Jussi Mäkelä

Acute homing of bone marrow-derived mononuclear cells in intramyocardial vs. intracoronary transplantation

Objectives. Cell homing optimisation after transplantation is critical in myocardial infarction (MI) cell therapy. Design. Eight pigs were randomized to receiving autologous purified 111indium-labeled bone marrow mononuclear cells (BMMCs) (108 cells/2 ml) by intramyocardial (IM) (n=4) or by intracoronary (IC) (n=4) transplantation after 90 minutes occlusion of the CX-coronary artery. Dual isotope SPECT imaging was performed 2 and 24 hours postoperatively. Two animals were additionally analyzed on the sixth postoperative day. Tissue samples from the major organs were analyzed. Results. In SPECT imaging revealed that BMMCs administered using IM injection remained in the injured area. In contrast, minor proportion of IC transplanted cells remained in the myocardium, as most of the cells showed homing in the lungs. Analysis of the biopsies showed a seven-fold greater number of cells in the myocardium for the IM method and a 10-fold greater number of cells in the lungs in the IC group (p < 0.001). Conclusions. In producing persistently high cell homing at the infarction site, the IM transplantation is superior to the IC transplantation. However, the IC administration might be more specific in targeting injured capillaries and epithelial cells within the infarcted myocardium.

Propofol is Associated with Impaired Brain Metabolism during Hypothermic Circulatory Arrest: An Experimental Microdialysis Study

BACKGROUND Propofol is a widely used anesthetic in cardiac surgery. It has been shown to increase cerebrovascular resistance resulting in decreased cerebral blood flow. Efficient brain perfusion and tissue oxygenation during cardiopulmonary bypass (CPB) is essential in surgery requiring hypothermic circulatory arrest (HCA). The effects of propofol on brain metabolism are reported in a surviving porcine model of HCA. METHODS Twenty female juvenile pigs undergoing 75 minutes of HCA at a brain temperature of 18 degrees C were assigned to either propofol- or isoflurane anesthesia combined with alpha-stat perfusion strategy during CPB cooling and rewarming. Brain microdialysis analysis was used for determination of brain metabolism, and tissue oxygen partial pressure and intracranial pressures were also followed-up until 8 hours postoperatively. RESULTS Brain concentrations of glutamate and glycerol were significantly higher in the propofol group throughout the experiment (P < .01 and P < .01, respectively). The lactate/pyruvate ratio was significantly higher in the propofol group at 6-, 7-, and 8-hour intervals (P < .05, P < .01, and P < .05, respectively). The intracranial pressure was significantly higher at the 8-hour postoperative interval (P < .05) in the propofol group. A trend toward higher brain oxygen concentrations was observed in the isoflurane group. CONCLUSIONS Anesthesia with propofol as compared with isoflurane is associated with impaired brain metabolism during experimental HCA.

High number of transplanted stem cells improves myocardial recovery after AMI in a porcine model

Abstract Objective. The clinical data considering the bone marrow mononuclear cell (BMMNC) therapy in treatment for acute myocardial infarction (AMI) are controversial and the mechanisms remain unknown. Our objective was to study the cardiac function and changes in cytokine levels after administration of BMMNC in experimental AMI model. Design. Unlabeled or Super-Paramagnetic-Iron-Oxide-labeled BMMNCs or saline was injected into myocardium of 31 pigs after circumflex artery occlusion. Ejection fraction (EF) was measured preoperatively, postoperatively and at 21 days by echocardiography. Cardiac MRI was performed postoperatively and after 21 days in 7 BMMNC animals. Serum cytokine levels were measured at baseline, 24 h and 21 days. Cellular homing was evaluated comparing MRI and histology. Results. From baseline to 21 days EF decreased less in BMMNC group (EF mean control -19 SD 12 vs. BMMNC -4 SD 15 percentage points p = 0.02). Cytokine concentrations showed high variability between the animals. MRI correlated with histology in cell detection and revealed BMMNCs in the infarction area. By MRI, EF improved 11 percentage points. The improvement in EF was associated with the number of transplanted BMMNCs detected in the myocardium. Conclusion. BMMNC injection after AMI improved cardiac function. Quantity of transplanted BMMNCs correlated with the improvement in cardiac function after AMI.

Intra-arterial bone marrow mononuclear cell distribution in experimental global brain ischaemia

Abstract Objectives. Bone marrow mononuclear cells (BM-MNCs) can ameliorate focal ischaemic brain injury. A global ischaemic brain injury, which can occur after cardiac or thoracic surgery, could be an essential target for BM-MNCs. No studies using BM-MNCs for this indication have been conducted. Design. Ten porcine underwent a global normothermic ischaemic insult, followed by an intra-arterial injection of Technetium99m-HMPAO-labelled BM-MNCs after 2, 4, 6, 12 or 24 hours. A whole-body scan and a SPECT/CT were performed 2 hours after the injection. Severity of the injury was assessed with EEG and tissue biopsies were analysed by scintigraphy. Results. The majority of the cells appeared in the lungs and the liver. Only a minimal number of cells were located in the brain. Median distribution of cells between organs in all animals was as follows: lungs 32.7% (30.6–38.2), liver 14.2% (12.0–17.2), spleen 7.3% (3.3–11.3) and kidneys 2.5% (2.0–3.3). The transplanted cells could not be detected within the brain tissue by radionuclide imaging. Conclusions. Intra-arterially transplanted BM-MNCs did not migrate to the damaged brain tissue in significant quantity when transplanted during the first 24 hours after the global ischaemic insult, contrary to results with models of focal brain injury.

Is Inferior Mesenteric Artery Embolization Indicated Prior to Endovascular Repair of Abdominal Aortic Aneurysm

Type II endoleak is a common condition occurring after endovascular repair of abdominal aortic aneurysms (EVAR), and may result in aneurysm sac growth and/or rupture in a small number of patients. A prophylactic strategy of inferior mesenteric artery (IMA) embolization before EVAR has been advocated, however, the benefits of this strategy are controversial. A clinical vignette allows the authors to summarize the available data about this issue and discuss the possible benefits and risks of prophylactic IMA embolization before EVAR. The authors performed a meta-analysis of available data which showed that the pooled rate of type II endoleak after IMA embolization was 19.9% (95% CI 3.4-34.7%, I2 93%) whereas it was 41.4% (95% CI 30.4-52.3%, I2 76%) in patients without IMA embolization (5 studies including 596 patients: p < .0001, OR 0.369, 95% CI 0.22-0.61, I2 27%). Since treatment for type II endoleaks is needed in less than 20% of cases and this complication can be treated successfully in 60-70% of cases resulting in an aneurysm rupture risk of 0.9%, these data indicate that embolization of patent IMA may be of no benefit in patients undergoing EVAR.

Analysis of molecular changes after autologous cell therapy in swine myocardial infarction tissue can reveal novel targets for future therapy.

Although several studies have demonstrated a functional recovery of infarcted myocardial tissue after cell therapy, little is known about the molecular mechanisms behind it. The aim of this study was to characterize the effect of cell therapy at the molecular level to screen for novel target candidates for future therapy of infarcted myocardial tissue. We used a swine acute myocardial infarction model evoked by transient occlusion of the circumflex coronary artery. Autologous bone marrow‐derived mononuclear cells (BMMCs) or saline were injected intramyocardially or into the circumflex coronary artery. Samples for protein and RNA analysis were collected from the infarction area and healthy myocardium after a 3 week recovery period and analysed by two‐dimensional gel electrophoresis (2DE) and quantitative reverse transcriptase polymerase chain reaction (qRT–PCR). Proteomic screening detected 13 protein spots which were altered after infarction but had been restored by BMMC treatment. The identification of seven proteins by mass spectrometry revealed that five proteins with decreased expression after infarction corresponded to mitochondrial proteins involved in energy metabolism. Their restored levels after BMMC treatment indicate their involvement in the recovery of heart function. In contrast, the elevated levels of α‐crystallin B chain and cathepsin D after infarction suggest an involvement in the pathological mechanisms causing a decreased heart function. This study reveals that cell therapy with BMMCs after myocardial infarction causes restoration of several altered protein levels after 3 weeks and identifies potential marker proteins involved in the pathology of infarction. Copyright

Granulation tissue is altered after intramyocardial and intracoronary bone marrow-derived cell transfer for experimental acute myocardial infarction

BACKGROUND Bone marrow-derived mononuclear cell (BMMC) treatment in acute myocardial infarction (AMI) has been shown to have a beneficial effect. Our objective was to study in detail the histopathological process after the cell therapy after intramyocardial (IM) or intracoronary (IC) administration of BMMCs following experimental AMI. METHODS Twenty-fours pigs were randomized to the IM group (n=8), the IC group (n=8), and the control group (n=8).After 90 min of transient occlusion of the circumflex coronary artery, BMMCs were injected either intramyocardially or by a transfemoral catheter into the circumflex coronary artery. Echocardiography was performed preoperatively, postoperatively, and after a 21-day recovery period. The heart biopsies were examined histopathologically. Volumetric ex vivo CT scan was performed to evaluate calcification of the infarcted myocardium. RESULTS The ejection fraction (EF) showed significant recovery in the IM group compared to the control group at Day 21 (P=.05). Despite beneficial histological changes in the infarction site in the IC group, compared to the control group, EF failed to recover. Reduction of collagen density that depicts scar formation was seen in both cell therapy groups compared to the control (P<.001). The number of mitotic cells was higher in the control group compared to the cell therapy groups (P<.001). The IC and IM groups differed significantly from each other in muscle-specific actin staining (P<.001) and smooth muscle actin staining (P<.004). The IM therapy group showed higher density for both stainings. Additionally, macrophage density was higher in the IC group compared to the IM and control groups (P<.002). Both cell therapy regimens substantially diminished tissue calcification; due to the large variation, the effect was not statistically significant. CONCLUSION BMMC therapy launches cellular changes that affect mostly the repair process in the granulation tissue. The cell transplantation method might have some effect on the magnitude of the effect.

Effect of Acute Pancreatitis on Porcine Intestine: A Morphological Study

Abstract Aim: The ultrastructural changes in the intestine were studied during experimental acute edematous and necrotizing porcine pancreatitis. The immunohistochemical expression of E-cadherin and β-catenin in the jejunum and colon was assessed to characterize changes in the adherens junctions. Methods: Twenty-four pigs were randomized to controls (n = 8) or to develop mild edematous (n = 8, saline infusion to pancreatic duct) or severe necrotizing pancreatitis (n = 8, taurocholic acid infusion). The ultrastructure of the mesenteric artery and the vein and epithelium of the jejunum and colon was analyzed at baseline and after 540 min with electron microscopy. The expression of E-cadherin and β-catenin was assessed with immunohistochemistry. Results: In the colon the microvilli and their glycocalyx shortened and reduced in density the most in necrotizing pancreatitis. In necrotizing pancreatitis adherens and tight junctions were occasionally open in the colon but rarely in the jejunum. Mitochondria in the colon epithelial cells were degenerated in necrotizing pancreatitis, swollen in edematous pancreatitis, and remained intact in the control case. In necrotizing pancreatitis, capillaries of the colon showed a broken endothelial lining with narrow lumens. The expression of E-cadherin immunoreactivity showed a trend toward a decrease in the colon in both edematous and necrotizing pancreatitis. Conclusion: Ultrastructural abnormalities in acute pancreatitis appear early in the colon, where they seem to be more damaging than in jejunum. Epithelial cell damage seems to include mitochondrial injury and an opening of tight and adherens junctions, which are more pronounced in necrotizing pancreatitis. Damage is seen in the mucosal and mesenteric endothelial cells.