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Park, Chang Ook,Fu, Xiujun,Jiang, Xiaodong,Pan, Youdong,Teague, Jessica E.,Collins, Nicholas,Tian, Tian,O'Malley, John T.,Emerson, Ryan O.,Kim, Ji Hye,Jung, Yookyung,Watanabe, Rei,Fuhlbrigge, Robert C Elsevier 2018 The Journal of allergy and clinical immunology Vol.142 No.2
<P><B>Background</B></P> <P> <I>Candida albicans</I> is a dimorphic fungus to which human subjects are exposed early in life, and by adulthood, it is part of the mycobiome of skin and other tissues. Neonatal skin lacks resident memory T (T<SUB>RM</SUB>) cells, but in adults the <I>C albicans</I> skin test is a surrogate for immunocompetence. Young adult mice raised under specific pathogen-free conditions are naive to <I>C albicans</I> and have been shown recently to have an immune system resembling that of neonatal human subjects.</P> <P><B>Objective</B></P> <P>We studied the evolution of the adaptive cutaneous immune response to <I>Candida</I> species.</P> <P><B>Methods</B></P> <P>We examined both human skin T cells and the <I>de novo</I> and memory immune responses in a mouse model of <I>C albicans</I> skin infection.</P> <P><B>Results</B></P> <P>In mice the initial IL-17–producing cells after <I>C albicans</I> infection were dermal γδ T cells, but by day 7, αβ T<SUB>H</SUB>17 effector T cells were predominant. By day 30, the majority of <I>C albicans</I>–reactive IL-17–producing T cells were CD4 T<SUB>RM</SUB> cells. Intravital microscopy showed that CD4 effector T cells were recruited to the site of primary infection and were highly motile 10 days after infection. Between 30 and 90 days after infection, these CD4 T cells became increasingly sessile, acquired expression of CD69 and CD103, and localized to the papillary dermis. These established T<SUB>RM</SUB> cells produced IL-17 on challenge, whereas motile migratory memory T cells did not. T<SUB>RM</SUB> cells rapidly clear an infectious challenge with <I>C albicans</I> more effectively than recirculating T cells, although both populations participate. We found that in normal human skin IL-17–producing CD4<SUP>+</SUP> T<SUB>RM</SUB> cells that responded to <I>C albicans</I> in an MHC class II–restricted fashion could be identified readily.</P> <P><B>Conclusions</B></P> <P>These studies demonstrate that <I>C albicans</I> infection of skin preferentially generates CD4<SUP>+</SUP> IL-17–producing T<SUB>RM</SUB> cells, which mediate durable protective immunity.</P>
Comparison of Sapphire and Germanium Fibers for Erbium : Yag Lithotripsy
Ho Lee,Ji-Wook Yoon,Young-Dae Jung,JeeHyun Kim,Robert T. Ryan,Joel M.H. Teichman,A.J. Welch 한국광학회 2008 Current Optics and Photonics Vol.12 No.4
We studied the sapphire and germanium fibers to determine which optical fiber best transmits Erbium:YAG laser for intracorporeal lithotripsy. Human calculi were ablated with an Erbium:YAG laser in contact mode using two fibers. Optical outputs at the distal end of fibers were measured before and after laser lithotripsy. Upon the irradiation on the calculus with the 50 mJ and 100 mJ pulse energy, the output energy at the distal end of germanium fiber declined to approximately 50% of the input energy. For the sapphire fiber, the output energy at the distal end remained unchanged with 100 mJ input energy; however the output energy had dropped to 50% for 200 mJ input energy. In order to examine how the types of target tissue affect the fiber damage, the sapphire fiber was tested for the irradiation on soft tissue and water as well. No energy decline was observed during soft tissue and water irradiation. We also characterized ablation craters with both optical fibers. Both fibers produced similar craters on calculi in terms of depth and diameter. Sapphire fibers are better suited than germanium fibers for Erbium:YAG lithotripsy in terms of the fiber damage.