Multiple Organ Dysfunction Syndrome in Humans and Animals

Multiple organ dysfunction syndrome (MODS), defined as the presence of altered organ function in an acutely ill patient such that homeostasis cannot be maintained without intervention, is a cause of high morbidity and mortality in humans and animals. Many advances have been made in understanding the pathophysiology and treatment of this syndrome in human medicine, but much still is unknown. This comparative review will provide information regarding the history and pathophysiology of MODS in humans and discuss how MODS affects each major organ system in animals.     

Prognostic value of clinicopathologic variables obtained at admission and effect of antiendotoxin plasma on survival in septic and critically ill foals

This prospective study compared survival rates of critically ill and septic foals receiving 1 of 2 different types of commercial equine plasma and analyzed admission variables as possible predictors of survival. Standardized clinical, hematologic, biochemical, and hemostatic admission data were collected and foals received either conventional commercially available hyperimmune equine plasma or equine plasma specifically rich in antiendotoxin antibodies in a double-blinded, coded fashion. Sepsis was defined as true bacteremia or sepsis score >11. Overall survival rate to discharge was 72% (49/68). Foals that were nonbacteremic and demonstrated a sepsis score of < or = 11 at admission had a 95% (18/19) survival rate. The survival rate to discharge for septic foals was 28/49 (57%), with truly bacteremic foals having a survival rate of 58% (14/24), whereas that for nonbacteremic, septic foals was 56% (14/25). Sensitivity and specificity for sepsis score >11 as a predictor of bacteremia were 74 and 52%, respectively. For the entire study population, a higher survival rate to discharge was documented for those foals receiving hyperimmune plasma rich in antiendotoxin antibodies (P = .012, odds ratio [OR] 6.763, 95% confidence interval [CI]: 1.311, 34.903). Administration of plasma rich in antiendotoxin antibodies also was associated with greater survival in septic foals (P = .019, OR 6.267, 95% CI: 1.186, 33.109). Statistical analyses demonstrated that, among 53 clinical and clinicopathologic admission variables, high sepsis score (P < .001), low measured IgG concentration (P = .01), high fibrinogen concentration (P = .018), low segmented neutrophil count (P = .028), and low total red blood cell numbers (P = .048) were the most significant predictors of overall mortality.     

Plasma D-dimer concentration in sick newborn foals

BACKGROUND: Septicemia is associated with a systemic inflammatory response, hemostatic activation, and disseminated intravascular coagulopathy (DIC). HYPOTHESIS: Increased plasma d-dimer concentration occurs in septic neonates and can reliably detect sepsis or DIC, and predict death in ill neonatal foals. ANIMALS: 40 septic, 41 nonseptic hospitalized foals, and 22 healthy neonates. METHODS: Prospective observational clinical study. Blood samples were collected on admission, at 24-48 hours after admission, and at the time of discharge or euthanasia. Plasma d-dimer concentration, clotting times, antithrombin activity, and fibrinogen concentration were determined. RESULTS: On admission, d-dimer concentration values were significantly higher in septic foals (median, 25-75th percentiles; 568, 245-2013 ng/mL) compared with the nonseptic and healthy groups (386, 175-559 and 313, 152-495 ng/mL, respectively), and in septic foals at the age of 2-7 days compared with similar-age nonseptic foals. By means of samples taken at 24-48 hours of hospitalization and a cut-off value of > 2000 ng/mL, D dimer concentration was significantly associated with the diagnosis of septicemia (odds ratio [OR] = 19.6, 95% confidence interval [95% CI] 1.9-203) and death (OR = 8.7, 95% CI 1.8-43). Owing to a high false-positive prediction rate (71%), a normal d-dimer concentration is better at eliminating the diagnosis of sepsis than an increased d-dimer concentration at predicting sepsis. Fifty percent of septic foals had a diagnosis of DIC, but d-dimer concentration was not significantly associated with the diagnosis of DIC. CONCLUSIONS AND CLINICAL IMPORTANCE: Septic foals showed a marked activation of coagulation and fibrinolytic systems and a high prevalence of DIC. Increased plasma d-dimer concentration is significantly associated with the diagnosis of sepsis.     

Ionized Hypocalcemia in Critically Ill Dogs

Background: Ionized hypocalcemia (iHCa) is a common electrolyte disturbance in critically ill people, especially those with sepsis. The cause of the iHCa is not entirely understood and is likely multifactorial. Critically ill people with iHCa have longer hospital stays and higher mortality rates compared to people with normocalcemia. There are no published clinical studies evaluating the incidence and impact of iHCa in critically ill dogs.
Hypothesis: iHCa occurs in critically ill dogs, is more prevalent in dogs with systemic inflammatory response syndrome (SIRS) or sepsis, and is associated with longer hospital stays and higher mortality.
Animals: One hundred and forty-one client-owned dogs admitted to a companion animal intensive care unit (ICU) in a veterinary teaching hospital.
Methods: Prospective observational study of sequentially enrolled dogs. Blood was collected and analyzed within an hour of admission from all dogs presented to the ICU that met study inclusion criteria.
Results: The incidence of iHCa (iCa < 1.11 mmol/L) was 16%. The presence of iHCa was associated with longer ICU ( P = .038) and hospital ( P = .012) stays but not with decreased survival ( P = .60). Dogs with sepsis as defined by ≥3 SIRS criteria and a positive culture were more likely to have iHCa ( P = .050).
Conclusions and Clinical Relevance: In dogs not previously treated with fluids or blood products intravenously, the finding of iHCa upon admission to the ICU predicted a longer duration of ICU and hospital stay. Septic dogs with positive cultures were more likely to have iHCa.     

A study of experimental acute lung injury in pigs on zero end-expiratory pressure

OBJECTIVES: Tidal expiratory flow limitation (EFL) has been reported in humans with acute lung injury (ALI) and assumed to be associated with small airway closure. Detection of EFL is important because by selecting positive end-expiratory pressure at such a level that EFL is no longer present in the tidal breath, the repeated opening and closure of small airways can be prevented. The objective of this study was to investigate the occurrence of EFL in two experimental models of ALI. ANIMALS: Ten female piglets. METHODS: Animals were anaesthetized, tracheotomized and mechanically ventilated on zero end-expiratory pressure. Acute lung injury was induced by oleic acid (OA) (n = 5) or saline lavage (SL) (n = 5). Tidal EFL was assessed by the negative expiratory pressure test. Lung and chest wall mechanics were partitioned using an oesophageal balloon. Resistance and static elastance were assessed by a rapid airway occlusion technique at baseline ventilatory settings. RESULTS: There was no EFL at any time before and after ALI in both models. This may be due to an increased elastance which promoted higher expiratory flow after ALI and to a decreased chest wall to lung static elastance ratio which could favour small airways patency. The similar increase in total lung resistance, in the two models, after ALI was mostly due to an increased airway resistance in the OA model and to the lung tissue resistance in the SL model. CONCLUSIONS AND CLINICAL RELEVANCE: Tidal EFL was not detected in experimental ALI. This finding casts some doubt about the usefulness of some experimental models of ALI to mimic some reported findings in human ALI.     

Evaluation of serum NT-pCNP as a diagnostic and prognostic biomarker for sepsis in dogs

Background: There is a need for diagnostic biomarkers that can rapidly differentiate dogs with sepsis from dogs with noninfectious forms of systemic inflammatory response syndrome (NSIRS). Objectives: To compare serum NT‐pCNP concentrations among dogs with various forms of sepsis, NSIRS, and healthy controls and to evaluate the use of serum NT‐pCNP for the diagnosis of various forms of sepsis in dogs. Animals: One hundred and twelve dogs including 63 critically ill dogs (sepsis n = 29; NSIRS n = 34) and 49 healthy control dogs. Methods: Prospective clinical investigation. Serum samples were collected for NT‐pCNP measurement from dogs with sepsis or NSIRS within 24 hours of intensive care unit admission or at the time of presentation for healthy dogs. Dogs with sepsis were subclassified based on the anatomic region of infection. Serum NT‐pCNP concentrations were compared among sepsis, NSIRS and healthy groups as well as among sepsis subgroups. The area under the curve (AUC), sensitivity, and specificity for identifying dogs with sepsis were determined. Results: Using a cut‐off value of 10.1 pmol/L, AUC, sensitivity, and specificity of NT‐pCNP for differentiating dogs with sepsis from dogs with NSIRS or healthy control dogs were 0.71 (95% CI, 0.58–0.85), 65.5% (45.7–82.1%), and 89.2% (80.4–94.9%), respectively. Serum NT‐pCNP had poor sensitivity for peritoneal sources of sepsis; AUC [0.92 (0.81–1.0)], sensitivity [94% (71–100%)], and specificity [89% (80–95%)] improved when these dogs were excluded. Serum NT‐pCNP concentration was not associated with survival in the sepsis group. Conclusions and Clinical Importance: Serum NT‐pCNP is a promising diagnostic biomarker for sepsis but is a poor indicator of septic peritonitis.     

Successful management of saltwater submersion injury in a dog using mechanical ventilation

Objective– To describe successful management of saltwater near-drowning in a dog using mechanical ventilation. Case Summary– A 7-year-old spayed female Golden Retriever weighing 37 kg was referred for mechanical ventilation after saltwater submersion injury. The dog had a history of rare seizures characterized by pre-ictal agitation. On the morning of the event, the dog became agitated and ran toward Puget Sound. The owners discovered the dog unconscious in approximately 25.4 cm (10 in) of water, with her head submerged. The owners estimated that the dog was submerged for approximately 30 seconds. The dog was presented immediately to the nearest emergency facility where initial diagnostic testing and treatment included venous blood gases, nasal oxygen, and IV fluids. The dog was dyspneic despite nasal oxygen administration and was referred for mechanical ventilation. Upon arrival the patient was cyanotic with an arterial partial pressure of oxygen of 38 mm Hg (reference interval 85–100 mm Hg) and oxygenation saturation of 62% (reference interval >95%). Thoracic radiographs were taken and revealed severe, bilateral pulmonary infiltrates. The patient was ventilated for 70 hours and was discharged 4 days later. Complications included pneumonia and phlebitis at the site of a cephalic IV catheter. Follow up thoracic radiographs 10 days after discharge were within normal limits and the owners report a full recovery at 1 year. New or Unique Information Provided– Submersion injury can result in acute respiratory distress syndrome in dogs. Mechanical ventilation provided critical support during pulmonary recovery in this dog.