Daniel J. Johnson

Influence of Individual Characteristics on Outcome of Glycemic Control in Intensive Care Unit Patients With or Without Diabetes Mellitus

OBJECTIVEnTo clarify the relationship of patient and critical illness characteristics (including any history of diabetes mellitus) to glycemic control with insulin and hospital mortality.nnnPATIENTS AND METHODSnA case-control descriptive study was performed of patients admitted to a tertiary-care center multidisciplinary closed intensive care unit (ICU) at Mayo Clinic Hospital in Phoenix, Ariz, between January 1, 1999, and December 31, 2003, after implementation of a glycemic management protocol. Hospital mortality, the primary outcome, was examined in nondiabetic and diabetic ICU patients receiving insulin and in patients not requiring insulin (control group).nnnRESULTSnOf 7285 patients, 2826 (39%) required insulin, 1083 of whom (15% of total) had a history of diabetes mellitus. The control group had a median (10th-90th percentile) glucose level of 118 mg/dL (range, 97-153 mg/dL) and a 5% mortality rate. The median glucose level was 134 mg/dL (range, 110-181 mg/dL) in nondiabetic patients and 170 mg/dL (121-238 mg/dL) in diabetic patients (P<.001), whereas mortality rates were 10% and 6%, respectively (P<.001). Compared with nondiabetic survivors, nondiabetic nonsurvivors had longer periods with glucose levels greater than 144 mg/dL. Diabetic nonsurvivors vs diabetic survivors had longer periods with glucose levels greater than 200 mg/dL. Poor glycemic control in nondiabetic patients was associated with increased insulin requirement and increased mortality. Critical illness characteristics that predicted poor glycemic control were advanced age, history of diabetes, cardiac surgery, postoperative complications, severity of illness, nosocomial infections, prolonged mechanical ventilation, or concurrent medications.nnnCONCLUSIONSnCritical illness characteristics determined glycemic control and clinical outcome in ICU patients. Acute insulin resistance was associated with worse outcomes in nondiabetic patients. Although critical illness characteristics influenced glycemic control, future evaluation of the effect of insulin administration and optimal glycemic control in ICU patients is necessary.

Cost and complications during in-hospital transport of critically ill patients : a prospective cohort study

We prospectively studied transport of a group of 100 surgery/trauma patients and a matched control group in the ICU. APACHE II scores for the two groups were 23 +/- 6 and 20 +/- 8. During transport both groups had ECG, heart rate, blood pressure, and oxygen saturation continuously monitored. We also determined the cost and results of transport for those patients requiring diagnostic testing. There were six diagnostic tests performed: CT scan of the abdomen (39%), CT scan of the head (31%), CT scan of the chest (8%), CT scan of the cervical spine (4%), angiography (14%), and tomography (4%). Average transport time was 74 +/- 16 minutes with a range of 20-225 minutes. Physiologic changes defined as a BP +/- 20 mm Hg, heart rate +/- 20 beats/min, respiratory rate +/- 5 breaths/min, or oxygen saturation +/- 5% for 5 minutes duration occurred in 66% of transported patients and 60% of ICU patients. There were no differences in arterial blood gas levels before and during transport. In 39% of transports, the results of diagnostic testing produced a change in patient management within 48 hours. Abdominal CT scanning and angiography were associated with the highest percentage of tests leading to a management change (51% and 57%). The average charge to the patient was

Admission to intensive care unit at the end-of-life: is it an informed decision?

612.00 and the average cost to the hospital

Continuous duodenal feeding restores gut blood flow and increases gut oxygen utilization during PEEP ventilation for lung injury

452.00. Our results suggest that while physiologic changes are frequent during transport, they are also frequent in ICU patients as a consequence of the severity of illness.(ABSTRACT TRUNCATED AT 250 WORDS)

THE EFFECT OF LOW DOSE DOPAMINE ON GUT HEMODYNAMICS DURING PEEP VENTILATION FOR ACUTE LUNG INJURY

There is a major deficiency in the end-of-life care offered to patients dying in the intensive care unit (ICU). Hypothesis: Hospitalized dying patients had informed discussions on endof-life and palliative care options before admission to ICU. Patients and methods: A descriptive non-interventional study was performed at a teaching hospital to examine if patients who died in hospital had informed discussions on end-of-life care before admission to ICU. The impact of these discussions on subsequent patient care: aggressive therapy in the ICU, the quality of palliation, use of hospice care services and utilization of hospital resources were examined. Data were collected from medical records for all hospital deaths over 24 months. Results: Of 252 hospital deaths, 196 (78%) were treated and subsequently 165 (65%) died in the ICU. Patients treated either in the ICU or general hospital wards had similar frequency of ultimately or rapidly fatal pre-existing disease (47% versus 62%, P: ns) and readmission to hospital within one year before death (43% versus 57%, P, ns). The median age (10-90% percentile) was slightly younger for the ICU than hospital wards patients: 73 (45-85) versus 76 (55-91) years, PB / 0.01. Of the 156 patients who were transferred to ICU from hospital wards: 136 (87%) were managed by house staff on teaching services and 20 (13%) were managed by attending staff hospitalists, PB / 0.01. None of those transferred to the ICU who subsequently died had discussion of palliation or end-of-life care as an alternative treatment. Of those who died who were treated on general wards, 14 (25%) patients had discussion of palliation as an alternative treatment option before death. Do-not-resuscitate decisions were made in 48% of cases two days before death. Patients who were treated in the ICU had more invasive tests performed on them and were less likely to have adequate pain control or referral to hospice care services than on a general ward. Median hospital charge was much higher for patients who received ICU versus general ward care (

Corticosteroids influence the mortality and morbidity of acute critical illness

33 252 versus

Penetrating Cardiac Trauma: A Perioperative Role for Transesophageal Echocardiography

8549, PB / 0.001). Conclusions: Patients who died in the ICU did not have informed discussions of end-of-life or palliative care as an alternative treatment option before admission. The quality of end-of-life care was disrupted for patients with fatal pre-existing chronic disease who were admitted to the ICU before death. Lack of clinical experience, knowledge and competency with end-of-life care influenced admission of patients to ICU regardless of poor prognosis. Decisions regarding the pursuit of aggressive therapy versus palliative care must be addressed with patients by physicians who are competent and experienced in end-of-life care as this will have a profound impact on both the quality of care delivered and effective use of limited hospital resources.

Gut feeding and hepatic hemodynamics during PEEP ventilation for acute lung injury

Positive end-expiratory pressure (PEEP) improves oxygenation but, at moderate levels, limits portal blood flow (PBF) and may cause relative splanchnic ischemia. Under these conditions, methods of supporting gut physiology may prevent the sequelae of gut ischemic damage. Enteral feeding is known to cause splanchnic hyperemia in uninjured animals. In order to study the effects of continuous enteral feeding on gut hemodynamics in a flow-limited environment, six dogs underwent the insertion of arterial, pulmonary artery, and portal and hepatic vein catheters. Splenectomy and duodenostomy were performed, and the hepatic artery and portal vein were encircled with flow probes. Lung injury (LI) was undertaken with intravenous oleic acid (0.08 mL/kg), followed by incremental additions of PEEP totaling 10 cm H2O to correct shunt. Continuous elemental feeding (1 kcal/mL, 3 mL/kg/hr) was started through the duodenostomy. Cardiac index (CI), PBF, and gut oxygen delivery and consumption (GO2D, GO2C) were measured at baseline (T0), 1 hour after LI and PEEP (T1), and 1 hour after drip feeding was begun (T2). Lung injury and PEEP significantly decreased CI, PBF, and GO2D without changing GO2C. Feeding returned PBF and GO2D to baseline levels without changing CI. GO2C increased significantly compared with baseline levels. Based on prior studies, these changes do not represent recovery of the injured model. Continuous enteral feeding, therefore, redistributed CI to the portal circulation. The improved gut hemodynamics documented in this model may preserve splanchnic integrity and prevent gut-derived complications.

Treatment of Liver Injuries at Level I and Level II Centers in a Multi-Institutional Metropolitan Trauma System

Mechanical ventilation with positive end-expiratory pressure (PEEP) diminishes gut and hepatic blood flow and redistributes cardiac output away from the splanchnic circulation. This flow-limited environment can aggravate underlying hypoperfusion and ischemia in the postinjury setting. To examine the effects of low dose dopamine on a lung injury PEEP model of gut hypoperfusion, six anesthetized, splenectomized canines were instrumented with arterial, pulmonary artery, portal vein, and hepatic vein catheters. Electromagnetic flow probes were placed around the hepatic artery and portal vein for continuous flow measurements. Gut and hepatic blood flow, oxygen delivery, oxygen consumption, and extraction ratio were calculated at four time points: baseline, 1 hr after lung injury with oleic acid, 1 hr after ventilation with 10 cm H2O PEEP, and 1 hr after the continuous infusion of dopamine. Portal flow and gut oxygen delivery fell significantly with the infusion of PEEP. These values returned to near baseline levels with the addition of dopamine. Gut oxygen extraction increased from 16 +/- 2% to 35 +/- 3% with PEEP but returned to near baseline with dopamine (20 +/- 4%, P less than 0.01 compared to PEEP). We conclude that dopamine improves blood flow and oxygen delivery to the gut in this flow-limited model. This may preserve splanchnic physiology during PEEP ventilation for acute lung injury.

The effect of hypothermia on liver adenosine triphosphate (ATP) recovery following combined shock and ischemia.

IntroductionUse of corticosteroids for adrenal supplementation and attenuation of the inflammatory and immune response is widespread in acute critical illness. The study hypothesis was that exposure to corticosteroids influences the mortality and morbidity in acute critical illness.MethodsThis case–control retrospective study was performed in a single multidisciplinary intensive care unit at a tertiary care institution and consisted of 10,285 critically ill patients admitted between 1 January 1999 and 31 December 2004. Demographics, comorbidities, acute illness characteristics including severity measured by Sequential Organ Failure Assessment, concurrent medications, therapeutic interventions and incidence of infections were obtained from electronic medical records, were examined with multiple regression analysis and were adjusted for propensity of corticosteroid exposure. The primary outcome was hospital death, and the secondary outcome was transfer to a care facility at hospital discharge.ResultsCorticosteroid exposure in 2,632 (26%) patients was characterized by younger age, more females, higher Charlson comorbidity and maximal daily Sequential Organ Failure Assessment scores compared with control patients. Corticosteroids potentiated metabolic and neuromuscular sequels of critical illness with increased requirements for diuretics, insulin, protracted weaning from mechanical ventilation, need for tracheostomy and discharge to a care facility. Early exposure to corticosteroids predisposed to recurrent and late onset of polymicrobial and fungal hospital-acquired infections. Corticosteroids increased the risk for death or disability after adjustments for comorbidities and acute illness characteristics.ConclusionCorticosteroids increased the risk for death or disability in critical illness. Hospital-acquired infections and metabolic and neuromuscular sequels of critical illness were exacerbated by corticosteroids. Careful appraisal of the indications for use of corticosteroids is necessary to balance the benefits and risks from exposure in acute critical illness.