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  • Book
    editor-in-chief, Robert A. Baldor ; section editors, Margarita C. Castro-Zarraga, Anita Kostecki, Christine Runyan, Felix B. Chang, Frank J. Domino.
    Summary: Prepare for your ABFM boards - find your weak spots and eliminate them now! Handy in print and as an eBook, Bratton's Family Medicine Board Review is the essential practice test for those facing the ABFM exams. Opening with the basic requirements of the ABFM Board certification process, it provides crucial background information on all three AFBM exams and their formats, describes a typical exam day, and offers excellent test-taking advice{u2014}taking the mystery out of the exam process.

    Contents:
    Care of the adult patient
    Care of children & adolescents
    Care of the female patient (including maternity care)
    Mental health/community health
    Emergent and surgical care
    Care of the elderly patient
    Pictorial atlas.
    Digital Access Ovid 2014
  • Article
    Hollyfield JG.
    Invest Ophthalmol Vis Sci. 1979 Sep;18(9):977-81.
    Previous studies have indicated that temperature and light regimens affect the rates of membrane addition to rod outer segments in amphibia. However, it is not known how membrane renewal responds to simultaneous alterations of these two environmental factors. In the present study, the rates of membrane addition have been assessed in adult Rana pipiens maintained in three lighting conditions (constant light, constant darkness, and cyclic light) at three different temperatures by following the displacement of a radioactive band in autoradiographs after 3H-leucine injection. At 16 degrees, 21 degrees, and 26 degrees C, constant light increases the rate of membrane addition in red rods above the rates which occur in darkness by 39%, 14%, and 9%, respectively, whereas in the green rods, the rates of increase were 41%, 22%, and 8%. This progressive reduction in the stimulatory effect of light suggest that at the higher temperatures, rod outer segment renewal is proceeding at near maximal rates and can no longer be further accelerated by light stimulation.
    Digital Access Access Options