RESUMO
【Objective】 To observe the effect of glutaraldehyde polymerized bovine hemoglobin injection (code: HSRP1) oxygen-carrying fluid on early perfusion of severe hemorrhagic anemia in rabbits. 【Methods】 The rabbit model of controlled severe hemorrhagic anemia was established. Twelve modeled rabbits were divided into glutaraldehyde polymerized bovine hemoglobin injection (code: HSRP1) group and sodium lactate ringer′s injection (LR) group, with 6 rabbits in each group(half male and half female). HSPR1 group and LR group were treated with HSRP1 and LR, respectively. The survival rate of experimental rabbits was observed, and the indexes of hemodynamics, venous blood gas, plasma hemoglobin, base surplus, lactic acid and bicarbonate were measured before and after blood loss, as well as each point within 24 h after infusion. 【Results】 The survival rate of HSRP1 group was significantly different from that of LR group (P<0.05); After exsanguination, the mean arterial pressure of each group was significantly different from that before exsanguination (P<0.05), but there was no significant difference between HSPR1 group and LR group after infusion; In the second stage of perfusion, the blood lactate concentration and base excess in the HSRP1 group were significantly different from those in the LR group at each time point (P<0.05), at 2 h after perfusion, the respiratory rate started to differ significantly from that of the LR group (P<0.05), heart rate was significantly different from LR group at 4 h after perfusion(P<0.05); There were no significant differences between HSRP1 group and LR group in plasma venous oxygen partial pressure, venous oxygen saturation and plasma hemoglobin at all time points. 【Conclusion】 HSPR1 is used for severe traumatic hemorrhagic shock in rabbits, and can improve the survival rate of experimental rabbits by providing oxygen to hypoxic tissues and correcting anaerobic metabolism. As a new oxygen-carrying fluid, HSPR1 can correct the oxygen supply balance of patients with severe hemorrhagicanemia in early stage.
RESUMO
Objective To investigate the early resuscitation effect of hemoglobin-based oxygen carriers (HBOC) in rats with uncontrolled hemorrhagic shock.Methods 170 Sprague-Dawley (SD) rats were randomly divided into five groups:lactate Ringer solution (LR) control group,whole blood control group,and 0.5%,2.0%,5.0% HBOC groups,with 34 rats in each group.The uncontrolled hemorrhagic shock model in SD rats was reproduced by cutting off the splenic artery branch,and induced mean arterial pressure (MAP) reducing to 40 mmHg (1 mmHg =0.133 kPa).The corresponding solution was infused after model reproduction in each group,maintaining MAP at 50 mmHg for 1 hour,then completely ligating and hemostasis,and maintaining MAP at 70 mmHg for 1 hour and 80 mmHg for 1 hour respectively,after maintaining MAP 80 mmHg,all were supplemented with LR to 2 times blood loss volume.The survival rate and blood loss rate were observed in 16 rats in each group,hemodynamics parameters including MAP,left ventricular systolic pressure (LVSP) and the maximum rate of left ventricular pressure rise (+dp/dtmax) were determined in another 10 rats,and cardiac output (CO) and tissue oxygen supply (DO2) were observed in the rest 8 rats.Results ① When resuscitation by LR alone,the blood loss rate of animals was as high as 60% to 70%.Compared with the LR control group,whole blood recovery could significantly reduce the blood loss rate before hemostasis in uncontrolled hemorrhagic shock rats [(46.6 ± 4.5)% vs.(62.3 ± 4.0)%,P < 0.01];0.5%,2.0%,5.0% HBOC could significantly decrease the blood loss rate,especially in 5.0% HBOC group with significant difference as compared with that in the LR control group [(45.6±4.1)% vs.(62.3±4.0)%,P < 0.01].② When LR was used alone for resuscitation,the rats died quickly and survived for a short time.Only one rat survived for 12 hours,and no rat survived for more than 24 hours.Compared with the LR control group,whole blood resuscitation could improve the survival rate of uncontrolled hemorrhagic shock rats,and the survival time was significantly prolonged (hours:20.4± 4.6 vs.3.5 ± 1.1,P < 0.01);0.5%,2.0% and 5.0% HBOC also significantly prolonged the survival time of rats.The 5.0% HBOC group had the best effect,4 rats survived in 24 hours,and the survival time was significantly longer than that of the LR control group (hours:18.4 ± 4.0 vs.3.5 ± 1.1,P < 0.01),and it was the same as the whole blood control group.③ Compared with pre-shock,CO,DO2 and hemodynamic parameters of uncontrolled hemorrhagic shock rats were significantly decreased,and the above parameters were gradually increased with the prolongation of rehydration time.Compared with the LR control group,whole blood resuscitation could significantly increase CO and DO2,and improve hemodynamics in rats with uncontrolled hemorrhagic shock at different time points.Three concentrations of HBOC could also increase CO,DO2 and other hemodynamic parameters of rats at 1 hour of maintaining MAP of 80 mmHg after hemostasis and 1 hour and 2 hours after resuscitation.The effect of 5.0% HBOC group was more significant than that of the LR control group with statistically significant difference [CO (× 10-3,L/min):72.84±2.84 vs.63.11±2.38 at 1 hour of maintaining MAP of 80 mmHg,70.25±4.55 vs.59.88 ± 9.31 at 1 hour after resuscitation,71.51 ± 2.90 vs.53.24 ± 6.32 at 2 hours after resuscitation;DO2 (L· min-1 · m-2):271.9± 13.5 vs.159.1 ±25.4 at 1 hour of maintaining MAP of 80 mmHg,261.0± 15.0 vs.145.7±20.1 at 1 hour after resuscitation,249.6± 12.0 vs.107.4± 18.2 at 2 hours after resuscitation;MAP (mmHg):82.1±2.1 vs.74.0±2.8 at 1 hour of maintaining MAP of 80 mmHg,107.5±9.3 vs.64.0±5.7 at 1 hour after resuscitation,104.0±9.7 vs.73.0±4.2 at 2 hours after resuscitation;LVSP (mmHg):128.6±7.9 vs.103.8±0.8 at 1 hour of maintaining MAP of 80 mmHg,129.3±± 15.0 vs.99.4±0.0 at 1 hour after resuscitation,127.5± 11.3 vs.97.4±0.0 at 2 hours after resuscitation;+dp/dt max (mmHg/s):6 534.2±± 787.6 vs.5 074.0± 71.7 at 1 hour of maintaining MAP of 80 mmHg,5 961.5 ±± 545.4 vs.4 934.5 ± 510.2 at 1 hour after resuscitation,5 897.4± 350.5 vs.4 534.7 ±489.2 at 2 hours after resuscitation,all P < 0.05].Conclusions HBOC infusion prolonged the survival time,increased survival rate,and improved hemodynamics,cardiac function and tissue oxygen supply in a dose-dependent manner in the early stage of uncontrolled hemorrhagic shock.The recovery effect of 5.0% HBOC was similar to that of the whole blood.
RESUMO
La evaluación de transportadores de oxígeno (TO), basados en CuO y NiO sobre Al2O3 y preparados por impregnación, se llevó a cabo en una planta piloto de dos lechos fluidizados interconectados de 500 Wte, donde se utilizaron tanto metano como gas de síntesis como gas combustible. Además, se estudió el efecto de diferentes impurezas presentes en el gas combustible como azufre o hidrocarburos ligeros en la eficacia de combustión del proceso y en el comportamiento de los TO. Los resultados obtenidos mostraron que ambos TO son adecuados para la captura de CO2 mediante transportadores sólidos de oxígeno en el proceso de combustión de metano, gas de síntesis o metano con impurezas como hidrocarburos ligeros o azufre en el gas.
NiO and CuO based oxygen carriers (OCs) supported on Al2O3 prepared by impregnation were selected for its evaluation in a continuous pilot plant of 500 Wth of two interconnected fluidized beds, where both methane and syngas were used as fuel gas. In addition, the effect of possible impurities in the fuel gas such as sulphur compounds and other hydrocarbons in the combustion efficiency of the process and the behaviour of the OCs were studied. Based on these results, it can be concluded that both OCs are suitable for a chemical looping combustion (CLC) process with methane, syngas and methane with impurities such as light hydrocarbons or sulphur.
A avaliação das transportadoras de oxigênio (TOs), baseados em CuO e NiO sobre Al2O3 e preparados por impregnação, foi testada em uma planta piloto de dois leitos fluidizados de 500 Wte interligados, utilizando-se o metano como gás de síntese e como combustível. Além disso, foi estudado o efeito de diferentes impurezas presentes no gás combustível como enxofre o hidrocarbonetos ligeros na eficiência de combustão do processo e no comportamento dos TOs. Os resultados mostraram que ambos TOs são adequados para a captura de CO2 por transportadores de oxigênio sólido no processo de combustão de metano, gás de síntese ou metano com presença de impurezas como enxofre ou hidrocarbonetos ligeros e gases.