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  • Book
    Jeffrey Yao, editor.
    Contents:
    Scaphoid Anatomy
    Non-operative Management of Non-displaced Acute Scaphoid Fracture
    Acute Scaphoid Fracture Management: Dorsal Approach
    Acute Scaphoid Fractures: Volar Approach
    Arthroscopic-Assisted Management of Acute Scaphoid Fractures
    Treatment of Acute Pediatric Scaphoid Waist Fractures
    Scaphoid Nonunion: Surgical Fixation Without Bone Graft
    Scaphoid Non-union Open Treatment with Distal Radius Bone Graft via Mini Dorsal Approach
    Scaphoid Nonunion: Surgical Fixation with Local Non-vascularized Bone Graft (Open)
    Scaphoid Non-Union Treated with Iliac Crest Structural Autograft
    The Hybrid Russe Graft for the Treatment of Scaphoid Nonunion
    Arthroscopic Grafting and Scapholunate Pinning for Scaphoid Proximal Pole Nonunion
    1,2 ICSRA for the Management of Proximal Pole Scaphoid Nonunion
    Dorsal Capsular-Based Vascularized Distal Radius Graft for Scaphoid Nonunion
    Scaphoid Nonunion: Surgical Fixation with Vascularized Bone Grafts-Volar Pedicle
    Scaphoid Nonunion: Surgical Fixation with Vascularized Bone Graft-Free Medial Femoral Condyle Graft
    Pediatric Scaphoid Nonunion
    Partial Scaphoidectomy for Unsalvageable Scaphoid Nonunion
    Reconstruction of the Unsalvageable Proximal Pole in Scaphoid Nonunions Utilizing Rib Osteochondral Autograft
    Recalcitrant Proximal Pole Scaphoid Nonunion
    Unsalvageable Scaphoid Nonunion: Implant Arthroplasty
    Scaphoid Nonunion Advanced Collapse: Denervation
    Scaphoid Nonunion Advanced Collapse: Arthroscopic Debridement/Radial Styloidectomy
    Scaphoid Nonunion Advanced Collapse: Capitolunate Arthrodesis
    Scaphoid Nonunion Advanced Collapse: Scaphoid Excision and 4-Corner Arthrodesis
    PRC for Scaphoid Nonunion Advanced Collapse Wrist
    Index.
    Digital Access Springer 2015
  • Article
    Burt BA, Berman DS, Silverstone LM.
    Community Dent Oral Epidemiol. 1977 Jan;5(1):15-21.
    A clinical trial of one application of Nuva-Seal fissure sealant was conducted under School Dental Service conditions in a low-income area of London. The sealant was applied to one of a cariesfree pair of permanent teeth by schools' dentists, the other tooth being left as a control. One examiner, who did not apply the sealant, conducted examinations at baseline, after 6 months, and after 2 years. There were 118 children, initially aged 5-12, who remained in the trial after 2 years. The sealant was fully retained on 27.4 % of the teeth, partially retained on 40.6 %, and missing on 17.9 %. The remaining 14.1 % of teeth had been restored. There was no statistically significant difference between subjects who had less decay in sealed teeth and those who had less decay in control teeth. The sealant was 13.6 % effective (not significant, P less than 0.4) in preventing caries in sealed teeth. These results are less favorable than those in other trials reported. The potential role of fissure sealants in a School Dental Service is discussed.
    Digital Access Access Options