Deep hypothermia during ischemia improves functional recovery and reduces free-radical generation in isolated reperfused rat heart.

BACKGROUND: We investigated the influence of deep hypothermia (4 degrees C) during ischemia-reperfusion in the isolated rat heart model. METHODS: Isolated, perfused rat hearts underwent either 30 minutes of normothermic ischemia (control group) or 30 minutes of hypothermic ischemia (hypothermia-treated group), followed by 30 minutes of reperfusion in both groups. We recorded functional parameters and used electron spin resonance (ESR) spectroscopy to detect ascorbyl radicals, as markers of free-radical production, in samples of coronary effluents. RESULTS: Functional parameters were stable in the 2 groups during pre-ischemic and ischemic periods. During reperfusion, coronary flow, left diastolic ventricular pressure, left ventricular developed pressure, and heart rate more rapidly recovered to values close to those obtained during the pre-ischemic period in the hypothermia-treated group than in the control group. Moreover, the post-ischemic contracture observed in the control group did not appear in the hypothermia-treated group. Finally, ESR analysis showed that the post-ischemic release of ascorbyl radicals decreased in the hypothermia-treated group. CONCLUSIONS: These results demonstrate that the protective effect of hypothermia against functional injury caused by ischemia-reperfusion may decrease the free-radical burst at reperfusion.     

Hypothermic continuous machine perfusion improves metabolic preservation and functional recovery in heart grafts

The number of heart transplants is decreasing due to organ shortage, yet the donor pool could be enlarged by improving graft preservation. Hypothermic machine perfusion (MP) has been shown to improve kidney, liver, or lung graft preservation. Sixteen pig hearts were recovered following cardioplegia and randomized to two different groups of 4‐hour preservation using either static cold storage (CS) or MP (Modified LifePort© System, Organ Recovery Systems©, Itasca, Il). The grafts then underwent reperfusion on a Langendorff for 60 min. Energetic metabolism was quantified at baseline, postpreservation, and postreperfusion by measuring lactate and high‐energy phosphates. The contractility index (CI) was assessed both in vivo prior to cardioplegia and during reperfusion. Following reperfusion, the hearts preserved using CS exhibited higher lactate levels (56.63 ± 23.57 vs. 11.25 ± 3.92 μmol/g; P < 0.001), increased adenosine monophosphate/adenosine triphosphate (AMP/ATP) ratio (0.4 ± 0.23 vs. 0.04 ± 0.04; P < 0.001), and lower phosphocreatine/creatine (PCr/Cr) ratio (33.5 ± 12.6 vs. 55.3 ± 5.8; P <0.001). Coronary flow was similar in both groups during reperfusion (107 ± 9 vs. 125 + /‐9 ml/100 g/min heart; P = ns). CI decreased in the CS group, yet being well‐preserved in the MP group. Compared with CS, MP resulted in improved preservation of the energy state and more successful functional recovery of heart graft.     

The effect of ischemic preconditioning prior to intraoperative radiotherapy on ischemic and on reperfused rat liver

BACKGROUND: The purpose of this study was to increase the tolerance of the liver to radiation injury with the proven effect of ischemic precondition (IP) in decreasing oxygen-derived free radicals, and to compare the effect of intraoperative radiotherapy (IORT) during ischemia and during reperfusion on rat liver. MATERIALS AND METHODS: Two hundred fifty to 280 g male Wistar rats underwent 45 min of normothermic, segmental liver ischemia with or without IP/5 min ischemia and 10 min reperfusion, in two cycles. During ischemia or reperfusion, IORT doses of 0, 25, or 50 Gy were applied to the ischemic liver lobe. Hepatic microcirculation was monitored by laser Doppler flowmeter. Short- and long-term histological, alkaline phosphatase, bilirubin and tumor necrosis factor-alpha levels, liver tissue, and serum antioxidant alterations were measured. RESULTS: Histological, laboratory, as well as flowmetry alterations caused by 25 Gy were reversible after 6 mo. Three mo following IORT, histological examination revealed parenchymal fibrosis, bridging, liver cell atrophy, and bile duct proliferation in the group that was irradiated with 50 Gy during reperfusion, without IP. In this group, the changes were present 6 mo following IORT, and also the levels of tumor necrosis factor-alpha and oxygen-derived free radicals after reperfusion were increased. All these changes were significantly milder in groups with IP, especially those that were irradiated during ischemia. CONCLUSIONS: IORT to the liver, up to 25 Gy, can be applied without short- or long-term treatment morbidity. Doses of up to 50 Gy are tolerated with IP, which has never been described before. Irradiation during ischemia is less toxic for the liver tissue.     

Reduced tolerance of global ischemia in the hypertrophied heart

OBJECTIVE: Reduced coronary reserve during reperfusion may cause postischemic diastolic dysfunction in pressure-overload-induced hypertrophy. We studied the effect of coronary flow regulation (simulated hyperemic or depressed flow) on postischemic cardiac function during reperfusion. METHODS: Left ventricular pressure overload was induced in 4-week-old rats by abdominal aortic constriction. At 6 weeks of age, isolated Langendorff-perfused hearts (perfusion pressures: 75 mmHg in controls and 110 mmHg in the aortic constriction group) were subjected to hypothermic global ischemia (15 degrees C, 210 min), followed by 2 types of coronary flow regulation during the initial 20 min of reperfusion--manipulated high flow in control hearts (group I), manipulated low flow in control hearts (group II), manipulated high flow in aortic constriction hearts (group III), and manipulated low flow in aortic constriction hearts (group IV) (n = 6/group), and then constant pressure perfusion during the subsequent 45 min of reperfusion. Cardiac function was measured using an isovolumic balloon in the pre- and postischemic periods. RESULTS: Aortic constriction hearts exhibited greater left ventricular end-diastolic pressure than did control hearts. The increase in left ventricular end-diastolic pressure did not differ between group I (3 +/- 2 mmHg) and group II (-1 +/- 1 mmHg) or between group III (29 +/- 5 mmHg) and group IV (30 +/- 6 mmHg). No difference was seen in postischemic recovery of left ventricular systolic pressure between high and low flow groups in control and aortic constriction hearts. CONCLUSION: Manipulations in coronary flow during reperfusion did not affect postischemic cardiac function in control or aortic constriction hearts, suggesting that depressed coronary flow during early reperfusion is not a primary cause of postischemic diastolic dysfunction in the hypertrophied myocardium.     

Beneficial effects of oral insulin on intestinal recovery following ischemia-reperfusion injury in rat

BACKGROUND: It has been reported that oral insulin has a trophic effect on intestinal mucosa, but the precise mechanism of its action is still unclear. The purpose of the present study was to investigate the effect of oral insulin on ischemia-reperfusion (IR) intestinal mucosal injury in rat. MATERIALS AND METHODS: Male Sprague-Dawley rats underwent laparotomy (Sham) or IR-intestinal damage by clamping both the superior mesenteric artery and the portal vein for 30 min followed by 24 h reperfusion. IR-INS rats were treated with oral insulin given in drinking water (1U/ml) 48 h before and after IR. Intestinal structural changes, enterocyte proliferation, and enterocyte apoptosis were determined 24 h after IR. Park's score was used for the quantitative assessment of histological change. A non-parametric Kruskal-Wallis ANOVA test was used for statistical analysis with P less than 0.05 considered statistically significant. RESULTS: IR-injury resulted in a significant decrease in bowel weight in jejunum, mucosal weight in jejunum and ileum, villus height in jejunum and ileum, cell proliferation index in jejunum, and ileum compared to sham animals. IR-INS animals demonstrated greater duodenal and jejunal bowel weight, duodenal, jejunal and ileal mucosal weight, jejunal mucosal DNA, jejunal and ileal mucosal protein, jejunal and ileal villus height and crypt depth, jejunal and ileal proliferation index compared to IR-animals. Oral insulin administration induced also a significant decrease in apoptotic index in ileum (1.2 +/- 0.4 versus 2.8 +/- 0.7 TUNEL positive cells/10 villi, P < 0.05) compared to IR-untreated animals. CONCLUSIONS: Oral insulin improves intestinal recovery after IR- injury in rat.     

Effect of oxygenated crystalloid cardioplegia on the functional and metabolic recovery of the isolated perfused rat heart

The use of an oxygenated crystalloid cardioplegic solution to improve myocardial preservation during elective cardiac arrest was evaluated with the isolated perfused rat heart used as a model. Experiments were conducted at 4 degrees C and 20 degrees C. The oxygen tension of the nonoxygenated and oxygenated cardioplegic solutions averaged 117 and 440 mm Hg, respectively. At 4 degrees C, the adenosine triphosphate content of hearts subjected to 120 minutes of oxygenated cardioplegia was significantly higher than that of the nonoxygenated cardioplegia group. However, functional recovery during reperfusion was similar for both groups. At 20 degrees C, the myocardial adenosine triphosphate concentration decreased at a significantly faster rate during ischemia in the group receiving nonoxygenated cardioplegia compared with the oxygenated cardioplegia group. Hearts subjected to 180 minutes of ischemia with oxygenated cardioplegia had a normal ultrastructural appearance whereas hearts subjected to 120 minutes of nonoxygenated cardioplegia showed severe ischemic damage. Myocardial functional recovery in the group receiving oxygenated cardioplegia exceeded that of the group receiving nonoxygenated cardioplegia. The use of myocardial adenosine triphosphate concentration at the end of the ischemic period to predict subsequent cardiac output, peak systolic pressure, and total myocardial work showed significant positive correlations.     

纳络酮对缺血再灌注心肌局部血流变化的影响

利用犬心肌缺血再灌注模型，观察了缺血和再灌注心肌局部血流改变及纳络酮对其的影 响。结果表明：结扎冠状动脉左前降支后，缺血区心肌血流量明显降低，靠结扎点越近血流量减少越明 显。再灌注５分钟左右缺血心肌明显充血，其后血流量逐渐减少。纳络酮明显增加正常、缺血和部份再灌 注心肌血流量。提示心肌缺血是一种不完全性缺血，缺血的程度亦不相同，“无再流”现象的发生有一定 的时间过程。纳络酮可以减轻心肌缺血程度，缩小“无再流”心肌的范围。     

缺血后适应对糖尿病大鼠再灌注心肌的保护作用及其与P-Akt的关系

目的 探讨缺血后适应对糖尿病大鼠离体心脏缺血再灌注损伤的影响及其信号机制.方法 2周龄健康SD大鼠60只,雌雄不拘,体重250～300 g,随机分为6组:空白对照组(N组);缺血再灌注组(IR组);缺血后适应组(Post组);糖尿病大鼠后适应组(Dpost组);糖尿病大鼠缺血再灌注组(DIR组);糖尿病大鼠空白组(DN组).将链脲酶素(STZ,美围Sigma公司)按65 mg/kg经大鼠腹腔注射,48 h后断尾法连续两次测血糖≥16.65 mmol/L,并出现多饮、多食、多尿、体重减轻,脱毛等表现确定糖尿病模型成功.糖尿病模型制作成功后建立离体心脏Langendorff灌注模型,观测心脏冠状动脉灌流量、心肌梗死范围,免疫印迹(western blot)对P-Akt测定、电镜下观察心肌和线粒体改变.结果 糖尿病大鼠血糖浓度平均为(23.15±2.16)mmol/L,非糖尿病大鼠为(4.16±0.31)mmol/L.两组大鼠血糖浓度差异有统计学意义(P<0.01).缺血后适应组(Post组、DPost组)较缺血再灌注组(IR组、DIR组)冠状动脉流量(ml/min)明显增加(6.5±1.2、5.6±1.0对3.4±1.0、2.0±1.3),心肌梗死范围(%)明显减少(25.2±2.1、34.2±3.6对47.5±3.5、65.2±4.5),P-Akt的表达明显增强,心肌纤维和线粒体的完整程度明显较好.结论 缺血后适应在糖尿病大鼠离体心脏具有显著的保护作用,这一作用可能与Akt激活有关.     

Functional and metabolic effects of bupivacaine and lidocaine in the perfused working rat heart

The effects of bupivacaine (2.5, 5, 10, and 12.5 mg/L) and lidocaine (12.5, 25, 40, and 50 mg/L), on spontaneous heart rate, mean pressure development, cardiac output, and coronary flow were compared after 15 minutes' exposure in the isolated perfused working rat heart preparation. In addition, myocardial oxygen consumption, glucose utilization, lactate production, tissue content of glycogen, adenine nucleotides, and creatine phosphate content were measured. The relative potency of bupivacaine to lidocaine, calculated from slopes of regression equations, as indicated by the four mechanical variables and oxygen consumption, was 4.59. When the bupivacaine concentration was "normalized" using this value, bupivacaine and lidocaine showed indistinguishable effects on glucose utilization, lactate production, and tissue glycogen. Neither of the local anesthetics had any influence on energy charge or creatine phosphate content.     

Effects of catecholamines on myocardial viability in early reperfusion following hypothermic global ischemia in dogs—Comparison between epinephrine and dobutamine—

Attempts were made to define the effects of epinephrine and dobutamine on the myocardium during early reperfusion for 60 minutes following hypothermic global ischemia at a myocardial temperature of 28°C for 60 minutes under cardiopulmonary bypass. Ischemia was induced by crossclamping the dog aorta. Epinephrine (0.1 μg/kg/min) and dobutamine (5 μg/kg/min) were given throughout the reperfusion period by intravenous drip infusion, a control group was treated with saline infusion. Comparison of hemodynamic parameters was made before cardiopulmonary bypass, and at 30 and 60 minutes of reperfusion. Epinephrine and dobutamine significantly increased stroke volume index, left ventricular stroke work index and tissue calcium content compared with saline, however, myocardial water content was only slightly higher in the group given saline, compared with the other two groups. Myocardial mitochondrial membranes and cristae were slightly damaged and creatine phosphate content was reduced. Ultrastructural integrity was related to myocardial tissue calcium content, with a significant negative correlation. These results suggest that epinephrine (0.1 μg/kg/min) will improve stroke volume index and left ventricular stroke work index, as does dobutamine (5 μg/kg/min), however, both agents had a minimal effect on reducing myocardial morphological and biochemical integrity, although catecholamines have detrimental effects on the myocardium in early reperfusion following ischemia. These data were reported in part at the XI Congress of the International Society for Heart Research, in London England, 1983     

Stem cells improve right ventricular functional recovery after acute pressure overload and ischemia reperfusion injury

BACKGROUND: In many clinical scenarios, a relatively untrained right ventricle may be subjected to acute elevations in pulmonary artery and right ventricular pressures. The right and left heart are distinctly different in this regard and there is currently no in vivo model to study right ventricular ischemia in the setting of acute pressure overload. In acute injury, cardiomyocytes produce tumor necrosis factor, which mediates a proinflammatory pathway, eventually leading to myocardial dysfunction. Stem cells have been shown to reduce the production of proinflammatory mediators by the ischemic myocardium and protect the myocardium. Pretreatment with stem cells has been shown to protect the left ventricle. The effect of acute pressure overload to the untrained right ventricle is still not well understood. Furthermore, it is unclear whether pretreatment with stem cells would protect the right ventricle when it is subjected to acute pressure overload and concomitant ischemia reperfusion injury. The purpose of this study was (1) to create a simple model of acute pressure overload for the study of concomitant right ventricular ischemia and reperfusion, and (2) to evaluate the effect of pretreatment with stem cells prior to ischemia reperfusion injury. MATERIALS AND METHODS: Isolated rat hearts were perfused with the modified Langendorff technique with the latex balloon in the right ventricle instead of the left, with a pressure-transduced balloon being used to create an acute elevation in right ventricular pressure before ischemia. In the first of a two-series experiment, there were two experimental groups (N = 8 per group): one with right ventricular balloon end-diastolic pressure (EDP) of 5 mmHg (physiological), and the other with an EDP of 40 mmHg (pathologic). In the second series, the hearts with the higher balloon pressure (EDP 40 mmHg) were divided into two experimental groups (N = 5 per group). The control group was not pretreated. One group was pretreated with human mesenchymal stem cells 5 min immediately prior to ischemia reperfusion injury. Right ventricular developed pressure (RVDP), contractility (+dP/dt), and compliance (-dP/dt) were continuously assessed. Additionally, mesenchymal stem cells (MSCs) in culture were stressed by hypoxia and activation was determined by measuring vascular endothelial growth factor-A (VEGF) and hepatocyte growth factor (HGF) production by enzyme-linked immunosorbent assay. RESULTS: Recovery of RVDP, +dP/dt, and -dP/dt was significantly higher (P < 0.001) in the group with lower EDP compared to the group with the higher EDP [RVDP: 79.53 +/- 6.34 versus 54.28 +/- 10.76%; +dP/dt: 76.54 +/- 8.79 versus 38.75 +/- 19.74%; -dP/dt: 72.29 +/- 7.02 versus 30.54 +/- 12.44%]. In the higher EDP groups, pretreatment with human mesenchymal stem cells significantly improved myocardial function recovery (P < 0.01) when compared to controls [RVDP: 75.76 +/- 7.97 versus 59.10 +/- 11.18%; +dP/dt: 71.78 +/- 10.36 versus 54.93 +/- 12.64%; -dP/dt: 77.38 +/- 11.09 versus 59.30 +/- 15.20%]. Further, hypoxic MSCs demonstrated significantly greater VEGF and HGF release than controls. CONCLUSION: This compounded injury model allowed the study of right ventricular dysfunction in the setting of acute pressure overload and ischemia. Additionally, we have also demonstrated that pretreatment with stem cells of an acutely pressure overloaded right ventricle prior to ischemia reperfusion injury improves functional recovery. This is the first report of a modified Langendorff technique to study right ventricular function in the setting of acute pressure overload and ischemia and the effect of pretreatment with stem cells.     

High energy phosphates and direct calorimetry as predictive parameters for metabolic recovery of the rat liver following ischemia

Backround and Methods: Alteration of the hepatocellular function following ischemic damage may play a crucial role in the limited recovery after reperfusion. In spite of numerous efforts, finding a simple technique for predicting recovery of the liver after ischemic damage is still an unresolved problem. During ischemic storage of isolated rat livers at 25°C tissue concentrations of high energy phosphates and lactate were determined photometrically and interstitial pH was measured by glass electrodes. In comparison, the metabolic rate was measured continuously by direct calorimetry. In a second series of experiments these results were compared with functional recovery after ischemia and reperfusion. Following ischemic storage at 25°C for 60, 120 or 240 min, the isolated livers were reperfused for 30 min in a non-recirculating system with a constant flow rate. During reperfusion functional recovery, as assessed by oxygen consumption and bile flow, was determined. At the end of reperfusion tissue samples were taken for biochemical analysis of adenine nucleotides. Furthermore, morphologic integrity was determined by electron microscopy. Results: Whereas the ATP concentration drops within 60 min of ischemia to 6.9% of the control value without further significant change, the continuously measured metabolic rate as assessed by direct calorimetry decreases in an exponential manner. Accordingly, a better correlation of hepatocellular secretory function and calorimetrically measured heat output (r²=0.85; P<0.001) was observed than with high energy phosphates (r²=0.56; P<0.001). Conclusions: These data suggest that if the metabolism of the ischemic rat liver falls below a critical level, recovery is incomplete or impossible. Therefore, assessment of the global metabolic rate by direct calorimetry seems not only to be a very good predictor of recovery after ischemic damage but also a good tool in the laboratory for studies concerning the sequelae of ischemic metabolism and for improvement of tissue protection.     

Therapeutic effect of surfactant inhalation during warm ischemia in an isolated rat lung perfusion model

Warm ischemia‐reperfusion injury related to donation after cardiac death donors is a crucial and inevitable issue. As surfactant function is known to deteriorate during warm ischemia, we hypothesized that surfactant inhalation during warm ischemia would mitigate warm ischemia‐reperfusion injury. We used an isolated rat lung perfusion model. The rats were divided into three groups: sham, control, and surfactant. In the control and surfactant groups, cardiac arrest was induced by ventricular fibrillation. Ventilation was restarted 110 min later; subsequently, the lungs were flushed, and heart and lung block was recovered. In the surfactant group, a natural bovine surfactant Surfacten^® was inhaled for 3 min at the end of warm ischemia. Then, the lungs were reperfused for 80 min. Surfactant inhalation significantly improved graft functions, effectively increased lung tissue ATP levels, and significantly decreased mRNA levels of IL‐6 and IL‐6/IL‐10 ratio at the end of reperfusion. Histologically, lungs in the surfactant group showed fewer signs of interstitial edema and hemorrhage, and significantly less neutrophilic infiltration than those in the control group. Our results indicated that surfactant inhalation in the last phase of warm ischemia maintained lung tissue energy levels and prevented cytokine production, resulting in the alleviation of warm ischemia‐reperfusion injury.     

Naloxone improves functional recovery of myocardial stunning in conscious dogs through its action on the central nervous system

This study tests the hypothesis that naloxone, but not its quarternarysalt, naloxone methiodide (which does not enter the centralnervous system), improves recovery from myocardial stunningin conscious dogs. Twenty dogs were chronically instrumentedfor measurement of heart rate, left atrial, aortic and leftventricular pressure (LVP), LV dP•dt_max^–1 and myocardialwall thickening fraction (WTF). Regional myocardial blood flowwas determined with coloured microspheres. Occluder around theleft anterior descending artery (LAD) allowed induction of reversibleLAD ischaemia. Each of the 20 dogs underwent two LAD ischaemicchallenges. Experiments (performed on separate days, in crossoverfashion) were: (i) 10 min of LAD occlusion after applicationof naloxone 63 µg kg^–1 or naloxone methiodide 63µg kg^–1 and (ii) occlusion without naloxone or naloxonemethiodide. WTF was measured at baseline and until completerecovery occurred. LAD ischaemia significantly reduced LAD WTFwith (mean (SD) 54 (15)% lower than baseline) and without naloxone(55 (16)% lower than baseline), without significant haemodynamicdifferences. Between 1 to 30 min of reperfusion, WTF was significantlyhigher with naloxone (P<0.05). There was no difference inWTF with or without naloxone methiodide. We conclude that naloxoneimproved recovery from myocardial stunning in conscious dogs,and that this was centrally mediated. Br J Anaesth 2001; 86: 545–9     

Oxygen requirements of the isolated rat heart during hypothermic cardioplegia. Effect of oxygenation on metabolic and functional recovery after five hours of arrest

Previous studies from this laboratory demonstrated that the use of an oxygenated cardioplegic solution in the hypothermic arrested rat heart resulted in improved preservation of high-energy phosphate stores (adenosine triphosphate and creatine phosphate), mechanical recovery during reperfusion, and preservation of myocardial ultrastructure. In the current study the effect of cardioplegic solutions oxygenated with 30%, 60%, and 95% oxygen was evaluated in the isolated rat heart with reference to the maintenance of adenosine triphosphate, creatine phosphate, oxygen consumption, functional recovery, and mitochondrial oxidative phosphorylation in vitro. Results indicate that the hearts receiving cardioplegic solutions supplemented with 95% oxygen and 5% carbon dioxide maintained adenosine triphosphate and creatine phosphate at control values for at least 5 hours. The oxygen consumption during elective cardiac arrest, mechanical performance during reperfusion, and in vitro mitochondrial oxygen uptake and phosphorylation rate were highest in the hearts receiving cardioplegic solutions supplemented with 95% oxygen when compared to solutions with 30% and 60% oxygen. Addition of glucose and insulin to the cardioplegic solution (95% oxygen) increased the adenosine triphosphate levels but failed to improve function after reperfusion. Although myocardial adenosine triphosphate and creatine phosphate were well preserved by the oxygenated cardioplegic solution, there was a discrepancy between the adenosine triphosphate levels at the end of the arrest period, which represents the potential for mechanical function, and the actual function of the hearts after 5 hours.     

Effects of prostacyclin analogue,OP-2507, on function and metabolism in the ischemic working rat heart

We examined the effects of a new stable prostacyclin analogue, OP-2507, on myocardial function and metabolism in the ischemic working rat heart preparation. The hearts were perfused with Krebs-Henseleit bicarbonate (KHB) buffer, and whole heart ischemia was induced by one-way aortic valve for 15min follows by reperfusion for 30min. In the treated hearts, OP-2507, 20ng·ml^–1, was administered to KHB buffer from the beginning to the end of experiment. During ischemia, coronary flow in the OP-2507 group increased significantly more than that in the control group. The mechanical performance of both groups was impaired after ischemia. However, the recovery of coronary flow, cardiac output, peak systolic pressure and LV dP/dT_max was significantly higher in the treated group than in the control group. The incidence of ventricular fibrillation during reperfusion was 100% and 25% in the control and the OP-2507 groups, respectively. Myocardial ATP content was significantly higher in the treated hearts than that in the control hearts. These results indicate that this stable prostacyclin analogue is beneficial in myocardial ischemia, even without its well known action of preventing platelet aggregation.(Oguchi T, Kashimoto S, Nakamura T, et al.: Effects of prostacyclin analogue, OP-2507, on function and metabolism in the ischemic working rat heart. J Anesth 6: 446–454, 1992)     

Erythropoietin improves functional and histological recovery of traumatized skeletal muscle tissue

Apart from its hematopoietic effect, erythropoietin (EPO) is known as pleiotropic cytokine with anti‐inflammatory and anti‐apoptotic properties. Here, we evaluated for the first time the EPO‐dependent regeneration capacity in an in vivo rat model of skeletal muscle trauma. A myoblast cell line was used to study the effect of EPO on serum deprivation‐induced cell apoptosis in vitro. A crush injury was performed to the left soleus muscle in 80 rats treated with either EPO or saline. Muscle recovery was assessed by analysis of contraction capacities. Intravital microscopy, BrdU/laminin double immunohistochemistry and cleaved caspase‐3 immunohistochemistry of muscle tissue on days 1, 7, 14, and 42 posttrauma served for assessment of local microcirculation, tissue integrity, and cell proliferation. Serum deprivation‐induced myoblast apoptosis of 23.9 ± 1.5% was reduced by EPO to 17.2 ± 0.8%. Contraction force analysis in the EPO‐treated animals revealed significantly improved muscle strength with 10–20% higher values of twitch and tetanic forces over the 42‐day observation period. EPO‐treated muscle tissue displayed improved functional capillary density as well as reduced leukocytic response and consecutively macromolecular leakage over day 14. Concomitantly, muscle histology showed significantly increased numbers of BrdU‐positive satellite cells and interstitial cells as well as slightly lower counts of cleaved caspase‐3‐positive interstitial cells. EPO results in faster and better regeneration of skeletal muscle tissue after severe trauma and goes along with improved microcirculation. Thus, EPO, a compound established as clinically safe, may represent a promising therapeutic option to optimize the posttraumatic course of muscle tissue healing. © 2008 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res     

Relation of stroke and cardiac indices to serum catecholamines following open heart surgery

Serum catecholamines (epinephrine, dopamine and norepinephrine) were measured two, four and six hours after open heart surgery. The ratios of stroke index (SI) and cardiac index (CI) to catecholamines (CA) were determined. Patients studied consisted of 27 with congenital and 14 with acquired heart disease. Extracorporeal circulation (ECC) time was longer than 90 minutes in 17 and shorter in 24 patients. SI and CI diminished in elder patients with congenital disease (Group Cg-ad), patients with acquired desease (Group Ac) and patients with a longer ECC time (Group L). Therefore, elder age and/or longer ECC time seems to be responsible to the lower indices. However, the ratios of the indices to CA showed that the lower indices indicated the poor response of the myocardium to CA in Group Ac and Group L. The response was larger in Group Cg-ad and the lower indices were related to lower serum CA level. It was concluded, therefore, that the indices of stroke volume and cardiac output had inverse correlation to ECC time, but not to age, namely, prolonged ECC compromised more severely the myocardium and resulted in the poor response of the myocardium to CA. Subsequently, to compensate for the poor response, serum CA levels were elevated probably to maintain due SI and CI in patients with prolonged ECC.     

Effects of nicorandil on myocardial function and metabolism in the post-ischaemic reperfused heart with or without inhalation anaesthetics

BACKGROUND: Nicorandil, which is an ATP-sensitive K channel opener, has been reported to protect the ischaemic myocardium. However, its interaction with inhalation anaesthetics on the ischaemic myocardium has not been well elucidated. So, we have investigated whether isoflurane or sevoflurane modify the effects of nicorandil on cardiac function and metabolism in the rat heart-lung preparation. METHODS: Animals were allocated to 4 groups as follows: Control group, no drug; Nic group, nicorandil; Nic+Iso group, nicorandil and isoflurane; Nic+Sev group, nicorandil and sevoflurane. Seven minutes after the start of perfusion, nicorandil was administered and 10 min after the start of perfusion, the heart was rendered globally ischaemic for 10 min, and then the heart was reperfused for 10 min. RESULTS: LVdP/dt max in the Nic group was higher than those in the other groups. Right atrial pressure in the Nic+Iso and Nic+Sev groups was significantly higher than in the Control and Nic groups. Myocardial ATP in the Nic group was higher than in the other groups. DHBA levels in the perfusate in the Nic and Nic+Iso groups were lower than those in the Control and Nic+Sev groups, but those in the Nic+Sev group were higher than those in the other groups. CONCLUSIONS: Nicorandil improved post-ischaemic cardiac function and preserved high-energy phosphates. However, these beneficial effects of nicorandil were abolished by the combination with isoflurane or sevoflurane. In addition, sevoflurane increased hydroxyl radical formation in the post-ischaemic reperfused heart.