Nosocomial Infections

Reid K. Nakamura, DVM, DACVECC, Emily Tompkins, DVM
Compendium, 2012

Nosocomial infections (NIs) are infections acquired by patients during hospitalization. An estimated 5% to 10% of human patients admitted to hospitals develop an NI.1 Among identified pathogens in human intensive care units (ICUs), 70% are resistant to at least one antimicrobial.2 In 2008, 64% of biosecurity experts at veterinary teaching hospitals believed that the risk of NI among their patients had increased in the preceding 10 years.3 Between 2003 and 2008, 82% of veterinary teaching hospitals reported outbreaks of NIs and 45% reported more than one NI outbreak.3 In human medicine, urinary tract infections (UTIs), pneumonia, surgical site infections (SSIs), and bloodstream infections (BSIs) account for approximately 80% of all NIs.4 This article reviews the most common NIs, the human and veterinary literature for each type of infection, and the diagnostic and treatment protocols as well as prevention strategies.

Abdominal and thoracic focused assessment with sonography for trauma, triage, and monitoring in small animals

Gregory R. Lisciandro, DVM, DABVP, DACVECC
Journal of Veterinary Emergency and Critical Care 21(2) 
2011. 

Objectives – To review the nonradiologist use of ultrasound (US) in the setting of emergency and critical care, the development, clinical applications, and standardization of veterinary abdominal and thoracic focused assessment with sonography for trauma (FAST) techniques.

Etiology – Since the 1990s, the 4-point FAST US technique has been used for injury surveillance in people with blunt and penetrating trauma. FAST screens for free fluid in the abdominal, pleural, and pericardial cavities with high sensitivity and specificity. More recently, an extended FAST scan was developed for the rapid detection of pneumothorax. These techniques and newly created scans have been applied to other critically ill, nontraumatized, subsets of human patients. As a result, the terminology related to this field, eg, extended FAST, HHFAST, FFAST, FAFF, BOAST, SLOH, bedside US, ‘$ Approach,’ protocols, and objectives have become convoluted despite having similar goals.

Diagnosis – The importance of US in the setting of emergency medicine is highlighted by the fact that this diagnostic modality has become an integral part of the core curriculum for nonradiologists including the American College of Surgeons, American College of Emergency Physicians, American Board of Emergency Medicine, Society of Academic Emergency Medicine, and all United States Accreditation Council for Graduate Medical Education Emergency Medicine residency programs.

Therapy – Veterinary applications of FAST techniques include an abdominal FAST technique with an abdominal FAST applied fluid scoring system, and a thoracic FAST technique. In an attempt to avoid the creation of numerous acronyms, veterinarians would be well served by making the ‘T’ in ‘FAST’ stand for ‘Trauma,’ ‘Triage,’ and ‘Tracking.’ Prognosis – These veterinary FAST techniques provide an extension of the physical examination for the emergency and critical care veterinarian potentially expediting diagnosis, prompting life-saving maneuvers, and guiding patient management. Further clinical research to determine sensitivity, specificity, and accuracy for specific conditions is warranted.

Enteropathogenic Bacteria in Dogs and Cats: Diagnosis, Epidemiology, Treatment, and Control

S.L. Marks, S.C. Rankin, B.A. Byrne, and J.S. Wee
J Vet Intern Med 2011;25:1195–120. 

2011.

This report offers a consensus opinion on the diagnosis, epidemiology, treatment, and control of the primary enteropathogenic bacteria in dogs and cats, with an emphasis on Clostridium difficile, Clostridium perfringens, Campylobacter spp., Salmonella spp., and Escherichia coli associated with granulomatous colitis in Boxers. Veterinarians are challenged when attempting to diagnose animals with suspected bacterial-associated diarrhea because well-scrutinized practice guidelines that provide objective recommendations for implementing fecal testing are lacking. This problem is compounded by similar isolation rates for putative bacterial enteropathogens in animals with and without diarrhea, and by the lack of consensus among veterinary diagnostic laboratories as to which diagnostic assays should be utilized. Most bacterial enteropathogens are associated with self-limiting diarrhea, and injudicious administration of antimicrobials could be more harmful than beneficial. Salmonella and Campylobacter are well-documented zoonoses, but antimicrobial administration is not routinely advocated in uncomplicated cases and supportive therapy is recommended. Basic practices of isolation, use of appropriate protective equipment, and proper cleaning and disinfection are the mainstays of control. Handwashing with soap and water is preferred over use of alcohol-based hand sanitizers because spores of C. difficile and C. perfringens are alcohol-resistant, but susceptible to bleach (1:10 to 1:20 dilution of regular household bleach) and accelerated hydrogen peroxide. The implementation of practice guidelines in combination with the integration of validated molecular-based testing and conventional testing is pivotal if we are to optimize the identification and management of enteropathogenic bacteria in dogs and cats

Ultrasound of the Gastrointestinal Tract

Martha Moon Larson, DVM, MS,
David S. Biller, DV

Vet Clin Small Anim 39 (2009) 747–759

Familiarity with the normal and abnormal ultrasound appearance of the canine and feline gastrointestinal (GI) tract provides a marked advantage in the diagnosis of GI disease. Although gas may inhibit complete visualization, in many cases, ultrasound is able to confirm or rule out suspected disease. It should be noted that ultrasound of the GI tract does not preclude the need for abdominal radiographs. The two imaging modalities are complementary, and each adds individual information. Ultrasound evaluation of the GI tract provides information about bowel wall thickness and layers, assessment of motility, and visualization of important adjacent structures such as lymph nodes and peritoneum. In the hands of experienced sonographers, abdominal ultrasound has replaced the need for GI contrast studies in many cases, saving time, money, radiation exposure, and stress to the patient.

Managing Acute Spinal Cord Injuries

Stephanie Kube, DVM, DACVIM, Natasha Olby, VetMB, PhD, DACVIMCompendium, September 2008

Acute spinal cord injuries commonly seen in veterinary patients include vascular, compressive, and concussive injuries. Vascular lesions, or infarcts, are usually caused by fibrocartilagenous emboli. Concussive and compressive injuries have a variety of pathologies, including intervertebral disk disease, fractures, and luxations (dislocations) of the vertebral column. Although considerable controversy exists over the most appropriate way to manage acute spinal cord injuries, early surgical intervention or decompression remains the best treatment option in managing acute compressive injuries in veterinary patients. High-dose methylprednisolone sodium succinate, an established treatment in human medicine, is falling out of favor because studies have shown little therapeutic benefit and severe adverse effects.

Fluoroquinolones – Then and Now

Lidia M. Pallo-Zimmerman, DVM, DACVIM, Julie K. Byron, DVM, MS, DACVIM, Thomas K. Graves, DVM, PhD, DACVIM
Compendium, July 2010

Fluoroquinolones were discovered in the 1960s as a derivative of the antimalarial drug chloroquine. Over the past 40 years, many fluoroquinolones have been developed for use in human and veterinary medicine. As with all classes of antibiotics, resistance to fluoroquinolones is a serious concern, and multiple avenues for resistance are being investigated. Resistance-associated point mutations in bacterial DNA and, more recently, plasmid-mediated resistance have been reported in both human and veterinary bacterial isolates. This article reviews the history and most current literature on fluoroquinolones approved for use in dogs and cats and the spectra of activity, mechanisms of action, resistance patterns, and recommendations for appropriate clinical use of these drugs

Ultrasound of the Gastrointestinal Tract

Martha Moon Larson, DVM, MS, David S. Biller, DVM
Vet Clin Small Anim 39 (2009) 747–759

Familiarity with the normal and abnormal ultrasound appearance of the canine and feline gastrointestinal (GI) tract provides a marked advantage in the diagnosis of GI disease. Although gas may inhibit complete visualization, in many cases, ultrasound is able to confirm or rule out suspected disease. It should be noted that ultrasound of the GI tract does not preclude the need for abdominal radiographs. The two imaging modalities are complementary, and each adds individual information. Ultrasound evaluation of the GI tract provides information about bowel wall thickness and layers, assessment of motility, and visualization of important adjacent structures such as lymph nodes and peritoneum. In the hands of experienced sonographers, abdominal ultrasound has replaced the need for GI contrast studies in many cases, saving time, money, radiation exposure, and stress to the patient.

Guidelines for Reducing Pathogens in Veterinary Hospitals - Disinfectant Selection, Cleaning Protocols, and Hand Hygiene

Joshua A. Portner, DVM, DACVECC, 
Justine A. Johnson, DVM, DACVECC
Compendium, 2010

Antibiotic resistance is a growing problem in the hospital setting. Organisms that cause hospital-acquired infections are generally highly resistant, requiring expensive antibiotics and further hospitalization. As a result, many owners of infected pets choose euthanasia. Appropriate hospital disinfection and staff hygiene practices can prevent such infections by reducing the pathogen load in a facility in accordance with the "nosocomial prevention triad"—appropriate antibiotic usage, staff and patient hygiene, and hospital maintenance and disinfection. This review outlines the development and implementation of hospital disinfection protocols and hand hygiene practices in small animal veterinary hospital

Feline Pediatrics - How to Treat the Small and the Sick

Susan Little DVM
Compendium, 2011

Most veterinarians have been presented with kittens that have failed to thrive. These patients are challenging due to their small size, their unfamiliar physiology, and the tendency for their status to deteriorate quickly. The most common general causes of illness and failure to thrive are maternal, gestational, environmental, genetic, and infectious factors. In much of the veterinary literature, the neonatal period is defined as the first 4 weeks of life. However, it is clinically useful to consider defined risk periods: the first 4 days of life (when many problems are related to labor and delivery or the environment); between 21 and 28 days of age (when important changes leading to neurologic and behavioral maturation take place); and weaning (4 to 6 weeks of age).

Dystocia

Sergio Serrano, LV, DVM, DACVECC 
Matthew McMillan, BVM&S, MRCVS
Standars of Care of Compendium 

February of 2009

Dystocia is a relatively common emergency presentation. It occurs in 3.3% to 5.8% of all feline pregnancies; in dogs, the overall rate is around 5%. However, dystocia rates are breed specific: only 0.8% to 2.3% of pregnancies in cats with a normal conformation result in dystocia, whereas in some large-headed and achondroplastic dog breeds, the rate can approach 100%.