A comparison of first-attempt cannulation success of peripheral venous catheter systems with and without wings and injection ports in surgical patients—a randomized trial

Background: A peripheral venous catheter (PVC) is the most widely used device for obtaining vascular access, allowing the administration of fluids and medication. Up to 25% of adult patients, and 50% of pediatric patients experience a first-attempt cannulation failure. In addition to patient and clinician characteristics, device features might affect the handling and success rates. The objective of the study was to compare the first-attempt cannulation success rate between PVCs with wings and a port access (Vasofix (R) Safety, B. Braun, abbreviated hereon in as VS) with those without (Introcan (R) Safety, B. Braun, abbreviated hereon in as IS) in an anesthesiological cohort. Methods: An open label, multi-center, randomized trial was performed. First-attempt cannulation success rates were examined, along with relevant patient, clinician, and device characteristics with univariate and multivariate analyses. Information on handling and adherence to use instructions was gathered, and available catheters were assessed for damage. Results: Two thousand three hundred four patients were included in the intention to treat analysis. First-attempt success rate was significantly higher with winged and ported catheters (VS) than with the non-winged, non-ported design (IS) (87.5% with VS vs. 78.2% with IS; P-Chi < .001). Operators rated the handling of VS as superior (rating of"good" or"very good: 86.1% VS vs. 20.8% IS, P-Chi <.001). Reinsertion of the needle into the catheter after partial withdrawal-prior or during the catheterization attempt-was associated with an increased risk of cannulation failure (7.909, CI 5.989-10.443, P < .001 and 23.023, CI 10.372-51.105, P < .001, respectively) and a twofold risk of catheter damage (OR 1.999, CI 1.347-2.967, P = .001). Conclusions: First-attempt cannulation success of peripheral, ported, winged catheters was higher compared to non-ported, non-winged devices. The handling of the winged and ported design was better rated by the clinicians. Needle reinsertions are related to an increase in rates of catheter damage and cannulation failure

Transfusion of red blood cells does not impact progression‐free and overall survival after surgery for ovarian cancer

BACKGROUND: Allogeneic red blood cells (RBCs) have the potential to impact the immunosurveillance of the recipient and may therefore increase the risk of recurrence after cancer surgery. In this article the relationship between perioperative RBC transfusion and the risk of recurrence after ovarian cancer surgery is examined. STUDY DESIGN AND METHODS: This is a retrospective cohort analysis of a prospective database of patients who underwent surgery due to primary ovarian cancer between 2006 and 2014 and who had no residual disease after surgery. Patients who did and did not receive perioperative RBC transfusion were compared. The primary endpoint was progression-free survival (PFS). Propensity score matching (PSM) and Cox proportional hazards regression (CPH) was used to control for between-group differences of prognostic determinants. RESULTS: A total of 529 patients with a median follow-up of 51.4 months (95% CI, 46.1-56.5) were eligible for analysis. Of those, 408 patients (77.1%) received allogeneic, leukoreduced RBCs with a median of 4 units (IQR, 2-6) per patient. There was a strong selection bias of prognostic determinants between patients with and without transfusion. In unadjusted analysis, transfusion of RBCs was associated with an increased risk of cancer recurrence (hazard ratio [HR] of PFS 2.71 [95% CI, 1.94-3.77], p < 0.001). After bias reduction, transfusion of RBCs was no longer associated with an increased risk of cancer recurrence, neither in PSM-adjusted (HR 1.03 [95% CI, 0.59-1.80], p = 0.91), nor in multivariable CPH-adjusted analysis (HR 1.26 [95% CI, 0.85-1.86], p = 0.23). CONCLUSION Perioperative transfusion of RBCs did not increase the risk of recurrence after ovarian cancer surgery

In vitro validation and characterization of pulsed inhaled nitric oxide administration during early inspiration

Purpose: Admixture of nitric oxide (NO) to the gas inspired with mechanical ventilation can be achieved through continuous, timed, or pulsed injection of NO into the inspiratory limb. The dose and timing of NO injection govern the inspired and intrapulmonary effect site concentrations achieved with different administration modes. Here we test the effectiveness and target reliability of a new mode injecting pulsed NO boluses exclusively during early inspiration. Methods: An in vitro lung model was operated under various ventilator settings. Admixture of NO through injection into the inspiratory limb was timed either (i) selectively during early inspiration ("pulsed delivery"), or as customary, (ii) during inspiratory time or (iii) the entire respiratory cycle. Set NO target concentrations of 5-40 parts per million (ppm) were tested for agreement with the yield NO concentrations measured at various sites in the inspiratory limb, to assess the effectiveness of these NO administration modes. Results: Pulsed delivery produced inspiratory NO concentrations comparable with those of customary modes of NO administration. At low (450 ml) and ultra-low (230 ml) tidal volumes, pulsed delivery yielded better agreement of the set target (up to 40 ppm) and inspiratory NO concentrations as compared to customary modes. Pulsed delivery with NO injection close to the artificial lung yielded higher intrapulmonary NO concentrations than with NO injection close to the ventilator. The maximum inspiratory NO concentration observed in the trachea (68 +/- 30 ppm) occurred with pulsed delivery at a set target of 40 ppm. Conclusion: Pulsed early inspiratory phase NO injection is as effective as continuous or non-selective admixture of NO to inspired gas and may confer improved target reliability, especially at low, lung protective tidal volumes

Chronische und akute Regelvorgänge im Salz-Wasser-Haushalt

Diese kumulative Habilitation untersucht die Rolle des Renin-Angiotensin-Aldosteron-Systems (RAAS) bei chronischen und akuten Regelvorgänge im Salz-Wasser-Haushalt an wachen Hunden. Nach einer Einführung in die Methodik der Langzeitstudien werden zunächst die zirkardianen und ultradianen Veränderungen der Natriumausscheidung beschrieben, die wir bei den Hunden beobachten konnten. Es scheint, als sei das Natriumausscheidungsmuster bei Hunden das Resultat endogener Rhythmizität und exogen, reaktiver Prozesse. Beide Komponenten scheinen zur Aufrechterhaltung der Natriumhomöostase beizutragen. Bei der Infusion natriumretinierender Hormone wie Aldosteron und Angiotensin II verschob sich ein größerer Anteil der täglichen Natrium- und Wasserausscheidung in die Abend- und Nachtstunden. Wir haben dieses Phänomen als "Nachtverschiebung" bezeichnet. In Bilanzstudien über vier Tage wurde dann der Frage nachgegangen, ob das Ganz-Körper-(GK)-Natrium eine kontrollierte Variable ist. Wir konnten zeigen, dass zwei Faktoren bei der Kontrolle des GK-Natriums eine wesentliche Rolle spielen, die Aktivität des RAAS und der renale Perfusionsdruck. Ist nur eine dieser Komponenten gestört, kann sie durch die andere - was das Einstellen eines 24-Stunden Bilanzgleichgewichtes angeht - ausgeglichen werden, allerdings nur unter Inkaufnahme eines veränderten GK-Natriumbestands. Ebenfalls über vier Tage wurde die Bedeutung des NO (Stickoxid) für die langfristige Regelung des Natriumbestandes untersucht. Dabei wurde gefunden, dass die Plasma-Renin-Aktivität (PRA) während NO-Synthase-Inhibition durchweg niedriger als bei intaktem NO-System war. Der Aldosteron / PRA Quotient war unter NOS-Inhibition deutlich größer als in den jeweiligen Protokollen ohne NOS-Inhibition. In Kurzzeitstudien (3-4 Stunden) wurden wache Hunde während akuter Hypoxie, die akut mit einer Verminderung des Natrium- und Wasserbestandes einhergehen kann ("Höhendiurese"), sowie während kontrollierter maschineller Beatmung mit hohen positiv-end-exspiratorischen (PEEP) Drucken, die zur Natrium- und Wasserretention führen kann, untersucht. Unter Hypoxie zeigte sich, dass das in niedrigen Plasma-Konzentrationen als Adenosin-1-Rezeptorantagonist wirkende Theophyllin den Abfall der PRA und des Angiotensin II unter Hypoxie verhindern kann. Auf der anderen Seite fiel die Plasma-Aldosteron-Konzentration während Hypoxie unabhängig davon, ob Theophyllin infundiert wurde, wahrscheinlich wegen einer verminderten Aktivität der 18-Hydroxylase während Hypoxie. Die Untersuchungen unter PEEP-Beatmung ergaben u.a., dass bei bilateral denervierten, wachen Hunden, deren Natriumzufuhr normal ist, den Nierennerven keine wesentliche Rolle für die zu beobachtende Wasser- und Natriumretention während maschineller Beatmung zukommt.This cumulative thesis investigates on conscious dogs the role of the renin-angiotensin-aldosterone system (RAAS) during chronic and acute challenges of salt and water homeostasis. After introducing the methods of long term studies in dogs, circadian and ultradian oscillations of sodium excretion are being described. We demonstrated, that the sodium excretion pattern in dogs is the result of endogenous rhythms and exogenous reactive processes. Both components seem to contribute to sodium homeostasis. When infusing sodium retaining hormones, such as aldosterone and angiotensin II, a greater share of the daily sodium and water excretion was shifted towards the evening and the night. This phenomenon was termed "night shift". In balance studies over four days it was investigated whether the total body sodium is a controlled variable. Two factors were identified to play a pivotal role in controlling total body sodium: the activity of the RAAS and renal perfusion pressure. If only one of these components is disturbed, the respective other component is able to equilibrate the 24 h sodium balance, but only on a different level of total body sodium. Also over a period of four days the significance of NO (nitric oxide) for the long-term regulation of sodium balance was investigated. Among others, it was found that compared to an intact NO system, the plasma-renin activity (PRA) was always lower during NO synthase (NOS) inhibition, and the aldosterone / PRA ratio was greater during NOS inhibition. In short-term studies (lasting 3-4 hours) awake dogs were studied during hypoxia - which is usually combined with a reduced total body sodium and water ("high altitude diuresis") - as well as during controlled mechanical ventilation with positive-end-expiratory pressure (PEEP) - which often leads to sodium and water retention. It was demonstrated that the decline in PRA and angiotensin II during hypoxia - which is a typical finding in conscious dogs - can be prevented by theophyllin, which acts as an adenosin-1-receptor antagonist in lower concentrations. On the other hand, plasma aldosterone concentration declined during hypoxia independent of whether theophyllin was infused or not, probably due to a reduced 18-hydroxylase activity during hypoxia. The PEEP studies demonstrated among others, that in bilaterally denervated conscious dogs - whose sodium intake was normal - the renal nerves play no substantial role for the water and sodium retention observed during PEEP ventilation