375 research outputs found
Between the lines: The Star and Sowetan and the construction of national identity in the new South Africa
This thesis examines, through an interpretative framework of specificity
and difference, how the ‘New South Africa’ is being constructed by The
Star and Sowetan newspapers. Using semiotics as the method of
analysis, it gives detailed deconstructive readings of The Star and
Sowetan's coverage of the inauguration of Nelson Mandela as South
Africa's first post-apartheid head of state. In the process it reveals how
signs are mobilised to give a particular meaning to the New South Africa.
The findings of this study show that there is no single construction of the
New South Africa. Instead, there are different, although not necessarily
intentional, constructions which are specific and relative in nature. They
privilege specific forms of identity which are not applicable to everyone
who claims to be South African. This leads to the conclusion that we
cannot view nationalisms and national identities as being coherent and
unified. Rather, it concludes that we should see them as being constituted
by specificity and difference
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Direct Comparison of Adjacent Endocardial and Epicardial Electrograms: Implications for Substrate Mapping
Background: Analysis of unipolar voltage maps has been used to detect epicardial scar, but data to define optimal parameters to identify scar remote from the recording site is limited. This study compares the characteristics of electrograms at endocardial sites adjacent to abnormal epicardial sites. Methods and Results: Data obtained from endocardial and epicardial electroanatomical maps of 31 patients with scar‐related ventricular tachycardia were reviewed. Five hundred twenty‐three pairs of endo‐ and epicardial points were selected according to predefined criteria. The endocardial points adjacent to epicardial scar (bipolar voltage <1.5 mV) had smaller unipolar voltage than those distant from epicardial scar (P<0.001). In multivariable analysis, unipolar voltage was the only endocardial electrogram predictor of epicardial scar (P<0.001, OR 0.94, 95% CI 0.93 to 0.97). An endocardial unipolar amplitude <4.4 mV in the right ventricular (RV) (sensitivity 93%, specificity 76%) and <5.1 mV in the left ventricular (LV) (sensitivity 91%, specificity 75%) was the optimal cutoff predicting epicardial scar. Applying these thresholds to electroanatomical maps, revealed a good match between endocardial unipolar abnormality and epicardial scar for 67% of LV and 75% of RV maps, respectively, but notably poor matches occurred in 8 (29%) maps (7 with nonischemic cardiomyopathy). Site‐by‐site correlations were better for ischemic than nonischemic cardiomyopathy. Conclusions: This study supports the contention that unipolar electrograms are capable of indicating overlying epicardial scar during endocardial mapping, but illustrates limitations that appear to differ with nonischemic as compared to ischemic cardiomyopathy. The presence of epicardial arrhythmia substrate cannot be excluded by analysis of unipolar endocardial maps in some patients
Use of P wave configuration during atrial tachycardia to predict site of origin
Objectives.This study sought to construct an algorithm to differentiate left atrial from right atrial tachycardia foci on the basis of surface electrocardiograms (ECGs).Background.Atrial tachycardia is an uncommon form of supraventricular tachycardia, often resistant to drug therapy.Methods.A total of 31 consecutive patients with atrial tachycardia due to either abnormal automaticity or triggered rhythm underwent detailed atrial endocardial mapping and successful radiofrequency catheter ablation of a single atrial focus. P wave configuration was analyzed from 12-lead ECGs during tachycardia during either spontaneous or pharmacologically induced atrioventricular block. P waves inscribed above the isoelectric line (TP interval) were classified as positive, below as negative, above and below (or conversely, below and above) as biphasic and flat P waves as isoelectric (0). In 17 patients the tachycardia was located in the right atrium: crista terminalis (n = 4); right atrial appendage (n = 4); lateral wall (n = 4); posteroinferior right atrium (n = 3); tricuspid annulus (n = 1); and near the coronary sinus (n = 1). In 14 patients, atrial tachycardia was located in the left atrium: at the entrance of the right (n = 6) or left (n = 4) superior pulmonary veins; left inferior pulmonary vein (n = 1); inferior left atrium (n = 1); base of left atrial appendage (n = 1); and high lateral left atrium (n = 1).Results.There were no differences in P wave vectors between sites at the right atrial lateral wall versus the right atrial appendage or between sites at the entrance of right versus left superior pulmonary veins. However, analysis of P wave configuration showed that leads aVL and V1were most helpful in distinguishing right atrial from left atrial foci. The sensitivity and specificity of using a positive or biphasic P wave in lead aVL to predict a right atrial focus was 88% and 79%, respectively. The sensitivity and specificity of a positive P wave in lead V1in predicting a left atrial focus was 93% and 88%, respectively.Conclusions.1) Analyses of surface P wave configuration proved to be reasonably good in differentiating right atrial from left atrial tachycardia foci. 2) Leads II, III and aVF were helpful in providing clues for differentiating superior from inferior foci
Use of portable air purifiers to reduce aerosols in hospital settings and cut down the clinical backlog
SARS-CoV-2 has severely affected capacity in the NHS, and waiting lists are markedly
increasing due to downtime of up to 50 minutes between patient consultations/procedures,
to reduce the risk of infection. Ventilation accelerates this air cleaning, but retroactively
installing built-in mechanical ventilation is often cost-prohibitive. We investigated the effect
of using portable air cleaners (PAC), a low-energy and low-cost alternative, to reduce the
concentration of aerosols in typical patient consultation/procedure environments. The
experimental setup consisted of an aerosol generator, which mimicked the subject affected
by SARS-CoV-19, and an aerosol detector, representing a subject who could potentially
contract SARS-CoV-19. Experiments of aerosol dispersion and clearing were undertaken in
situ in a variety of rooms with 2 different types of PAC in various combinations and
positions. Correct use of PAC can reduce the clearance half-life of aerosols by 82%
compared to the same indoor-environment without any ventilation, and at a broadly
equivalent rate to built-in mechanical ventilation. In addition, the highest level of aerosol
concentration measured when using PAC remains at least 46% lower than that when no
mitigation is used, even if the PAC’s operation is impeded due to placement under a table.
The use of PAC leads to significant reductions in the level of aerosol concentration,
associated with transmission of droplet-based airborne diseases. This could enable NHS
departments to reduce the downtime between consultations/procedures
Spatiotemporal droplet dispersion measurements demonstrate face masks reduce risks from singing
COVID-19 has restricted singing in communal worship. We sought to understand variations in droplet transmission and the impact of wearing face masks. Using rapid laser planar imaging, we measured droplets while participants exhaled, said ‘hello’ or ‘snake’, sang a note or ‘Happy Birthday’, with and without surgical face masks. We measured mean velocity magnitude (MVM), time averaged droplet number (TADN) and maximum droplet number (MDN). Multilevel regression models were used. In 20 participants, sound intensity was 71 dB for speaking and 85 dB for singing (p 85% reduction wearing face masks. Droplet transmission varied widely, particularly for singing. Masks decreased TADN by 99% (p < 0.001) and MDN by 98% (p < 0.001) for singing and 86–97% for other tasks. Masks reduced variance by up to 48%. When wearing a mask, neither singing task transmitted more droplets than exhaling. In conclusion, wide variation exists for droplet production. This significantly reduced when wearing face masks. Singing during religious worship wearing a face mask appears as safe as exhaling or talking. This has implications for UK public health guidance during the COVID-19 pandemic
Aggregate Risk Score Based on Markers of Inflammation, Cell Stress, and Coagulation Is an Independent Predictor of Adverse Cardiovascular Outcomes
Objectives: This study sought to determine an aggregate, pathway-specific risk score for enhanced prediction of death and myocardial infarction (MI). Background Activation of inflammatory, coagulation, and cellular stress pathways contribute to atherosclerotic plaque rupture. We hypothesized that an aggregate risk score comprised of biomarkers involved in these different pathways - high-sensitivity C-reactive protein (CRP), fibrin degradation products (FDP), and heat shock protein 70 (HSP70) levels - would be a powerful predictor of death and MI. Methods: Serum levels of CRP, FDP, and HSP70 were measured in 3,415 consecutive patients with suspected or confirmed coronary artery disease (CAD) undergoing cardiac catheterization. Survival analyses were performed with models adjusted for established risk factors. Results: Median follow-up was 2.3 years. Hazard ratios (HRs) for all-cause death and MI based on cutpoints were as follows: CRP ≥3.0 mg/l, HR: 1.61; HSP70 >0.625 ng/ml, HR; 2.26; and FDP ≥1.0 μg/ml, HR: 1.62 (p < 0.0001 for all). An aggregate biomarker score between 0 and 3 was calculated based on these cutpoints. Compared with the group with a 0 score, HRs for all-cause death and MI were 1.83, 3.46, and 4.99 for those with scores of 1, 2, and 3, respectively (p for each: <0.001). Annual event rates were 16.3% for the 4.2% of patients with a score of 3 compared with 2.4% in 36.4% of patients with a score of 0. The C statistic and net reclassification improved (p < 0.0001) with the addition of the biomarker score. Conclusions: An aggregate score based on serum levels of CRP, FDP, and HSP70 is a predictor of future risk of death and MI in patients with suspected or known CAD
Evidence, Interpretation, and Qualification From Multiple Reports of Long- Term Outcomes in the Multimodal Treatment Study of Children With ADHD (MTA) Part II: Supporting Details
Objective:
To review and provide details about the primary and secondary findings from the Multimodal
Treatment study of ADHD (MTA) published during the past decade as three sets of articles.
Method:
In the second of a two part article, we provide additional background and detail required by the
complexity of the MTA to address confusion and controversy about the findings outlined in part I (the
Executive Summary).
Results:
We present details about the gold standard used to produce scientific evidence, the randomized
clinical trial (RCT), which we applied to evaluate the long-term effects of two well-established unimodal
treatments, Medication Management (MedMGT) and behavior therapy (Beh), the multimodal combination
(Comb), and treatment “as usual” in the community (CC). For each of the first three assessment points
defined by RCT methods and included in intent-to-treat analyses, we discuss our definition of evidence
from the MTA, interpretation of the serial presentations of findings at each assessment point with a
different definition of long-term varying from weeks to years, and qualification of the interim conclusions
about long-term effects of treatments for ADHD based on many exploratory analyses described in
additional published articles.
Conclusions:
Using a question and answer format, we discuss the possible clinical relevance of the MTA and
present some practical suggestions based on current knowledge and uncertainties facing families,
clinicians, and investigators regarding the long-term use of stimulant medication and behavioral therapy in
the treatment of children with ADHD. (J. of Att. Dis. 2008; 12(1) 15-43
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