Fractures in the Horse. Группа авторов

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Название Fractures in the Horse
Автор произведения Группа авторов
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9781119431756



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a good subjective baseline from which to monitor progress. If repair is compromised there is usually instability, and resultant pain is probably the most sensitive indicator of bone healing and construct integrity. Additionally, in humans, although not well characterized in horses, persistent pain leads to a central upregulation of pain sensitivity which can, in turn, lead to chronic dysfunction [35].

      Although it can present practical difficulties, nuclear scintigraphy has been advocated as the most sensitive indicator of vascular integrity at fracture sites [38]. In human medicine, nuclear scintigraphy can also be used to identify and characterize fracture‐related infection. Gallium scans, white blood cell scans and 18FDG‐PET appear to be most sensitive and specific, particularly when combined with computed tomography [36].

      Volumetric imaging techniques can also be used to monitor fracture healing. In most cases, this is accomplished through computed tomography that can be used to monitor the fractured gap and the surrounding tissues. This provides more objective information than two‐dimensional radiographs and does not suffer from superimposition of normal and abnormal tissues. Implants create difficulties in interpretation, but metal reduction algorithms aid interpretation/visualization and sequences are being improved [36]. Internal sensors on implants have been developed on an experimental basis and in the future may be of clinical benefit [39].

      When an incomplete fracture occurs, the visible gap at the site makes primary healing unlikely. If the site is relatively stable, then secondary healing can follow. Incomplete osteoarticular fractures can heal with rest, but the current consensus is that provision of interfragmentary compression, which should induce primary bone healing, produces a more predictable healing process, decreases the period of required immobilization, reduces progressive articular cartilage damage and shortens convalescence.

      Complete, non‐displaced fractures can also heal with conservative management. This involves secondary bone healing, but the time to pain relief, radiographic healing and return to work are often unpredictable. Complete, non‐displaced fractures are often best treated surgically to better assure quality and timing of healing. Interfragmentary compression can result in reduced pain, enhanced stability and direct bone healing, producing a more predictable outcome. Delayed surgical repair is sometimes undertaken if an initial conservative approach proves unsuccessful. In this situation, the presence of fibrous, fibrocartilaginous, cartilaginous tissue or even woven bone in and/or around the fracture gap usually makes complete compression impossible. Some form of gap healing must occur, but increased stability provided by internal fixation stimulates and enhances the process.

      Satisfactory secondary healing of displaced fractures in horses rarely occurs. The few exceptions are discussed in individual location chapters. In the appendicular skeleton, persistent pain, malunion and permanent limb dysfunction generally preclude this approach. Conservatively managed articular fractures will almost always result in osteoarthritis and chronic pain which of itself reduces healing and increases the likelihood of opposite limb overload (Chapter 14). Meticulous reduction, congruent joint surfaces and adequate mechanical support are necessary to optimize healing and prognosis.

      The goal for reduced and repaired fractures is to create mechanical and physiological environments that promote primary bone healing. In most (equine) circumstances, repair will result in a hybrid of primary and secondary healing. As a rule of thumb, the closer to the former that the surgeon can achieve, the better the prognosis and less complicated the post‐operative care required. In primary bone healing, in which rigid internal support is provided, inflammatory and haematoma cascades still occur to some degree because there will be a delay between fracture and repair. When open approaches are used for reduction and internal fixation, fracture haematoma and any damaged bone will be removed in order to optimize reduction and architectural reconstruction. In these cases, the benefits of reduction and absolute stability outweigh potential contributions from the initial clot.