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Cardiopulmonary Arrest (cardiopulmonary + arrest)
Selected AbstractsSevere blunt trauma in dogs: 235 cases (1997,2003)JOURNAL OF VETERINARY EMERGENCY AND CRITICAL CARE, Issue 6 2009Stephen A. Simpson DVM Abstract Objective , To evaluate population characteristics, injuries, emergency diagnostic testing, and outcome of dogs with blunt trauma requiring intensive care in an urban hospital. Design , Retrospective study 1997,2003. Setting , All data obtained from the University of Pennsylvania , Matthew J. Ryan Veterinary Hospital. Animals , Dogs admitted to the intensive care unit for treatment following blunt trauma. Interventions , None. Measurements and Main results , Of the 235 dogs that met inclusion criteria, 206 (88%) survived and 29 (12%) did not survive. Blunt vehicular trauma accounted for 91.1% of cases. Mild hyperglycemia and hyperlactatemia was common in both survivors and nonsurvivors. The chest was the most common region traumatized and the prevalence of polytrauma was 72.3%. Initial weight, vital signs, PCV, total plasma protein, BUN, glucose, lactate, acid-base status, and electrolytes did not differ between survivors and nonsurvivors. Nonsurvivors were significantly more likely to have had head trauma (P=0.008), cranium fractures (P<0.001), recumbency at admission (P<0.001), development of hematochezia (P<0.001), clinical suspicion of acute respiratory distress syndrome (P<0.001), disseminated intravascular coagulation (P<0.001), multiorgan dysfunction syndrome (P<0.001), development of pneumonia (P<0.001), positive-pressure ventilation (P<0.001), vasopressor use (P<0.001), and cardiopulmonary arrest (P<0.001). Conclusions , Outcome of severe blunt trauma in dogs treated with intensive care is very good. Despite the high survival rate, several features associated with poor outcome were identified. Neither admission lactate nor glucose was able to predict outcome. [source] The use of vasopressin for treating vasodilatory shock and cardiopulmonary arrestJOURNAL OF VETERINARY EMERGENCY AND CRITICAL CARE, Issue 2 2009DACVIM, Richard D. Scroggin Jr. Abstract Objective , To discuss 3 potential mechanisms for loss of peripheral vasomotor tone during vasodilatory shock; review vasopressin physiology; review the available animal experimental and human clinical studies of vasopressin in vasodilatory shock and cardiopulmonary arrest; and make recommendations based on review of the data for the use of vasopressin in vasodilatory shock and cardiopulmonary arrest. Data Sources , Human clinical studies, veterinary experimental studies, forum proceedings, book chapters, and American Heart Association guidelines. Human and Veterinary Data Synthesis , Septic shock is the most common form of vasodilatory shock. The exogenous administration of vasopressin in animal models of fluid-resuscitated septic and hemorrhagic shock significantly increases mean arterial pressure and improves survival. The effect of vasopressin on return to spontaneous circulation, initial cardiac rhythm, and survival compared with epinephrine is mixed. Improved survival in human patients with ventricular fibrillation, pulseless ventricular tachycardia, and nonspecific cardiopulmonary arrest has been observed in 4 small studies of vasopressin versus epinephrine. Three large studies, though, did not find a significant difference between vasopressin and epinephrine in patients with cardiopulmonary arrest regardless of initial cardiac rhythm. No veterinary clinical trials have been performed using vasopressin in cardiopulmonary arrest. Conclusion , Vasopressin (0.01,0.04 U/min, IV) should be considered in small animal veterinary patients with vasodilatory shock that is unresponsive to fluid resuscitation and catecholamine (dobutamine, dopamine, and norepinephrine) administration. Vasopressin (0.2,0.8 U/kg, IV once) administration during cardiopulmonary resuscitation in small animal veterinary patients with pulseless electrical activity or ventricular asystole may be beneficial for myocardial and cerebral blood flow. [source] Evaluation of age and American Society of Anesthesiologists (ASA) physical status as risk factors for perianesthetic morbidity and mortality in the catJOURNAL OF VETERINARY EMERGENCY AND CRITICAL CARE, Issue 1 2002DACVS, FACVSc, Giselle Hosgood BVSC Abstract Objective: To evaluate age and American Society of Anesthesiologists (ASA) physical status as risk factors for perianesthetic morbidity/mortality in cats. Design: Prospective cohort study. Setting: Institution teaching hospital. Animals: 138 cats , 6 months of age that received inhalation anesthesia for , 30 min Interventions: Observations were made during the 24 h post-anesthetic period. Measurements and main results: Sixty-one females and 77 males were included. Serious perianesthetic complications occurred in 15 cats (15/138; 11%), including cardiopulmonary arrest in 3 cats (3/138; 2%), and death or euthanasia in 7 cats (7/138; 5%). Age was not a factor in establishing risk for developing serious or minor perianesthetic complications in the cats in this study. However, ASA status was a risk factor. Cats having an ASA status of 3 or more were nearly 4 times as likely to develop serious perianesthetic complications, even when accounting for the significant confounding effects of anesthesia duration. Conclusions: ASA status, but not age, was a risk factor for the development of serious or minor perianesthetic complications in the 138 cats included in this study. [source] Cardiopulmonary resuscitation after near drowning and hypothermia: restoration of spontaneous circulation after vasopressinACTA ANAESTHESIOLOGICA SCANDINAVICA, Issue 3 2003G. Sumann Recent animal data have challenged the common clinical practice to avoid vasopressor drugs during hypothermic cardiopulmonary resuscitation (CPR) when core temperature is below 30°C. In this report, we describe the case of a 19-year-old-female patient with prolonged, hypothermic, out-of-hospital cardiopulmonary arrest after near drowning (core temperature, 27°C) in whom cardiocirculatory arrest persisted despite 2 mg of intravenous epinephrine; but, immediate return of spontaneous circulation occurred after a single dose (40 IU) of intravenous vasopressin. The patient was subsequently admitted to a hospital with stable haemodynamics, and was successfully rewarmed with convective rewarming, but died of multiorgan failure 15 h later. To the best of our knowledge, this is the first report about the use of vasopressin during hypothermic CPR in humans. This case report adds to the growing evidence that vasopressors may be useful to restore spontaneous circulation in hypothermic cardiac arrest patients prior to rewarming, thus avoiding prolonged mechanical CPR efforts, or usage of extracorporeal circulation. It may also support previous experience that the combination of both epinephrine and vasopressin may be necessary to achieve the vasopressor response needed for restoration of spontaneous circulation, especially after asphyxial cardiac arrest or during prolonged CPR efforts. [source] Reflection on a patient's airway management during a ward-based resuscitationNURSING IN CRITICAL CARE, Issue 5 2006Carolyn Shepherd Abstract Background: The bag-valve-mask (BVM) system is a common adjunct used during adult resuscitation to ventilate the lungs and deliver oxygen to patients in cardiopulmonary arrest. Gastric inflation, regurgitation and aspiration are well-documented complications of BVM ventilation, which can have serious consequences for patients. Aim: The aim of this paper is to review the cause of gastric inflation, regurgitation and aspiration during BVM ventilation and to consider techniques that have been suggested to reduce these problems.Method: Using a reflective model, the author revisits an actual cardiac arrest, and within a structured framework considers the event itself, the context of the event and looks at ways in which practice could be improved in future.Results: It is clear from the evidence that a reduction in peak airway pressure can reduce the risk of gastric inflation, regurgitation and aspiration. A review of the available research strongly suggests that in expert hands, the most effective means of reducing peak airway pressure is by reducing tidal volume by using a smaller bag.Conclusion: Although the evidence, as presented, for a reduction in bag size is convincing, there appears to be a problem that less regular users do not appear to be able to produce effective tidal volumes when using a smaller bag. If a reduced bag size is standardized, further research using a diverse group of health care workers with the BVM is required before a clear policy can be achieved. It is likely that training and practice will be shown to be important for nursing staff expected to use the smaller BVM. [source] Occurrence of "J Waves" in 12-Lead ECG as a Marker of Acute Ischemia and Their Cellular BasisPACING AND CLINICAL ELECTROPHYSIOLOGY, Issue 6 2007SHINDE RITUPARNA M.D. The "J wave" (also referred to as "the Osborn wave,""the J deflection," or "the camel's hump") is a distinctive deflection occurring at the QRS-ST junction. In 1953, Dr. John Osborn described the "J wave" as an "injury current" resulting in ventricular fibrillation during experimental hypothermia. Although "J Wave" is supposed to be pathognomonic of hypothermia, it is seen in a host of other conditions such as hypercalcemia, brain injury, subarachnoid hemorrhage, cardiopulmonary arrest from over sedation, the Brugada syndrome, vasospastic angina, and idiopathic ventricular fibrillation. However, there is paucity of literature data as regards to ischemic etiology of "J Wave." In this article, we present a case where "J waves" were probably induced by ischemia. We also discuss the mechanism of ischemia-induced "J wave" accentuation and its prognostic implications. [source] Non-cardiogenic pulmonary edema during basiliximab induction in three adolescent renal transplant patientsPEDIATRIC TRANSPLANTATION, Issue 4 2003Fatai O. Bamgbola Abstract:, Background:, Introduction of the anti-CD-25 mAb basiliximab into renal transplant protocols has reduced the incidence of acute rejection. However, its side-effect profile is still unfolding. We report three adolescents who developed severe non-cardiogenic PE within 2 days of renal transplantation. Methods:, Pretransplant cardiorespiratory evaluation was normal in all cases. Transplant immunosuppression consisted of basiliximab induction, corticosteroids, and tacrolimus. Patients received standard fluid management during and after the transplant surgery. Case reports:, Patients 1 and 2 were 17- and 21-yr-old females. Pretransplant Hct values were 35 and 25% respectively. Each received 5-L normal saline during surgery. EBL was 200 and 500 mL in patients 1 and 2, respectively. There was immediate post-operative diuresis. Both developed non-cardiogenic PE by POD no. 2. BIPAP and PRVC were administered respectively. In both cases PE resolved within 1 wk. Patient 3 was a 19-yr-old male with pretransplant Hct of 43% who received a cadaveric renal transplant after 23.5-h cold-ischemia; 3.5 L normal saline was given during surgery. EBL was 100 mL. Non-cardiogenic PE ensued on POD no. 2 warranting assisted ventilation. The patient died following a sudden cardiopulmonary arrest on POD no. 3. Conclusions:, Potential mechanisms for the development of PE include cytokine release from basiliximab with increased capillary permeability, volume overload and ischemic-reperfusion injury. Improved awareness of this potential complication, prudent fluid management, and efforts to minimize graft-ischemia are recommended to prevent further cases. [source] A comparison of the laryngeal mask airway with the facemask and oropharyngeal airway for manual ventilation by first responders in childrenANAESTHESIA, Issue 12 2009A. E. Blevin Summary In adults, first responders to a cardiopulmonary arrest provide better ventilation using a laryngeal mask airway than a facemask. It is unclear if the same is true in children. We investigated this by comparing the ability of 36 paediatric ward nurses to ventilate the lungs of 99 anaesthetised children (a model for cardiopulmonary arrest) using a laryngeal mask airway and using a facemask with an oropharyngeal airway. Anteroposterior chest wall displacement was measured using an ultrasonic detector. Nurses achieved successful ventilation in 74 (75%) of cases with the laryngeal mask airway and 76 (77%) with facemask and oropharyngeal airway (p = 0.89). Median (IQR [range]) time to first breath was longer for the laryngeal mask airway (48 (39,65 [8,149])) s than the facemask/airway (35 (25,53 [14,120]) s; p < 0.0001). In 10 cases (10%) the lungs were ventilated using the laryngeal mask airway but not using the facemask/oropharyngeal airway. We conclude that ventilation is achieved rapidly using a facemask and oropharyngeal airway, and that the laryngeal mask airway may represent a useful second line option for first responders. [source] A parent as a vector of Salmonella brandenburg nosocomial infection in a neonatal intensive care unitCLINICAL MICROBIOLOGY AND INFECTION, Issue 6 2003G.-L. Cartolano A newborn baby was admitted to the Neonatal Intensive Care Unit (NICU) of St Germain en Laye Hospital (France) because of premature birth. On day 12, he contracted gastroenteritis due to Salmonella brandenbourg. The salmonellosis led to a septic shock syndrome with a brief cardiopulmonary arrest. He was treated with intravenous ceftriaxone and gentamicin, and the evolution was favorable. Microbiological investigations revealed that the mother was the vector for this nosocomial infection. S. brandenbourg was isolated from the feces of the baby, despite recent recommendations on managing stool specimens from patients hospitalized for more than three days: according to these recommendations, these stools should be processed for viruses and Clostridium difficile toxin only. [source] Effects of rapid response systems on clinical outcomes: Systematic review and meta-analysisJOURNAL OF HOSPITAL MEDICINE, Issue 6 2007Sumant R. Ranji MD Abstract BACKGROUND A rapid response system (RRS) consists of providers who immediately assess and treat unstable hospitalized patients. Examples include medical emergency teams and rapid response teams. Early reports of major improvements in patient outcomes led to widespread utilization of RRSs, despite the negative results of a subsequent cluster-randomized trial. PURPOSE To evaluate the effects of RRSs on clinical outcomes through a systematic literature review. DATA SOURCES MEDLINE, BIOSIS, and CINAHL searches through August 2006, review of conference proceedings and article bibliographies. STUDY SELECTION Randomized and nonrandomized controlled trials, interrupted time series, and before-after studies reporting effects of an RRS on inpatient mortality, cardiopulmonary arrests, or unscheduled ICU admissions. DATA EXTRACTION Two authors independently determined study eligibility, abstracted data, and classified study quality. DATA SYNTHESIS Thirteen studies met inclusion criteria: 1 cluster-randomized controlled trial (RCT), 1 interrupted time series, and 11 before-after studies. The RCT showed no effects on any clinical outcome. Before-after studies showed reductions in inpatient mortality (RR = 0.82, 95% CI: 0.74-0.91) and cardiac arrest (RR = 0.73, 95% CI: 0.65-0.83). However, these studies were of poor methodological quality, and control hospitals in the RCT reported reductions in mortality and cardiac arrest rates comparable to those in the before-after studies. CONCLUSIONS Published studies of RRSs have not found consistent improvement in clinical outcomes and have been of poor methodological quality. The positive results of before-after trials likely reflects secular trends and biased outcome ascertainment, as the improved outcomes they reported were of similar magnitude to those of the control group in the RCT. The effectiveness of the RRS concept remains unproven. Journal of Hospital Medicine 2007;2:422,432. © 2007 Society of Hospital Medicine. [source] |