1989
DOI: 10.1128/aac.33.5.700
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Penetration of antibiotics into the surgical wound in a canine model

Abstract: The dose and timing of antimicrobial agents given for surgical wound prophylaxis should be based on the concentration-time profile of the drug in tissue at the site of contamination. However, concentrations of antimicrobial agents in surgical wounds are difficult to determine accurately. Since a surgical wound is a unique extravascular compartment with increased vascular permeability and a high surface area/volume ratio, antibiotic concentrations in sera and surgical wounds should be similar. To test this hypo… Show more

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Cited by 17 publications
(25 citation statements)
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“…Liquid depots with a higher surface-to-volume ratio can be absorbed faster, because a larger depot surface involves more capillaries and enhances absorption into the vascular system. Enhanced drug absorption with increased surface-to-volume ratio has been demonstrated in a canine model (14), and in humans an increased volume slowed the speed of pharmacokinetics in large versus small skin blisters (15). By using micro-CT, a nondestructive 3D imaging technique, we were able to compare quantitatively the surface-to-volume ratio of subcutaneous insulin depots of a dispersed injection strategy (9 Ă— 2 IU) with that of a single insulin injection (1 Ă— 18 IU).…”
Section: Discussionmentioning
confidence: 99%
“…Liquid depots with a higher surface-to-volume ratio can be absorbed faster, because a larger depot surface involves more capillaries and enhances absorption into the vascular system. Enhanced drug absorption with increased surface-to-volume ratio has been demonstrated in a canine model (14), and in humans an increased volume slowed the speed of pharmacokinetics in large versus small skin blisters (15). By using micro-CT, a nondestructive 3D imaging technique, we were able to compare quantitatively the surface-to-volume ratio of subcutaneous insulin depots of a dispersed injection strategy (9 Ă— 2 IU) with that of a single insulin injection (1 Ă— 18 IU).…”
Section: Discussionmentioning
confidence: 99%
“…Although presence of granulation tissue could have altered our findings, we used an acute wound model and biopsies were obtained before visual evidence of granulation tissue; and tissue samples were not submitted for histopathologic evaluation. Although cefazolin is reported to equilibrate well between canine plasma and the surgical wound, we believe this is the first study to investigate the effect of NPWT on tissue antibiotic concentrations when compared to those from conventionally bandaged wounds in dogs. NPWT did not hinder antibiotic concentration in tissue samples from wounds when compared with bandaged wounds, and both treatment groups had comparable cefazolin tissue concentrations at each biopsy time point.…”
Section: Discussionmentioning
confidence: 99%
“…By homogenizing tissue biopsies, the interstitial fluid, cells, and subcellular organelles were combined, which may have resulted in dilution and underestimation of cefazolin, a compound primarily distributed extracellularly . Although tissue is made of distinct compartments, surgical wounds create a unique extracellular environment in which systemic antibiotics equilibrate rapidly . The effect of NPWT or nonadherent dressings on local tissue cefazolin concentration was our primary objective, so our study does not provide information on cefazolin concentration in specific tissue compartments or local drug effect.…”
Section: Discussionmentioning
confidence: 99%
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“…These tissue distribution studies define some potential advantages of azithromycin over the standard macrolide, erythromycin, and help with the design of clinical trials in humans (65). Among numerous other animal pharmacokinetic studies that have evaluated new antibiotics are studies to measure the penetration of azole antifungal compounds into the eyes of rabbits (139), models to study drug penetration into surgical wounds of dogs (133), and novel sampling methods to measure spinal fluid levels of antibiotics in rats (103).…”
Section: Animal Models For Studying the Pharmacokinetics Andmentioning
confidence: 99%