659 research outputs found
Development of space stable, low solar absorptance, pigmented thermal control coatings Final report, 17 Oct. 1968 - 16 Oct. 1969
Theoretical models and spectral reflectance measurements of white pigmented, low solar absorptance coatings for spacecraft temperature contro
The underlying roles of macrophage populations in myocardial fibrosis
Myocardial fibrosis is one of the main structural changes following cardiomyocyte injury such as infarction. Macrophages play a central role in the development of fibrotic lesions. In myocardial fibrosis, three different populations of macrophages are recognized: exudate macrophages, resident macrophages, and interstitial dendritic cells. Exudate macrophages, which are derived from blood monocytes and recruited into injured areas through chemoattractants and cell adhesion molecules, release various fibrogenic growth factors in early stages of the fibrosis. Transforming growth factor-beta and platelet-derived growth factors are proposed as the most probable growth factors produced by exudate macrophages to induce the modulation of fibroblasts towards myofibroblasts. Emerging evidence shows that macrophage-secreted nerve growth factor may also be involved in that process. The myofibroblasts are capable of producing extracellular matrix proteins which contribute to myocardial fibrosis. The exudate macrophages also participate in the induction ofapoptosis in injured myocytes and myofibroblasts in the fibrotic lesions. These apoptotic cells are phagocytized by exudate macrophages, and the macrophages themselves also disappear by apoptosis. The decrease in cellularity by apoptosis leads to the evolution of fibrous granulation tissues into scar tissues (reparative fibrosis). The resident macrophages particiapte exclusively in the late stages of the myocardial fibrosis, when their mitotic activity increases in the lesions; they are presumed to have the same roles as the exudate macrophages. In addition, the resident macrophages and interstitial dendritic cells both act as immune mediators to recruit T-lymphocytes into the lesions. In contrast to hepatic, pulmonary, and renal fibrosis, the roles of macrophage populations in myocardial fibrosis has not yet been extensively investigated.Biomedical Reviews 1999; 10: 89-105
A CASE STUDY OF THROWING MOTION OF A MALE PARA- SHORT STATURE JAVELIN THROWER
The purpose of the present study was to investigate the throwing motion of a male para- short stature javelin thrower (F41) in a real competition using the 3D DLT method, compared with male able-bodied javelin throwers as reference. At the 119th Nippon Sport Science University Athletic Meet (March 27, 2021), one para- athlete who participated in the men\u27s javelin throw was videotaped with two video cameras. The release parameters of javelin such as the initial velocity and projection angle at the release, and body segments angle were calculated for the only one trial, the best. The features of para-athlete were clarified by comparing them with the able-bodied javelin throwers (n=13) as reference. The release parameters of javelin showed that there was large difference in the horizontal velocity of javelin between the para-athlete and the reference throwers (12.59 and 19.35 m/s). The para-athlete of short stature in the present study showed the delayed withdrawal of the left leg at R-on, the delayed initiation of the rotation of the hips and trunk during throwing phase, and the left foot pointing to the right at L-on
Immunohistochemical Expressions of Main PGE2 Biosynthesis-related Enzymes and PGE2 Receptor in Rat Nephrogenesis
Endogenous prostaglandin (PG) E2 plays important roles in renal homeostasis.
Immunoexpressions of PGE2 biosynthesis-related enzymes, cyclooxygenase (COX)-2
and microsomal PGE2 synthetase (mPGES)-1 and EP4 (a PGE2 receptor),
were investigated in renal development. Kidney tissues were obtained from fetuses on
gestation days 18 and 21 and neonates on days 1 to 18. In fetuses and early neonates, the
expressions of COX-2, mPGES-1 and EP4 were observed in developing renal tubules,
indicating that COX-2 and its product, PGE2, play important roles in blastemal
cell-derived renal tubular development via EP4. Cyclin D1 expression was seen in both the
nucleus and cytoplasm of the developing tubules. These findings differed from the
decreased COX-2 expression and exclusive nuclear expression of cyclin D1 seen in abnormal
epithelial regeneration of injured renal tubules in cisplatin-treated rats in our previous
articles. Collectively, PGE2, induced by COX-2, regulates renal tubular
epithelial formation via EP4
Metabolic Fingerprinting in Toxicological Assessment Using FT-ICR MS
Detection of the toxicity of a candidate compound at an early stage of drug
development is an emerging area of interest. It is difficult to determine all of
the effects of metabolism of a compound using traditional approaches such as
histopathology and serum biochemistry. The goal of a metabolomics approach is to
determine all metabolites in a living system, with the potential to detect and
identify biomarkers involved in toxicity onset. Here, we summarize the metabolic
fingerprints for detection and identification of metabolic changes and
biomarkers related to drug-induced toxicity using Fourier transform ion
cyclotron resonance mass spectrometry (FT-ICR MS)
Comparative Gene Expression Analysis in the Skeletal Muscles of Dysferlin-deficient SJL/J and A/J Mice
Quantitative real-time polymerase chain reaction (qRT-PCR) analysis was conducted to
determine whether or not there are interstrain or site-dependent differences in the gene
expression profiles of skeletal muscles in SJL/J and A/J mice as dysferlinopathy models.
Upon analysis by qRT-PCR, SJL/J mice showed a trend of increased gene expression level of
uncoupling protein 2 in the rectus femoris and longissimus lumborum at 30 weeks of age
when dystrophic lesions became histopathologically pronounced. Heme oxygenase 1 and S100
calcium binding protein A4 were upregulated in the rectus femoris, longissimus lumborum
and abdominal muscles, in which dystrophic lesions occur more commonly in SJL mice. The
gene expression levels of heat shock protein 70 in most muscles of A/J mice were lower
than those of BALB/c mice as control. SJL/J mice exhibited a marked lowering of
decay-accelerating factor 1/CD55 gene expression level in all studied muscles except for
the heart at all ages compared with that of BALB/c mice. This study showed that there were
some interstrain differences in the gene expres sion profiles of skeletal muscles between
SJL/J and A/J mice. Further investigation is required to reveal whether these alterations
of the expression levels are the cause of dystrophic changes or occur subsequent to muscle
damage
Paleolithic stone tools from the Hosono Site in Shunan city, Yamaguchi prefecture
Hosono site is a complex archaeological sites ranging from the Paleolithic Age to the Middle Ages. This sites situated at the upper stream of the Nishiki River in the Chugoku Mountains. This sites is located on a river terrace with an altitude around 255 m.
In this paper, we report on the Palaeolithic stone tools from Hosono site. These Paleolithic stone tools mainly consisted of tuff, and can be roughly classified three periods. The first is a stone spear head, which is positioned at the end of the Upper Paleolithic Age − the early Jomon Age. The second is a knife blade and a blade, which is positioned in the second half of the Upper Paleolithic Age. These stone tools are close relation with stone tools of the eastern Kyushu district. The third is a wide flake, a core, which is positioned in the first half of the late Paleolithic Age. The stone tools collected from this site are important materials for considering the use of raw materials for stone tools and the relations of human group in the Upper Paleolithic Age in Southwest Japan
Thy-1 Expressing Mesenchymal Cells in Rat Nephrogenesis in Correlation with Cells Immunoreactive for α-Smooth Muscle Actin and Vimentin
Thy-1 expression may influence myofibroblast development. Through the
epithelial-mesenchymal transition (EMT), injured renal epithelial cells undergo
regression to the metanephric mesenchymal phenotype and then acquire a
myofibroblastic nature (expressing α-smooth muscle actin; α-SMA). Because the
metanephric blastema differentiates into mesenchymal and renal epithelial cells,
we investigated Thy-1 immunoexpression during nephrogenesis in F344 rats in
correlation with vimentin and α-SMA expressions. Kidney samples were obtained
from fetuses on gestation days 18 and 21, neonates on days 1-18 and adults at 6
weeks of age. Mesangial cells in S-shaped bodies and immature and mature
glomeruli continuously expressed both Thy-1 and α-SMA during early nephrogenesis
(fetuses and neonates on days 1-9). During early nephrogenesis, loosely-arranged
blastemal cell-derived mesenchymal cells in the cortex and medulla also
exhibited Thy-1 and α-SMA, although the α-SMA expression was weaker than that of
Thy-1. Vimentin expression coincided with that of Thy-1. These findings indicate
that the derivation of α-SMA-expressing myofibroblastic cells may be related to
mesangial or blastemal cells expressing both Thy-1 and α-SMA. Interestingly,
there was a difference in Thy-1 expression between cortical and medullary
tubulointerstitial cells from late nephrogenesis (neonates on days 12-18) and
those from adults in that the cortical cells reacted faintly or negatively to
Thy-1, whereas the medullary cells reacted strongly to Thy-1; additionally,
bundle-arranged mesenchymal cells that were only observed in the neonates on
days 1-12 reacted strongly to α-SMA, but faintly to Thy-1. Blastemal
cell-derived mesenchymal cells seem to alter the immunoexpressions of Thy-1 and
α-SMA, depending on the conditions which they develop. Thy-1 immunoexpression
would be useful for investigation of reverse embryogenesis, which might occur in
fibrotic kidneys
A Rhabdomyosarcoma Arising in the Larynx of a Dog
A neoplastic nodular lesion, 2 × 3 cm in diameter, was found in the larynx of a
6-year-old spayed female dog. The tumor was ill-circumscribed, consisting histologically
of large round cells with abundant cytoplasm interspersed with small round cells with less
cytoplasm and occasional multinucleated cells (myotubes). Immunohistochemically, tumor
cells were positive for myoglobin, desmin and vimentin in varying degrees, but negative
for S-100 protein, GFAP or cytokeratin. Cytoplasmic myofilaments/myofibrils with a dense
Z-line-like structure were seen, the fine structures of which were complemented by PTAH
stain. Based on these findings, the tumor was diagnosed as a rhabdomyosarcoma, a very rare
tumor in the larynx of dogs
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