1,173 research outputs found
Comparative study of osteogenic activity of multilayers made of synthetic and biogenic polyelectrolytes
Polyelectrolyte multilayer (PEM) coatings on biomaterials are applied to tailor adhesion, growth, and function of cells on biomedical implants. Here, biogenic and synthetic polyelectrolytes (PEL) are used for layer-by-layer assembly to study the osteogenic activity of PEM with human osteosarcoma MG-63 cells in a comparative manner. Formation of PEM is achieved with biogenic PEL fibrinogen (FBG) and poly-l-lysine (PLL) as well as biotinylated chondroitin sulfate (BCS) and avidin (AVI), while poly(allylamine hydrochloride) (PAH) and polystyrene sulfonate (PSS) represent a fully synthetic PEM used as a reference system here. Surface plasmon resonance measurements show highest layer mass for FBG/PLL and similar for PSS/PAH and BCS/AVI systems, while water contact angle and zeta potential measurements indicate larger differences for PSS/PAH and FBG/PLL but not for BCS/AVI multilayers. All PEM systems support cell adhesion and growth and promote osteogenic differentiation as well. However, FBG/PLL layers are superior regarding MG-63 cell adhesion during short-term culture, while the BCS/AVI system increases alkaline phosphatase activity in long-term culture. Particularly, a multilayer system based on affinity interaction like BCS/AVI may be useful for controlled presentation of biotinylated growth factors to promote growth and differentiation of cells for biomedical applications
Turbulent mixing layers in supersonic protostellar outflows, with application to DG Tauri
Turbulent entrainment processes may play an important role in the outflows
from young stellar objects at all stages of their evolution. In particular,
lateral entrainment of ambient material by high-velocity, well-collimated
protostellar jets may be the cause of the multiple emission-line velocity
components observed in the microjet-scale outflows driven by classical T Tauri
stars. Intermediate-velocity outflow components may be emitted by a turbulent,
shock- excited mixing layer along the boundaries of the jet. We present a
formalism for describing such a mixing layer based on Reynolds decomposition of
quantities measuring fundamental properties of the gas. In this model, the
molecular wind from large disc radii provides a continual supply of material
for entrainment. We calculate the total stress profile in the mixing layer,
which allows us to estimate the dissipation of turbulent energy, and hence the
luminosity of the layer. We utilize MAPPINGS IV shock models to determine the
fraction of total emission that occurs in [Fe II] 1.644 {\mu}m line emission in
order to facilitate comparison to previous observations of the young stellar
object DG Tauri. Our model accurately estimates the luminosity and changes in
mass outflow rate of the intermediate-velocity component of the DG Tau
approaching outflow. Therefore, we propose that this component represents a
turbulent mixing layer surrounding the well-collimated jet in this object.
Finally, we compare and contrast our model to previous work in the field.Comment: 18 pages, 13 figures, accepted for publication in MNRA
Posteromedial elastic stable intra-medullary nailing (ESIN) in volarly displaced metaphyso-diaphyseal distal radius fractures in child
SummaryIntroductionThe distal metaphyso-diaphyseal fractures of the radius with volar angulation are generally considered unstable. Too distal to be treated with classic elastic stable intramedullary nailing (ESIN) via a laterodistal approach and too proximal to be stabilized with simple conservative treatment, they are sometimes treated by plating.Patients and methodsTo avoid the disadvantages of the open exposure necessary for this latter fixation and to prevent volar angulation while respecting the curvature of the radius, radial elastic nailing with posteromedial distal entry was used in 16 patients. These patients were reviewed with an average follow-up of 4.5months.ResultsSix patients presented a mean volar angulation of 7°, eight a mean posterior angulation of 5.5°, and two were aligned at 0°. On the AP view, seven patients presented a mean residual varus of 6.5°, four a mean residual valgus of 5°, and five were at 0°. The pronating curvature of the radius and the radioulnar index remained intact in all cases. One case of extensor digitorum tenosynovitis was observed and disappeared after wire removal.DiscussionFor the unstable fractures of the distal third of the radius, certain authors propose systematic classic ESIN, but the lateral point of entry inevitably entails a varus misalignment, which is no longer the case if the entry is medial.Level of evidenceLevel 4. Retrospective Study
Interpretations of suppression
We review the two main interpretations of suppression proposed in
the literature. The phase transition (or deconfining) scenario assumes that
below some critical value of the local energy density (or of some other
geometrical quantity which depends both on the colliding systems and on the
centrality of the collision), there is only nuclear absorption. Above this
critical value the absorptive cross-section is taken to be infinite, i.e. no
can survive in this hot region. In the hadronic scenario the
dissociates due both to nuclear absorption and to its interactions with
co-moving hadrons produced in the collision. No discontinuity exists in
physical observables. We show that an equally good description of the present
data is possible in either scenario.Comment: 12 pages, LaTeX, uses epsfig and ioplppt; review talk given by A.
Capella at the International Symposium on Strangness in Quark Matter,
Santorini (Greece), April 1997; Figs. 1 and 2 not available but can be found
in Refs. 13 and 6 respectivel
Septic Arthritis and Multifocal Osteomyelitis Caused by Capnocytophaga Canimorsus: A Case Report
Capnocytophaga; Osteomyelitis; Septic arthritisCapnocitofaga; Osteomielitis; Artritis sépticaCapnocytophaga; Osteomielitis; Artritis sèpticaMicrobiological diagnosis of chronic osteoarticular infections remains a major challenge, particularly when the clinical presentation is atypical and the pathogen is uncommon. In this unique case, Capnocytophaga canimorsus, a microorganism belonging to the oral microbiota of some domestic animals, caused septic arthritis and multifocal osteomyelitis in the long bone of a 43-year-old immunocompetent man. The patient was treated with two-stage surgery and local and systemic antibiotic therapy, and had a successful recovery. C. canimorsus should be considered as a possible etiological agent in patients with osteoarticular pathology and a history of exposure to domestic animals
In-situ X-ray photoelectron spectroscopy studies of water on metals and oxides at ambient conditions
X-ray photoelectron spectroscopy (XPS) is a powerful tool for surface and interface analysis, providing the elemental composition of surfaces and the local chemical environment of adsorbed species. Conventional XPS experiments have been limited to ultrahigh vacuum (UHV) conditions due to a short mean free path of electrons in a gas phase. The recent advances in instrumentation coupled with third-generation synchrotron radiation sources enables in-situ XPS measurements at pressures above 5 Torr. In this review, we describe the basic design of the ambient pressure XPS setup that combines differential pumping with an electrostatic focusing. We present examples of the application of in-situ XPS to studies of water adsorption on the surface of metals and oxides including Cu(110), Cu(111), TiO2(110) under environmental conditions of water vapor pressure. On all these surfaces we observe a general trend where hydroxyl groups form first, followed by molecular water adsorption. The importance of surface OH groups and their hydrogen bonding to water molecules in water adsorption on surfaces is discussed in detail
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