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  • Book
    Achilles Thoma, [and 3 others], editors.
    Summary: The purpose of this book specifically is to teach surgeons (academic or community), surgical fellows and surgical residents regardless of the surgical specialty, the skills to appraise what they read in the surgical literature. Surgeons need to be able to understand what they read before applying the conclusions of a surgical article to their practice. As most surgeons do not have the extra training in health research methodology, understanding how the research was done, how to interpret the results and finally deciding to apply them to the patient level is indeed a difficult task. Chapters explain the methodological issues pertaining to the various study designs reported in the surgical literature. Most chapters begin with a clinical scenario with uncertain course of action with which most surgeons are struggling. Readers are taught how to search the literature for the best evidence that will answer the surgical problem under discussion. An identified article that seems relevant to the problem you are investigating can be appraised by addressing 3 key questions: 1). Is the study I am reading valid? 2). What are the results of this study? 3). Can I apply these results to my patients? While the primary goal of Evidence-Based Surgery is to teach surgeons how to appraise the surgical literature, an added benefit is that the concepts explained here may help research-minded surgeons produce higher quality research.
    Digital Access Springer 2019
  • Article
    Gado MH, Smith ME.
    Int Ophthalmol Clin. 1978 Spring;18(1):151-66.
    The potential for using CT to diagnose orbital lesions is clearly demonstrated in this chapter. The patients discussed were all suffering from proptosis and had other complaints such as visual disturbances, pain, or ophthalmoplegia. CT is superior to ultrasonography in its ability to reproduce anatomical structures, including the retroocular space, bony walls of the orbit, and extraorbital regions, such as ethmoid sinuses and the cranial cavity. Such reproduction helps distinguish lesions arising within the orbit from those invading the orbit from outside. CT not only defines the extent of a lesion but also provides information about the physical properties of the tissue. The remarkable difference on CT between proptosis caused by thyrotoxic disease and that caused by intraorbital tumor or pseudotumor is a striking example of the way in which CT may contribute to more accurate diagnosis.
    Digital Access Access Options