Hintergrund; Ziel der vorliegenden Studie war es, die Reproduzierbarkeit des mit Nah-Infrarotspektroskopie (NIRS) gemessenen zerebralen „tissue-oxygenation-index“ (TOI) mithilfe eines Qualitätskriteriums zu erhöhen.
Diabetic nephropathy and membranous nephropathy can both present with nephrotic syndrome. Here, we report on a 43-year-old female patient suffering from type 1 diabetes, diabetic retinopathy, arterial hypertension, and nephrotic syndrome. Blood glucose levels were poorly controlled by a basal-bolus insulin regimen as shown by an HbA1c of 15.9% (150 mmol/mol). The concomitant antihypertensive medication consisted of an angiotensin-2 receptor blocker, a β-blocker, a calcium antagonist, and furosemide. In March 2012, her serum creatinine and urine albumin-to-creatinine ratio were 1.06 mg/dL and 7 g/g, respectively. Until December 2012, both serum creatinine and albuminuria increased to 1.9 mg/dL and 11 g/g urinary creatinine, respectively. The estimated glomerular filtration rate via the MDRD-2 formula (Modification of Diet in Renal Disease) declined from 56 to 28 mL/min/1.73 m2. Furthermore, she presented with aggravated leg oedemas, hypoalbuminemia of 2.4 mg/dL, hypertriglyceridemia, and hypertension reflecting nephrotic syndrome. …
Near-infrared spectroscopy (NIRS) enables continuous non-invasive measurements of regional oxygen saturation (rSO2). The aim was to evaluate the dynamics of rSO2 of the brain, preductal and postductal tissues during postnatal transition in preterm infants with and without respiratory support (RS). This single-centre study was designed as an exploratory prospective observational study. Fifty one preterm infants (≥ 30 + 0 and < 37 + 0 weeks) delivered by caesarean section were included. RS using a T-Piece-Resuscitator and supplemental oxygen were given according to guidelines. NIRS measurements were carried out by using Invos Monitor (Covidien; USA) for the first 15 min of life. Three NIRS transducers were attached on the forehead (rSO2brain), the right forearm (rSO2arm) and the left lower leg (rSO2leg). Two groups were compared based on need for RS: normal transition (NT) and RS group.In NT group rSO2brain increased over time and was significantly higher than rSO2arm, whereas in RS group rSO2brain and rSO2arm increased without significant differences. Courses of rSO2arm and rSO2leg increased over time and showed a converging pattern with initially lower values of rSO2leg in NT group and a diverging pattern with lower levels of rSO2leg in RS group. Overall, rSO2 levels were higher in NT compared to RS group.Our findings indicate that the decreased rSO2 levels in RS group compared to NT group are not only caused by lower arterial oxygen saturation levels, but also by a compromised perfusion even in infants with only mild respiratory distress.
Summary Background: For measurement of cerebral regional oxygen saturation (crSO2) in neonates, one of the frequently used near‐infrared spectroscopy devices is the INVOS 5100 with either the neonatal or pediatric sensor. Measurements between adult and pediatric sensors use different algorithms and differ by 10%. There are no published data comparing neonatal and pediatric sensors. Objective: Aim of this study was to compare the neonatal sensor with the pediatric sensor of the INVOS 5100 device in a mixed cohort of neonates to recognize possible differences and enable interpretation of data. Methods: In 40 neonates, crSO2 was measured in identical positions using both the neonatal and the pediatric sensor under identical conditions. Each sensor was reapplied five times to calculate mean values and standard deviations. Results: Cerebral regional oxygen saturation measurements using the neonatal sensor (mean, 76.1 ± 7.9) and crSO2 measurements using the pediatric sensor (mean, 76.4 ± 8.1) were not different. Reproducibility was not significantly different with similar means of standard deviations (neonatal, 3.7 ± 1.6; pediatric, 3.1 ± 1.3). Conclusion: In a mixed cohort of neonates, crSO2 measurements were identical when using the INVOS 5100 neonatal sensor and the pediatric sensor. We conclude that studies using the INVOS 5100 neonatal or pediatric sensor are well comparable.
Introduction. The prognostic value of emergency echocardiography (EE) in the management of cardiac arrest patients has previously been studied in an in-hospital setting. These studies mainly included patients who underwent cardiopulmonary resuscitation (CPR) by emergency medicine technicians at the scene and who arrived at the emergency department (ED) still in a state of cardiac arrest. In most European countries, cardiac arrest patients are normally treated by physician-staffed emergency medical services (EMS) teams on scene. Transportation to the ED while undergoing CPR is uncommon. Objective. To evaluate the ability of EE to predict outcome in cardiac arrest patients when it is performed by ultrasound-inexperienced emergency physicians on scene. Methods. We performed a prospective, observational study of nonconsecutive, nontrauma, adult cardiac arrest patients who were treated by physician-staffed urban EMS teams on scene. Participating emergency physicians (EPs) received a two-hour course in EE during CPR. After initial procedures were accomplished, EE was performed during a rhythm and pulse check. A single subxiphoid, four-chamber view was required for study enrollment. We defined sonographic evidence of cardiac kinetic activity as any detected motion of the myocardium, ranging from visible ventricular fibrillation to coordinated ventricular contractions. The CPR had to be continued for at least 15 minutes after the initial echocardiography. No clinical decisions were made based on the results of EE. Results. Forty-two patients were enrolled in the study. The heart could be visualized successfully in all patients. Five (11.9%) patients survived to hospital admission. Of the 32 patients who had cardiac standstill on initial EE, only one (3.1%) survived to hospital admission, whereas four out of 10 (40%) patients with cardiac movement on initial EE survived to hospital admission (p = 0.008). Neither asystole on initial electrocardiogram nor peak capnography value, age, bystander CPR, or downtime was a significant predictor of survival. Only cardiac movement was associated with survival, and cardiac standstill at any time during CPR resulted in a positive predictive value of 97.1% for death at the scene. Conclusion. Our results support the idea of focused echocardiography as an additional criterion in the evaluation of outcome in CPR patients and demonstrate its feasibility in the prehospital setting.
