An Examination of Strain Among Community Police Officers in Northumbria, England

Humburg, Joel D. (Joel David)

05 1900

This paper examines some causes of strain and frustration among police officers. Previous research suggests that police officers sufferfromthe lack of communication and support from their community. The failure of communication has caused turmoil in the past between communities and their police. A possible solution is community policing. Community policing is supposed to establish communication between the public and the police. Causes of strain and frustration among the police are discussed along with the possible benefits of community policing. Research has shown that community police officers suffer less strain and frustration than their brethren. On this premise a quantitative examination a police force in Northumbria, England was conducted. The quantitative analysis focuses on two groups; community police officers and police officers not involved in community policing.

community police officer

strain

Effect of Amino Acids on Growth and Cartenogenesis in Corynebacterium Species Strain 7E1C

Coughran, Carolyn S.

05 1900

Studies were evaluated on the effects of known growth factors on the growth and carotenogenesis of Corynebacterium species strain 7ElC. The complex medium, Tryptic Soy Broth,was found to stimulate growth and production of more pigment in the light and in the dark than did a mineral salts-glucose medium. A complete amino acid mixture added to LSG enhanced carotenogenesis in the dark in Corynebacterium 7ElC, while B-vitamins retarded carotenogenesis. No absolute requirement for one or more amino acids was found,indicating a multiple amino acid requirement. The fewest amino acids found to stimulate carotenogenesis in the dark were a combination of those in the Serine and Histidine families which include serine, glycine, cysteine, and histidine.

Corynebacterium 7E1C

carotenogenesis

carotenoids

amino acids

Carotenoids.

Amino acids.

Corynebacterium species strain 7E1C.

Electron Correlation Effects in Strained Dual-Layer Graphene Systems

Harnish, Peter Karl

01 January 2014

In low dimensional systems, electron correlation effects can often be enhanced. This can be vital since these effects not only play an important role in the study of many-electron physics, but are also useful in designing new materials for various applications. Since its isolation from graphite in 2004, graphene, a two dimensional sheet of carbon atoms, has drawn considerable interest due to its remarkable properties. In the past few years, research has moved on from single to bi-, dual- and multi-layer graphene systems, each displaying their own multitudes of intriguing properties. In particular, multi-layer systems that are electronically decoupled, but still coupled via the long-range Coulomb interaction, are very fascinating as they provide an opportunities to study phenomena like excitonic condensates, non-zero band gaps and van der Waals (vdW) interactions. In this thesis, I shall discuss our recent work on two different physical aspects of dual- layer graphene systems under uniaxial strain. Firstly, I shall present results on the vdW correlation energy evaluated, within the Random Phase Approximation, at zero temperature between two undoped graphene layers separated by a finite distance. The correlation energy is obtained for three anisotropic models with variations in the strength of the effective coupling constant. We find that the vdW interaction energy increases with increasing anisotropy and the many-body contributions to the correlation energy are non-negligible. In the second part, I shall talk about the formation of inter-layer electron-hole (excitonic) pairings, caused by the inter-layer Coulomb interaction between two uniaxially strained graphene sheets which are appropriately doped with electrons/holes and our studies of the dependence of strain on the effective interaction. We find that strain, in combination with precise control of the initial momentum can effectively overcome the suppression due to inter-layer screening effects.

electron correlation

exitonic pairing

graphene

strain

van der Waals

Mechanics of Materials

Physics

Polarization Charge Density in Strained Graphene

Wilson, Noah

01 January 2016

Graphene, the world's first truly two-dimensional material, is unique for having an electronic structure described by an effective Lorentz invariant theory. One important consequence is that the ratio or Coulomb energy to kinetic energy is a constant, depending only on conditions within the lattice rather than on the average charge density as in a typical Galilean invariant material. Given this unusual property, a natural question would be how do phenomena, such as screening of a Coulomb impurity, happen in graphene? Moreover, how does the addition of uniaxial strain enhance or diminish this behavior? Here I discuss our work to calculate the charge density distribution in a lattice of strained graphene under the effect of an external Coulomb impurity. Graphene can have its band structure significantly altered by the application of uniaxial strain. Two cases are here explored: relatively weak strain at some finite chemical potential, and extreme strain with zero chemical potential. In the first system, the strain induces elliptic Dirac cones, engendering some inherent directionality to graphene's electronic properties that did not exist before. This anisotropy manifests itself in the polarization function, and so too in the screening charge density. A finite chemical potential in this case is necessary for any screening to take place in graphene since, without it, there are no electron states near the Fermi level to polarize. Both in the strained and unstrained case, decaying oscillations known as Friedel oscillations are observed. The result of strain is a multifaceted anisotropy of the charge distribution: the amplitude, frequency, and the position of the first peak in the oscillations are each varied depending on the direction one observes. In the second system, extreme strain in graphene leads to a merging of Dirac cones, yielding a transition to a new energy spectrum. This band structure is unusual in that it becomes quadratic along the direction of strain while remaining linear along the perpendicular. We evaluate the screening response to a Coulomb impurity in this case at zero chemical potential, and yet long-range distribution tails are still observed. The result is a very exotic charge distribution, in which the radial distribution of charge and the angular distribution are highly coupled, and at various distances, both screening and anti-screening regions are observed around the impurity. The anti-screening regions are local, and the net induced charge density still satisfies the accepted model of screening.

Charge Density

Dirac Merger

Graphene

Polarization

Screening

Strain

Condensed Matter Physics

Other Physics

Contraintes psychosociales au travail et symptômes dépressifs majeurs chez les femmes enceintes

Fall, Aïssatou

03 1900

Notre thèse de doctorat a pour but d’évaluer les contraintes psychosociales au travail et les symptômes dépressifs majeurs chez les femmes enceintes. Plus spécifiquement, il est question d’identifier les facteurs associés aux symptômes dépressifs majeurs, à une tension psychologique au travail ou travail "tendu" ("high-strain" job), à un travail "tendu" avec un faible soutien social au travail ("Iso-strain"), et enfin d’évaluer l’association entre ces contraintes psychosociales au travail et les symptômes dépressifs majeurs chez les femmes enceintes au travail. Les données analysées sont issues de l’Étude Montréalaise sur la Prématurité, une étude de cohorte prospective menée entre mai 1999 et avril 2004, auprès de 5 337 femmes enceintes interviewées à 24-26 semaines de grossesse dans quatre hôpitaux de l’île de Montréal (Québec, Canada). L’échelle CES-D (Center for Epidemiological Studies Depression Scale) a été utilisée pour mesurer les symptômes dépressifs majeurs (score CES-D ≥23). L’échelle abrégée de Karasek a été utilisée pour mesurer les contraintes psychosociales au travail. La présente étude a conduit à la rédaction de quatre articles scientifiques qui seront soumis à des revues avec comité de pairs. Le premier article a permis de comparer la prévalence des symptômes dépressifs majeurs dans différents sous-groupes de femmes enceintes : femmes au foyer, femmes au travail, femmes en arrêt de travail, femmes aux études et de rechercher les facteurs de risque associés aux symptômes dépressifs majeurs pendant la grossesse. À 24-26 semaines de grossesse, la prévalence des symptômes dépressifs majeurs était de 11,9% (11,0-12,8%) pour l’ensemble des femmes enceintes à l’étude (N=5 337). Les femmes enceintes au travail avaient une proportion de symptômes dépressifs moins élevée [7,6% (6,6-8,7%); n=2 514] par rapport aux femmes enceintes au foyer qui avaient les prévalences les plus élevées [19,1% (16,5-21,8%); n=893], suivi des femmes enceintes en arrêt de travail [14,4% (12,7-16,1%); n=1 665] et des femmes enceintes aux études [14,3% (10,3-19,1%); n=265]. Les caractéristiques personnelles (non professionnelles) associées aux symptômes dépressifs majeurs étaient, après ajustement pour toutes les variables, le statut d’emploi, un faible niveau d’éducation, un faible soutien social en dehors du travail, le fait d’avoir vécu des événements stressants aigus, d’avoir manqué d’argent pour les besoins essentiels, les difficultés relationnelles avec son partenaire, les problèmes de santé chronique, le pays de naissance et le tabagisme. Le deuxième article avait pour objectif de décrire l’exposition aux contraintes psychosociales au travail et d’identifier les facteurs qui y sont associés chez les femmes enceintes de la région de Montréal, au Québec (N=3 765). Au total, 24,4% des travailleuses enceintes se trouvaient dans la catégorie travail "tendu" ("high-strain" job) et 69,1% d’entre elles avaient eu un faible soutien social au travail ("Iso-strain"). Les facteurs de risque associés à un travail "tendu" étaient : un faible soutien social au travail, certains secteurs d’activité et niveaux de compétences, le fait de travailler plus de 35 heures par semaine, les horaires irréguliers, la posture de travail, le port de charges lourdes, le jeune âge des mères, une immigration ≥ 5 ans, un bas niveau d’éducation, la monoparentalité et un revenu annuel du ménage <50 000$. Le troisième article a évalué l’association entre les contraintes psychosociales au travail et les symptômes dépressifs majeurs chez les femmes enceintes au travail (N=3 765). Dans les analyses bivariées et multivariées, les femmes enceintes qui avaient un "high-strain job" ou un "Iso-strain" présentaient davantage de symptômes dépressifs majeurs que les autres sous-groupes. Les contraintes psychosociales au travail étaient associées aux symptômes dépressifs majeurs lorsqu’on prenait en compte les autres facteurs organisationnels et les facteurs personnels auxquels elles étaient confrontées à l’extérieur de leur milieu de travail. Notre étude confirme les évidences accumulées en référence aux modèles théoriques "demande-contrôle" et "demande-contrôle-soutien" de Karasek et Theorell. L’impact de ce dernier et le rôle crucial du soutien social au travail ont été mis en évidence chez les femmes enceintes au travail. Cependant, l’effet "buffer" du modèle "demande-contrôle-soutien" n’a pas été mis en évidence. Le quatrième article a permis d’évaluer l’exposition aux contraintes psychosociales au travail chez les femmes enceintes au travail et en arrêt de travail pour retrait préventif et de mesurer l’association entre les contraintes psychosociales au travail et les symptômes dépressifs majeurs en fonction du moment du retrait préventif (N=3 043). À 24-26 semaines de grossesse, les femmes enceintes en retrait préventif du travail (31,4%) avaient été plus exposées à un "high-strain job" (31,0% vs 21,1%) et à un "Iso-strain" (21,0% vs 14,2%) que celles qui continuaient de travailler (p<0,0001); et elles avaient des proportions plus élevées de symptômes dépressifs majeurs. Après ajustement pour les facteurs de risque personnels et professionnels, "l’Iso-strain" restait significativement associé aux symptômes dépressifs majeurs chez les femmes qui continuaient de travailler tout comme chez celles qui ont cessé de travailler, et cela quel que soit leur durée d’activité avant le retrait préventif du travail (4 à 12 semaines/ 13 à 20 semaines/ ≥ 21 semaines). Les contraintes psychosociales au travail représentent un important facteur de risque pour la santé mentale des travailleuses enceintes. Malgré l’application du programme "pour une maternité sans danger" il s’avère nécessaire de mettre en place dans les milieux de travail, des mesures de prévention, de dépistage et d’intervention afin de réduire la prévalence des symptômes dépressifs prénataux et l’exposition aux contraintes psychosociales au travail pour prévenir les complications maternelles et néonatales. D’autant plus que, la dépression prénatale est le principal facteur de risque de dépression postpartum, de même que les enfants nés de mères souffrant de dépression sont plus à risque de prématurité et de petit poids de naissance. / The goal of our thesis was to evaluate psychosocial work demands and major depressive symptoms among pregnant women. More specifically, we evaluated factors associated with major depressive symptoms, "high-strain" or "Iso-strain" jobs, and measure the association between those psychosocial work demands and major depressive symptoms among pregnant workers. Data analyzed are from the Montreal Prematurity Study, a prospective cohort study conducted in Montréal from May 1999 to April 2004. The study looked at prematurity among 5337 pregnant women recruited at 24-26 weeks of pregnancy in four hospitals in Montréal (Québec, Canada). The CES-D scale (Center for Epidemiological Studies Depression Scale) was used to measure major depressive symptoms (CES-D score ≥23). Karasek's abbreviated scale was used to measure psychosocial work demands. Four scientific articles have been written about the current study and will be submitted to peer-reviewed journals. The objectives of the first article were to compare the prevalence of major depressive symptoms between subgroups of pregnant women: working women, women who had stopped working, housewives and students; and to identify risk factors for major depressive symptoms during pregnancy. At 24-26 weeks of pregnancy, prevalence of major depressive symptoms was 11.9% (11.0–12.8%) for all pregnant women (N=5 337). Working women had lower rates of major depressive symptoms [7,6% (6,6-8,7%); n=2 514] than housewives, for whom prevalence was highest [19,1% (16,5-21,8%); n=893], followed by women who had stopped working [14,4% (12,7-16,1%); n=1 665] and students [14,3% (10,3-19,1%); n=265]. Personal characteristics (non-occupational) associated with major depressive symptoms were, after adjusting for all variables, employment status, low level of education, low social support outside of work, having experienced acute stressful events, lack of money for basic needs, experiencing marital strain, chronic health problem, country of birth, and smoking. The objective of the second article was to describe the exposure to psychosocial work demands and to identify factors that are associated among pregnant women in Montréal, Québec (N=3 765). In total, 24.4% of pregnant women were exposed to "high-strain" jobs and the proportion of workers exposed to "Iso-strain" was 69.1%. Risk factors associated with "high-strain" jobs were as follows: low social support at work, some sector of activity and skill level, working over 35 hours a week, irregular schedules, posture at work, lifting loads, young age of mothers, immigration ≥ 5 years, low level of education, single parenthood, and annual household income <$50,000. The third article evaluated the association between psychosocial work demands and major depressive symptoms among working pregnant women (N=3 765). In bivariate and multivariate analyses, pregnant women who had "high-strain" or "Iso-strain" jobs were more likely to have major depressive symptoms. Psychosocial work demands were associated with the mental health of pregnant women, when other organizational and personal factors which they encountered outside the work settings were taken into account. Our study confirms accumulated findings related to Karasek and Theorell's "demand-control" and "demand-control-support" theoretical models. The impact of the "demand-control-support" model and the critical role of social support at work have been demonstrated among working pregnant women. The "buffer" hypothesis of "demand-control-support" model was refuted. The objectives of the fourth article were as follows: assess exposure to psychosocial work demands among working pregnant women and women on preventive withdrawal from work; and measure the association between psychosocial work demands and major depressive symptoms, according to time of withdrawal from work (N=3 043). At 24-26 weeks of pregnancy, women on preventive withdrawal from work (31.4%) had been more exposed to "high-strain" jobs (31.1% vs. 21.1%) and "Iso-strain" (21.0% vs. 14.2%) than those who continued to work (p<0.0001), and had higher proportions of major depressive symptoms. After adjustment for personal and professional risk factors, "Iso-strain" remained significantly associated with major depressive symptoms in working women and women on preventive withdrawal from work, regardless of duration of activity before withdrawal (4 to 12 weeks/ 13 to 20 weeks/ ≥21 weeks). Psychosocial work demands are an important risk factor for the mental health of pregnant workers. Despite the application of preventive measures during pregnancy, screening and intervention measures should be implemented in workplaces to reduce the prevalence of prenatal mental health problems and exposure to psychosocial work demands so as to prevent maternal and neonatal complications. In addition, prenatal depression is the main risk factor for postpartum depression, and infants born of mothers who suffer from depression are at higher risk of prematurity and low birth weight.

Femmes enceintes au travail

Condition de travail

Retrait préventif du travail

Pregnant women at work

Major depressive symptoms (CES-D scale)

Working conditions

Preventive withdrawal from work

Modeling Adjustable Passive Stiffness in Detrusor Smooth Muscle

Quintero, Kevin E

01 January 2006

Passive detrusor smooth muscle exhibits both viscoelastic softening and strain softening. Strain softening is a loss of stiffness following a stretch to a longer length and is reversible upon muscle activation. Because of this behavior, steady state passive force in detrusor is not constant for a given muscle length and can be adjusted by an intracellular mechanism. Thus, passive detrusor exhibits adjustable passive stiffness. Existing three-component mechanical models for muscle, the Kelvin and Voigt, are insufficient to display this characteristic. The goal of this thesis is to develop a new biomechanical model for passive force in detrusor by adding additional elements to the Kelvin or Voigt models. Eight mechanical characteristics of detrusor are identified from the literature and with three new experiments, and a novel adjustable passive stiffness model for smooth muscle is proposed. Simulations are performed to demonstrate that the model qualitatively exhibits each of the eight tissue characteristics.

passive force

muscle model

strain softening

preconditioning

smooth muscle mechanics

Engineering

The Clinical Utility of Molecular Typing of Multiply-resistant Pseudomonas aeruginosa in Children with Cystic Fibrosis

Luna, Ruth Ann

09 April 2010

Chronic infection with P. aeruginosa is expected in patients with cystic fibrosis (CF), but the ability to delay, prevent, or better manage infection with multiply-resistant P. aeruginosa (MRPA) can potentially increase quality of life and extend survival. The Texas Children’s Hospital CF Care Center has identified an endemic MRPA strain (dominant clone), and this study aimed to identify risk factors for acquisition of the clone as well as determine differences in patient outcome associated with subsequent infection with the clone. The study included 71 patients with CF with documented MRPA infection. Designation of patients as members of the dominant clone or a non-dominant clone group was based on molecular typing by rep-PCR of MRPA isolates from respiratory cultures. Patient data was collected from Port CF, the national patient registry of the CF Foundation. Patient demographic information and clinical parameters prior to MRPA infection were analyzed by logistic regression as potential risk factors. Differences in patient outcome including change in BMI, change in FEV1, and hospitalization rate were evaluated by MANOVA. Recent hospitalization (< 90 days) was a statistically significant (p = 0.035) risk factor for acquisition of the dominant clone. Patients hospitalized < 90 days prior to MRPA diagnosis were four times more likely to be infected with the dominant clone, and patients hospitalized 91-180 days prior were almost three times more likely. Increased hospitalization rates were seen in the dominant clone group both pre- (11 more days/year) and post-infection (14 more days/year) as compared to the non-dominant clone group. Patients infected with the endemic strain exhibited poorer outcomes in terms of nutritional status (3.73% decrease/year in BMI %ile) and lung function (3.7% decrease/year in FEV1 %ile). Significant overlap in hospitalization episodes of patients known to be infected with the dominant clone and patients subsequently infected with the dominant clone was observed. Recent hospitalization was a significant risk factor for infection with the dominant MRPA clone, and following infection, patients infected with the endemic strain exhibited declines in nutritional status and lung function and increased hospitalization rates. The results suggest potentially increased virulence and transmissibility of the endemic MRPA strain.

molecular typing

cystic fibrosis

Pseudomonas aeruginosa

rep-PCR

endemic strain

multiply-resistant

Medicine and Health Sciences

The Design and Validation of a Novel Computational Simulation of the Leg for the Investigation of Injury, Disease, and Surgical Treatment

Iaquinto, Joseph

05 May 2010

Computational modeling of joints and their function, a developing field, is becoming a significant health and wellness tool of our modern age. Due to familiarity of prior research focused on the lower extremity, a foot and ankle 3D computational model was created to explore the potential for these computational methods. The method of isolating CT scanned tissue and rendering a patient specific anatomy in the digital domain was accomplished by the use of MIMICS™ , SolidWorks™, and COSMOSMotion™ – all available in the commercial domain. The kinematics of the joints are driven solely by anatomically modeled soft tissue applied to articulating joint geometry. Soft tissues are based on highly realistic measurements of anatomical dimension and behavior. By restricting all model constraints to true to life anatomical approximations and recreating their behavior, this model uses inverse kinematics to predict the motion of the foot under various loading conditions. Extensive validation of the function of the model was performed. This includes stability of the arch (due to ligament deficiency) and joint behavior (due to disease and repair). These simulations were compared to a multitude of studies, which confirmed the accuracy of soft tissue strain, joint alignment, joint contact force and plantar load distribution. This demonstrated the capability of the simulation technique to both qualitatively recreate trends seen experimentally and clinically, as well as quantitatively predict a variety of tissue and joint measures. The modeling technique has further strength by combining measurements that are typically done separate (experimental vs. clinical) to build a more holistic model of foot behavior. This has the potential to allow additional conclusions to be drawn about complications associated with repair techniques. This model was built with the intent to provide an example of how patient specific bony geometry can be used as either a research or surgical tool when considering a disease state or repair technique. The technique also allows for the repeated use of anatomy, which is not possible experimentally or clinically. These qualities, along with the accuracy demonstrated in validation, prove the integrity of the technique along with demonstrating its strengths.

Computational Modeling

Foot and Ankle

Rigid Body Dynamics

Simulation

Flatfoot

Ligament Strain

Engineering

Multifunctional Orthogonally-Frequency-Coded Saw Strain Sensor

Wilson, William

15 July 2013

A multifunctional strain sensor based on Surface Acoustic Wave (SAW) Orthogonal Frequency Coding (OFC) technology on a Langasite substrate has been investigated. Second order transmission matrix models have been developed and verified. A new parameterizable library of SAW components was created to automate the layout process. Using these new tools, a SAW strain sensor with OFC reflectors was designed, fabricated and tested. The Langasite coefficients of velocity for strain (γS = 1.699) and Temperature (γT = 2.562) were experimentally determined. The strain and temperature characterization of this strain sensor, along with the coefficients of velocity, have been used to demonstrate both the ability to sense strain and the capability for temperature compensation. The temperature-compensated SAW OFC strain sensor has been used to detect anomalous strain conditions that are indicators of fastener failures during structural health monitoring of aircraft panels with and without noise on a NASA fastener failure test stand. The changes in strain that are associated with single fastener failures were measured up to a distance of 80 cm between the sensor and the removed fastener. The SAW OFC strain sensor was demonstrated to act as an impact sensor with and without noise on the fastener failure test stand. The average measured signal to noise ratio (SNR) of 50, is comparable to the 29.1 SNR of an acoustic emission sensor. The simultaneous use of a high pass filter for impact detection, while a low pass filter is used for strain or fastener failure, demonstrates the multifunctional capabilities of the SAW OFC sensor to act as both as a fastener failure detector and as an impact detector.

Surface Acoustic Wave

SAW

Orthogonal Frequency Coding

OFC

Strain

Sensor

Engineering

Lung Alveolar and Tissue Analysis Under Mechanical Ventilation

Rolle, Trenicka

24 April 2014

Mechanical ventilation has been a major therapy used by physicians in support of surgery as well as for treating patients with reduced lung function. Despite its many positive outcomes and ability to maintain life, in many cases, it has also led to increased injury of the lungs, further exacerbating the diseased state. Numerous studies have investigated the effects of long term ventilation with respect to lungs, however, the connection between the global deformation of the whole organ and the strains reaching the alveolar walls remains unclear. The walls of lung alveoli also called the alveolar septum are characterized as a multilayer heterogeneous biological tissue. In cases where damage to this parenchymal structure insist, alveolar overdistension occurs. Therefore, damage is most profound at the alveolar level and the deformation as a result of such mechanical forces must be investigated thoroughly. This study investigates a three-dimensional lung alveolar model from generations 22 (alveolar ducts) through 24 (alveoli sacs) in order to estimate the strain/stress levels under mechanical ventilation conditions. Additionally, a multilayer alveolar tissue model was generated to investigate localized damage at the alveolar wall. Using ANSYS, a commercial finite element software package, a fluid-structure interaction analysis (FSI) was performed on both models. Various cases were simulated that included a normal healthy lung, normal lung with structural changes to model disease and normal lung with mechanical property changes to model aging. In the alveolar tissue analysis, strains obtained from the aged lung alveolar analysis were applied as a boundary condition and used to obtain the mechanical forces exerted as a result. This work seeks to give both a qualitative and quantitative description of the stress/strain fields exerted at the alveolar region of the lungs. Regions of stress/strain concentration will be identified in order to gain perspective on where excess damage may occur. Such damage can lead to overdistension and possible collapse of a single alveolus. Furthermore, such regions of intensified stress/strain are translated to the cellular level and offset a signaling cascade. Hence, this work will provide distributions of mechanical forces across alveolar and tissue models as well as significant quantifications of damaging stresses and strains.

Alveoli

Lung

Stress/strain

Fluid-solid Analysis

Mechanical Ventilation

Fluid-Structure Interaction

Engineering