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  • Book
    Timothy L. Miller, Christopher C. Kaeding, editors.
    Summary: Now completely revised and expanded, this second edition not only includes updated chapters detailing treatment of the most common and troublesome sites for stress fractures, but also more recent research regarding risk factors for the development of stress fractures. As in the original edition, general principles of evaluation, healing considerations and management strategies are discussed in three thematic sections. However, unlike the previous text, this edition will focus on a holistic approach to the treatment of these increasingly common injuries with new chapters on nutritional optimization of athletes at risk for stress fractures, systemic treatment strategies for healing including vitamin D supplementation and parathyroid hormone stimulation, and surgical and injectable biologic treatment modalities for enhanced bone healing. This edition will also include guidelines for on-the-field and training room management of stress fractures for team physicians. This revision is timely, given the increasing rate and severity of bony stress injuries encountered in elite and professional athletes related to single-sport specialization and the increased popularity of endurance sports such as cross-fit, obstacle course racing, and ultramarathon competitions. It will be an ideal resource for sports medicine practitioners including orthopedic surgeons, primary care sports medicine specialists, athletic trainers, and physical therapists.

    Contents:
    Intro
    Preface
    Contents
    Contributors
    Part I: General Evaluation Principles for Stress Fractures
    1: Risk Factors for Developing Stress Fractures
    Introduction
    Intrinsic Risk Factors
    Non-modifiable Intrinsic Risk Factors
    Demographics
    Gender
    Race
    Age
    Previous History of Stress Fracture
    Genetics
    Lower Extremity Alignment
    Modifiable Intrinsic Risk Factors
    Relative Energy Deficiency Syndrome
    Low Energy Availability with or Without Disordered Eating
    Functional Hypothalamic Amenorrhea
    Osteoporosis
    Calcium and/or Vitamin D Deficiency Low Body Weight/BMI
    Biomechanics and Strengthening
    Medication Use
    Contraceptives
    Other Medications
    Substance Abuse
    Tobacco and Alcohol Consumption
    Extrinsic Risk Factors
    Non-modifiable Extrinsic Risk Factors
    Time of Season
    Modifiable Intrinsic Risk Factors
    Training Variables
    Equipment Variables (Footwear and Inserts)
    Type of Sport
    Prediction Algorithms Based on Risk Factors
    Conclusion
    References
    2: Sideline and Training Room Evaluation and Treatment for Suspected Stress Fractures Philosophy Behind the Decision-Making on the Sideline and in the Training Room
    Evaluation
    History
    Physical Examination
    Imaging
    Stress Fractures of the Hip
    History
    Physical Examination
    Imaging
    Return to Play Current Game
    Game Day Treatment
    Training Room Treatment
    Decision Points
    Stress Fractures of the Femur
    History
    Physical Examination
    Imaging
    Return to Play Current Game
    Game Day Treatment
    Training Room Treatment
    Decision Points
    Stress Fractures of the Tibia
    History
    Physical Examination
    Imaging
    Return to Play Current Game Game Day Treatment
    Training Room Treatment of Stress Fractures
    References
    3: Pathophysiology and Epidemiology of Stress Fractures
    Stress Fracture Pathophysiology
    Bone Biology
    Bone Pathophysiology in Stress Fracture
    Host Risk Factors for the Development of Bone Stress Injury
    Bone Mineral Density and Bone Thickness
    Genetics
    Nutritional Factors
    Menstrual Irregularity
    Summary
    Stress Fracture Epidemiology
    Stress Fracture Epidemiology - Military
    Stress Fracture Epidemiology - Athletics
    Stress Fracture Epidemiology - Tennis Stress Fracture Epidemiology - Pediatric/Adolescent Athletes
    Stress Fracture Epidemiology - Other Sports
    Stress Fracture Epidemiology - Incidence and Return to Play
    Summary - Epidemiology
    References
    4: Diagnostic Imaging Evaluation of Stress Fractures
    Evolution of Imaging
    Imaging Techniques
    Radiography
    Radionuclide Scintigraphy
    Ultrasound
    Computed Tomography
    Magnetic Resonance Imaging
    Conclusion
    References
    5: Classification of Stress Fractures
    Defining a Stress Fracture
    Features of a Quality Classification System
    Digital Access Springer 2020
  • Article
    Chernykh VL, Sol'skiĭ IaP.
    Pediatr Akus Ginekol. 1978(3):46-8.
    Digital Access Access Options