Canis ISSN: 2398-2942

Shock: septic

Synonym(s): Septicemia, septic shock, bacteremia, sepsis

Contributor(s): Kyle Braund, Elisa Mazzaferro, Daniel H Lewis, Neus Elias

Introduction

  • Bacteremia: presence of live organisms in the blood stream.
  • Sepsis: life-threatening organ dysfunction caused by a dysregulated host response to infection.
  • Septic shock: subset of sepsis in which underlying circulatory and cellular/metabolic abnormalities are profound enough to substantially increase mortality. Patients suffer persistent, volume-unresponsive hypotension requiring vasopressors to maintain a mean arterial pressure over 65 mmHg.
  • Cause: dysregulated inflammatory response to an infection (bacterial, viral, protozoal or fungal). The release of circulating inflammatory mediators causes signs of systemic inflammatory response syndrome (SIRS) that can range from mild to moderate and severe, ultimately developing septic shock.
  • Clinical signs and diagnosis: depend on location of the infection, virulence of the organism, co-morbidities of the host as well as age and immunocompetence. SIRS criteria typically consists of tachycardia (or bradycardia in cats), tachypnea, hyper/hypothermia. Usually, patients tend to have hyperemic (‘congested/injected’) mucous membranes with a shortened capillary refill time due to severe peripheral vasodilation. Additional laboratory findings in sepsis include leukopenia or normal white blood cell count with a band neutrophil count of over 10%, increased levels of C-reactive protein and other acute phase proteins and inflammatory markers and/or hyperlactatemia. Further abnormalities can be encountered if the patient suffers from multiple organ dysfunction syndrome (MODS).
  • Treatment: treatment of the infection source, treatment of secondary organ failure/coagulopathy, appropriate and timely antimicrobial administration, intravenous fluid therapy and vasopressors when required.
  • Prognosis: guarded, worsening as the patient progresses from mild SIRS to progressive systemic inflammation to organ dysfunction and vascular collapse. Associated with high mortality rates.

Pathogenesis

Etiology

  • Common pathogens will depend on the location of the septic foci.
  • Most common etiological agents in dog are E. coli Escherichia coliEnterococcus spp, Staphylococcus spp, B-hemolytic Streptococcus spp, Enterobacter spp, Klebsiella spp, Pasteurella spp, Pseudomonas spp, Acinetobacter spp, Corynebacterium spp, and Bartonella spp. 
  • Some etiological agents will be more common than others depending on the location of the septic focus: eg urosepsis is usually caused by organisms of gastrointestinal origin.
  •  Key to the etiology of sepsis/septic shock is the dysregulation of the host inflammatory response: this may be the result of an over-exuberant pro-inflammatory state, an inappropriate anti-inflammatory state, or differing combinations of these extremes at different timepoints during the disease.
  • Whilst the majority of clinically-recognized sepsis results from bacterial infections, sepsis can occur secondary to viral, fungal, parasitic or other pathogenic infections.

Predisposing factors

  • Septic peritonitis is the most common cause of sepsis (in dogs) often occurring following leakage of contents from the gastrointestinal tract. This can happen secondary to neoplasia, perforation due to foreign body ingestion, dehiscence of previous surgical sites, use of non-steroidal anti-inflammatory therapy associated with perforating ulcers or severe colitis. Septic peritonitis is also described secondary to contamination from urine (the animal must have suffered from a urinary tract infection prior to this), bile or after uterine rupture.
  •  Other less common causes of sepsis include pyelonephritis, pneumonia, septic arthritis, deep pyoderma, bacterial endocarditis, tick borne diseases, septic meningitis, pyothorax, trauma, bite wounds, septic prostatitis, pyometra, osteomyelitis, etc.
  • Widespread use of catheters/other invasive equipment can be a source for sepsis.
  • Use of corticosteroids/other immunosuppressive agents can predispose an animal to sepsis. Animals receiving chemotherapy are also at a higher risk.
  • Antibiotic use prior to onset of sepsis may lead to presence of resistant bacteria.

Pathophysiology

  • Septic shock is a form of shock Shock which is caused by the presence of microorganisms (usually bacteria) or their products (endotoxins) in the systemic circulation. This leads to a dysregulated host immune.
  • The gram-negative bacterial cell wall contains lipopolysaccharides (LPS) that are recognized as one of the most potent stimuli for an inflammatory host response. Activation of the inflammatory cascade due to gram positive bacteria occurs in response to cell wall components or bacterial DNA. Stimulation of the innate immune system from a variety of pathogen antigens results in the production of inflammatory cytokines.
  • The most important cytokines related to sepsis are tumor necrosis factor alpha and interleukins 1, 6 and 8. These cytokines attract and activate neutrophils and stimulate other cells in the immune response.
  • Cytokines can cause extensive host tissue damage secondary to the release of reactive oxygen species (ROS) and proteases among others.
  • Overproduction of nitric oxide (NO) during sepsis is a major contributing factor to dysregulation of the vasomotor tone (vasoplegia). This vasodilatory state will cause severe hypotension, typically unresponsive to fluid therapy.

Timecourse

  • Usually acute - over hours.

Diagnosis

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Treatment

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Prevention

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Outcomes

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Further Reading

Publications

Refereed papers

  • Recent references from PubMed and VetMedResource.
  • Jenkins C M et al (2001) Necrotizing fasciitis in a dog. J Vet Emerg Crit Care 11 (4), 299-305 Wiley Online Library.
  • Prescott J F et al (1999) Update on canine streptococcal toxic shock syndrome and necrotizing fasciitis. Can Vet J 38 (4), 241-242 PubMed.
  • Dernell W S & Kreegan J (1992) Peracute, necrotizing mastitis as a cause of fatal septicemia and endotoxemia in a dog. Canine Pract 17 (6), 25-29 VetMedResource.
  • Nostrandt A C (1990) Bacteremia and septicemia in small animal patients. Probl Vet Med (2), 348-361 PubMed.

Other sources of information

  • Boller E M & Otto C M (2015) Septic shock. In: Kirk's Current Veterinary Therapy XII. Bonagura J D (ed). W B Saunders, Philadelphia. pp 139-146.
  • Kirby R (1995) Septic shock. In: Kirk's Current Veterinary Therapy XII. Bonagura J D (ed). W B Saunders, Philadelphia. pp 139-146.


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