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1.
J Cardiothorac Surg ; 18(1): 255, 2023 Sep 01.
Article de Anglais | MEDLINE | ID: mdl-37658440

RÉSUMÉ

Current myocardial infarction treatments focus on improving hemodynamics rather than addressing the problem of lost myocardium impairing left ventricular function. Epicardial infarct repair with a bioactive patch placed on the ischemic area is an emerging approach to promote endogenous myocardial repair. We report the use of a second-generation CorMatrix-extracellular matrix (ECM) patch as an adjunct to surgical revascularization in treating a young patient with diffuse, multivessel coronary artery disease unamenable to PCI and a large anterior myocardial infarction. The progressive myocardial scar shrinkage and increase in left ventricular ejection fraction from 10 to 51% are generally not observed with surgical revascularization therapy alone, suggesting this new patch has adjunctive potential to current revascularization therapy.


Sujet(s)
Infarctus du myocarde , Intervention coronarienne percutanée , Humains , Débit systolique , Fonction ventriculaire gauche , Infarctus du myocarde/chirurgie , Matrice extracellulaire
2.
J Thorac Cardiovasc Surg ; 164(6): e411-e424, 2022 12.
Article de Anglais | MEDLINE | ID: mdl-33933257

RÉSUMÉ

BACKGROUND: Galactose-α-1,3-galactose (alpha-gal) is a carbohydrate that is ubiquitously expressed in all mammals except for primates and humans. Patients can become sensitized to this antigen and develop alpha-gal syndrome (AGS), or a red meat allergy. Symptoms range from generalized gastroenteritis and malaise to anaphylaxis, and in endemic areas, the prevalence can be as high as 20%. Although AGS patients commonly avoid alpha-gal by avoiding meat, patients have also developed symptoms due to animal-derived medical products and devices. With the rise in transcatheter aortic valve replacement, we investigate the immunogenicity of common cardiac materials and valves. OBJECTIVE: To assess the in vitro immunoglobulin E response toward common medical products, including cardiac patch materials and bioprosthetic valves in patients with AGS. METHODS: Immunoblot and immunohistochemistry techniques were applied to assess immunoglobulin E reactivity to various mammalian derived tissues and medical products for patients with AGS. RESULTS: AGS serum showed strong reactivity to all of the commercially available, nonhuman products tested, including various decellularized cardiac patch materials and bioprosthetic aortic valves. AGS serum did not react to tissues prepared using alpha-gal knockout pigs. CONCLUSIONS: Despite commercial decellularization processes, alpha-gal continues to be present in animal-derived medical products, including bioprosthetic valves. Serum from patients with AGS demonstrates a strong affinity for these products in vitro. This may have serious potential implications for sensitized patients undergoing cardiac surgery, including early valve failure and accelerated coronary artery disease.


Sujet(s)
Anaphylaxie , Hypersensibilité alimentaire , Humains , Suidae , Animaux , Galactose , Immunoglobuline E , Anaphylaxie/diagnostic , Syndrome , Mammifères
3.
Future Cardiol ; 17(8): 1297-1305, 2021 11.
Article de Anglais | MEDLINE | ID: mdl-34008420

RÉSUMÉ

Contemporary management of ischemic heart disease lacks strategies to directly access the heart and promote reparative cellular mechanisms to improve postinfarct cardiac remodeling. Epicardial infarct repair (EIR) is an emerging technique whereby bioactive materials are sewn over ischemic areas of the heart at the time of surgical revascularization to promote adaptive cardiac repair. The CorMatrix Cor™ PATCH (CorMatrix Cardiovascular Inc., GA, USA) is an acellular bioactive material compatible with EIR. Herein, we review current preclinical and clinical data for the CorMatrix Cor PATCH and its use in EIR.


Lay abstract Therapies for heart attacks include revascularization and medical therapy, but clinicians lack methods of stimulating cells to improve cardiac repair and reduce cardiac fibrosis. Epicardial infarct repair (EIR) is an emerging technique where biomaterials are sewn over areas of the heart damaged by heart attacks. These materials have properties to stimulate repair at a cellular level. This procedure can be performed by cardiac surgeons during coronary artery bypass surgery. The CorMatrix Cor™ PATCH (CorMatrix Cardiovascular Inc., GA, USA) is a biomaterial compatible with EIR. Herein, we review the CorMatrix Cor PATCH and discuss its use in EIR.


Sujet(s)
Procédures de chirurgie cardiaque , Matrice extracellulaire , Coeur , Humains , Infarctus
4.
World J Pediatr Congenit Heart Surg ; 7(4): 475-83, 2016 07.
Article de Anglais | MEDLINE | ID: mdl-27358303

RÉSUMÉ

BACKGROUND: Prosthetic materials available for pediatric pulmonary valve replacement (PVR) lack growth potential, inevitably leading to a size mismatch. Small intestine submucosa-derived extracellular matrix (SIS-ECM) has been suggested to possess regenerative properties. We aimed to investigate its function and potential to increase in size as a PVR in a piglet. METHODS: An SIS-ECM trileaflet valved conduit was designed. Hanford minipigs, n = 6 (10-34 kg), underwent PVR with an intended survival of six months, with monthly echocardiograms evaluating valve size and function. The conduit was excised for histologic analysis. RESULTS: Of the six, one was sacrificed at three months for midterm analysis, and one at month 3 due to endocarditis. The remaining four constituted the study cohort. The piglet weight increased by 186% (19.56 ± 10.22 kg to 56.00 ± 7.87 kg). Conduit size increased by 30% (1.42 ± 0.14 cm to 1.84 ± 0.14 cm; P < .01). The native right ventricular outflow tract increased by 43% and the native pulmonary artery by 84%, resulting in a peak gradient increase from 10.08 ± 2.47 mm Hg to 36.25 ± 18.80 mm Hg (P = .03). Additionally, all valves developed at least moderate regurgitation. Conduit histology showed advanced remodeling with myofibroblast infiltration, neovascularization, and endothelialization. The leaflets remodeled beginning at the base with the leaflet edge being less cellular. In addition to the known endocarditis, bacterial colonies were discovered within a leaflet in another. CONCLUSIONS: The SIS-ECM valved conduit implanted into a piglet demonstrated cellular infiltration with vascular remodeling and an increase in diameter. Conduit stenosis was a result of slower rates of size increase than native tissue. Suboptimal leaflet performance requires design modifications.


Sujet(s)
Bioprothèse , Procédures de chirurgie cardiaque/méthodes , Matrice extracellulaire/transplantation , Cardiopathies congénitales/chirurgie , Implantation de valve prothétique cardiaque/méthodes , Prothèse valvulaire cardiaque , Muqueuse intestinale , Intestin grêle , Valve du tronc pulmonaire/chirurgie , Animaux , Modèles animaux de maladie humaine , Échocardiographie , Matrice extracellulaire/physiologie , Femelle , Muqueuse intestinale/cytologie , Intestin grêle/cytologie , Artère pulmonaire/croissance et développement , Artère pulmonaire/chirurgie , Analyse de régression , Suidae
5.
ASAIO J ; 61(2): 161-9, 2015.
Article de Anglais | MEDLINE | ID: mdl-25423120

RÉSUMÉ

Myocardial recovery with left ventricular assist device (LVAD) support is uncommon and unpredictable. We tested the hypothesis that injectable particulate extracellular matrix (P-ECM) with LVAD support promotes cell proliferation and improves cardiac function. LVAD, P-ECM, and P-ECM + LVAD therapies were investigated in chronic ischemic heart failure (IHF) calves induced using coronary embolization. Particulate extracellular matrix emulsion (CorMatrix, Roswell, GA) was injected intramyocardially using a 7 needle pneumatic delivery tool. Left ventricular assist devices (HVAD, HeartWare) were implanted in a left ventricle (LV) apex to proximal descending aorta configuration. Cell proliferation was identified using BrdU (5 mg/kg) injections over the last 45 treatment days. Echocardiography was performed weekly. End-organ regional blood flow (RBF) was quantified at study endpoints using fluorescently labeled microspheres. Before treatment, IHF calves had an ejection fraction (EF) of 33 ± 2% and left ventricular end-diastolic volume of 214 ± 18 ml with cardiac cachexia (0.69 ± 0.06 kg/day). Healthy weight gain was restored in all groups (0.89 ± 0.03 kg/day). EF increased with P-ECM + HVAD from 36 ± 5% to 75 ± 2%, HVAD 38 ± 4% to 58 ± 5%, and P-ECM 27 ± 1% to 66 ± 6%. P-ECM + HVAD demonstrated the largest increase in cell proliferation and end-organ RBF. This study demonstrates the feasibility of combined LVAD support with P-ECM injection to stimulate new cell proliferation and improve cardiac function, which warrants further investigation.


Sujet(s)
Biothérapie/méthodes , Matrice extracellulaire/physiologie , Défaillance cardiaque/chirurgie , Défaillance cardiaque/thérapie , Dispositifs d'assistance circulatoire , Animaux , Bovins , Modèles animaux de maladie humaine , Émulsions , Études de faisabilité , Défaillance cardiaque/physiopathologie , Hémodynamique , Injections , Myocarde/anatomopathologie , Taille de particule , Débit sanguin régional , Suidae , Structures d'échafaudage tissulaires , Fonction ventriculaire gauche
6.
ASAIO J ; 60(6): 730-6, 2014.
Article de Anglais | MEDLINE | ID: mdl-25232775

RÉSUMÉ

Biomaterials with direct intramyocardial injection devices have been developed and are being investigated as a potential cardiac regenerative therapy for end-stage ischemic heart failure. Decellularized extracellular matrix (ECM) has been shown to improve cardiac function and attenuate or reverse pathologic remodeling cascades. CorMatrix Cardiovascular, Inc. has developed a porcine small intestinal submucosa-derived particulate extracellular matrix (P-ECM) and ECM Delivery System to provide uniform and controlled intramyocardial delivery of the injectable P-ECM material into infarcted regions. The CorMatrix ECM Delivery System is composed of a Multi-Needle P-ECM Syringe Assembly, Automated Injection Controller, and Tissue Depth Measurement System (portable ultrasound). Feasibility of the P-ECM delivery system was tested intraoperatively in a chronic ischemic heart failure bovine model (n = 11), and demonstrated the ability to control injection volume (0.1-1.0 ml) and depth of penetration (3-5 mm) under regulated injection pressure (150 psi CO2) into the ischemic region. Targeted intramyocardial delivery of P-ECM may improve efficacy and enable development of novel patient-specific therapy.


Sujet(s)
Matériaux biocompatibles/administration et posologie , Systèmes de délivrance de médicaments/instrumentation , Matrice extracellulaire/physiologie , Ischémie myocardique/thérapie , Animaux , Agents cardiovasculaires/administration et posologie , Bovins , Modèles animaux de maladie humaine , Conception d'appareillage , Injections , Période peropératoire , Mâle , Test de matériaux , Ischémie myocardique/anatomopathologie , Ischémie myocardique/physiopathologie , Régénération , Suidae
7.
J Thorac Cardiovasc Surg ; 148(1): 333-340.e1, 2014 Jul.
Article de Anglais | MEDLINE | ID: mdl-24360254

RÉSUMÉ

OBJECTIVES: A novel bioprosthetic tricuspid valve was constructed from an acellular extracellular matrix (ECM) bioscaffold. The valve's mechanical functionality and potential for histologic regeneration was evaluated in an ovine model. METHODS: The native tricuspid valves of 4 domestic sheep were excised and replaced with bioprosthetic valves constructed from the ECM bioscaffold material shaped into the form of a tube. In vivo function was assessed over time by transthoracic echocardiography. Animals were euthanized at 3, 5, 8, and 12 months after valve implantation, and explanted valves were examined for gross morphology and by qualitative histopathologic analysis. RESULTS: All 4 sheep survived until the specified date. Forward flow by echocardiography was normal with trivial to mild regurgitation. Annular morphology and mobility of the leaflets appeared normal with excellent leaflet coaptation. Explanted valves were grossly normal at all time points and showed evidence of progressive tissue remodeling and integration at the host-tissue interface. Histopathologic analysis demonstrated massive host-cell infiltration, structural reorganization of the ECM bioscaffold, elastin generation at the annulus by 3 months, and increased collagen organization and glycosaminoglycan presence in the leaflets by 5 months, with no evidence of foreign body response. CONCLUSIONS: When implanted in the form of a tubular valve, the acellular ECM bioscaffold demonstrates feasibility as a biomechanically sound bioprosthetic tricuspid valve replacement with evidence of progressive endothelialization and constructive tissue remodeling.


Sujet(s)
Bioprothèse , Implantation de valve prothétique cardiaque/instrumentation , Prothèse valvulaire cardiaque , Valve atrioventriculaire droite/chirurgie , Animaux , Marqueurs biologiques/métabolisme , Échocardiographie-doppler couleur , Études de faisabilité , Implantation de valve prothétique cardiaque/effets indésirables , Insuffisance mitrale/étiologie , Modèles animaux , Conception de prothèse , Ovis aries , Facteurs temps , Structures d'échafaudage tissulaires , Valve atrioventriculaire droite/imagerie diagnostique , Valve atrioventriculaire droite/métabolisme , Valve atrioventriculaire droite/anatomopathologie
8.
J Surg Res ; 175(1): e25-34, 2012 Jun 01.
Article de Anglais | MEDLINE | ID: mdl-22316677

RÉSUMÉ

BACKGROUND: We evaluated the in vitro strength and in vivo arterial-wall response to an extracellular-matrix-based patch material in a sheep model of carotid artery repair. MATERIALS AND METHODS: A six-ply sheet of acellular, porcine extracellular matrix (ECM) was subjected to in vitro material strength testing and implanted in 15 sheep for 30, 90, and 180 d. Bovine pericardium was used as a control in some animals. In vivo graft patency was assessed by angiography. Explanted grafts were evaluated by histopathology and burst-strength testing. RESULTS: Mean (SD) in vitro suture retention force of the ECM sheet was 14.5 (3.06) N; tensile strength was 29.7 (6.11) N; and probe burst strength was 185 (22.6) N. In vivo, mild stenosis was observed at 30 d for all patches; stenosis was absent at 90 d in the ECM-repaired arteries but not bovine pericardium controls. Pseudoaneurysm was not observed in any animal. Histopathology showed progressive graft degradation, collagen deposition, formation of neocapillaries and fibrocellular neointima, and endothelialization, but no calcification. Mean (SD) burst pressure for unrepaired arteries was 2608 (858) mmHg and 1473 (694) mmHg for ECM-repaired vessels. Mean change in diameter from unloaded state to burst pressure was 29% (9.7) for unrepaired vessels and 24% (13.4) for ECM-repaired vessels. CONCLUSIONS: The six-ply ECM sheet can withstand the forces encountered after carotid artery repair. In sheep, it shows evidence of progressive, constructive remodeling as early as 30 d post-implantation with rapid deposition of endothelium. ECM shows promise as a patch material for CEA repair.


Sujet(s)
Artères carotides/physiopathologie , Artères carotides/chirurgie , Matrice extracellulaire/physiologie , Matrice extracellulaire/transplantation , Prothèses et implants , Procédures de chirurgie vasculaire , Animaux , Phénomènes biomécaniques , Modèles animaux , Ovis , Degré de perméabilité vasculaire
9.
Heart Surg Forum ; 13(5): E311-6, 2010 Oct.
Article de Anglais | MEDLINE | ID: mdl-20961831

RÉSUMÉ

BACKGROUND: Postoperative atrial fibrillation (AF) is a significant complication following open heart surgery, with potentially serious clinical and economic implications. To assess the effect of a novel procedure, pericardial reconstruction using a porcine-derived extracellular matrix (ECM) implant, on the risk of postoperative AF after primary isolated coronary artery bypass grafting (CABG), we performed a retrospective comparison of the incidence of postoperative AF in patients who underwent this procedure versus an untreated control group. METHODS: We performed a retrospective comparison of the incidence of postoperative AF in 111 patients who underwent a pericardial reconstruction procedure with the CorMatrix ECM for Pericardial Closure (CorMatrix Cardiovascular, Atlanta, GA, USA) following primary isolated CABG, versus a control group of 111 patients who did not undergo pericardial reconstruction. RESULTS: Postoperative AF occurred in 43 of 111 control patients (39%; lower control limit [LCL], 30%; upper control limit [UCL], 49%) but in only 20 of 111 treated patients (18%; LCL, 11%; UCL, 27%). This result represents a 54% reduction in relative risk in the treatment group (P < .001). There was a small but statistically insignificant decrease in the hospital length of stay for the treated patients. The 2 treatment groups exhibited similar postoperative complication profiles. CONCLUSIONS: In this retrospective study, pericardial reconstruction with the ECM implant contributed directly to a statistically significant and clinically meaningful reduction in the rate of postoperative AF in patients undergoing primary isolated CABG. A prospective multicenter randomized trial has been planned to further test this approach.


Sujet(s)
Fibrillation auriculaire/prévention et contrôle , Pontage aortocoronarien/effets indésirables , Matrice extracellulaire/transplantation , Péricarde/chirurgie , /méthodes , Prothèses et implants , Adulte , Sujet âgé , Sujet âgé de 80 ans ou plus , Fibrillation auriculaire/étiologie , Fibrillation auriculaire/physiopathologie , Électrocardiographie , Femelle , Études de suivi , Humains , Mâle , Adulte d'âge moyen , Complications postopératoires , Conception de prothèse , Études rétrospectives , Facteurs de risque , Transplantation hétérologue , Résultat thérapeutique
10.
Innovations (Phila) ; 5(1): 60-2, 2010 Jan.
Article de Anglais | MEDLINE | ID: mdl-22437278

RÉSUMÉ

A patient with a history of aortic valve endocarditis and surgical debridement presented with acute congestive heart failure because of severe aortic stenosis. During valve replacement surgery, an aortic annular enlargement was required to overcome a potential patient-prosthesis mismatch. We describe the use of a novel, bioresorbable, acellular xenograft for the enlargement patch. This material is expected to remodel into native patient tissue over time. This case offers an alternative implant for left heart reconstruction using a regenerative patch.

11.
Circulation ; 112(9 Suppl): I135-43, 2005 Aug 30.
Article de Anglais | MEDLINE | ID: mdl-16159805

RÉSUMÉ

BACKGROUND: Heart failure remains a significant problem. Tissue-engineered cardiac patches offer potential to treat severe heart failure. We studied an extracellular matrix scaffold for repairing the infarcted left ventricle. METHODS AND RESULTS: Pigs (n=42) underwent left ventricular (LV) infarction. At 6 to 8 weeks, either 4-layer multilaminate urinary bladder-derived extracellular matrix or expanded polytetrafluoroethlyene (ePTFE) was implanted as full-thickness LV wall patch replacement. At 1-week, 1-month, or 3-month intervals, pigs were terminated. After macroscopic examination, samples of tissue were prepared for histology, immunocytochemistry, and analysis of cell proportions by flow cytometry. One-week and 1-month patches were intact with thrombus and inflammation; at 1 month, there was also tissue with spindle-shaped cells in proteoglycan-rich and collagenous matrix. More alpha-smooth muscle actin-positive cells were present in urinary bladder matrix (UBM) than in ePTFE (22.2+/-3.3% versus 8.4+/-2.7%; P=0.04). At 3 months, UBM was bioresorbed, and a collagen-rich vascularized tissue with numerous myofibroblasts was present. Isolated regions of alpha-sarcomeric actin-positive, intensely alpha-smooth muscle actin-immunopositive, and striated cells were observed. ePTFE at 3 months had foreign-body response with necrosis and calcification. Flow cytometry showed similarities of cells from UBM to normal myocardium, whereas ePTFE had limited cardiomyocyte markers. CONCLUSIONS: Appearance of a fibrocellular tissue that included contractile cells accompanied biodegradation of UBM when implanted as an LV-free wall infarction patch. UBM appears superior to synthetic material for cardiac patching and trends toward myocardial replacement at 3 months.


Sujet(s)
Matrice extracellulaire/transplantation , Défaillance cardiaque/chirurgie , Prothèses et implants , Ingénierie tissulaire , Implant résorbable , Animaux , Matériaux biocompatibles , Marqueurs biologiques , Femelle , Cytométrie en flux , Défaillance cardiaque/étiologie , Ventricules cardiaques/chirurgie , Mâle , Test de matériaux , Infarctus du myocarde/complications , Myocarde/anatomopathologie , Polytétrafluoroéthylène , Sus scrofa , Vessie urinaire/ultrastructure , Cicatrisation de plaie
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