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  • Book
    [editors] O. John Ma, James R. Mateer, Robert F. Reardon, Scott A. Joing.
    Contents:
    Training and program development / Timothy Jang, Michael J. Lambert
    Equipment / William Scruggs, J. Christian Fox
    Physics and image artifacts / Corky Hecht, William Manson
    Ultrasound in prehospital and austere environments / William Heegaard
    Trauma / O. John Ma, James R. Mateer, Andrew W. Kirkpatrick
    Cardiac / Robert F. Reardon, Scott A. Joing
    Pulmonary / Lisa Mills, Fernando Silva
    Critical care / Robert Reardon, Gavin Budhram, and David Plummer
    Abdominal aortic aneurysm / Robert F. Reardon, Dave Plummer, Thomas Cook
    Hepatobiliary / Daniel Theodoro, Resa Lewiss
    General surgery / Masaaki Ogata
    Renal / Stuart Swadron, Dina Seif
    Testicular / Srikar Adhikari
    First trimester pregnancy / Robert F. Reardon, Scott A. Joing
    Second and third trimester pregnancy / Barry Knapp, Don Byars
    Gynecologic concepts / Michael J. Lambert, J. Christian Fox
    Deep venous thrombosis / Tom Constantino, Harry Goett, Michael Peterson
    Soft tissue / Andreas Dewitz
    Ocular / Matt Lyon, Dietrich Jehle
    Pediatric applications / Jason Fischer, Adam Sivitz, and Alyssa Abo
    Vascular access / John S. Rose, Aaron E. Bair, Aman K. Parikh
    Additional ultrasound-guided procedures / Andreas Dewitz ... [et al.].
    Digital Access AccessEmergency Medicine 2014
    Print Access Request
    Location
    Version
    Call Number
    Items
    Books: General Collection (Downstairs)
    2014
    RC78.7.U4 M32 2014
    1
  • Article
    Zaki AE, MacRae EK.
    J Morphol. 1978 Nov;158(2):181-97.
    The non-secretory ameloblasts present at the enamel-free surfaces of maxillary teeth in the frog Rana pipiens were examined by electron microscopy at different stages of tooth development. Their main fine structural features seem to reflect a transport function. During early tooth development, the non-secretory ameloblasts adjacent to odontoblasts and predentin exhibit extensive lateral surface specializations and numerous cytoplasmic vesicles. During late tooth development, the non-secretory ameloblasts adjacent to mineralizing dentin show numerous cellular junctions, well-developed intercellular channels with numerous interdigitating processes and labyrinthine configurations at their distal surfaces. An intact basal lamina is present between the non-secretory ameloblasts and the dentin surface until the dentin becomes fully mineralized. At this stage the adjacent cells no longer exhibit surface specializations. It is suggested that the non-secretory ameloblasts may participate in the mineralization of adjacent dentin at the enamel-free surfaces. This surface dentin becomes fully mineralized at a later stage of development than the underlying dentin.
    Digital Access Access Options