Complications in Equine Surgery. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
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Жанр произведения: Биология
Год издания: 0
isbn: 9781119190158
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with saline resulted in a synovial infection in 1 out of 8 horses, whereas when 33 colony‐forming units of S. aureus was injected with polysulfated glycosaminoglycan, hyaluronic acid, or methylprednisolone acetate, synovial infection developed in 8 out of 8, 4 out of 8, and 3 out of 8 of horses, respectively [11]. In a different study, concurrent injection of 125–250 mg amikacin with polysulfated glycosaminoglycan significantly reduced the risk of infection [15].

      It is speculated that these intra‐synovial medications may potentiate infection by interfering with the normal immune defenses of the joint. In two large‐scale equine studies, the risk of septic synovitis after intra‐synovial injection was 1 case per 1,087 injections [13] and 1 case per 1,279 injections [12], which is much higher than the risk of post‐injection septic synovitis in human medicine (1/10,000 to 1/77,300) [9, 16].

       Prevention

      Strict aseptic technique should be used any time a synovial structure is injected, including aseptic preparation of the site with disinfectant, use of single‐use vials, aseptic handling of medication, and performing the injection with sterile gloves [17]. Research studies have suggested that there is no need to clip hair from synoviocentesis sites [18, 19] and skin preparation times of >2 minutes were recommended [19]; however, a survey of equine veterinarians suggested that not clipping and >7‐minute preparation time was associated with reduced risk of infection [14]. Clipping may be beneficial if the area is soiled. The injection should be performed in a clean, dry, non‐dusty environment that is protected from wind [12].

      Concurrent administration of antibiotics with the intra‐synovial medication is used by some veterinarians. Routine use of antibiotics concurrent with intra‐synovial medication has not been shown to statistically alter the risk of infection, likely because the incidence of infection in these studies is low [12, 13]. Concurrent administration of antibiotics is recommended any time polysulfated glycosaminoglycans are injected intra‐synovially [15]. Inclusion of antimicrobial agents should not replace strict aseptic technique, and has the potential to interfere with the efficacy of the primary medication.

       Diagnosis

      Non‐septic inflammation or joint flare occurs within several hours of the intra‐synovial administration and is characterized by synovial effusion and pain [7, 8]. In general, a post‐injection flare will occur acutely (within hours), will respond rapidly to anti‐inflammatory medication, and does not persist beyond 1–2 days [7, 8]. Signs of septic synovitis include localization of pain, heat, and effusion in the injected synovial structure. Clinical signs of septic synovitis typically occur within 2.5–4 days of injection, but may occur 1–19 days after injection [12, 20]. Intra‐synovial corticosteroid injections may delay recognition of the problem, because the anti‐inflammatory effect of the medication may suppress clinical signs.

       Treatment

      A joint flare reaction is usually self‐limiting but may require systemic or topical anti‐inflammatory treatment [7, 8]. Lavage will hasten resolution of the post‐injection flare by removing inflammatory debris and any residual inciting medication, but adds expense and may reduce effectiveness of the original intra‐synovial medication. However, given the severity of delaying treatment in septic synovitis, it is prudent to proceed with lavage of the affected synovial structure and systemic and intra‐synovial antimicrobial treatment if the two post‐injection complications cannot be differentiated [7]. Septic synovitis of any cause is a life‐threatening problem, and aggressive treatment should be instituted immediately. Mainstays of treatment are local and systemic administration of broad‐spectrum antimicrobial agents and lavage of the synovial structure. It is worth emphasizing that antimicrobial selection should target staphylococci, which often have penicillinases.

       Expected outcome

      Prognosis for recovery following joint flare reaction is excellent. Prognosis following treatment of post‐injection septic synovitis is guarded, partially because the pre‐existing joint pathology that prompted the intra‐synovial injection may limit full recovery and partially because Staphylococcal infections have been associated with poorer outcomes and lower return to athletic activity than other infections [23, 24].

       Definition

      Medical errors related to medications are numerous, including overdosing, underdosing, using the wrong medication, and using the wrong formulation. These will not be discussed here, but two types of medication errors will be highlighted. One is the wrong route of administration and the other is accidental injection of a non‐drug. One relatively common example of a wrong route error is the administration of procaine penicillin directly into the vascular system [26]. An example of administration of a non‐drug is the inadvertent intravenous administration of mare’s milk in a neonatal foal [27].

       Risk factors

       Inexperience and inattentiveness are common reasons for medication errors.

       Repeated intramuscular injections may increase vascularity of the site and increase the risk of venous absorption of the administered drug.

       Pathogenesis

      Procaine penicillin must be administered by intramuscular or subcutaneous injection, because those routes limit the systemic absorption of procaine. Most commonly, procaine penicillin reactions occur when the drug is administered by the correct intramuscular route, but the injection inadvertently results in the intravenous absorption of a small amount of procaine [28]. Less commonly, but more significantly, an inexperienced or inattentive individual may directly inject procaine penicillin intravenously. This is most likely to occur when there is an indwelling intravenous catheter, because of the perceived convenience. Inadvertent intravenous administration of mare’s milk has occurred when the intravenous catheter injection port was confused with the nasogastric feeding tube port, resulting in an acute anaphylactic reaction.

       Prevention

      In general, further administration of procaine penicillin is discontinued after a procaine reaction occurs. Inadvertent, direct intravenous administration of procaine penicillin can be avoided by emphasizing that opaque medications should not be administered intravenously (notable exceptions of propofol and lipid emulsions in selected circumstances) [26]. Important safeguards to prevent confusion of intravenous and enteral access ports when multiple tubes and catheters are placed in patients are to color‐code enteral administration devices, labeling injections ports and enteral ports, and use of connections that are incompatible between enteral and intravenous ports [27]. Protocols to trace the tubing to the