3,021 research outputs found
Incidence and type of bicuspid aortic valve in two model species
Incidence and type of bicuspid aortic
valve in two model species.
MC Fernández 1,2, A López-García 1,2, MT Soto 1,
AC Durán 1,2 and B Fernández 1,2.
1 Department of Animal Biology, Faculty of Science, University of Málaga, Spain.
2 Biomedical Research Institute of Málaga (IBIMA),
University of Málaga, Spain.
Bicuspid aortic valve (BAV) is the most frequent human congenital cardiac malformation, with an incidence of 1–2% worldwide. Two morphological types exist: type A (incidence 0.75–1.25%) and type B (incidence 0.25–0.5%), each with a distinct aetiology and natural history. Currently, ten animal models of BAV have been described in two different rodent species: one spontaneous Syrian hamster (Mesocricetus auratus) model of BAV type A and nine mutant laboratory mouse (Mus musculus) models of BAV type B. It remains to be elucidated whether the mutations leading to BAV in these models are typespecific or whether there are inter-specific differences regarding the type of BAV that hamsters, mice and humans may develop.
To solve this issue, we have characterized the incidence and types of BAVs in four inbred, two outbred and two hybrid lines of Syrian hamsters (n=4,340) and in three inbred, three outbred and one hybrid lines of laboratory mice (n=1,661) by means of stereomicroscopy and scanning electron microscopy. In addition, we have reviewed and calculated the incidence and type of BAVs in the published papers dealing with this anomaly in mice.
Our results indicate that the Syrian hamster develops BAVs type A and B including a variety of morphologies comparable to those of humans, whereas the mouse develops only BAVs type B with a short spectrum of valve morphologies. Thus, inter-specific differences between human and mouse aortic valves must be taken into consideration when studying valve disease in murine models.
This work was supported by P10-CTS-6068.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech. P10-CTS-6068
Is the bulbus arteriosus of fish homologous to the mamalian intrapericardial thoracic arteries?
El resumen aparece en el Program & Abstracts of the 10th International Congress of Vertebrate Morphology, Barcelona 2013.Anatomical Record, Volume 296, Special Feature — 1: P-089.Two major findings have significantly improved our understanding of the
embryology and evolution of the arterial pole of the vertebrate heart (APVH): 1) a
new embryonic presumptive cardiac tissue, named second heart field (SHF), forms
the myocardium of the outflow tract, and the walls of the ascending aorta (AA) and
the pulmonary trunk (PT) in mammals and birds; 2) the bulbus arteriosus (BA),
previously thought to be an actinopterygian apomorphy, is present in all basal
Vertebrates, and probably derives from the SHF. We hypothesized that the
intrapericardial portions of the AA and the PT of mammals are homologous to the
BA of basal vertebrates. To test this, we performed 1) a literature review of the
anatomy and embryology of the APVH; 2) novel anatomical, histomorphological,
and embryological analyses of the APVH, comparing basal (Galeus atlanticus), with
apical (Mus musculus and Mesocricetus auratus) vertrebrates. Evidence obtained:
1) Anatomically, BA, AA, and PT are muscular tubes into the pericardial cavity,
which connect the distal myocardial outflow tracts with the aortic arch system.
Coronary arteries run through or originate at these anatomical structures; 2)
Histologically, BA, AA, and PT show an inner layer of endothelium covered by
circumferentially oriented smooth muscle cells, collagen fibers, and lamellar
elastin. The histomorphological differences between the BA and the ventral aorta
parallel those between intrapericardial and extrapericardial great arteries; 3)
Embryologically, BA, AA, and PT are composed of smooth muscle cells derived
from the SHF. They show a similar mechanism of development: incorporation of
SHF‐derived cells into the pericardial cavity, and distal‐to‐proximal differentiation
into an elastogenic cell linage.
In conclusion, anatomical, histological and embryological evidence supports the
hypothesis that SHF is a developmental unit responsible for the formation of the
APVH. The BA and the intrapericardial portions of the great arteries must be
considered homologous structures.Proyecto P10-CTS-6068 (Junta de Andalucía); proyecto CGL-16417 (Ministerio de Ciencia e Innovación); Fondos FEDER
Different laboratory mouse strains show distinct coronary artery patterns
Different laboratory mouse strains show distinct coronary artery patterns.
MC Fernández 1,2, A López-García 1,2, M Lorenzale 1, V Sans-Coma 1,2, AC Durán 1,2 and B Fernández 1,2.
1 Department of Animal Biology, Faculty of Science, University of Málaga, Spain.
2 Biomedical Research Institute of Málaga (IBIMA),
University of Málaga, Spain. The C57BL/6 (BL/6) mouse strain is one of the most
common models in research involving laboratory animals, particularly on studies of the cardiovascular system. It has been reported (Fernandez B, et al. J Anat 2008 212(1):12–18) that this strain presents an unusual coronary artery (CA) pattern, including congenital CA anomalies, which are clinically relevant in humans. The aim of the present study was to elucidate whether this pattern is strain-specific or appears in other mouse populations.
We used stereomicroscopy, scanning electron
microscopy, light microscopy, and a corrosion cast
technique in 597 adult mice belonging to three
inbred strains (BL/6, Balb/c, DBA/2), three outbred stocks (CD1, OF1, NMR1), two hybrid lines (129sv x BL/6, CD2F1) and wild mice.
Lock-like ostium was only detected in BL/6 mice,
whereas left septal artery, accessory ostium, high
take-off, intramural course, and solitary ostium of one CA in aorta were present in different laboratory strains and in wild mice. However, each mouse population showed a specific incidence of these coronary conditions.
These results should be taken into account when
studying the murine coronary system, especially in
CA occlusion experiments and in studies on cardiovascular development involving murine mutant lines. In addition, we propose that several laboratory mouse strains may serve as appropriate animal models to study several clinically relevant human congenital anomalies of the CAs. Our results suggest that some of these CA anomalies are subject to a simple mode of inheritance.
This work was supported by P10-CTS-6068 and PI-
0888-2012.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech. P10-CTS-6068. PI-0888-201
The bulbus arteriosus of the holocephalan heart
El resumen aparece en el Program & Abstracts of the 10th International Congress of Vertebrate Morphology, Barcelona 2013.Anatomical Record, Volume 296, Special Feature — 1: P-074.Previous work has shown that the outflow tract of the elasmobranch heart, namely the
cardiac portion intercalated between the ventricle and the ventral aorta, does not consist
of a single component, the conus arteriosus, as has classically been assumed, but two,
the myocardial conus arteriosus and the non-myocardial bulbus arteriosus. From the
evolutionary perspective, knowledge of the anatomy of the cardiac outflow tract of the
holocephali is important, as they are the sister group of elasmobranchs. Our aim is to
describe the cardiac outflow tract of four holocephalan species, two of them, Chimaera
monstrosa and Hydrolagus affinis of the family Chimaeridae, and the other two, Harriotta
raleighana and Rhinochimaera atlantica, of the family Rhinochimaeridae. The cardiac
outflow tract of the four species consisted of a myocardial conus arteriosus, furnished
with valves, and a bulbus arteriosus devoid of cardiac muscle. Both the bulbus and
conus are tubular in shape. The length of the bulbus relative to the total length of the
outflow tract is somewhat smaller in the rhinochimaerids (15%-19%) than in the
chimaerids (19%-23%). The bulbus is covered by epicardium and is crossed by the main
coronary artery trunks. Histologically, the bulbus is mainly composed of elastin and
collagen, and, to a lesser extent, by smooth muscle. This suggests that in
holocephalans, the bulbus actively helps to protect the gill vasculature from exposure to
high-pressure pulses of blood. Our results prove that the bulbus arteriosus is common to
chondrichthyans. In addition, they support the hypothesis that the cardiac outflow tract
consisted of a conus arteriosus and a bulbus arteriosus from the beginning of the jawed
vertebrate radiation, contributing to our understanding of the morphological changes that
have occurred at the arterial pole of the heart in both actinopterygians and
sarcopterygians.Proyecto CGL2010-16417/BOS; Fondos FEDE
MYOCARDIAL STRUCTURE AND VASCULARIZATION OF THE HEART VENTRICLE IN HOLOCEPHALI: IMPLICATIONS FOR HEART EVOLUTION
El resumen aparece en el Program & Abstracts of the 10th International Congress of Vertebrate Morphology, Barcelona 2013. Anatomical Record, Volume 296, Special Feature — 1: P-075.It has been classically assumed that the ventricle of the primitive vertebrate heart is
composed of spongy myocardium, supplied exclusively by oxygen-poor, luminal blood.
This idea is on two facts: (1) extant agnathans have a spongy ventricular myocardium,
and (2) in avian and mammalian embryos, the formation of trabeculated myocardium
precedes the appearance of compact myocardium. Recently, it has been proposed that,
like elasmobranchs, the early gnathostomes possess a fully vascularised ventricle
composed of mixed myocardium. We tested this idea by studying the structure and
vascularisation of the ventricular myocardium in four holocephalan species of the
families Chimaeridae and Rhinochimaeridae. Chimaera monstrosa, Hidrolagus affinis
and Harriotta raleighana have a spongy myocardium covered by a thin layer of cardiac
muscle. In H. raleighana, the compacta is reduced to an extremely fine rim. In all three
species there is a well-developed coronary artery system consisting of subepicardial
vessels which give off branches that penetrate the myocardial trabeculae.
Rhinochimaera atlantica has no compacta and its ventricular coronary artery system is
reduced to subepicardial vessels that do not enter the spongy layer. This report is the
first to show that in wild living vertebrates, a coronary artery system supplying the whole
myocardium exists in the absence of a well-developed compacta, which supports
experimental work that shows that myocardial cell proliferation and coronary vascular
growth rely on genetically separated programs. We conclude that the mixed ventricular
myocardium is primitive for chondrichthyans, and that the lack of compacta in some
holocephalans is a derived character. Moreover our results support the hypotheses that
the mixed myocardium is the primitive condition in gnathostomes, and that the absence
of a compacta in different actinopterygian taxa is the result of its repeated loss during
evolution.Proyecto CGL2010-16417/BOS; Fondos FEDE
The Myosin Heavy Chain specific A4.1025 antibody discriminates different cardiac segments in ancient groups of gnathostomes: Morphological and evolutionary implications
El resumen aparece en el Program & Abstracts of the 11th International Congress of Vertebrate Morphology, Washington DC 2016. Anatomical Record, Volume 299, Special Feature: 263.The pan-Myosin Heavy Chain (pan-MyHC) marker MF20 have been reported to show similar, homogeneous signal in the myocardial segments of the heart of teleosts and tetrapods. However, in an ongoing study of the myocardial structure of the dogfish (Scyliorhinus canicula; Chondrichthyes), we observed differential immunostaining of the cardiac segments using another pan-MyHC, the A4.1025 antibody. In order to investigate the
relevance of this finding for better understanding of the morphology and evolution of the vertebrate heart, we performed immunohistochemistry, slot blot and western blot in several species of chondrichthyans, actinopterygians and mammals using the above mentioned antibodies. In the dogfish heart, A4.1025 and MF20 specifically recognized MyHC isoforms, although with different degree of affinity. MF20 reactivity was homogeneous and high in all the myocardial segments. However, A4.1025 reactivity was heterogeneous. It was high in the sinus venosus (external layer), atrium and atrioventricular region, low in the ventricle and conus arteriosus, and null in the internal layer of the sinus venosus. A heterogeneous pattern of A4.1025 immunoreactivity was also detected in two other elasmobranchs, a holocephalan, a polypteryform and an acipenseriform. In all of these species, MF20 immunoreactivity was homogeneous. In addition, both markers showed a homogeneous immunoreactivity pattern in teleosts and mammals. Our results indicate that in the hearts of ancient gnathostomes, in all of which a conspicuous conus arteriosus exists, one or more MyHC isoforms with low affinity for A4.1025 show segment-specific distributions. Thus, A4.1025 appears to be an appropriated marker to identify the cardiac segments and their boundaries. We propose that the segmentspecific distribution of MyHC isoforms may generate a particular type of myocardial contractility associated with the
presence of a conus arteriosus.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech. CGL2014-52356-P, CEIMAR, BIO 203, FEDE
Defensa flexible
Este trabajo trata la defensa material como la técnica conforman uno de los principios constitucionales garantizados en aras de preservar el debido proceso en todas las actuaciones judiciales y administrativa, aun cuando se ha señalado que en el proceso administrativo la defensa es laxa, a diferencia de lo que ocurre en el campo penal, es propósito de esta investigación plantear las diferentes posturas de la jurisprudencia y la doctrina en aras de preservar a cabalidad esta garantía en el procedimiento disciplinario y precisar si en efecto la facultad que se otorga al sujeto disciplinable para asistir a la versión libre asistido o no, por defensor idóneo, resulta lesivo para sus derechos
Effect of hyperlipidic diets on normal and abnormal aortic valves in the Syrian hamster: A preliminary study
Effect of hyperlipidic diets on normal and abnormal aortic valves in the Syrian hamster: A preliminary study.
MC Fernández 1,2, J Moncayo-Arlandi 1, MT Soto 1,
MA López-Unzu 1, B Fernández 1,2 and AC Durán 1,2.
1 Department of Animal Biology, Faculty of Science, University of Málaga, Spain.
2 Biomedical Research Institute of Málaga (IBIMA),
University of Málaga, Spain.
Bicuspid aortic valve (BAV) is the most frequent
human congenital cardiac malformation. It frequently becomes stenotic due to calcification by an atherosclerosis-like process. Hyperlipidic diets have been classically used to induce atherosclerosis in laboratory animals, including Syrian hamsters. The aim here is to evaluate the effect of hyperlipidic diets in hamsters having different incidence of BAVs.
We used a unique inbred strain of Syrian hamsters with a high ( 40%) incidence of spontaneous BAV, morphologically similar to that in man, another inbred strain with a low ( 4%) incidence of BAV, and an outbred, second control line, acquired from Charles River Laboratories. Three experimental groups were fed with standard diet supplemented with 2% cholesterol plus 15% butter during five months. In parallel, three control groups were fed with unmodified standard diet.
Hyperlipidic diets induced lesions in the aortic valve and ascending aortic wall, i.e. subendothelial lipid deposits, valve sclerosis, and neo-intima in the aorta. We performed a preliminary, qualitative, comparative study of the lesions associated with the different animal populations and valvular phenotypes.
Our results indicate that (1) the type and severity of the lesions varied among the three hamster populations, suggesting that genetic factors may be involved; (2) the aortic valve morphology seems not to determine the severity of the valvular lesions. We conclude that our hamster strain with high incidence of BAV is a promising animal model for studies on human aortic stenosis.
This work was supported by P10-CTS-6068.Universidad de Málaga. Campus de Excelencia Andalucía Tech. P10-CTS-6068
Dual band circular polarization selector using asymmetric SRR mirrors
In this work we aim to design circularly polarized flat mirror/reflectarray to work at a dual frequency. The design approach uses
a unit cell made by four assymetrical split-ring resonators with an opposite rotation plus an element size variation, a seen in Fig.1
Fig. 1. Proposed structure (unit cell). The SRRs are made
on copper on a FR4 substrate. There is a metallic (copper)
plane mirror behind the structure. The inner rings have a
radius of 5.8 mm (1st and 3rd quadrant) and 5mm (2nd and
4th quadrant). The outer rings have a radius of 10.2mm
and 10mm, respectively.
As we may see in Fig.2, the proposed structure presents a dual-band circular polarization selection: in the band around 2.97 GHz
it absorbs LHCP incident waves while reflecting LHCP incident waves, doing the opposite around 3.28 GHz
Fig. 2. Reflection coefficient for a circularly polarized
wave normally incident on a structure as shown in Fig.1.
The superindexes +/- stand for right-handed/left-handed
circular polarized waves
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