Mcintyrebendixen7014

BACKGROUND The penumbra occlusion device (POD) is a recently developed metallic coil with a unique anchor segment. The purpose of this study was to investigate the anchoring function of the POD for embolization of medium-sized vessels in detail. MATERIALS AND METHODS We reviewed a series of cases of proximal embolization of medium-sized vessels in which the POD was used. Endovascular outcomes and complications were assessed. The distance between the distal end of the first-indwelled POD and the microcatheter tip was defined as the "landing distance," and this was also evaluated via fluoroscopic analysis. RESULTS POD deployment was successful in 17 of 18 patients. The median landing distance was 9.6 mm, and no distal POD migration was observed after the formation of anchor loops. CONCLUSIONS The specific anchoring function of the POD enables effective proximal occlusion of medium-sized vessels.PURPOSE Glioblastoma multiforme (GBM) is a common and aggressive malignancy associated with poor prognosis. Characteristics and treatment of long-term survivors are of particular interest in efforts to improve outcomes. Therefore, the objective of this study was to examine trends and prognostic factors for 3-year survival from a national database. METHODS The National Cancer Database (NCDB) was queried for patients diagnosed with cranial GBM from 2004 to 2013 and with 3-year follow-up. Trends in 3-year and overall survival, patient characteristics, tumor properties, and treatment modalities were examined. Multivariable logistic regression was utilized to investigate the association of these factors with 3-year survival. Predictor importance analysis was conducted using a metric defined as Wald χ2 penalized by degrees of freedom. RESULTS A total of 88,919 GBM patients with 3-year follow-up were identified. Overall, 8757 (9.8%) patients survived ≥ 3 years. Three-year survival significantly improved from 8.0 to 10.5% (p  less then  0.001) from 2004 to 2013. Trimodal treatment administration also significantly increased from 38.7 to 55.9% (p  less then  0.001). During this span, patients increasingly presented as older (p = 0.040), without private insurance (p  less then  0.001), and with a higher comorbidity index (p  less then  0.001). On multivariable regression, factors such as trimodal treatment (p  less then  0.001), younger age (p  less then  0.001), and MGMT methylation (p  less then  0.001) were significantly associated with increased odds of 3-year survival. Predictor importance analysis indicated that MGMT methylation, age, and treatment modality were the most significant relative determinants of 3-year survival. CONCLUSION These findings illustrate an improved 3-year survival rate for GBM patients from 2004 to 2013 with a concurrent increase in trimodal treatment administration despite more adverse patient presenting characteristics.More than 70% of vascular plant species live in symbiosis with arbuscular mycorrhizal (AM) fungi. In addition to other effects this symbiosis is known for its significance for plant nutrition including iron. Fungal iron mobilization from soil is commonly dependent on siderophores. This study reports on a search for such iron-chelators in root tissue of Tagetes patula nana var. plena colonized by Gigaspora margarita. The AM colonized plants and uninoculated controls were grown under strictly axenic conditions. HPLC analyses of aqueous extracts from plant roots have provided clear evidence for the presence of a rhizoferrin type siderophore, named glomuferrin, in root tissue of mycorrhizal seedlings. Results from HPLC analytical work are seconded by molecular biological data A BLASTp search revealed that the AM fungal species Gigaspora rosea, Rhizophagus irregularis (formerly Glomus intraradices), Glomus cerebriformis and Diversispora epigea encode a non-ribosomal peptide synthetase (NRPS)-independent siderophore synthase (NIS), which is homologous to the rhizoferrin synthetase of Rhizopus delemar. this website Thus this study indicates that the biosynthesis of rhizoferrin type siderophores such as glomuferrin (= bis-imidorhizoferrin) may be widespread in the AM symbiosis.Ectomycorrhizal fungi supply their plant partners with nitrogen but can also retain substantial amounts. The concentration of nitrogen in the soil and the amount of carbon supplied from the host seem to influence the proportion of N retained by the fungus. In an experiment designed to determine whether differential supply of nitrogen to two plants influenced nitrogen transfer from fungus to plant within a mycorrhizal network, we observed rapid, substantial loss of nitrogen from pine seedlings. The loss occurred when the mycorrhizal fungus experienced a sudden increase in nitrogen supply. We grew Pinus contorta seedlings in association with Suillus tomentosus in low-nitrogen microcosms where some nitrogen was accessible only by hyphae. After 70 days, foliage of some seedlings was treated with nitrogen. Three days later, hyphal nutrient media were replaced with water or a solution containing nitrogen. Foliar treatment did not affect nitrogen transfer by the fungus to shoots, but by day 75, seedling nitrogen contents had dropped by 60% in microcosms where nitrogen had been added to the hyphal compartments. Those seedlings retained only 55% of the nitrogen originally present in the seed. Loss of nitrogen did not occur if water was added or the hyphae were severed. Because of the severing effect, we concluded that S. tomentosus triggered the loss of seedling nitrogen. Nitrogen may have been lost through increased root exudation or transfer to the fungus. Access to nitrogen from nutrient-rich germinants would benefit rhizosphere microorganisms, including ectomycorrhizal fungi colonizing pine from spores after wildfire.To examine the effects of ericoid mycorrhizal (ERM) fungi on salt tolerance of ericaceous plants, we inoculated roots of velvetleaf blueberry (Vaccinium myrtilloides), Labrador tea (Rhododendron groenlandicum), and lingonberry (Vaccinium vitis-idaea) with ericoid mycorrhizal fungi Oidiodendron maius and Meliniomyces variabilis. Plants were subjected to 0 (NaCl control) and 30 mM NaCl treatments, and plant dry weights, gas exchange, and leaf chlorophyll concentrations were compared in inoculated and non-inoculated plants. M. variabilis increased root dry weights in all three species of NaCl-treated plants, and O. maius enhanced root dry weights of lingonberry plants treated with NaCl. Both fungal species were especially effective in enhancing root and shoot dry weights in control (0 mM NaCl) and NaCl-treated lingonberry seedlings. Leaf chlorophyll concentrations were enhanced by fungal inoculation in all three plant species, and this effect persisted under salt stress in Labrador tea and lingonberry. Salt treatment drastically reduced transpiration rates (E) and lowered net photosynthesis (Pn) to the negative values in all three species of non-inoculated plants, and this effect was partly or almost completely reversed by the inoculation with O.