We present a novel and simple magneto-optical trap in pyramidal and in conical hollow mirrors, using a single beam. A diode laser having modulation sidebands at microwaves is used for cooling, trapping, and repumping of rubidium atoms in a vapor cell. When the laser is circularly polarized and sent into the hollow region, three pairs of counterpropagating beams are automatically produced therein that have the same polarization configuration as that of a conventional six-beam magneto-optical trap. The fluorescence by the trapped atoms and its mirror image are observed simultaneously. This system may be useful for atom-manipulation applications such as gravitational atom traps and atom waveguides.
Distraction osteogenesis is a special form of bone healing in which well-controlled distraction stresses and consequent tensile strains within callus tissue induce very efficient new bone formation. Proinflammatory cytokines are involved during the early phase of fracture healing and callus remodeling. Temporal expression patterns of proinflammatory cytokines were assessed in Sprague-Dawley rat tibial models of distraction osteogenesis and acute lengthening, and only interleukin-6 (IL-6) was found to be specifically induced during the distraction phase. IL-6 immunoreactivity was detected not only in hemopoietic cells and osteoblasts but also in the spindle-shaped cells of the fibrous interzone, where most of the tensile strains are concentrated. In vitro study revealed that IL-6 did not affect the proliferation of C3H10T1/2 cells, mouse bone marrow stromal cells (MSCs), or MC3T3-E1 cells; but its blocking antibody reduced the proliferation of C3H10T1/2 cells and MSCs. The mRNA expression of COL1A1 and osteopontin were not changed by IL-6 or its blocking antibody, but the alkaline phosphatase activities of MC3T3-E1 cells were increased by IL-6 and decreased by its blocking antibody. These findings indicate that IL-6 is a proinflammatory cytokine that responds to tensile strain during distraction osteogenesis. IL-6 negatively affects the proliferation of primitive mesenchymal cells, whereas the differentiation of more mature osteoblastic lineage cells is enhanced by IL-6 in vitro. IL-6 appears to be one of the cytokines involved in the complex network of signal cascades evoked during distraction osteogenesis and may differentially affect immature and mature osteoblastic lineage cells.
Trichophyton mentagrophytes is one of the most common pathogens for human and animal dermatophytoses and known as a complex species with variable morphology, and ecologic and genetic backgrounds. We performed random amplified polymorphic DNA (RAPD) analysis on 43 human and 18 animal isolates of T. mentagrophytes along with other 10 anamorphic species of dermatophytes and three teleomorphic species of T. mentagrophytes. Using RAPD analysis with primer 5'-ATGGATC(G,C)(G,C)C-3' (ATGS), all T. mentagrophytes strains produced identical band patterns with those of Arthroderma vanbreuseghemii, one of the teleomorphs of T. mentagrophytes, regardless of their phenotypes. Therefore, T. mentagrophytes could be identified by RAPD analysis with primer ATGS. Using RAPD analysis with primer 5'-ATGGATCGGC-3' (ATG) on T. mentagrophytes, human isolates yielded two distinct subgroups related by their colony morphologies at the time of primary isolation from patients. Three morphologic types--cottony, powdery and persicolor--revealed identical bands whereas the granular type lacked one minor band (0.74 kbp). Animal isolates of T. mentagrophytes produced five band patterns and some of them were identical with those of human isolates. With primer 5'-GAAGGCTCCC-3' (OPAO-15), animal isolates of T. mentagrophytes showed diverse band patterns in contrast to the uniform band pattern of human isolates. These results suggest that RAPD analysis may be a useful tool to identify and subtype T. mentagrophytes complex.
We have realized a novel atom trap in an axicon (conical hollow) mirror, using a frequency-modulated, single-diode laser. Different spatial distributions of trapped atoms such as a ball and a ring are observed. We show that our numerical simulations are consistent with experimental results. In particular, the ring diameter is found to be approximately the separation between the mirror axis and the magnetic field axis. The axicon trap may be useful as a precooled atom source for cold atomic beams, atom funnels, and atom waveguides.
In a mouse model, we investigated whether different exposure protocol of ultraviolet-B with the same total doses could induce a different degree of photodamage in mouse skin. Two different exposure frequencies, three times or six times a week, were applied under the condition of weekly same cumulative irradiation dose equally for 10 weeks. Then the photodamage parameters such as skin wrinkling, histochemical dermal change and epidermal and dermal thickness were evaluated. Wrinkle grade, histological assessment by score, and dermal thickness did not reveal any difference between the two groups. However, at irradiation week 10 epidermal thickness of the three times a week irradiation group was significantly thicker than that of the six times a week irradiation group. The same cumulative dose resulted in different epidermal thickness. Our results suggested that exposure frequency or scheduling could influence the epidermal damage by ultraviolet radiation even though the cumulative dose is equal.
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