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1.	Falk, Lars, et al. (författare) Severe Lung Dysfunction and Pulmonary Blood Flow during Extracorporeal Membrane Oxygenation 2024 Ingår i: Journal of Clinical Medicine. - 2077-0383. ; 13:4 Tidskriftsartikel (refereegranskat)abstract Background: Extracorporeal membrane oxygenation (ECMO) is indicated for patients with severe respiratory and/or circulatory failure. The standard technique to visualize the extent of pulmonary damage during ECMO is computed tomography (CT). Purpose: This single-center, retrospective study investigated whether pulmonary blood flow (PBF) measured with echocardiography can assist in assessing the extent of pulmonary damage and whether echocardiography and CT findings are associated with patient outcomes. Methods: All patients (>15 years) commenced on ECMO between 2011 and 2017 with septic shock of pulmonary origin and a treatment time >28 days were screened. Of 277 eligible patients, 9 were identified where both CT and echocardiography had been consecutively performed. Results: CT failed to indicate any differences in viable lung parenchyma within or between survivors and non-survivors at any time during ECMO treatment. Upon initiation of ECMO, the survivors (n = 5) and non-survivors (n = 4) had similar PBF. During a full course of ECMO support, survivors showed no change in PBF (3.8 ± 2.1 at ECMO start vs. 7.9 ± 4.3 L/min, p = 0.12), whereas non-survivors significantly deteriorated in PBF from 3.5 ± 1.0 to 1.0 ± 1.1 L/min (p = 0.029). Tidal volumes were significantly lower over time among the non-survivors, p = 0.047. Conclusions: In prolonged ECMO for pulmonary septic shock, CT was not found to be effective for the evaluation of pulmonary viability or recovery. This hypothesis-generating investigation supports echocardiography as a tool to predict pulmonary recovery via the assessment of PBF at the early to later stages of ECMO support.
2.	Broman, Lars Mikael, et al. (författare) Effect of nitric oxide on renal autoregulation during hypothermia in the rat. 2017 Ingår i: Pflügers Archiv. - : Springer Science and Business Media LLC. - 0031-6768 .- 1432-2013. ; 469:5-6, s. 669-680 Tidskriftsartikel (refereegranskat)abstract Hypothermia-induced reduction of metabolic rate is accompanied by depression of both glomerular perfusion and filtration. The present study investigated whether these changes are linked to changes in renal autoregulation and nitric oxide (NO) signalling. During hypothermia, renal blood flow (RBF) and glomerular filtration rate (GFR) were reduced and urine production was increased, and this was linked with reduced plasma cGMP levels and increased renal vascular resistance. Although stimulation of NO production decreased vascular resistance, blood pressure and urine flow, intravenous infusion of the NO precursor L-arginine or the NO donor sodium nitroprusside did not alter RBF or GFR. In contrast, inhibition of NO synthesis by N(w)-nitro-L-arginine led to a further decline in both parameters. Functional renal autoregulation was apparent at both temperatures. Below the autoregulatory range, RBF in both cases increased in proportion to the perfusion ±pressure, although, the slope of the first ascending limb of the pressure-flow relationship was lower during hypothermia. The main difference was rather that the curves obtained during hypothermia levelled off already at a RBF of 3.9 ± 0.3 mL/min then remained stable throughout the autoregulatory pressure range, compared to 7.6 ± 0.3 mL/min during normothermia. This was found to be due to a threefold increase in, primarily, the afferent arteriolar resistance from 2.6 to 7.5 mmHg min mL(-1). Infusion of sodium nitroprusside did not significantly affect RBF during hypothermia, although a small increase at pressures below the autoregulatory range was observed. In conclusion, cold-induced rise in renal vascular resistance results from afferent arteriolar vasoconstriction by the autoregulatory mechanism, setting RBF and GFR in proportion to the metabolic rate, which cannot be explained by reduced NO production alone.
3.	Broman, Lars Mikael, et al. (författare) Pressure and flow properties of cannulae for extracorporeal membrane oxygenation I : return (arterial) cannulae 2019 Ingår i: Perfusion. - : SAGE PUBLICATIONS LTD. - 0267-6591 .- 1477-111X. ; 34, s. 58-64 Tidskriftsartikel (refereegranskat)abstract Adequate extracorporeal membrane oxygenation support in the adult requires cannulae permitting blood flows up to 6-8 L/minute. In accordance with Poiseuille's law, flow is proportional to the fourth power of cannula inner diameter and inversely proportional to its length. Poiseuille's law can be applied to obtain the pressure drop of an incompressible, Newtonian fluid (such as water) flowing in a cylindrical tube. However, as blood is a pseudoplastic non-Newtonian fluid, the validity of Poiseuille's law is questionable for prediction of cannula properties in clinical practice. Pressure-flow charts with non-Newtonian fluids, such as blood, are typically not provided by the manufacturers. A standardized laboratory test of return (arterial) cannulae for extracorporeal membrane oxygenation was performed. The aim was to determine pressure-flow data with human whole blood in addition to manufacturers' water tests to facilitate an appropriate choice of cannula for the desired flow range. In total, 14 cannulae from three manufacturers were tested. Data concerning design, characteristics, and performance were graphically presented for each tested cannula. Measured blood flows were in most cases 3-21% lower than those provided by manufacturers. This was most pronounced in the narrow cannulae (15-17 Fr) where the reduction ranged from 27% to 40% at low flows and 5-15% in the upper flow range. These differences were less apparent with increasing cannula diameter. There was a marked disparity between manufacturers. Based on the measured results, testing of cannulae including whole blood flows in a standardized bench test would be recommended.
4.	Broman, Lars Mikael, et al. (författare) Pressure and flow properties of cannulae for extracorporeal membrane oxygenation II : drainage (venous) cannulae 2019 Ingår i: Perfusion. - : SAGE PUBLICATIONS LTD. - 0267-6591 .- 1477-111X. ; 34, s. 65-73 Tidskriftsartikel (refereegranskat)abstract The use of extracorporeal life support devices such as extracorporeal membrane oxygenation in adults requires cannulation of the patient's vessels with comparatively large diameter cannulae to allow circulation of large volumes of blood (>5 L/min). The cannula diameter and length are the major determinants for extracorporeal membrane oxygenation flow. Manufacturing companies present pressure-flow charts for the cannulae; however, these tests are performed with water. Aims of this study were 1. to investigate the specified pressure-flow charts obtained when using human blood as the circulating medium and 2. to support extracorporeal membrane oxygenation providers with pressure-flow data for correct choice of the cannula to reach an optimal flow with optimal hydrodynamic performance. Eighteen extracorporeal membrane oxygenation drainage cannulae, donated by the manufacturers (n = 6), were studied in a centrifugal pump driven mock loop. Pressure-flow properties and cannula features were described. The results showed that when blood with a hematocrit of 27% was used, the drainage pressure was consistently higher for a given flow (range 10%-350%) than when water was used (data from each respective manufacturer's product information). It is concluded that the information provided by manufacturers in line with regulatory guidelines does not correspond to clinical performance and therefore may not provide the best guidance for clinicians.
5.	Broman, Lars, et al. (författare) Use of an integrating sphere for transmittance measurements on nonimaging concentrators 1989 Ingår i: North Sun´88. - Borlänge. Konferensbidrag (övrigt vetenskapligt/konstnärligt)
6.	Fiusco, Francesco, 1994- (författare) Computational modelling of blood flow in medical assist devices 2023 Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract Extracorporeal membrane oxygenation (ECMO) is a life-saving support treat-ment in case of pulmonary and/or cardiac failure. An artificial extracorporealcircuit is used to offload the function of lungs and/or heart. Patient blood is drained through a drainage cannula, pumped with a centrifugal pump, oxygenated in a membrane lung and returned to the body through a reinfusion cannula. Tubing and connectors complete the circuit. However, its use canlead to thromboembolic and haemolytic complications, which are related to mechanical stresses arising in the flow of blood through its components. Numerical simulations of some of the pumps and cannulae used in the circuit were performed to investigate the flow structures developing in these components and their relation to measures of blood damage in the form of platelet activation state (PAS) and haemolysis index (HI). Simulations of two magnetically levitated centrifugal ECMO pumps were performed both in on- and off-label conditions with flow rates compatible with adult and neonatal use. The results showed that off-label low flow rate can be damaging due to an increase of residence time of the particles, which exposed them for longer to non-physiological stress. This held true for both passive tracers and inertial particles subjected to lift and drag. The neonatal pump showed a backflow structure with flow swirling back to the inlet tubing over its whole labelled range. Simulations of a lighthouse drainage cannula were undertaken to assess drainage characteristics at different haematocrits and flow rate ratios. The results indicated that the flow field was dominated by a jet in crossflow type of structure, with the most proximal holes draining the largest amount of fluid in all the studied cases and for all the considered haematocrits. The effects due to non-Newtonian behaviour of blood were less relevant in the drainage area, allowing to use a Reynolds number analogy to bridge between water and blood results.A lighthouse cannula in return configuration was also considered in both a centred and a tilted position. A characteristic confined jet configuration was found, with a backflow developing at the vessel wall, increasing residence time. In the tilted case, a group of small vortical structures developed at the holes close to the wall, which behaved as an obstacle to the vessel flow and increased both residence time and stress. This led to locally increased haemolysis which, however, did not impact haemolysis at large due to the low flow exposed to this area. The use of different viscosity models in this case led to small variations in the results, which were minor compared to the uncertainty introduced by the use of different model coefficients in the computation of the haemolysis index.
7.	Fiusco, Francesco, 1994-, et al. (författare) Effect of low rate ratio and positioning on a lighthouse tip ECMO return cannula 2023 Ingår i: Biomechanics and Modeling in Mechanobiology. - 1617-7959 .- 1617-7940. Tidskriftsartikel (övrigt vetenskapligt/konstnärligt)abstract Extracorporeal membrane oxygenation is a life-saving support therapy in the case of cardiopulmonary refractory failure. Its use is associated to complications due to the presence of artificial surfaces and supraphysiological stress conditions. Thus, knowledge of the fluid structures associated to each component can give insight into sources of blood damage. In this study, an experimentally validated numerical study of a conventional lighthouse tip cannula in return configuration was carried out to characterize the flow structures using water or a Newtonian blood analog with different flow rate ratios and cannula positioning and their influence on hemolysis. The results showed that strong shear layers developed where the jets from the side holes met the co-flow. Stationary backflow regions at the vessel wall were also present downstream of the cannula. In the tilted case, the recirculation was much more pronounced on the wide side and almost absent on the narrow side. Small vortical backflow structures developed at the side holes which behaved like obstacles to the co-flow, creating pairs of counter-rotating vortices, which induced locally higher risk of hemolysis. However, global hemolysis index did not show significant deviations. Across the examined flow rate ratios, the holes on the narrow side consistently reinfused a larger fraction of fluid. A radial force developed in the tilted case in a direction so as to recenter the cannula in the vessel.
8.	Fiusco, Francesco, 1994-, et al. (författare) Sensitivity of hemolysis modelling in a tiltedlighthouse tip cannula Annan publikation (övrigt vetenskapligt/konstnärligt)abstract Extracorporeal membrane oxygenation is a life-saving treatment used insevere cardiac/lung failure. The occurrence of non-physiological stresses and thepresence of artificial surfaces gives rise to complications as thrombus formationand hemolysis. While CFD can be a powerful tool to assess risks associatedto mechanical stresses, the use of models to compute blood flow and predictblood damage entails uncertainties on the results that need to be quantified. Inthis work, the geometry of a ECMO return cannula in a shifted position wasused as a benchmark to evaluate the effects of model coefficients for hemolysiscomputation and the effect of different types of viscosity modelling at differenthematocrits. The results showed that the largest uncertainty was induced bythe chosen model coefficients, with variability of up to two orders of magnitude.Using a Newtonian analog led to similar global hemolysis indices compared toa non-Newtonian model, if the viscosity value was based on the asymptoticviscosity of the non-Newtonian model. Considering the local values of hemolysis,differences were observed in stagnation areas, with variations of more than 50%.The inclusion of a simple red blood cell transport model did not significantlyaffect time-averaged results, but it introduced larger time variability.
9.	Lemetayer, Julien, et al. (författare) Confined jets in co-flow : effect of the flow rate ratio and lateral position of a return cannula on the flow dynamics 2020 Ingår i: SN Applied Sciences. - : SPRINGER INTERNATIONAL PUBLISHING AG. - 2523-3963 .- 2523-3971. ; 2:3 Tidskriftsartikel (refereegranskat)abstract Co-axial tubes have been used to produce a co-flowing confined jet similar to that found in an Extracorporeal Membrane Oxygenation return cannula flow configuration. Particle Image Velocimetry was used to investigate the flow rate ratio between jet and co-flow as well as changes in flow characteristics due to cannula position. The flow was found to be dominated by three main structures: lateral flow entrainment, shear layer induced vortices and backflow along the wall. An increase in cannula flow rate amplified entrainment and recirculation, resulting in a decrease in length required to reach a fully developed flow. Changing cannula position relative the outer cylinder induced a significant reduction in recirculation zone as well as vortex formation on the side to which the cannula was tilted towards, whereas on the other side, the recirculating flow region was enhanced. Proper Orthogonal Decomposition demonstrated that the dominating structure found in the flow is the backflow, composing of several structures having different oscillation frequencies. The significance of the observed and measured flow structures is in enhancing mixing.
10.	Nygren, David, et al. (författare) Low Prevalence of Mild Alpha-1-Antitrypsin Deficiency in Hospitalized COVID-19-Patients 2022 Ingår i: International Journal of General Medicine. - : Dove Medical Press Ltd. - 1178-7074. ; 15, s. 5843-5848 Tidskriftsartikel (refereegranskat)abstract Introduction: Alpha- 1-antitrypsin (AAT) has been shown to inhibit SARS-CoV-2 cell entry and suggested as a therapeutic agent for COVID-19. Furthermore, epidemiological association of high prevalence of Alpha- 1-antitrypsin deficiency (AATD) and regional severity of COVID-19-impact has been hypothesized. In our study setting, the estimated prevalence rates of mild (PIMZ, PISS or PIMS) and moderate-to-severe AATD (PIZZ or PISZ) are high, 9% and 0.2%, respectively. Our primary aim was to examine the prevalence rate of AATD among hospitalized COVID-19-patients. Methods: In this prospective observational study, enrollment occurred from December 2020 to January 2021 in two COVID-19-units at Skane University Hospital, Lund, Sweden. Case definition was a patient hospitalized due to COVID-19. Patients were screened for AATD with PI-typing and if results were inconclusive, PCR for the S- and Z-genes were performed. Patients were categorized as severe or moderate COVID-19 and 30-day-mortality data were collected. The primary outcome was prevalence rate of AATD. The secondary outcome investigated association between presence of mild AATD and severe COVID-19. Results: We enrolled 61 patients with COVID-19. Two patients out of 61 (3%) had mild AATD (PIMZ) and none had moderate-tosevere AATD. 30/61 (49%) had severe COVID-19. Both patients with mild AATD developed severe COVID-19. Yet, presence of AATD was not significantly associated with severe COVID-19 (p=0.24). Conclusion: Mild AATD (PIMS or PIMZ) was rare in a small cohort of hospitalized patients with COVID-19 in a study setting with a high background prevalence of AATD.
11.	Parker, Louis P., et al. (författare) Cannulation configuration and recirculation in venovenous extracorporeal membrane oxygenation 2022 Ingår i: Scientific Reports. - : Springer Nature. - 2045-2322. ; 12:1 Tidskriftsartikel (refereegranskat)abstract Venovenous extracorporeal membrane oxygenation is a treatment for acute respiratory distress syndrome. Femoro-atrial cannulation means blood is drained from the inferior vena cava and returned to the superior vena cava; the opposite is termed atrio-femoral. Clinical data comparing these two methods is scarce and conflicting. Using computational fluid dynamics, we aim to compare atrio-femoral and femoro-atrial cannulation to assess the impact on recirculation fraction, under ideal conditions and several clinical scenarios. Using a patient-averaged model of the venae cavae and right atrium, commercially-available cannulae were positioned in each configuration. Additionally, occlusion of the femoro-atrial drainage cannula side-holes with/without reduced inferior vena cava inflow (0-75%) and retraction of the atrio-femoral drainage cannula were modelled. Large-eddy simulations were run for 2-6L/min circuit flow, obtaining time-averaged flow data. The model showed good agreement with clinical atrio-femoral recirculation data. Under ideal conditions, atrio-femoral yielded 13.5% higher recirculation than femoro-atrial across all circuit flow rates. Atrio-femoral right atrium flow patterns resembled normal physiology with a single large vortex. Femoro-atrial cannulation resulted in multiple vortices and increased turbulent kinetic energy at > 3L/min circuit flow. Occluding femoro-atrial drainage cannula side-holes and reducing inferior vena cava inflow increased mean recirculation by 11% and 32%, respectively. Retracting the atrio-femoral drainage cannula did not affect recirculation. These results suggest that, depending on drainage issues, either atrio-femoral or femoro-atrial cannulation may be preferrable. Rather than cannula tip proximity, the supply of available venous blood at the drainage site appears to be the strongest factor affecting recirculation.
12.	Parker, Louis P., et al. (författare) Computational Fluid Dynamics of the Right Atrium : A Comparison of Modeling Approaches in a Range of Flow Conditions 2022 Ingår i: Journal of Engineering and Science in Medical Diagnostics and Therapy. - : ASME International. - 2572-7958 .- 2572-7966. ; 5:3 Tidskriftsartikel (refereegranskat)abstract The right atrium (RA) combines flows from the inferior (IVC) and superior vena cava (SVC). Here RA mixing is simulated using computational fluid dynamics, comparing four modeling approaches. A patient-averaged model (11 M cells) was created from four volunteers. We compared: (1) unsteady k–ω Reynolds-averaged Navier–Stokes (URANS) (2) implicit large eddy simulation with second-order upwind convection scheme (iLES-SOU) (3) iLES with bounded-central difference convection scheme (iLES-BCD) and (4) LES with wall-adapting local eddy-viscosity (LES-WALE). A constant inlet flow rate of 6 L/min was applied with both IVC/SVC contributions ranging from 30–70%. A higher density mesh (37 M cells) was also simulated for models 2 and 4 (equal IVC/SVC flow) to assess the accuracy of models 1–4. Results from the 11 M cell LES-WALE model showed good agreement with the 37 M cell meshes. All four 11 M cell models captured the same large-scale flow structures. There were local differences in velocity, time-averaged wall shear stress, and IVC/SVC mixing when compared to LES-WALE, particularly at high SVC flow. Energy spectra and velocity animations from the LES-WALE model suggest the presence of transitional flow. For the general flow structures, all four methods provide similar results, though local quantities can vary greatly. On coarse meshes, the convection scheme and subgrid-scale (SGS) model have a significant impact on results. For RA flows, URANS should be avoided and iLES models are sensitive to convection scheme unless used on a highly resolved grid.
13.	Parker, Louis P., et al. (författare) Hemodynamic and recirculation performance of dual lumen cannulas for venovenous extracorporeal membrane oxygenation 2023 Ingår i: Scientific Reports. - : Springer Nature. - 2045-2322. ; 13:1 Tidskriftsartikel (refereegranskat)abstract Venovenous extracorporeal membrane oxygenation (ECMO) can be performed with two single lumen cannulas (SLCs) or one dual-lumen cannula (DLC) where low recirculation fraction (Rf) is a key performance criterion. DLCs are widely believed to have lower Rf , though these have not been directly compared. Similarly, correct positioning is considered critical although its impact is unclear. We aimed to compare two common bi-caval DLC designs and quantify R f in several positions. Two different commercially available DLCs were sectioned, measured, reconstructed, scaled to 27Fr and simulated in our previously published patient-averaged computational model of the right atrium (RA) and venae cavae at 2–6 L/min. One DLC was then used to simulate ± 30° and ± 60° rotation and ± 4 cm insertion depth. Both designs had low Rf (< 7%) and similar SVC/IVC drainage fractions and pressure drops. Both cannula reinfusion ports created a high-velocity jet and high shear stresses in the cannula (> 413 Pa) and RA (> 52 Pa) even at low flow rates. Caval pressures were abnormally high (16.2–23.9 mmHg) at low flow rates. Rotation did not significantly impact Rf . Short insertion depth increased Rf (> 31%) for all flow rates whilst long insertion only increased Rf at 6 L/min (24%). Our results show that DLCs have lower Rf compared to SLCs at moderate-high flow rates (> 4 L/min), but high shear stresses. Obstruction from DLCs increases caval pressures at low flow rates, a potential reason for increased intracranial hemorrhages. Cannula rotation does not impact Rf though correct insertion depth is critical.
14.	Parker, Louis P., et al. (författare) Impact of altered vena cava flow rates on right atrium flow characteristics 2022 Ingår i: Journal of applied physiology. - : American Physiological Society. - 8750-7587 .- 1522-1601. ; 132:5, s. 1167-1178 Tidskriftsartikel (refereegranskat)abstract The right atrium (RA) combines the superior vena cava (SVC) and inferior vena cava (IVC) flows. Treatments like extracorporeal membrane oxygenation (ECMO) and hemodialysis by catheter alter IVC/SVC flows. Here we assess how altered IVC/SVC flow contributions impact RA flow. Four healthy volunteers were imaged with computerized tomography (CT), reconstructed and combined into a patient-averaged model. Large eddy simulations (LESs) were performed for a range of IVC/SVC flow contributions (30%-70% each, increments of 5%) and common flow metrics were recorded. Model sensitivity to reconstruction domain extent, constant/pulsatile inlets, and hematocrit was also assessed. Consistent with literature, a single vortex occupied the central RA across all flowrates with a smaller counter-rotating vortex, not previously reported, in the auricle. Vena cava flow was highly helical. RA turbulent kinetic energy (TKE; P = 0.027) and time-averaged wall shear stress (WSS; P < 0.001) increased with SVC flow. WSS was lower in the auricle (2 Pa, P < 0.001). WSS in the vena cava was equal at IVC/SVC = 65/35%. The model was highly sensitive to the reconstruction domain with cropped geometries lacking helicity in the venae cavae, altering the RA flow. The RA flow was not significantly affected by constant inlets or hematocrit. The commonly reported vortex in in the central RA is confirmed; however, a new, smaller vortex was also recorded in the auricle. When IVC flow dominates, as is normal, TKE in the RA is reduced and WSS in the venae cavae equalize. Significant helicity exists in the vena cava, as a result of distal geometry and this geometry appears crucial to accurately simulating RA flow. NEW & NOTEWORTHY Right atrium turbulent kinetic energy increases as the proportion of flow entering from the superior vena cava is increased. Although the commonly reported large right atrium vortex was confirmed across all flow scenarios, a new smaller vortex is observed in the right auricle. The caval veins exhibit highly helical flow and this appears to be the result of distal venous morphology.
15.	Parker, Louis P., et al. (författare) In silico parametric analysis of femoro-jugular venovenous ECMO and return cannula dynamics : In silico analysis of femoro-jugular VV ECMO 2024 Ingår i: Medical Engineering and Physics. - : Elsevier BV. - 1350-4533 .- 1873-4030. ; 125 Tidskriftsartikel (refereegranskat)abstract Background: : Increasingly, computational fluid dynamics (CFD) is helping explore the impact of variables like: cannula design/size/position/flow rate and patient physiology on venovenous (VV) extracorporeal membrane oxygenation (ECMO). Here we use a CFD model to determine what role cardiac output (CO) plays and to analyse return cannula dynamics. Methods: : Using a patient-averaged model of the right atrium and venae cava, we virtually inserted a 19Fr return cannula and a 25Fr drainage cannula. Running large eddy simulations, we assessed cardiac output at: 3.5–6.5 L/min and ECMO flow rate at: 2–6 L/min. We analysed recirculation fraction (Rf), time-averaged wall shear stress (TAWSS), pressure, velocity, and turbulent kinetic energy (TKE) and extracorporeal flow fraction (EFF = ECMO flow rate/CO). Results: : Increased ECMO flow rate and decreased CO (high EFF) led to increased Rf (R = 0.98, log fit). Negative pressures developed in the venae cavae at low CO and high ECMO flow (high CR). Mean return cannula TAWSS was >10 Pa for all ECMO flow rates, with majority of the flow exiting the tip (94.0–95.8 %). Conclusions: : Our results underpin the strong impact of CO on VV ECMO. A simple metric like EFF, once supported by clinical data, might help predict Rf for a patient at a given ECMO flow rate. The return cannula imparts high shear stresses on the blood, largely a result of the internal diameter.
16.	Parker, Louis P., et al. (författare) Venovenous extracorporeal membrane oxygenation drainage cannula performance : From generalized to patient-averaged vessel model 2024 Ingår i: Physics of fluids. - : AIP Publishing. - 1070-6631 .- 1089-7666. ; 36:6 Tidskriftsartikel (refereegranskat)abstract Venovenous extracorporeal membrane oxygenation is used for respiratory support in the most severe cases of acute respiratory distress syndrome. Blood is drained from the large veins, oxygenated in an artificial lung, and returned to the right atrium (RA). In this study, we have used large eddy simulations to simulate a single-stage “lighthouse” drainage cannula in a patient-averaged model of the large veins and RA, including the return cannula. We compared the results with previous experimental and numerical studies of these cannulas in idealized tube geometries. According to the simulations, wall proximity at the drainage holes and the presence of the return cannula greatly increased drainage through the tip (33% at 5 L/min). We then simulated a multi-stage device in the same patient-averaged model, showing similar recirculation performance across the range of extracorporeal membrane oxygenation (ECMO) flow rates compared to the lighthouse cannula. Mean and maximum time-averaged wall shear stress were slightly higher for the lighthouse design. At high ECMO flow rates, the multi-stage device developed a negative caval pressure, which may be a cause of drainage obstruction in a clinical environment. Finally, through calculation of the energy spectra and vorticity field, we observed ring-like vortices inside the cannula originating from the side holes, most prominent in the proximal position. Our work highlights the important differences between a patient-derived and simplified venous model, with the latter tending to underestimate tip drainage. We also draw attention to the different dynamics of single-stage and multistage drainage cannulas, which may guide clinical use.
17.	Ranta, Susanna, et al. (författare) Icu admission in children with acute lymphoblastic leukemia in sweden: Prevalence, outcome, and risk factors 2021 Ingår i: Pediatric Critical Care Medicine. - Philadelphia, PA, United States : Lippincott Williams & Wilkins. - 1529-7535 .- 1947-3893. ; 22:12, s. 1050-1060 Forskningsöversikt (refereegranskat)abstract OBJECTIVES: Despite progress in the treatment of childhood acute lymphoblastic leukemia, severe complications are common, and the need of supportive care is high. We explored the cumulative prevalence, clinical risk factors, and outcomes of children with acute lymphoblastic leukemia, on first-line leukemia treatment in the ICUs in Sweden.DESIGN: A nationwide prospective register and retrospective chart review study.SETTING: Children with acute lymphoblastic leukemia were identified,and demographic and clinical data were obtained from the Swedish Childhood Cancer Registry. Data on intensive care were collected from the Swedish Intensive Care Registry. Data on patients with registered ICU admission in the Swedish Childhood Cancer Registry were supplemented through questionnaires to the pediatric oncology centers.PATIENTS: All 637 children 0-17.9 years old with acute lymphoblastic leukemia diagnosed between June 2008 and December 2016 in Sweden were included.INTERVENTIONS: None.MEASUREMENTS AND MAIN RESULTS: Twenty-eight percent of the children (178/637) were admitted to an ICU at least once. The Swedish Intensive Care Registry data were available for 96% of admissions (241/252). An ICU admission was associated with poor overall survival (hazard ratio, 3.25; 95% CI, 1.97-5.36; p ≤ 0.0001). ICU admissions occurred often during early treatment; 48% (85/178) were admitted to the ICU before the end of the first month of acute lymphoblastic leukemia treatment (induction therapy). Children with T-cell acute lymphoblastic leukemia or CNS leukemia had a higher risk of being admitted to the ICU in multivariable analyses, both for early admissions before the end of induction therapy and for all admissions during the study period.CONCLUSIONS: The need for intensive care in children with acute lymphoblastic leukemia, especially for children with T cell acute lymphoblastic leukemia and CNS leukemia, is high with most admissions occurring during early treatment.
18.	Ranta, Susanna, et al. (författare) Intensive care in children with non-Hodgkin lymphoma in Sweden 2024 Ingår i: Acta Paediatrica. - : John Wiley & Sons. - 0803-5253 .- 1651-2227. ; 113:8, s. 1974-1976 Tidskriftsartikel (refereegranskat)
19.	Rorro, Federico, 1993-, et al. (författare) Backflow at the inlet of centrifugal blood pumps enhanced by geometrical features 2024 Ingår i: Physics of fluids. - : AIP Publishing. - 1070-6631 .- 1089-7666. ; 36:3 Tidskriftsartikel (refereegranskat)abstract Extracorporeal life support (ECLS) includes life-saving support in severe acute cardiac and/or pulmonary failure. In the past 20 years, centrifugal pumps have become the primary choice to deliver the required blood flow. Pumps of various designs, with different approved operating ranges, are today available to clinicians. The use of centrifugal pumps in the low flow condition has been shown to increase hemolytic and thrombogenic risks of the treatment. Further, low flow operation has been associated with retrograde flow at the pump inlet. In this study, experimental and numerical methods have been applied to investigate the operating conditions and fluid dynamical mechanisms leading to reverse flow (or backflow) at the inlet. Reverse flow was predominantly observed in pumps having a top shroud covering the impeller blades, showing a relation between pump geometry and backflow. The shroud divides the pump volume above the impeller into two regions, separating the swirling reverse flow migrating toward the upper pump volute from the main flow, reducing the dissipation of the vortical structures, and allowing the swirling reverse flow to reach further in the pump inlet. At the inlet, backflow was observed as stable recirculation areas at the side of the pump inlet.
20.	Rorro, Federico, 1993-, et al. (författare) Backflow at the inlet of centrifugal pumps forextracorporeal life support in low flowconditions Annan publikation (övrigt vetenskapligt/konstnärligt)abstract Extracorporeal life support (ECLS) are life-saving therapies used to supportcardiac and pulmonary functions in severe failure. In recent years the use ofcentrifugal pumps to drive the flow has become increasingly common. Severaldesigns are available on the market with different certified operating ranges.The use of centrifugal pumps in low flow conditions has been shown to increasehaemolytic and thrombogenic risks and been linked to the appearance of aretrograde flow at the inlet pipe. In this study, an experimental investigation ofseveral pump designs has been performed to assess the occurrence of backflowacross different operating conditions. Numerical simulations have been carriedout for a geometry and flow case showing backflow to highlight flow structuresassociated to it. The results showed that covered pumps were more likely toexhibit backflow in low flow conditions. The appearance of backflow was linkedto the development of vortical structures rising from the impeller blade tip andrising, being trapped between the shroud and the pump housing.
21.	Rorro, Federico, 1993- (författare) Flow characterisation of drainage cannulae and centrifugal pumps used in extracorporeal membrane oxygenation: an experimental investigation 2024 Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract Extracorporeal membrane oxygenation (ECMO) is a life-saving treatment for acute respiratory and/or circulatory failure. Typically driven by a centrifugal pump, blood is drained from the patient via one drainage cannula, oxygenated by a membrane lung and returned to the patient via the return cannula. Although lifesaving, ECMO is associated with thromboembolic and haemolytic complications in part related to the mechanical stresses experienced by blood in the ECMO circuit. This thesis focuses on the fluid dynamics of ECMO pumps and cannulae with the aim to improve the fundamental understanding of flow structures and overall performance of the respective components during different operating conditions. Experimental studies were conducted with particle image velocimetry (cannula flows) and high speed video recordings (pump characterisation, complex geometry). The dynamics of an isolated drainage cannula placed in a glasstube with dimensions similar to the inferior vena cava were studied considering two different cannula tip designs. Seven centrifugal pumps were investigated to evaluate pump mechanical performance and the development, for low flow rates, of backflow at the pump inlet. The dynamics leading to backflow was investigated together with numerical simulations. The results showed higher shear stress levels in a blunt cannula compared to a lighthouse tip cannula. The latter drained the highest volume fraction through the most proximal side-holes and not the tip. Cannula position relative to the wall did not alter these results. In pumps with a shroud over the impeller blades stable recirculation zones were observed on the sides of the pump inlet. These recirculating regions were formed by vortical structures detaching from the peripheral (suction) side of impeller blades and migrating over the shroud towards the pump inlet. This work increases the fluid dynamical understanding of centrifugal pumps and cannulae used for ECMO. In particular, data on detailed design features influencing inherent pump recirculation are revealed which may impact futurepump designs. Such changes have the potential to significantly reduce patient complications.
22.	Rorro, Federico, 1993-, et al. (författare) Performance comparison of centered and tilted blunt and lighthouse tip cannulae for drainagein extracorporeal life support Annan publikation (övrigt vetenskapligt/konstnärligt)abstract Introduction: Extracorporeal membrane oxygenation is a lifesaving treatment for patients with refractory acute respiratory, circulatory, or combined cardiopulmonary failure. The patient is cannulated with one or two cannulae for drainage and reinfusion of blood. Blood is drained from the patient, pumped through a membrane lung for oxygenation and then returned back to the patient.Efficacy of the treatment depends on correct cannula positioning and interactions between drainage and reinfusion cannula.Methods: An experimental setup was built to study the isolated drainage performance of a 24 Fr rigid model of a blunt and lighthouse tip cannula both when centered and when tilted towards the vessel wall. Particle image velocimetry was used to investigate the flow field with water as the fluid medium.Results: The blunt tip cannula induced higher levels of shear stresses for similar flow configuration, when compared to the lighthouse design. Moreover, in the lighthouse design, side-holes furthest from the tip (proximal holes) drained the highest fraction of the total flow. Results did not change significantly when the cannula was tilted towards the vessel wall.
23.	Rorro, Federico, 1993-, et al. (författare) Pressure- flow measurements of pumps used in extracorporeal life support Annan publikation (övrigt vetenskapligt/konstnärligt)
24.	Wood, Sara, et al. (författare) Predictors of intracranial hemorrhage in neonatal patients on extracorporeal membrane oxygenation 2023 Ingår i: Scientific Reports. - : Springer Nature. - 2045-2322. ; 13:1 Tidskriftsartikel (refereegranskat)abstract Extracorporeal membrane oxygenation (ECMO) is a life-supportive treatment in neonatal patients with refractory lung and/or heart failure. Intracranial hemorrhage (ICH) is a severe complication and reliable predictors are warranted. The aims of this study were to explore the incidence and possible predictors of ICH in ECMO-treated neonatal patients. We performed a single-center retrospective observational cohort study. Patients aged <= 28 days treated with ECMO between 2010 and 2018 were included. Exclusion criteria were ICH, ischemic stroke, cerebrovascular malformation before ECMO initiation or detected within 12 h of admission, ECMO treatment < 12 h, or prior treatment with ECMO at another facility > 12 h. The primary outcome was a CT-verified ICH. Logistic regression models were employed to identify possible predictors of the primary outcome. Of the 223 patients included, 29 (13%) developed an ICH during ECMO treatment. Thirty-day mortality was 59% in the ICH group and 16% in the non-ICH group (p < 0.0001). Lower gestational age (p < 0.01, odds ratio (OR) 0.96; 95%CI 0.94-0.98), and higher pre-ECMO lactate levels (p = 0.017, OR 1.1; 95%CI 1.01-1.18) were independently associated with increased risk of ICH-development. In the clinical setting, identification of risk factors and multimodal neuromonitoring could help initiate steps that lower the risk of ICH in these patients.

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