16 results on '"Sedmera David"'
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2. Anatomy of the Achilles tendon—A pictorial review.
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Naňka, Ondřej, Sedmera, David, Rammelt, Stefan, and Bartoníček, Jan
- Abstract
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- 2024
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3. Fibrosis and expression of extracellular matrix proteins in human interventricular septum in aortic valve stenosis and regurgitation.
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Sedmera, David, Kvasilova, Alena, Eckhardt, Adam, Kacer, Petr, Penicka, Martin, Kocka, Matej, Schindler, Dana, Kaban, Ron, and Kockova, Radka
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VENTRICULAR septum , *AORTIC stenosis , *EXTRACELLULAR matrix proteins , *HEART valve diseases , *STAINS & staining (Microscopy) , *FIBRONECTINS , *FIBROSIS - Abstract
Valvular heart disease leads to ventricular pressure and/or volume overload. Pressure overload leads to fibrosis, which might regress with its resolution, but the limits and details of this reverse remodeling are not known. To gain more insight into the extent and nature of cardiac fibrosis in valve disease, we analyzed needle biopsies taken from the interventricular septum of patients undergoing surgery for valve replacement focusing on the expression and distribution of major extracellular matrix protein involved in this process. Proteomic analysis performed using mass spectrometry revealed an excellent correlation between the expression of collagen type I and III, but there was little correlation with the immunohistochemical staining performed on sister sections, which included antibodies against collagen I, III, fibronectin, sarcomeric actin, and histochemistry for wheat germ agglutinin. Surprisingly, the immunofluorescence intensity did not correlate significantly with the gold standard for fibrosis quantification, which was performed using Picrosirius Red (PSR) staining, unless multiplexed on the same tissue section. There was also little correlation between the immunohistochemical markers and pressure gradient severity. It appears that at least in humans, the immunohistochemical pattern of fibrosis is not clearly correlated with standard Picrosirius Red staining on sister sections or quantitative proteomic data, possibly due to tissue heterogeneity at microscale, comorbidities, or other patient-specific factors. For precise correlation of different types of staining, multiplexing on the same section is the best approach. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Coating Ti6Al4V implants with nanocrystalline diamond functionalized with BMP-7 promotes extracellular matrix mineralization in vitro and faster osseointegration in vivo.
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Nemcakova, Ivana, Litvinec, Andrej, Mandys, Vaclav, Potocky, Stepan, Plencner, Martin, Doubkova, Martina, Nanka, Ondrej, Olejnickova, Veronika, Sankova, Barbora, Bartos, Martin, Ukraintsev, Egor, Babčenko, Oleg, Bacakova, Lucie, Kromka, Alexander, Rezek, Bohuslav, and Sedmera, David
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OSSEOINTEGRATION ,EXTRACELLULAR matrix ,BONE morphogenetic proteins ,SURFACE coatings ,MINERALIZATION ,CONFORMAL coatings - Abstract
The present study investigates the effect of an oxidized nanocrystalline diamond (O-NCD) coating functionalized with bone morphogenetic protein 7 (BMP-7) on human osteoblast maturation and extracellular matrix mineralization in vitro and on new bone formation in vivo. The chemical structure and the morphology of the NCD coating and the adhesion, thickness and morphology of the superimposed BMP-7 layer have also been assessed. The material analysis proved synthesis of a conformal diamond coating with a fine nanostructured morphology on the Ti6Al4V samples. The homogeneous nanostructured layer of BMP-7 on the NCD coating created by a physisorption method was confirmed by AFM. The osteogenic maturation of hFOB 1.19 cells in vitro was only slightly enhanced by the O-NCD coating alone without any increase in the mineralization of the matrix. Functionalization of the coating with BMP-7 resulted in more pronounced cell osteogenic maturation and increased extracellular matrix mineralization. Similar results were obtained in vivo from micro-CT and histological analyses of rabbit distal femurs with screws implanted for 4 or 12 weeks. While the O-NCD-coated implants alone promoted greater thickness of newly-formed bone in direct contact with the implant surface than the bare material, a further increase was induced by BMP-7. It can be therefore concluded that O-NCD coating functionalized with BMP-7 is a promising surface modification of metallic bone implants in order to improve their osseointegration. [ABSTRACT FROM AUTHOR]
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- 2022
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5. Preclinical Alternative Model for Analysis of Porous Scaffold Biocompatibility Applicable in Bone Tissue Engineering.
- Author
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Petrovova, Eva, Giretova, Maria, Kvasilova, Alena, Benada, Oldrich, Danko, Jan, Medvecky, Lubomir, and Sedmera, David
- Abstract
Porous scaffolds represent a potential approach to repair critical-size bone defects. Vascularization is essential for bone formation and healing. This study establishes a method to monitor angiogenesis within porous biopolymer scaffolds made on the basis of polyhydroxybutyrate and chitosan. We used the chick and quail chorioallantoic membrane (CAM) assay as an alternative in vivo model to study the formation of new blood vessels inside the scaffold structure. The chemical properties of the biopolymer scaffold matrix surface were characterized as well as the tissue reaction of the CAM. Placing a piece of polymer scaffold on the CAM resulted in a vascular reaction documented visually and by ultrasound biomicroscopy. Histological analysis showed a myofibroblast reaction (smooth muscle actin-positive cells) without excessive collagen deposition. Cell invasion into the implant was observed and the presence of a vascular network was confirmed by identifying hemangioblasts and endothelial cells of quail origin using the QH1 marker. The CAM assay is a rapid and easy way to test biocompatibility and vasculogenic potential of new candidate scaffolds for bone tissue bioengineering while respecting the 3Rs. [ABSTRACT FROM AUTHOR]
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- 2019
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6. Proteomic analysis of cardiac ventricles: baso-apical differences.
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Eckhardt, Adam, Kulhava, Lucie, Miksik, Ivan, Pataridis, Statis, Hlavackova, Marketa, Vasinova, Jana, Kolar, Frantisek, Sedmera, David, and Ostadal, Bohuslav
- Abstract
The heart is characterized by a remarkable degree of heterogeneity. Since different cardiac pathologies affect different cardiac regions, it is important to understand molecular mechanisms by which these parts respond to pathological stimuli. In addition to already described left ventricular (LV)/right ventricular (RV) and transmural differences, possible baso-apical heterogeneity has to be taken into consideration. The aim of our study has been, therefore, to compare proteomes in the apical and basal parts of the rat RV and LV. Two-dimensional electrophoresis was used for the proteomic analysis. The major result of this study has revealed for the first time significant baso-apical differences in concentration of several proteins, both in the LV and RV. As far as the LV is concerned, five proteins had higher concentration in the apical compared to basal part of the ventricle. Three of them are mitochondrial and belong to the “metabolism and energy pathways” (myofibrillar creatine kinase M-type, L-lactate dehydrogenase, dihydrolipoamide dehydrogenase). Myosin light chain 3 is a contractile protein and HSP60 belongs to heat shock proteins. In the RV, higher concentration in the apical part was observed in two mitochondrial proteins (creatine kinase S-type and proton pumping NADH:ubiquinone oxidoreductase). The described changes were more pronounced in the LV, which is subjected to higher workload. However, in both chambers was the concentration of proteins markedly higher in the apical than that in basal part, which corresponds to the higher energetic demand and contractile activity of these segments of both ventricles. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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7. Analysis of Siamese Crocodile (<italic>Crocodylus siamensis</italic>) Eggshell Proteome.
- Author
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Mikšík, Ivan, Paradis, Statis, Eckhardt, Adam, and Sedmera, David
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EGGSHELLS ,CROCODYLUS siamensis ,PROTEIN analysis ,ANIMAL defenses ,PROTEOMICS - Abstract
The proteins and pigment of the eggshell of the Siamese crocodile (
Crocodylus siamensis ) were analysed. For proteomic analysis, various decalcification methods were used when the two main surface layers were analyzed. These layers are important for antimicrobial defense of egg (particularly the cuticle). We found 58 proteins in both layers, of which 4 were specific for the cuticle and 26 for the palisade (honeycomb) layer. Substantial differences between proteins in the eggshell of crocodile and previously described birds’ eggshells exist (both in terms of quality and quantity), however, the entire proteome ofCrocodilians has not been described yet. The most abundant protein was thyroglobulin. The role of determined proteins in the eggshell of the Siamese crocodile is discussed. For the first time, the presence of porphyrin pigment is reported in a crocodilian eggshell, albeit in a small amount (about 2 to 3 orders of magnitude lower than white avian eggs). [ABSTRACT FROM AUTHOR]- Published
- 2018
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8. Hemodynamics During Development and Postnatal Life.
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Sedmera, David
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- 2016
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9. Identification of a hybrid myocardial zone in the mammalian heart after birth.
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Xueying Tian, Yan Li, Lingjuan He, Hui Zhang, Xiuzhen Huang, Qiaozhen Liu, Wenjuan Pu, Libo Zhang, Yi Li, Huan Zhao, Zhifu Wang, Jianhong Zhu, Yu Nie, Shengshou Hu, Sedmera, David, Zhong, Tao P., Ying Yu, Li Zhang, Yan Yan, and Zengyong Qiao
- Abstract
Noncompaction cardiomyopathy is characterized by the presence of extensive trabeculations, which could lead to heart failure and malignant arrhythmias. How trabeculations resolve to form compact myocardium is poorly understood. Elucidation of this process is critical to understanding the pathophysiology of noncompaction disease. Here we use genetic lineage tracing to mark the Nppa
+ or Hey2+ cardiomyocytes as trabecular and compact components of the ventricular wall. We find that Nppa+ and Hey2+ cardiomyocytes, respectively, from the endocardial and epicardial zones of the ventricular wall postnatally. Interposed between these two postnatal layers is a hybrid zone, which is composed of cells derived from both the Nppa+ and Hey2+ populations. Inhibition of the fetal Hey2+ cell contribution to the hybrid zone results in persistence of excessive trabeculations in postnatal heart. Our findings indicate that the expansion of Hey2+ fetal compact component, and its contribution to the hybrid myocardial zone, are essential for normal formation of the ventricular walls. [ABSTRACT FROM AUTHOR]- Published
- 2017
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10. Comparison of different tissue clearing methods and 3D imaging techniques for visualization of GFP-expressing mouse embryos and embryonic hearts.
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Kolesová, Hana, Čapek, Martin, Radochová, Barbora, Janáček, Jiří, and Sedmera, David
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THREE-dimensional imaging in biology ,GREEN fluorescent protein ,MICE embryology ,MYOCARDIUM ,CONFOCAL microscopy ,TOMOGRAPHY ,HEART - Abstract
Our goal was to find an optimal tissue clearing protocol for whole-mount imaging of embryonic and adult hearts and whole embryos of transgenic mice that would preserve green fluorescent protein GFP fluorescence and permit comparison of different currently available 3D imaging modalities. We tested various published organic solvent- or water-based clearing protocols intended to preserve GFP fluorescence in central nervous system: tetrahydrofuran dehydration and dibenzylether protocol (DBE), SCALE, CLARITY, and CUBIC and evaluated their ability to render hearts and whole embryos transparent. DBE clearing protocol did not preserve GFP fluorescence; in addition, DBE caused considerable tissue-shrinking artifacts compared to the gold standard BABB protocol. The CLARITY method considerably improved tissue transparency at later stages, but also decreased GFP fluorescence intensity. The SCALE clearing resulted in sufficient tissue transparency up to ED12.5; at later stages the useful depth of imaging was limited by tissue light scattering. The best method for the cardiac specimens proved to be the CUBIC protocol, which preserved GFP fluorescence well, and cleared the specimens sufficiently even at the adult stages. In addition, CUBIC decolorized the blood and myocardium by removing tissue iron. Good 3D renderings of whole fetal hearts and embryos were obtained with optical projection tomography and selective plane illumination microscopy, although at resolutions lower than with a confocal microscope. Comparison of five tissue clearing protocols and three imaging methods for study of GFP mouse embryos and hearts shows that the optimal method depends on stage and level of detail required. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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11. Prenatal Adaptations to Overload.
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Pesevski, Zivorad and Sedmera, David
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- 2013
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12. Ontogenesis of Myocardial Function.
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Sedmera, David and Ostadal, Bohuslav
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- 2012
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13. Stress and strain adaptation in load-dependent remodeling of the embryonic left ventricle.
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Buffinton, Christine M., Faas, Daniela, and Sedmera, David
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LEFT heart ventricle ,PHYSIOLOGIC strain ,CONFOCAL microscopy ,HEART development ,CHICKEN embryos ,CANCELLOUS bone ,BIOLOGICAL adaptation - Abstract
Altered pressure in the developing left ventricle (LV) results in altered morphology and tissue material properties. Mechanical stress and strain may play a role in the regulating process. This study showed that confocal microscopy, three-dimensional reconstruction, and finite element analysis can provide a detailed model of stress and strain in the trabeculated embryonic heart. The method was used to test the hypothesis that end-diastolic strains are normalized after altered loading of the LV during the stages of trabecular compaction and chamber formation. Stage-29 chick LVs subjected to pressure overload and underload at stage 21 were reconstructed with full trabecular morphology from confocal images and analyzed with finite element techniques. Measured material properties and intraventricular pressures were specified in the models. The results show volume-weighted end-diastolic von Mises stress and strain averaging 50–82 % higher in the trabecular tissue than in the compact wall. The volume-weighted-average stresses for the entire LV were 115, 64, and 147 Pa in control, underloaded, and overloaded models, while strains were 11, 7, and 4 %; thus, neither was normalized in a volume-weighted sense. Localized epicardial strains at mid-longitudinal level were similar among the three groups and to strains measured from high-resolution ultrasound images. Sensitivity analysis showed changes in material properties are more significant than changes in geometry in the overloaded strain adaptation, although resulting stress was similar in both types of adaptation. These results emphasize the importance of appropriate metrics and the role of trabecular tissue in evaluating the evolution of stress and strain in relation to pressure-induced adaptation. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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14. Metabolic characterization of volume overload heart failure due to aorto-caval fistula in rats.
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Melenovsky, Vojtech, Benes, Jan, Skaroupkova, Petra, Sedmera, David, Strnad, Hynek, Kolar, Michal, Vlcek, Cestmir, Petrak, Jiri, Benes, Jiri, Papousek, Frantisek, Oliyarnyk, Olena, Kazdova, Ludmila, and Cervenka, Ludek
- Abstract
Metabolic interactions between adipose tissue and the heart may play an active role in progression of heart failure (HF). The aim of the study was to examine changes in myocardial and adipose tissue metabolism and gene expression in a rat HF model induced by chronic volume overload. HF was induced by volume overload from aorto-caval fistula (ACF) in 3-month-old male Wistar rats and animals were studied in the phase of decompensated HF (22nd week). HF rats showed marked eccentric cardiac hypertrophy, pulmonary congestion, increased LV end-diastolic pressure, and intraabdominal fat depletion. HF rats had preserved glucose tolerance, but increased circulating free fatty acids (FFA) and attenuated insulin response during oral glucose challenge. Isolated organ studies showed preserved responsiveness of adipose tissue lipolysis and lipogenesis to epinephrine and insulin in ACF. The heart of HF animals had markedly reduced triglyceride content (almost to half of controls), attenuated anti-oxidative reserve (GSH/GSSG), upregulated HF markers (ANP, periostin, thrombospondin-4), specific signaling pathways (Wnt, TGF-β), and downregulated enzymes of mitochondrial fatty acid oxidation, citric acid cycle, and respiratory chain. Adipose tissue transcription profiling showed upregulated receptor for gastric inhibitory polypeptide. In conclusion, ACF-induced HF model displays several deregulations of systemic metabolism. Despite elevation of systemic FFAs, myocardial triglycerides are low and insulin levels are attenuated, arguing against a role of lipotoxicity or insulin resistance in this model. Attenuated postprandial insulin response and relative lack of its antilipolytic effects may facilitate intraabdominal fat depletion observed in ACF-HF animals. [ABSTRACT FROM AUTHOR]
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- 2011
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15. Publisher Correction: Participation of ventricular trabeculae in neonatal cardiac regeneration leads to ectopic recruitment of Purkinje-like cells.
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Boulgakoff L, Sturny R, Olejnickova V, Sedmera D, Kelly RG, and Miquerol L
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- 2024
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16. Participation of ventricular trabeculae in neonatal cardiac regeneration leads to ectopic recruitment of Purkinje-like cells.
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Boulgakoff L, Sturny R, Olejnickova V, Sedmera D, Kelly RG, and Miquerol L
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- Animals, Cell Proliferation, Hyperplasia pathology, Myocytes, Cardiac pathology, Myocytes, Cardiac physiology, Cell Lineage, Mice, Mice, Transgenic, Regeneration physiology, Animals, Newborn, Heart Ventricles pathology, Heart Ventricles physiopathology, Purkinje Fibers physiopathology, Purkinje Fibers physiology, Purkinje Fibers pathology
- Abstract
Unlike adult mammals, newborn mice can regenerate a functional heart after myocardial infarction; however, the precise origin of the newly formed cardiomyocytes and whether the distal part of the conduction system (the Purkinje fiber (PF) network) is properly formed in regenerated hearts remains unclear. PFs, as well as subendocardial contractile cardiomyocytes, are derived from trabeculae, transient myocardial ridges on the inner ventricular surface. Here, using connexin 40-driven genetic tracing, we uncover a substantial participation of the trabecular lineage in myocardial regeneration through dedifferentiation and proliferation. Concomitantly, regeneration disrupted PF network maturation, resulting in permanent PF hyperplasia and impaired ventricular conduction. Proliferation assays, genetic impairment of PF recruitment, lineage tracing and clonal analysis revealed that PF network hyperplasia results from excessive recruitment of PFs due to increased trabecular fate plasticity. These data indicate that PF network hyperplasia is a consequence of trabeculae participation in myocardial regeneration., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)
- Published
- 2024
- Full Text
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