundant vascularization in fractures that were healing following MIPO, no significant difference in neovascularization scores was found between groups.
Conclusions and Clinical Relevance-For dogs with radius-ulna fractures, data indicated that bridging osteosynthesis combined with a minimally invasive
approach contributed Cyclopamine chemical structure to rapid healing after MIPO. The MIPO technique may offer some clinical advantage over OR IF, given that complete radius-ulna fracture healing was achieved in a shorter time with MIPO. (J Am Vet Med Assoc 2012;241:744-753)”
“Some nonserious skin infections can be treated by hydration and antibacterial control. Microcapsules containing aloe-chitin are often used to treat this kind of problem. Microcapsules were applied to cotton fabrics by padding and sleeves were prepared. A hypoallergenic test was applied to the microcapsule emulsion and hydration of the epidermis was evaluated by capacitance methods. The fabric was sterilized by electron beam treatment to satisfy the antibacterial requisite. The results showed that the aloe is transferred from the fabric to the skin, increasing the level of skin hydration. The electron beam method was also shown to be effective for bacteria and fungi and had no effect on the microcapsule properties.