Marc A. Seitz scite author profile

Infection of bone tissue, or osteomyelitis, has become a growing concern in modern healthcare due in no small part to a rise in antibiotic resistance among bacteria, notably Staphylococcus aureus. The current standard of care involves aggressive, prolonged antibiotic therapy combined with surgical debridement of infected tissues. While this treatment may be sufficient for resolving a portion of cases, recurrences of the infection and associated risks including toxicity with long‐term antibiotic usage have been reported. Therefore, there exists a need to produce safer, more efficacious options of treatment for osteomyelitis. In order to test treatment regimens, animal models that closely mimic the clinical condition and allow for accurate evaluation of therapeutics are necessary. Establishing a model that replicates features of osteomyelitis in humans continues to be a challenge to scientists, as there are many variables involved, including choosing an appropriate species and method to establish infection. This review addresses the refinement of animal models of osteomyelitis to reflect the clinical disease and test prospective therapeutics. The aim of this review is to explore studies regarding the use of animals for osteomyelitis therapeutics research and encourage further development of such animal models for the translation of results from the animal experiment to human medicine.

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Persistent gross lipemia and suspected corneal lipidosis following intravenous lipid therapy in a cat with permethrin toxicosis

Seitz¹,

Creedon²

2016

J Vet Emergen Crit Care

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Evaluation for association between indwelling urethral catheter placement and risk of recurrent urethral obstruction in cats

Seitz

Creedon²,

Drobatz

2018

javma

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OBJECTIVE To test for an association between indwelling urethral catheter placement in cats with urethral obstruction (UO) and the short-term (30-day) risk of recurrent urethral obstruction (RUO). DESIGN Prospective cohort study. ANIMALS 107 client-owned male cats with UO. PROCEDURES Owners were offered standard care for their cats, including hospitalization, placement of an indwelling urethral catheter, IV fluid therapy, and other supportive treatments (inpatient group). One-time catheterization and outpatient care were offered (outpatient group) if standard care was declined. Data regarding signalment, measures of metabolic compromise and urinalysis findings at enrollment, catheterization-related variables, and supportive treatments of interest were collected. Risk of RUO ≤ 30 days after urethral catheter removal was determined for the outpatient vs inpatient group by OR and 95% confidence interval calculation. Other variables were compared between cats that did and did not develop RUO with Fisher exact and trend tests. RESULTS 91 cats completed the study; 19 (5/46 [11%] inpatients and 14/45 [31%] outpatients) developed RUO. Risk of RUO was significantly greater for cats of the outpatient group (OR, 3.7; 95% confidence interval, 1.2 to 11.4). Among inpatients, increasingly abnormal urine color at the time of catheter removal was significantly associated with RUO. No other significant associations were identified. CONCLUSIONS AND CLINICAL RELEVANCE Hospitalization and indwelling catheterization significantly reduced the risk for RUO ≤ 30 days after treatment for the population studied. Results suggested that removal of an indwelling catheter before urine appears grossly normal may be associated with development of RUO. One-time catheterization with outpatient care was inferior to the standard care protocol but was successful in many cats and may be a reasonable alternative when clients cannot pursue standard care.

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Sedation with dexmedetomidine is associated with transient gallbladder wall thickening and peritoneal effusion in some dogs undergoing abdominal ultrasonography

Seitz

Lee

Woodruff

et al. 2021

Veterinary Internal Medicne

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Background Dexmedetomidine often is used for sedation before or during abdominal ultrasonography. The effect of dexmedetomidine on gallbladder wall thickness is unknown. Hypothesis/Objectives To investigate the relationship between dexmedetomidine administration and gallbladder wall thickening in dogs. The hypothesis was that sedation with dexmedetomidine will cause transient gallbladder wall thickening. Gallbladder wall thickness will be associated with duration of sedation and recumbency position. Animals Seventy‐nine client owned dogs and 10 healthy research dogs. Methods A prospective observational study (n = 79) was used to establish the prevalence of gallbladder wall thickening (> 2.0 mm) after sedation with dexmedetomidine. A randomized, crossover study (n = 10) was used to evaluate the effect of time and recumbency position on the development of gallbladder wall thickening. Linear mixed models were used. Results The proportion of client‐owned dogs that developed gallbladder wall thickening was 24.05% (19/79; 95% confidence interval [CI], 15.1%‐35.0%) with a median dose of dexmedetomidine of 5.0 μg/kg (range, 2.0‐12.5 μg/kg). After sedation, the proportion of research dogs that developed gallbladder wall thickening in left lateral (5/10, 50%; 95% CI, 18.7%‐81.3%) and dorsal (7/10, 70%; 95% CI, 34.8%‐93.3%) recumbency did not differ significantly (P = .45). Gallbladder wall thickening developed within 20 to 40 minutes. Duration of sedation was significantly associated with thickening of the gallbladder wall (P < .001). Five dogs developed 9 instances of peritoneal effusion in both lateral (5) and dorsal (4) recumbency. Conclusions and Clinical Importance Sedation with dexmedetomidine is associated with gallbladder wall thickening (> 2.0 mm) and peritoneal effusion that could be confused with pathologic etiologies.

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Intraoperative Ultrasound Applications in Intracranial Surgery

et al. 2021

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The methods and use of intraoperative ultrasound in 33 canine and five feline patients and its ability to localize and identify anatomical structures and pathological lesions in canines and felines undergoing intracranial surgery are described from a case series. All were client-owned referral patients admitted for neurologic evaluation, with an advanced imaging diagnosis of an intracranial lesion, and underwent surgical biopsy or surgical removal of the lesion. Medical records, retrieval and review of imaging reports, and characterization of findings for all canine and feline patients show that intraoperative ultrasound guidance was used in intracranial procedures during the period of 2012 and 2019. Twenty-nine of the canine patients had intracranial tumors. The remainder had various other conditions requiring intracranial intervention. Three of the feline patients had meningiomas, one had a depressed skull fracture, and one had an epidural hematoma. The tumors appeared hyperechoic on intraoperative ultrasound with the exception of cystic portions of the masses and correlated with the size and location seen on advanced imaging. Statistical comparison of the size of images seen on ultrasound and on MRI for 20 of the canine tumors revealed no statistical differences. Neuroanatomical structures, including vascular components, were easily identified, and tumor images correlated well with preoperative advanced imaging. The authors conclude that intraoperative ultrasound is a valuable asset in intracranial mass removals and can augment surgical guidance in a variety of intracranial disorders that require surgery. This is the first known publication in veterinary surgery of using intraoperative ultrasound as a tool in the operating theater to identify, localize, and monitor the removal/biopsy of intracranial lesions in small animals undergoing craniotomy/craniectomy.

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Marc A. Seitz

Innovations in osteomyelitis research: A review of animal models

Persistent gross lipemia and suspected corneal lipidosis following intravenous lipid therapy in a cat with permethrin toxicosis

Evaluation for association between indwelling urethral catheter placement and risk of recurrent urethral obstruction in cats

Sedation with dexmedetomidine is associated with transient gallbladder wall thickening and peritoneal effusion in some dogs undergoing abdominal ultrasonography

Intraoperative Ultrasound Applications in Intracranial Surgery

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