11 results on '"Lila, Nermine"'
Search Results
2. Elastomeric cardiopatch scaffold for myocardial repair and ventricular support.
- Author
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Chachques, Juan Carlos, Lila, Nermine, Soler-Botija, Carolina, Martinez-Ramos, Cristina, Valles, Ana, Autret, Gwennhael, Perier, Marie-Cecile, Mirochnik, Nicolas, Monleon-Pradas, Manuel, Bayes-Genis, Antoni, and Semino, Carlos E
- Subjects
MAGNETIC resonance imaging ,PROGENITOR cells ,VENTRICULAR remodeling ,LABORATORY animals - Abstract
Open in new tab Download slide Open in new tab Download slide OBJECTIVES Prevention of postischaemic ventricular dilatation progressing towards pathological remodelling is necessary to decrease ventricular wall deterioration. Myocardial tissue engineering may play a therapeutic role due to its capacity to replace the extracellular matrix, thereby creating niches for cell homing. In this experimental animal study, a biomimetic cardiopatch was created with elastomeric scaffolds and nanotechnologies. METHODS In an experimental animal study in 18 sheep, a cardiopatch was created with adipose tissue-derived progenitor cells seeded into an engineered bioimplant consisting of 3-dimensional bioabsorbable polycaprolactone scaffolds filled with a peptide hydrogel (PuraMatrix™). This patch was then transplanted to cover infarcted myocardium. Non-absorbable poly(ethyl) acrylate polymer scaffolds were used as controls. RESULTS Fifteen sheep were followed with ultrasound scans at 6 months, including echocardiography scans, tissue Doppler and spectral flow analysis and speckle-tracking imaging, which showed a reduction in longitudinal left ventricular deformation in the cardiopatch-treated group. Magnetic resonance imaging (late gadolinium enhancement) showed reduction of infarct size relative to left ventricular mass in the cardiopatch group versus the controls. Histopathological analysis at 6 months showed that the cardiopatch was fully anchored and integrated to the infarct area with minimal fibrosis interface, thereby promoting angiogenesis and migration of adipose tissue-derived progenitor cells to surrounding tissues. CONCLUSIONS This study shows the feasibility and effectiveness of a cardiopatch grafted onto myocardial infarction scars in an experimental animal model. This treatment decreased fibrosis, limited infarct scar expansion and reduced postischaemic ventricular deformity. A capillary network developed between our scaffold and the heart. The elastomeric cardiopatch seems to have a positive impact on ventricular remodelling and performance in patients with heart failure. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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3. Development of cardiac support bioprostheses for ventricular restoration and myocardial regeneration.
- Author
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Shafy, Abdel, Fink, Trine, Zachar, Vladimir, Lila, Nermine, Carpentier, Alain, and Chachques, Juan C.
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HEART assist devices ,HEART failure patients ,CORONARY disease ,STEM cell transplantation ,TISSUE engineering - Abstract
OBJECTIVES Ventricular constraint devices made of polyester and nitinol have been used to treat heart failure patients. Long-term follow-up has not demonstrated significant benefits, probably due to the lack of effects on myocardial tissue and to the risk of diastolic dysfunction. The goal of this experimental study is to improve ventricular constraint therapy by associating stem cell intrainfarct implantation and a cell-seeded collagen scaffold as an interface between the constraint device and the epicardium. METHODS In a sheep ischaemic model, three study groups were created: Group 1: coronary occlusion without treatment (control group). Group 2: postinfarct ventricular constraint using a polyester device (Acorn CorCap). Group 3: postinfarct treatment with stem cells associated with collagen matrix and the polyester device. Autologous adipose mesenchymal stem cells cultured in hypoxic conditions were injected into the infarct and seeded into the collagen matrix. RESULTS At 3 months, echocardiography showed the limitation of left ventricular end-diastolic volume in animals both treated with constraint devices alone and associated with stem cells/collagen. In Group 3 (stem cell + collagen treatment), significant improvements were found in ejection fraction (EF) and diastolic function evaluated by Doppler-derived mitral deceleration time. In this group, histology showed a reduction of infarct size, with focuses of angiogenesis and minimal fibrosis interface between CorCap and the epicardium due to the interposition of the collagen matrix. CONCLUSIONS Myocardial infarction treated with stem cells associated with a collagen matrix and ventricular constraint device improves systolic and diastolic function, reducing adverse remodelling and fibrosis. The application of bioactive molecules and the recent development of nanobiotechnologies should open the door for the creation of a new semi-degradable ventricular support bioprosthesis, capable of controlled stability or degradation in response to physiological conditions of the left or right heart. [ABSTRACT FROM PUBLISHER]
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- 2013
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4. Intrapulmonary Shear Stress Enhancement: A New Therapeutic Approach in Pulmonary Arterial Hypertension.
- Author
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Nour, Sayed, Dai, Gang, Carbognani, Daniel, Feng, Minze, Yang, Daya, Lila, Nermine, Chachques, Juan, and Wu, Guifu
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THERAPEUTICS ,HYPERTENSION ,PULMONARY artery diseases ,PHYSIOLOGICAL stress ,PULMONARY blood vessels ,WESTERN immunoblotting ,CARDIAC output ,PHYSIOLOGY - Abstract
Objective: Pulmonary arterial hypertension (PAH) is a dysfunctional endothelium disease with increased pulmonary vascular resistance (PVR) and poor prognosis. Current therapies are still insufficient. Here we propose a new pulsatile device as a more effective tool for PAH management compared with traditional treatments. Materials and Methods: Twelve piglets (10.3 ± 3.8 kg) were given either intrapulmonary pulsatile [P ( n = 6)] or nonpulsatile [NP ( n = 6)] tadalafil treatment. After median sternotomy and heparin injection (250 IU/kg), both groups underwent aorto-pulmonary surgical shunt for 1 h. During a second 1 h period in group P, a catheter prototype, driven by a small ventilator, was introduced into the pulmonary trunk and pulsated intermittently at 110 bpm irrespective of heart rate (90.6 ± 10.74 bpm). In group NP, tadalafil was given orally (1 mg/kg). Results: Hemodynamics and cardiac output (CO) were significantly ( p < 0.05) improved in group P compared with group NP: CO was 0.56 ± 0.0.26 versus 0.54 ± 0.11 (L/min), respectively. Mean pulmonary artery pressure (PAP) was decreased in group P compared with group NP: PAP was 9.6 ± 2.97 versus 32.2 ± 5.07, respectively. Vascular resistances (dynes.s.cm/kg) were significantly lower in group P versus group NP: pulmonary resistance was 85 ± 42.12 versus 478 ± 192.91 and systemic resistance was 298.8 ± 172.85 versus 1301 ± 615.79, respectively. Using Western blot analysis, endogenous NO synthase expression in PA segments was nonsignificantly ( p > 0.05) greater in group P (0.81 ± 0.78) versus (0.62 ± 0.35) group NP. Conclusion: Induced with an appropriate device, intrapulmonary shear stress-mediated endothelial function enhancement provides a more effective nearly physiological therapy for PAH. [ABSTRACT FROM AUTHOR]
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- 2012
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5. Development of bioartificial myocardium by electrostimulation of 3D collagen scaffolds seeded with stem cells.
- Author
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Haneef, Kanwal, Lila, Nermine, Benadda, Samira, Legrand, Fabien, Carpentier, Alain, and Chachques, Juan C.
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ELECTRIC stimulation ,COLLAGEN ,STEM cells ,MYOCARDIAL infarction ,HEART failure - Abstract
Electrostimulation (ES) can be defined as a safe physical method to induce stem cell differentiation. The aim of this study is to evaluate the effectiveness of ES on bone marrow mesenchymal stem cells (BMSCs) seeded in collagen scaffolds in terms of proliferation and differentiation into cardiomyocytes. BMSCs were isolated from Wistar rats and seeded into 3D collagen type 1 templates measuring 25 x 25 x 6 mm. Bipolar in vitro ES was performed during 21 days. Electrical impedance and cell proliferation were measured. Expression of cardiac markers was assessed by immunocyto- chemistry. Viscoelasticity of collagen matrix was evaluated. Electrical impedance assessments showed a low resistance of 234±41 Ohms which indicates good electrical conductivity of collagen matrix. Cell proliferation at 570 nm as significantly increased in ES groups after seven day (ES 0.129±0.03 vs non-stimulated control matrix 0.06±0.01, P=0.002) and after 21 days, (ES 0.22±0.04 vs control 0.13±0.01, P=0.01). Immunocytoche mistry of BMSCs after 21 days ES showed positive stain- ing of cardiac markers, troponin I, connexin 43, sarcomeric alpha-actinin, slow myosin, fast myosin and desmin. Staining for BMSCs marker CD29 after 21 days was negative. Electrostimulation of cell-seeded collagen matrix changed stem cell morphology and biochemical characteristics, increasing the expression of cardiac markers. Thus, MSC-derived differentiated cells by electrostimulation grafted in biological scaffolds might result in a convenient tissue engineering source for myocardial diseases. [ABSTRACT FROM AUTHOR]
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- 2012
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6. Comparison of the Effects of Adenosine, Inosine, and Their Combination as an Adjunct to Reperfusion in the Treatment of AcuteMyocardial Infarction.
- Author
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Shafy, Abdel, Molini'e, Vincent, Cortes-Morichetti, Miguel, Hupertan, Vincent, Lila, Nermine, and Chachques, Juan C.
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Adenosine and inosine are both key intracellular energy substrates for nucleotide synthesis by salvage pathways, especially during ischemic stress conditions. Additionally they both possess cell protective and cell repair properties. The objective of this study is to detect potential advantages of the combination of adenosine and inosine versus each drug alone, in terms of ventricular function, infarct size reduction and angiogenesis. Myocardial ischemia was created in rodents and treated with adenosine, inosine or their combination. Results of experiments showed that the combination of both drugs significantly reduced infarct size and improved myocardial angiogenesis and ventricular function. The two compounds, while chemically similar, use different intracellular pathways, allowing for complementary biological activities without overlapping. The drug combination at specific 1 : 5 adenosine : inosine dose ratio demonstrated positive cardiologic effects, deserving further evaluation as an adjunct to reperfusion techniques during and after acute coronary syndrome. The association of adenosine and inosine may contribute to reduce myocardial infarction morbidity and mortality rates. [ABSTRACT FROM AUTHOR]
- Published
- 2012
7. Comparison of the Effects of Adenosine, Inosine, and Their Combination as an Adjunct to Reperfusion in the Treatment of AcuteMyocardial Infarction.
- Author
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Shafy, Abdel, Molini'e, Vincent, Cortes-Morichetti, Miguel, Hupertan, Vincent, Lila, Nermine, and Chachques, Juan C.
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MYOCARDIAL infarction treatment ,INOSITOL ,ADENOSINES ,HEART beat ,ANESTHESIA ,ADENOSINE triphosphate ,CARDIAC output ,CARDIOLOGY ,COMBINATION drug therapy ,ECHOCARDIOGRAPHY ,ELECTROCARDIOGRAPHY ,IMMUNOHISTOCHEMISTRY ,EVALUATION of medical care ,REPERFUSION ,VASCULAR endothelial growth factors ,PATHOLOGIC neovascularization ,THERAPEUTICS - Abstract
Adenosine and inosine are both key intracellular energy substrates for nucleotide synthesis by salvage pathways, especially during ischemic stress conditions. Additionally they both possess cell protective and cell repair properties. The objective of this study is to detect potential advantages of the combination of adenosine and inosine versus each drug alone, in terms of ventricular function, infarct size reduction and angiogenesis. Myocardial ischemia was created in rodents and treated with adenosine, inosine or their combination. Results of experiments showed that the combination of both drugs significantly reduced infarct size and improved myocardial angiogenesis and ventricular function. The two compounds, while chemically similar, use different intracellular pathways, allowing for complementary biological activities without overlapping. The drug combination at specific 1 : 5 adenosine : inosine dose ratio demonstrated positive cardiologic effects, deserving further evaluation as an adjunct to reperfusion techniques during and after acute coronary syndrome. The association of adenosine and inosine may contribute to reduce myocardial infarction morbidity and mortality rates. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
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8. Human leukocyte antigen-G expression after heart transplantation is associated with a reduced incidence of rejection.
- Author
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Lila, Nermine, Amrein, Catherine, Guillemain, Romain, Chevalier, Patrick, Latremouille, Christian, Fabiani, Jean-Noël, Dausset, Jean, Carosella, Edgardo D, and Carpentier, Alain
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- 2002
9. Soluble HLA-G protein secreted by allo-specific CD4+ T cells suppresses the allo-proliferative...
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Lila, Nermine, Rouas-Freiss, Nathalie, Dausset, Jean, Carpentier, Alain, and Carosella, Edgardo D.
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CELLS ,ANTIGENS ,GRAFT rejection - Abstract
Reports on the identification of cells that may be responsible for the nonclassical HLA class I antigen HLA-G protein expression during the allogeneic reaction. Detection of soluble HLA-G5 in three combinations after mixed lymphocyte reaction (MLR); Potential agent for controlling allograft rejection; Effects of the HLA-G5 protein secreted during MLR.
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- 2001
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10. Elastomeric Cardiowrap Scaffolds Functionalized with Mesenchymal Stem Cells-Derived Exosomes Induce a Positive Modulation in the Inflammatory and Wound Healing Response of Mesenchymal Stem Cell and Macrophage.
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Chachques, Juan Carlos, Gardin, Chiara, Lila, Nermine, Ferroni, Letizia, Migonney, Veronique, Falentin-Daudre, Celine, Zanotti, Federica, Trentini, Martina, Brunello, Giulia, Rocca, Tiberio, Gasbarro, Vincenzo, and Zavan, Barbara
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MESENCHYMAL stem cells ,EXOSOMES ,CELL physiology ,HEALING ,MACROPHAGES - Abstract
A challenge in contractile restoration of myocardial scars is one of the principal aims in cardiovascular surgery. Recently, a new potent biological tool used within healing processes is represented by exosomes derived from mesenchymal stem cells (MSCs). These cells are the well-known extracellular nanovesicles released from cells to facilitate cell function and communication. In this work, a combination of elastomeric membranes and exosomes was obtained and tested as a bioimplant. Mesenchymal stem cells (MSCs) and macrophages were seeded into the scaffold (polycaprolactone) and filled with exosomes derived from MSCs. Cells were tested for proliferation with an MTT test, and for wound healing properties and macrophage polarization by gene expression. Moreover, morphological analyses of their ability to colonize the scaffolds surfaces have been further evaluated. Results confirm that exosomes were easily entrapped onto the surface of the elastomeric scaffolds, increasing the wound healing properties and collagen type I and vitronectin of the MSC, and improving the M2 phenotype of the macrophages, mainly thanks to the increase in miRNA124 and decrease in miRNA 125. We can conclude that the enrichment of elastomeric scaffolds functionalized with exosomes is as an effective strategy to improve myocardial regeneration. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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11. Genesis of myocardial repair with cardiac progenitor cells and tissue engineering.
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Sim, Eugene K W, Haider, Husnain Kh, Lila, Nermine, Schussler, Olivier, Chachques, Juan C, and Ye, Lei
- Abstract
Background There is mounting evidence to suggest that the heart has regenerative potential in the event of myocardial injury. Recent studies have shown that a resident population of cardiac progenitor cells (CPCs) in the heart contains both vasculogenic and myogenic lineages. CPCs are able to migrate to the site of injury in the heart for participation in the healing process. The resident CPCs in the heart may also be activated through outside pharmacological intervention to promote their participation in the intrinsic repair process. In the light of these characteristics, CPCs provide a logical source for the heart cell therapy. During the regenerative cardiac process, stem cell niches (a specialised environment surrounding stem cells) provide crucial support needed for their maintenance. Discussion Compromised niche function may lead to the selection of stem cells that no longer depend on self-renewal factors produced by its environment. The objective of stem cell transplantation associated with tissue-engineered approaches is to create a new modality in the treatment of heart failure. The use of efficient scaffolds will aid to re-establish a favourable microenvironment for stem cell survival, multiplication, differentiation and function. Cardiac tissue engineering using natural and/or synthetic materials in this regard provides a novel possibility in cardiovascular therapeutics. [ABSTRACT FROM PUBLISHER]
- Published
- 2010
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