8 results on '"Momoi, Nobuo"'
Search Results
2. A burden of sarcomere gene variants in fetal-onset patients with left ventricular noncompaction.
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Hirono, Keiichi, Hata, Yukiko, Ozawa, Sayaka Watanabe, Toda, Takako, Momoi, Nobuo, Fukuda, Yutaka, Inuzuka, Ryo, Nagamine, Hiroki, Sakaguchi, Heima, Kurosaki, Kenichi, Okabe, Mako, Takarada, Shinya, Miyao, Nariaki, Nakaoka, Hideyuki, Ibuki, Keijiro, Origasa, Hideki, Bowles, Neil E., Nishida, Naoki, and Ichida, Fukiko
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GENES , *VENTRICULAR remodeling , *PROPORTIONAL hazards models , *CONGESTIVE heart failure , *ABORTION , *FETAL death - Abstract
Left ventricular noncompaction (LVNC) is a hereditary cardiomyopathy, associated with high morbidity and mortality, but the role of genetics in cases of fetal-onset has not been fully evaluated. The goal of this study was to identify the genetic background in LVNC fetal-onset patients using next-generation sequencing (NGS). Thirty-three fetal-onset Japanese probands with LVNC (20 males and 13 females) were enrolled. In the enrolled patients, 81 genes associated with cardiomyopathy were screened using next-generation sequencing (NGS) retrospectively. Twenty-three patients had congestive heart failure (CHF), and six patients had arrhythmias. Prominent trabeculations were mostly observed in lateral LV, posterior LV, and apex of LV in patients with LVNC. Twelve died; three patients experienced intrauterine death or termination of pregnancy. Overall, 15 variants were found among eight genes in 16 patients. Seven variants were detected in MYH7 and two in TPM1. Sarcomere gene variants accounted for 75.0%. A multivariable proportional hazards model revealed that CHF at diagnosis and a higher ratio of the noncompacted layer/compacted layer in the LV posterior wall were independent risk factors for death in LVNC fetal-onset patients (odds ratio = 4.26 × 106 and 1.36 × 108, p = 0.0075 and 0.0005, respectively). The present study is the first report focusing on genetic background combined with clinical features in LVNC fetal-onset patients using NGS. Sarcomere variants were most commonly identified in fetal-onset patients, and greater attention should be paid to fetal-onset patients with LVNC having prominent trabeculations in the LV because they are more likely to develop CHF. • The first report focusing on genetic background in LVNC fetal-onset patients. • Sarcomere variants were most commonly identified. • Higher noncompacted to compacted ratio of left ventricle was risk factors for death. [ABSTRACT FROM AUTHOR]
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- 2021
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3. Human Skeletal Muscle Cells With a Slow Adhesion Rate After Isolation and an Enhanced Stress Resistance Improve Function of Ischemic Hearts.
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Okada, Masaho, Payne, Thomas R, Drowley, Lauren, Jankowski, Ron J, Momoi, Nobuo, Beckman, Sarah, Chen, William CW, Keller, Bradley B, Tobita, Kimimasa, and Huard, Johnny
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SKELETAL muscle , *CYTOLOGICAL research , *CELLULAR therapy , *CELL adhesion molecules , *TISSUE culture - Abstract
Identification of cells that are endowed with maximum potency could be critical for the clinical success of cell-based therapies. We investigated whether cells with an enhanced efficacy for cardiac cell therapy could be enriched from adult human skeletal muscle on the basis of their adhesion properties to tissue culture flasks following tissue dissociation. Cells that adhered slowly displayed greater myogenic purity and more readily differentiated into myotubes in vitro than rapidly adhering cells (RACs). The slowly adhering cell (SAC) population also survived better than the RAC population in kinetic in vitro assays that simulate conditions of oxidative and inflammatory stress. When evaluated for the treatment of a myocardial infarction (MI), intramyocardial injection of the SACs more effectively improved echocardiographic indexes of left ventricular (LV) remodeling and contractility than the transplantation of the RACs. Immunohistological analysis revealed that hearts injected with SACs displayed a reduction in myocardial fibrosis and an increase in infarct vascularization, donor cell proliferation, and endogenous cardiomyocyte survival and proliferation in comparison with the RAC-treated hearts. In conclusion, these results suggest that adult human skeletal muscle-derived cells are inherently heterogeneous with regard to their efficacy for enhancing cardiac function after cardiac implantation, with SACs outperforming RACs. [ABSTRACT FROM AUTHOR]
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- 2012
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4. Differential efficacy of gels derived from small intestinal submucosa as an injectable biomaterial for myocardial infarct repair
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Okada, Masaho, Payne, Thomas R., Oshima, Hideki, Momoi, Nobuo, Tobita, Kimimasa, and Huard, Johnny
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COLLOIDS in medicine , *BIOMEDICAL materials , *MYOCARDIAL infarction , *INTESTINAL mucosa , *ANIMAL models of wound healing , *NEOVASCULARIZATION , *FIBROBLAST growth factors , *TISSUE engineering - Abstract
Abstract: Injectable biomaterials have been recently investigated as a therapeutic approach for cardiac repair. Porcine-derived small intestinal submucosa (SIS) material is currently used in the clinic to promote accelerated wound healing for a variety of disorders. In this study, we hypothesized that gels derived from SIS extracellular matrix would be advantageous as an injectable material for cardiac repair. We evaluated 2 forms of SIS gel, types B (SIS-B) and C (SIS-C), for their ability to provide a therapeutic effect when injected directly into ischemic myocardium using a murine model of an acute myocardial infarction. Echocardiography analysis at both 2 and 6 weeks after infarction demonstrated preservation of end-systolic left ventricular geometry and improvement of cardiac contractility in the hearts injected with SIS-B when compared with control hearts injected with saline. However, the SIS-C gel provided no functional efficacy in comparison with control. Histological analysis revealed that SIS-B reduced infarct size and induced angiogenesis relative to control, whereas injection of SIS-C had minimal effect on these histological parameters. Characterization of both gels revealed differential growth factor content with SIS-B exhibiting higher levels of basic fibroblast growth factor than SIS-C, which may explain, at least in part, the differential histological and functional results. This study suggests that SIS gel offers therapeutic potential as an injectable material for the repair of ischemic myocardium. Further understanding of SIS gel characteristics, such as biological and physical properties, that are critical determinants of efficacy would be important for optimization of this biomaterial for cardiac repair. [ABSTRACT FROM AUTHOR]
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- 2010
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5. Myogenic Endothelial Cells Purified From Human Skeletal Muscle Improve Cardiac Function After Transplantation Into Infarcted Myocardium
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Okada, Masaho, Payne, Thomas R., Zheng, Bo, Oshima, Hideki, Momoi, Nobuo, Tobita, Kimimasa, Keller, Bradley B., Phillippi, Julie A., Péault, Bruno, and Huard, Johnny
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CELLULAR therapy , *CARDIAC surgery , *MYOCARDIAL infarction , *MYOBLASTS , *ENDOTHELIUM , *STRIATED muscle , *ISCHEMIA , *IMMUNOHISTOCHEMISTRY , *NEOVASCULARIZATION - Abstract
Objectives: The aim of this study was to evaluate the therapeutic potential of human skeletal muscle-derived myoendothelial cells for myocardial infarct repair. Background: We have recently identified and purified a novel population of myoendothelial cells from human skeletal muscle. These cells coexpress myogenic and endothelial cell markers and produce robust muscle regeneration when injected into cardiotoxin-injured skeletal muscle. Methods: Myoendothelial cells were isolated from biopsies of human skeletal muscle using a fluorescence-activated cell sorter along with populations of regular myoblasts and endothelial cells. Acute myocardial infarction was induced in male immune-deficient mice, and cells were directly injected into the ischemic area. Cardiac function was assessed by echocardiography, and donor cell engraftment, angiogenesis, scar tissue, endogenous cardiomyocyte proliferation, and apoptosis were all evaluated by immunohistochemistry. Results: A greater improvement in left ventricular function was observed after intramyocardial injection of myoendothelial cells when compared with that seen in hearts injected with myoblast or endothelial cells. Transplanted myoendothelial cells generated robust engraftments within the infarcted myocardium, and also stimulated angiogenesis, attenuation of scar tissue, and proliferation and survival of endogenous cardiomyocytes more effectively than transplanted myoblasts or endothelial cells. Conclusions: Our findings suggest that myoendothelial cells represent a novel cell population from human skeletal muscle that may hold promise for cardiac repair. [Copyright &y& Elsevier]
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- 2008
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6. A Relationship Between Vascular Endothelial Growth Factor, Angiogenesis, and Cardiac Repair After Muscle Stem Cell Transplantation Into Ischemic Hearts
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Payne, Thomas R., Oshima, Hideki, Okada, Masaho, Momoi, Nobuo, Tobita, Kimimasa, Keller, Bradley B., Peng, Hairong, and Huard, Johnny
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MYOCARDIAL infarction , *STEM cells , *NEOVASCULARIZATION , *THERAPEUTICS - Abstract
Objectives: We investigated whether vascular endothelial growth factor (VEGF) was associated with the angiogenic and therapeutic effects induced after transplantation of skeletal muscle-derived stem cells (MDSCs) into a myocardial infarction (MI). Background: Because very few MDSCs were found to differentiate into new blood vessels when injected into the heart, the mechanism underlying the occurrence of angiogenesis after MDSC transplantation is currently unknown. In the present study, we used a gain- or loss-of-VEGF function approach with skeletal MDSCs engineered to express VEGF or soluble Flt1, a VEGF-specific antagonist, to identify the involvement of VEGF in MDSC transplantation-induced neoangiogenesis. Methods: Vascular endothelial growth factor- and soluble Flt1-engineered MDSCs were injected into an acute MI. Angiogenesis and cardiac function were evaluated by immunohistochemistry and echocardiography. Results: Both control and VEGF-overexpressing MDSCs induced angiogenesis, prevented adverse cardiac remodeling, and improved function compared with saline-injected hearts. However, these therapeutic effects were diminished in hearts transplanted with MDSCs expressing soluble Flt1 despite successful cell engraftment. In vitro experiments demonstrated that MDSCs increased secretion of VEGF in response to hypoxia and cyclic stretch (likely conditions in ischemic hearts), suggesting that transplanted MDSCs release VEGF in vivo. Conclusions: Our findings suggest that VEGF is essential for the induction of angiogenesis and functional improvements observed after MDSC transplantation for infarct repair. [Copyright &y& Elsevier]
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- 2007
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7. An Elastic, Biodegradable Cardiac Patch Induces Contractile Smooth Muscle and Improves Cardiac Remodeling and Function in Subacute Myocardial Infarction
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Fujimoto, Kazuro L., Tobita, Kimimasa, Merryman, W. David, Guan, Jianjun, Momoi, Nobuo, Stolz, Donna B., Sacks, Michael S., Keller, Bradley B., and Wagner, William R.
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POLYURETHANES , *SMOOTH muscle , *VENTRICULAR remodeling , *MYOCARDIAL infarction - Abstract
Objectives: Our objective in this study was to apply an elastic, biodegradable polyester urethane urea (PEUU) cardiac patch onto subacute infarcts and to examine the resulting cardiac ventricular remodeling and performance. Background: Myocardial infarction induces loss of contractile mass and scar formation resulting in adverse left ventricular (LV) remodeling and subsequent severe dysfunction. Methods: Lewis rats underwent proximal left coronary ligation. Two weeks after coronary ligation, a 6-mm diameter microporous PEUU patch was implanted directly on the infarcted LV wall surface (PEUU patch group, n = 14). Sham surgery was performed as an infarction control (n = 12). The LV contractile function, regional myocardial wall compliance, and tissue histology were assessed 8 weeks after patch implantation. Results: The end-diastolic LV cavity area (EDA) did not change, and the fractional area change (FAC) increased in the PEUU patch group (p < 0.05 vs. week 0), while EDA increased and FAC decreased in the infarction control group (p < 0.05). The PEUU patch was largely resorbed 8 weeks after implantation and the LV wall was thicker than infarction control (p < 0.05 vs. control group). Abundant smooth muscle bundles with mature contractile phenotype were found in the infarcted myocardium of the PEUU group. The myocardial compliance of the PEUU group was distributed between normal myocardium and infarction control (p < 0.001). Conclusions: Implantation of a novel biodegradable PEUU patch onto a subacute myocardial infarction promoted contractile phenotype smooth muscle tissue formation and improved cardiac remodeling and contractile function at the chronic stage. Our findings suggest a new therapeutic option against post-infarct cardiac failure. [Copyright &y& Elsevier]
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- 2007
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8. 923. Muscle Stem Cells Genetically Modified to Express a VEGF Antagonist Display an Impaired Ability for Cardiac Repair
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Payne, Thomas R., Oshima, Hideki, Okada, Masaho, Momoi, Nobuo, Tobita, Kimimasa, Keller, Bradley B., Peng, Hairong, and Huard, Johnny
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STEM cells - Abstract
An abstract of the article "Muscle Stem Cells Genetically Modified to Express a VEGF Antagonist Display an Impaired Ability for Cardiac Repair," by Thomas R. Payne and colleagues is presented.
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- 2005
- Full Text
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