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Query: UMLS:C0851184 (
thinning
)
11,252
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Focal small bowel perforation (FSBP) is a life-threatening event that predominantly affects extremely low birth weight (ELBW) infants. Histopathology from surgical specimens of ileum with FSBP shows a healthy mucosa overlying a thinned muscularis with segmental degeneration. Clinical data strongly support an association between early postnatal administration of dexamethasone (EPD) and FSBP. Additional risk factors, including gestational age, administration of prophylactic indomethacin, and severity of illness, may be synergistic with EPD for the pathogenesis of perforations. Animal models of dexamethasone administration show morphologic changes in the ileum, similar to those seen in ELBW infants, including increased mucosal maturation and
thinning
of the muscularis. These tissue-specific differences may be mediated by a perturbation in growth factor expression or accumulation. In support of this hypothesis, dexamethasone has been associated with increased
IGF-I
immunolocalization in the mucosa and decreased immunolocalization in the muscularis. The known growth-promoting functions of
IGF-I
are consistent with the observed dexamethasone-associated changes within both the mucosa and the muscularis. Ongoing studies in this animal model are exploring the potential mechanisms by which dexamethasone might affect
IGF-I
availability.
...
PMID:The clinical, morphologic, and molecular changes in the ileum associated with early postnatal dexamethasone administration: from the baby's bowel to the researcher's bench. 1116 34
Bone loss and long-term persistence of osteoporosis with increased fracture risk are common after liver transplantation. It is unknown whether transplantation-induced disruption of hepatic nerves, serving numerous regulatory metabolic and sensory functions, is herein involved. To test this possibility, we measured bone mineral density (BMD) by peripheral quantitative computed tomography (pQCT) and studied dynamic histomorphometry, radiocalcium kinetics, and biochemical parameters in 7 liver-transplanted and 7 sham-operated inbred rats. Although liver function was normal in TX rats, trabecular BMD of the first lumbar vertebra and total BMD of the femoral diaphysis were decreased by 13% and 6%, respectively, 9 months postsurgery. The breaking force of the femur was significantly lower by 21%. However, bone mass in the femoral and tibial metaphysis was preserved as evidenced by pQCT measurements and histomorphometry. Trabecular width and wall thickness were significantly decreased in vertebral cancellous bone, whereas indices of bone formation and resorption were normal or slightly reduced. Serum minerals, mineral balance, fractional and net absorption of Ca and Mg, serum calciotropic hormones,
IGF-I
, leptin, specific activity of 45Ca in bone, 45Ca excretion, and biochemical indices of bone formation and bone resorption remained unchanged. We conclude that liver transplantation-related denervation causes cancellous and cortical bone loss in well-innervated bone sites such as the lumbar spine and the long bone diaphysis. Cancellous bone loss in TX rats is due to an impairment of osteoblast team performance and subsequent trabecular
thinning
. The mechanism uncovered by our study may contribute to long-term bone loss after liver transplantation.
...
PMID:Regional bone loss after orthotopic liver transplantation in inbred rats: the role of hepatic denervation. 1220 Jun 52
Spontaneous intestinal perforations in extremely premature infants are associated with glucocorticoid-induced
thinning
of the ileal bowel wall. We have previously demonstrated that insulin-like growth factor-1 (IGF-1) is abundant within the submucosa of the newborn mouse ileum but is diminished by glucocorticoid exposure, concomitant with bowel wall
thinning
. These findings prompted us to hypothesize that
IGF-I
governs submucosal growth during neonatal gut development and that diminished
IGF-I
abundance results in submucosal
thinning
. Heterozygous
IGF-I
knockout, wild type and homozygous
IGF-I
over-expresser newborn mice were euthanized at 3 d of life. Additionally, wild type newborn mice received daily dexamethasone (DEX) (1microg/gm/d) or vehicle control on days of life 1 and 2 and were also euthanized at 3 d of life. Their ileums were harvested, fixed and the resulting sections were processed in parallel for
IGF-I
immunohistochemistry and morphometric measurements of submucosal thickness and bowel diameter. Immunolocalization of
IGF-I
in each genotype was also compared with that seen in DEX-treated and control mice euthanized at the same time of life.
IGF-I
heterozygous knockouts had diminished submucosal
IGF-I
immunolocalization (similar to that seen in DEX-treated newborn mice) whereas homozygous
IGF-I
over-expressers exceeded that seen within wild type mice.
IGF-I
genotype and submucosal abundance was positively correlated with ileal submucosal thickness. DEX treatment of newborn mice diminished
IGF-I
and caused significant
thinning
of the submucosa compared with controls. Submucosal growth and thickness in the neonatal mouse ileum is governed by
IGF-I
and is diminished by dexamethasone treatment.
...
PMID:Insulin-like growth factor-I governs submucosal growth and thickness in the newborn mouse ileum. 1468 93
Microgravity decreases osteoblastic activity, induces actin microfilament disruption and inhibits the responsiveness of osteoblast to cytokines, but the mechanisms remains enigmatic. The F-actin cytoskeleton has previously been implicated in manifold changes of cell shape, function and signaling observed under microgravity. Here we investigate the involvement of microfilament in mediating the effects of microgravity and BMP2 induction on Cbfa1 activity. For this purpose we constructed a fluorescent reporter cell line (OSE-MG63) of Cbfa1 activity by stably transfecting MG63 cells with a reporter consisting of six tandem copies of OSE2 and a minimal mOG2 promoter upstream of enhanced green fluorescent protein (EGFP). The fluorescence intensity of OSE-MG63 showed responsiveness to bone-related cytokines (
IGF-I
, vitamin D3 and BMP2) and presented an accordant tendency with alkaline phosphatase (ALP) activity. Using OSE-MG63 reporter fluorescence, we performed a semi-quantitative analysis of Cbfa1 activity after treatment with simulated microgravity, microfilament-disrupting agent (cytochalasin B, CB), microfilament-stabilizing agent (Jasplakinolide, JAS) or any combination thereof. In parallel, ALP activity, DNA binding activity of Cbfa1 to OSE2 (ChIP), F-actin structure (immunofluorescence) and EGFP mRNA expression (RT-qPCR) were analyzed. Simulated microgravity inhibited Cbfa1 activity, affected the responsiveness of Cbfa1 to cytokine BMP2, and caused a
thinning
and dispersed distribution of microfilament. Under normal gravity, CB significantly attenuated BMP2 induction to Cbfa1 activity as well as DNA binding activity of Cbfa1 to OSE2. The addition of JAS reversed the inhibitory effects of microgravity on the responsiveness of Cbfa1 to BMP2. Our study demonstrates that disrupting the microfilament organization by CB or simulated microgravity attenuates the responsiveness of Cbfa1 to BMP2. A stabilization of the microfilament organization by JAS reverses this inhibition. Taken together, these results suggest that actin microfilament participates in BMP2's induction to Cbfa1 activity and that their disruption might be an important contributor to microgravity's inhibition on BMP2's osteogenic induction.
...
PMID:Actin microfilament mediates osteoblast Cbfa1 responsiveness to BMP2 under simulated microgravity. 2367 97
