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Query: UMLS:C0432222 (SEM)
 47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study examined the role of marijuana smoking in the pathogenesis of human lung cancer by measuring DNA damage in alveolar macrophages (AM). The alkaline unwinding method was used to determine DNA single-strand breaks in AM lavaged from non-smokers [NS] and smokers of marijuana [MS], tobacco [TS] or cocaine [CS], either alone or in combination. DNA damage was related to superoxide anion (O2-) production by AM stimulated with phorbol myristate acetate (PMA) and to nitric oxide content of smoke using cellular nitrite (NO2-) concentrations. The percentage of double-stranded DNA present after alkaline unwinding was higher in AM of NS (41 +/- 5% [11]) and CS (41 +/- 4% [9]) versus that of MS (31 +/- 4% [8]), TS (35 +/- 3% [11]), MTS (26 +/- 4% [3]), and CTS (27 +/- 5%* [10]), mean +/- SEM [n], * = p < 0.1 vs. NS). PMA stimulated O2- production by AM from NS and CS was lower than that of other smokers, but the differences were not significant. O2- release, however, had an inverse correlation with DNA single-strand breaks (r = -0.38, p = 0.009). Nitrite content of AM from NS and CS was less than that of other smokers' cells (p < 0.1 for TS & CTS vs. NS), but DNA damage had no relationship to NO2- concentration. We conclude that AM recovered from MS, either alone or in combination with tobacco smoking, show a trend towards DNA damage. Studies utilizing a larger population should verify our findings and further define its relationship to enhanced oxidant production by macrophages.
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PMID:Effects of smoking marijuana, tobacco or cocaine alone or in combination on DNA damage in human alveolar macrophages. 777 50

Bone formation was investigated in vitro by culturing rat marrow stromal osteoblasts in biodegradable, macroporous poly(3-hydroxybutyric acid-co-3-hydroxyvaleric acid) (PHBV) matrices over a period of 60 days. Foams were prepared after solvent evaporation and solute leaching. PHBV solutions with different concentrations were prepared in chloroform: dichloromethane (1:2, v/v). In order to create a matrix with high porosity and uniform pore sizes, sieved sucrose crystals (300-500 microm) were used. PHBV foams were treated with rf-oxygen plasma (100 W 10 min) to modify their surface chemistry and hydrophilicity with the aim of increasing the reattachment of osteoblasts. Osteoblasts were isolated from rat bone marrow and seeded onto PHBV foams. The cell density on and in the foams was determined with MTS assay. MTS results showed that osteoblasts proliferated on PHBV. Twenty-one days after seeding of incubation, growth of osteoblasts on matrices and initiation of mineralization were observed by confocal laser scanning microscopy. Increasing ALP and osteocalcin secretion during 60 days confirmed the osteoblastic phenotype of the derived stromal cells. SEM, histological evaluations and confocal laser scanning microscopy showed that osteoblasts could grow inside the matrices and lead to mineralization. Cells exhibited spindle-like morphology and had a diameter of 10-30 microm. Based on these, it could confidently be stated that PHBV seems to be a promising polymeric matrix material for bone tissue engineering.
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PMID:Bone generation on PHBV matrices: an in vitro study. 1455 13

In this study, the aim was to produce tissue-engineered bone using osteoblasts and a novel matrix material, poly(3-hydroxybutyric acid-co-3-hydroxyvaleric acid) (PHBV). In order to prepare a porous PHBV matrix with uniform pore size, sucrose crystals were loaded in the foam and then leached leaving pores behind. The surface of the PHBV matrix was treated with rf-oxygen plasma to increase the surface hydrophilicity. SEM examination of the PHBV matrices was carried out. Stability of PHBV foams in aqueous media was studied. The pH decrease is an indication of the degradation extent. The weight and density were unchanged for a period of 120 days but then a significant decrease was observed for the rest of the study. Osteoblast cells were then isolated from rat bone marrow and seeded onto PHBV matrices. The metabolization and proliferation on the foams was determined with MTS assay which showed that osteoblasts proliferated on PHBV. It was also found that cells proliferated better on large pore size foams (300-500 microm) than on the small pore size foams (75-300 microm). Production of ALP was measured spectrophotometrically. The present study demonstrated that PHBV matrices are suitable substrates for osteoblast proliferation and differentiation.
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PMID:Poly(3-hydroxybutyric acid-co-3-hydroxyvaleric acid) based tissue engineering matrices. 1534 83

This study aimed at guiding osteoblast cells from rat bone marrow on chemically modified and patterned collagen films to study the influence of patterns on cell guidance. The films were stabilized using different treatment methods including crosslinking with carbodiimide (EDC) and glutaraldehyde, dehydrothermal treatment (DHT), and deposition of calcium phosphate on the collagen membrane. Mesenchymal osteoprogenitor cells were differentiated into osteoblasts and cultured for 7 and 14 days on micropatterned (groove width: 27 microm, groove depth: 12 microm, ridge width: 2 microm) and macropatterned (groove width: 250 microm, groove depth: 250 microm, ridge width: 100 microm) collagen films to study the influence of pattern dimensions on osteoblast alignment and orientation. Fibrinogen was added to the patterned surfaces as a chemical cue to induce osteoblast adhesion. Cell proliferation on collagen films was determined using MTS assay. Deposition of calcium phosphate on the surface of the film increased surface hydrophilicity and roughness and allowed a good cell proliferation. Combined DHT and EDC treatment provided an intermediate wettability, and also promoted cell proliferation. Glutaraldehyde crosslinking was found to lead to the lowest cell proliferation but fibrinogen adsorption on glutaraldehyde treated film surfaces increased the cell proliferation significantly. Macropatterns were first tested for alignment and only microscopy images were enough to see that there is no specific alignment. As a result of this, micropatterned samples with the topography that affect cell alignment and guidance were used. Osteoblast phenotype expression (ALP activity) was observed to be highest in calcium phosphate deposited samples, emphasizing the effect of mineralization on osteoblast differentiation. In general ALP activity per cell was found to decrease from day 7 to day 14 of incubation. SEM and fluorescence microscopy revealed good osteoblast alignment and orientation along the axis of the patterns when micropatterned films were used. This study shows that it is possible to prepare cell carriers suitable for tissue engineering through choice of appropriate surface topography and surface chemistry. Presence of chemical cues and micropatterns on the surface enhance cell orientation and bone formation.
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PMID:Bone tissue engineering on patterned collagen films: an in vitro study. 1557 72

Von Hippel-Lindau (VHL) gene is a tumor suppressor gene that plays a genome "gatekeeper'' role and controls several downstream effector genes. We have previously demonstrated that both in vivo and in vitro adenovirus-mediated gene transfer of tumor suppressor genes into the vascular endothelium is effective in decreasing neointimal hyperplasia and abnormal cell proliferation. The degree of apoptosis induced by these genes is critical in mediating the in vivo responses to gene therapy and the maintenance of the crucial balance between cell death and viability. Since VHL gene is known to regulate vascular endothelial growth factor (VEGF) as well as other angiogenic factors, it may exhibit a greater potential in the attenuation of vascular disorders in comparison to other tumor suppressor genes. This study focused on whether adenovirus-mediated VHL gene transfer into human vascular smooth muscle cells has an effect on cell proliferation and induction of apoptosis. Human aortic smooth muscle cells (HASMC) were grown as monolayers and transfected with varying titers of adenovirus containing the VHL cDNA (AdVHL). The negative controls were adenovirus containing green fluorescent protein (AdGFP), vector alone (AdNull), and virus-free infection medium. Adenovirus encoding wild-type p53 (Adp53) was used as positive control. Cell viability and proliferation were determined by using trypan blue exclusion and MTS-based CellTiter 96 AQ Proliferation Assay. Apoptosis was evaluated by TUNEL assay, morphologic changes, and nucleosomal DNA degradation. Following AdVHL transfection HASMCs demonstrated a dose-dependent decrease in viability as compared to negative controls (p < 0.05). AdVHL-transfected cells exhibited a decrease in their proliferative ability by 40.21 +/-1.66 (SEM)%. In cultures transfected with the positive control, Adp53, the cell viability as well as proliferation was highly reduced (p < 0.001). AdGFP and AdNull did not increase HASMC apoptosis above baseline levels. The cells exposed to adenoviruses expressing tumor suppressor genes underwent apoptosis, with Adp53 demonstrating a very high magnitude of cell death (75.27 +/-3.52 [SEM]%). AdVHL expression caused 45.36 +/-2.55 (SEM)% apoptosis in HASMC. Recombinant adenovirus-mediated VHL expression is efficacious in limiting vascular smooth muscle cell growth in vitro. Overexpression of VHL suppresses HASMC proliferation and regulates apoptosis. Further experiments are indicated to examine whether VHL may be a useful adjunct in limiting myointimal hyperplasia.
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PMID:The effect of von hippel-lindau gene transfer on human vascular smooth muscle cell proliferation and apoptosis. 1569 45

Human mammary carcinoma MCF-7 cell line responsiveness to the pteridines xanthopterin and isoxanthopterin was studied using the MTS assay for measurement of cell viability. The pteridines were tested at concentrations ranging from 7.8 to 500 microM singly and in 11 isoxanthopterin:xanthopterin ratios. IC50s of xanthopterin and isoxanthopterin were 109+/-13 microM (mean+/-SEM of y estimate) and 103+/-9 microM, respectively. The IC50 values for pteridine mixtures were similar although 3:1 and 4:1 isoxanthopterin:xanthopterin ratios seemed slightly more cytotoxic than other mixtures. However, ANOVA revealed no statistical differences in the cytotoxicity of mixtures.
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PMID:Cytotoxicity of xanthopterin and isoxanthopterin in MCF-7 cells. 1583 49

Biodegradable polycaprolactone and collagen nanofibers were produced by electrospinning, with fiber diameters of around 300-700nm and features similar to the extracellular matrix of natural tissue. Human coronary artery smooth muscle cells (SMCs) seeded on nanofibrous matrices tend to maintain normal phenotypic shape and growth tends to be guided by the nanofiber orientation. The SMC and nanofibrous matrix interaction was observed by SEM, MTS assay, trypan blue exclusion method and laser scanning confocal microscopy. The results showed that the proliferation and growth rate of SMCs were not different on polycaprolactone (PCL) nanofibrous matrices coated with collagen or tissue culture plates. PCL nanofibrous matrices coated with collagen showed that the SMCs migrated towards inside the nanofibrous matrices and formed smooth muscle tissue. This approach may be useful for engineering a variety of tissues in various structures and shapes, and also to demonstrate the importance of matching both the initial mechanical properties and degradation rate of nanofibrous matrices to the specific tissue engineering.
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PMID:In vitro study of smooth muscle cells on polycaprolactone and collagen nanofibrous matrices. 1615 63

Nerve tissue engineering is one of the most promising methods to restore nerve systems in human health care. Scaffold design has pivotal role in nerve tissue engineering. Polymer blending is one of the most effective methods for providing new, desirable biocomposites for tissue-engineering applications. Random and aligned PCL/gelatin biocomposite scaffolds were fabricated by varying the ratios of PCL and gelatin concentrations. Chemical and mechanical properties of PCL/gelatin nanofibrous scaffolds were measured by FTIR, porometry, contact angle and tensile measurements, while the in vitro biodegradability of the different nanofibrous scaffolds were evaluated too. PCL/gelatin 70:30 nanofiber was found to exhibit the most balanced properties to meet all the required specifications for nerve tissue and was used for in vitro culture of nerve stem cells (C17.2 cells). MTS assay and SEM results showed that the biocomposite of PCL/gelatin 70:30 nanofibrous scaffolds enhanced the nerve differentiation and proliferation compared to PCL nanofibrous scaffolds and acted as a positive cue to support neurite outgrowth. It was found that the direction of nerve cell elongation and neurite outgrowth on aligned nanofibrous scaffolds is parallel to the direction of fibers. PCL/gelatin 70:30 nanofibrous scaffolds proved to be a promising biomaterial suitable for nerve regeneration.
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PMID:Electrospun poly(epsilon-caprolactone)/gelatin nanofibrous scaffolds for nerve tissue engineering. 1875 94

Nanotechnology has enabled the engineering of nanostructured materials to meet current challenges in bone replacement therapies. Biocomposite nanofibrous scaffolds of poly(l-lactic acid)-co-poly(epsilon-caprolactone), gelatin and hydroxyapatite (HA) were fabricated by combining the electrospinning and electrospraying techniques in order to create a better osteophilic environment for the growth and mineralization of osteoblasts. Electrospraying of HA nanoparticles on electrospun nanofibers helped to attain rough surface morphology ideal for cell attachment and proliferation and also achieve improved mechanical properties than HA blended nanofibers. Nanofibrous scaffolds showed high pore size and porosity up to 90% with fiber diameter in the range of 200-700 nm. Nanofibrous scaffolds were characterized for their functional groups and chemical structure by FTIR and XRD analysis. Studies on cell-scaffold interaction were carried out by culturing human fetal osteoblast cells (hFOB) on both HA blended and sprayed PLACL/Gel scaffolds and assessing their growth, proliferation, mineralization and enzyme activity. The results of MTS, ALP, SEM and ARS studies confirmed, not only did HA sprayed biocomposite scaffolds showed better cell proliferation but also enhanced mineralization and alkaline phosphatase activity (ALP) proving that electrospraying in combination with electrospinning produced superior and more suitable biocomposite nanofibrous scaffolds for bone tissue regeneration.
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PMID:Nanostructured biocomposite substrates by electrospinning and electrospraying for the mineralization of osteoblasts. 1916 52

We have synthesized methacrylate-endcapped caprolactone networks with tailored water sorption ability, poly(CLMA-co-HEA), in the form of three-dimensional (3D) scaffolds with the same architecture but exhibiting different hydrophilicity character (x(HEA)=0, 0.3, 0.5), and we investigated the interaction of goat bone marrow stromal cells (GBMSCs) with such structures. For this purpose, GBMSCs were seeded and cultured for 3, 7, 14, 21, and 28 days onto the developed scaffolds. Cells have proliferated throughout the whole scaffold volume. Cell adhesion and morphology were analyzed by SEM, whereas cell viability and proliferation was assessed by MTS test and DNA quantification concluding that numbers of cells increased as a function of the culturing time (until day 14) and also with the hydrophobic content in the samples (from 50 to 100% of CLMA). No significant difference between samples with 100% and 70% of CLMA were detected in some cases. Osteoblastic differentiation was followed by assessing the alkaline phosphatase activity of cells, as well as type I collagen and osteocalcin expressions levels until day 21. The three markers were positive at days 14 and 21 when cells were cultured in 100% CLMA substrates which suggests osteoblastic differentiation of mesenchymal stem cells within these scaffolds. On the other hand, when the CLMA content decreases (until 50%), type I collagen and osteocalcin were positive but ALP was negative indicating that the differentiation process is affected by hydrophilic content. We suggest that such system may be useful to extract information on the effect of materials' wettability on the corresponding biological performance in a 3D environment. Such general insights may be relevant in the context of biomaterials selection for tissue engineering strategies.
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PMID:Proliferation and differentiation of goat bone marrow stromal cells in 3D scaffolds with tunable hydrophilicity. 1944 Nov 19


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