Malin Jonsson

Attitudes towards people with mental illness: a cross-sectional study among nursing staff in psychiatric and somatic care

Stigma and discrimination have been identified as important obstacles to the integration of people with mental illness in society. In efforts to reduce stigma and discrimination, health professionals play an important role as they have frequent contact with and responsibility for treatment and rehabilitation of consumers. The aim of the present study was to investigate attitudes towards mental illness and people with mental illness among nursing staff working in psychiatric or somatic care. The sample consisted of 120 registered or assistant nurses who were interviewed about intimacy with mental illness and attitudes about seven different mental illnesses. The results showed that nursing staff in somatic care, to a higher degree than nursing staff in mental health, reported more negative attitudes with regard to people with schizophrenia as being more dangerous and unpredictable. In contrast, professional experience, intimacy with mental illness and type of care organization were found to be more associated with attitudes to specific mental illnesses concerning the prospect of improvement with treatment and the prospect of recovery. In conclusion, attitudes among nursing staff are in several respects comparable with public opinions about mental illness and mentally ill persons. In order to elucidate if negative attitudes about dangerousness and unpredictability of persons with specific mental illnesses are associated with realistic experiences or with prejudices further studies with a qualitative design are suggested.

Cell guidance by magnetic nanowires.

The phenomenon of contact guidance on thin fibers has been known since the beginning of the 20th century when Harrison studied cells growing on fibers from spiders web. Since then many studies have been performed on structured surfaces and fibers. Here we present a new way to induce guidance of cells or cell processes using magnetic nanowires. We have manufactured magnetic Ni-nanowires (200 nm in diameter and 40 microm long) with a template-based electro-deposition method. Drops of a nanowire/ethanol suspension were placed on glass cover slips. The nanowires were aligned in an external magnetic field and adhered to the cover slips after evaporation of the ethanol. When the wires had adhered, the magnetic field was removed. L929 fibroblasts and dissociated dorsal root ganglia (DRG) neurons from mice were cultured on the nanowire-coated cover slips for 24 h and 72 h respectively. The fibroblasts were affected by the aligned nanowires and displayed contact guidance. Regenerated axons also displayed contact guidance on the wires. There were no overt signs of toxicity caused by Ni-wires. Aligned magnetic nanowires can be useful for lab-on-a-chip devices and medical nerve grafts.

Protein partitioning in thermoseparating systems of a charged hydrophobically modified ethylene oxide polymer

The phase behavior of a thermoseparating cationic hydrophobically modified ethylene oxide polymer (HM-EO) containing tertiary amines has been investigated at different pH, salt and sodium dodecyl sulfate (SDS) concentrations, in order to find a water/HM-EO two-phase system suitable for protein partitioning. The used polymer forms micellar aggregates that can be charged. By changing pH and SDS concentrations the netcharge of the SDS/HM-EO aggregate can be shifted from positive to negative. Bovine serum albumin (BSA) and lysozyme were partitioned in the thermoseparated two-phase systems of the cationic polymer at different pH, salt and SDS concentrations. The dominant attractive interactions between the polymer aggregates and the studied proteins were shown to be of electrostatic (Coulomb) nature rather than hydrophobic interaction. At low ionic strength the positively charged polymeric aggregates attracted negatively charged BSA and repelled positively charged lysozyme. Upon addition of SDS the negatively charged aggregates attracted lysozyme and repelled BSA. Thus, it was possible to direct proteins with different charges to the polymeric phase and redirect them to a polymer-depleted phase by changing the netcharge of the polymeric aggregates. The effect of different salts on the partitioning of BSA in a system of slightly positively charged HM-EO was studied. NaCl and KBr have a significant effect on driving the BSA to the polymer-depleted phase, whereas KF and K2SO4 have a smaller effect on the partitioning. The cloud point temperature of the charged polymer decreased upon addition of SDS near the isoelectric molar ratio of SDS to polymer and also upon salt addition. In the latter case the decrease was smaller than expected from model calculations based on Flory-Huggins theory, which were performed for a charged thermoseparating polymer at different charges and salt concentrations.

Single-shot photofragment imaging by structured illumination

A laser method to suppress background interferences in pump-probe measurements is presented and demonstrated. The method is based on structured illumination, where the intensity profile of the pump beam is spatially modulated to make its induced photofragment signal distinguishable from that created solely by the probe beam. A spatial lock-in algorithm is then applied on the acquired data, extracting only those image components that are characterized by the encoded structure. The concept is demonstrated for imaging of OH photofragments in a laminar methane/air flame, where the signal from the OH photofragments produced by the pump beam is spatially overlapping with that from the naturally present OH radicals. The purpose was to perform for the first time, to the best of our knowledge, single-shot imaging of HO(2) in a flame. These results show an increase in signal-to-interference ratio of about 20 for single-shot data.

Room-Fire Characterization Using Highly Range-Resolved Picosecond Lidar Diagnostics and CFD Simulations

In fire safety engineering, the use of computational fluid dynamics (CFD) allows for detailed multidimensional calculations of important parameters, for example, temperature. However, increasing use of CFD models puts requirements on experimental validation, a challenge for many measurement techniques under harsh fire conditions. In this work, laser-based picosecond light detection and ranging (ps-lidar) was used for remote measurements in a ½-scale ISO 9705 room containing either a methanol pool fire or a methane diffusion flame. Spatially resolved Rayleigh thermometry was conducted in the vertical door plane and in a horizontal plane inside the room. Temperatures obtained by ps-lidar are compared with values from thermocouples located in the doorway as well as results from CFD simulations. The technique allows for quantitative thermometry provided that minimal particle scattering interferences are present. Measurements of detailed distributions of temperature and particulates clearly demonstrate the potential of ps-lidar for diagnostics in large-scale combustion.

OH-Thermometry with Photofragmentation Laser-Induced Fluorescence

A technique that increases the temperature range and the sensitivity of OH-LIF thermometry is proposed. OH-excitation scans, acquired through photofragmentation laser-induced fluorescence of H2O2, are used to determine 2-D-temperatures in H2O2-vapor and in an HCCI-engine.

Investigation of ps-PFLIF for detection of hydrogen peroxides in laminar flames

Using short (5 ns) pump-probe delay times, photochemical interferences due to CO2 photolysis can be virtually eliminated in flame experiments with photofragmentation laser-induced fluorescence (PFLIF), which enables hydrogen peroxides to be measured with higher accuracy.

Imaging of Hydrogen Peroxide in an HCCI Engine using Photofragmentation Laser-induced Fluorescence

Hydrogen peroxide (H2O2) is for the first time measured and imaged in two-dimensions in an HCCI engine using photofragmentation laser-induced fluorescence (PF-LIF). Qualitatively, the experimental data agree with simulations.