Géographie du bal en France diversité régionale : production culturelle de l'espace local : acteurs /

Crozat, Dominique. Houssel, Jean-Pierre

January 1998

Reproduction de : Thèse de doctorat : Géographie : Lyon 2 : 1998. / Titre provenant de l'écran-titre. Notes bibliographiques.

Bals Bals

Der Ball : eine Kulturgeschichte des Gesellschaftstanzes im 18. und 19. Jahrhundert /

Fink, Monika.

January 1996

Diss.--Geisteswissenschaftlichen Fak.--Innsbruck--Universität, 1992. / Bibliogr. p. 217-237.

Human Umbilical Cord Perivascular Cells: Putative Stromal Cells for Hepatocytes

Gómez Aristizábal, Alejandro

21 August 2012

Liver failure, which is the result of liver injury and pathological inflammation, is currently only successfully treated by organ transplantation. However donor organ shortages preclude transplantation for many patients in need. Thus, bioartificial liver systems (BALS) are being developed as a bridge to transplantation, or to create an environment conducive to liver regeneration. Hepatocytes, the main functional cells of the liver, are the cells of choice for BALSs, but in standard conditions ex vivo, they rapidly suffer from a reduction of their functionality and viability. Coculture with stromal cells, for example bone marrow mesenchymal stromal cells (BM-MSC), has been shown to improve, and extend, hepatocyte function ex vivo up to 21 days. But, only small numbers of BM-MSCs can be harvested from adult volunteers. We have previously described an alternative, more plentiful, source of MSCs — human umbilical cord perivascular cells (HUCPVC) — that are easily expanded and non-alloreactive. Our hypothesis was that HUCPVCs are putative stromal cells for hepatocytes. Our results show that HUCPVCs improved hepatocyte albumin secretion, urea synthesis and maintained hepatocyte cytochrome activity and the expression of hepato-specific genes. Furthermore, there was a net proliferation of hepatocytes, which were polarized in coculture with HUCPVCs, as judged by functional bile canaliculi that were present for up to 40 days. We found that both soluble and non-soluble factors contributed to these effects, while neither was able to allow net proliferation individually. Moreover, HUCPVCs expressed both hepato-trophic and anti-inflammatory factors, at different levels to BM-MSCs, indicating the potential for differential hepato-therapeutics. We conclude that HUCPVCs are putative stromal cells for hepatocytes; they improve hepatocyte functionality, polarity, morphology and net proliferation, and thus present an opportunity for the improvement of both BALS function and liver therapy.

hepatocytes

mesenchymal

coculture

BALS

0379

Human Umbilical Cord Perivascular Cells: Putative Stromal Cells for Hepatocytes

Gómez Aristizábal, Alejandro

21 August 2012

Liver failure, which is the result of liver injury and pathological inflammation, is currently only successfully treated by organ transplantation. However donor organ shortages preclude transplantation for many patients in need. Thus, bioartificial liver systems (BALS) are being developed as a bridge to transplantation, or to create an environment conducive to liver regeneration. Hepatocytes, the main functional cells of the liver, are the cells of choice for BALSs, but in standard conditions ex vivo, they rapidly suffer from a reduction of their functionality and viability. Coculture with stromal cells, for example bone marrow mesenchymal stromal cells (BM-MSC), has been shown to improve, and extend, hepatocyte function ex vivo up to 21 days. But, only small numbers of BM-MSCs can be harvested from adult volunteers. We have previously described an alternative, more plentiful, source of MSCs — human umbilical cord perivascular cells (HUCPVC) — that are easily expanded and non-alloreactive. Our hypothesis was that HUCPVCs are putative stromal cells for hepatocytes. Our results show that HUCPVCs improved hepatocyte albumin secretion, urea synthesis and maintained hepatocyte cytochrome activity and the expression of hepato-specific genes. Furthermore, there was a net proliferation of hepatocytes, which were polarized in coculture with HUCPVCs, as judged by functional bile canaliculi that were present for up to 40 days. We found that both soluble and non-soluble factors contributed to these effects, while neither was able to allow net proliferation individually. Moreover, HUCPVCs expressed both hepato-trophic and anti-inflammatory factors, at different levels to BM-MSCs, indicating the potential for differential hepato-therapeutics. We conclude that HUCPVCs are putative stromal cells for hepatocytes; they improve hepatocyte functionality, polarity, morphology and net proliferation, and thus present an opportunity for the improvement of both BALS function and liver therapy.

hepatocytes

mesenchymal

coculture

BALS

0379

Outflow and Accretion Physics in Active Galactic Nuclei

McGraw, Sean Michael

21 September 2016

No description available.

Astrophysics

Astronomy

active galaxies

quasar outflows

broad absorption lines

supermassive black holes

accretion disks

AGN

BALs

LLAGN

mini-BALs

FeLoBALs

NGC 4203