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3. A Personal Respirator to Improve Protection for Healthcare Workers Treating COVID-19 (PeRSo).

Author

Elkington PT, Dickinson AS, Mavrogordato MN, Spencer DC, Gillams RJ, De Grazia A, Rosini S, Garay-Baquero DJ, Diment LE, Mahobia N, Mant A, Baynham T, and Morgan H

Abstract

Introduction: SARS-CoV-2 infection is a global pandemic. Personal Protective Equipment (PPE) to protect healthcare workers has been a recurrent challenge in terms of global stocks, supply logistics and suitability. In some settings, around 20% of healthcare workers treating COVID-19 cases have become infected, which leads to staff absence at peaks of the pandemic, and in some cases mortality. Methods: To address shortcomings in PPE, we developed a simple powered air purifying respirator, made from inexpensive and widely available components. The prototype was designed to minimize manufacturing complexity so that derivative versions could be developed in low resource settings with minor modification. Results: The "Personal Respirator - Southampton" (PeRSo) delivers High-Efficiency Particulate Air (HEPA) filtered air from a battery powered fan-filter assembly into a lightweight hood with a clear visor that can be comfortably worn for several hours. Validation testing demonstrates that the prototype removes microbes, avoids excessive CO 2 build-up in normal use, and passes fit test protocols widely used to evaluate standard N95/FFP2 and N99/FFP3 face masks. Feedback from doctors and nurses indicate the PeRSo prototype was preferred to standard FFP2 and FFP3 masks, being more comfortable and reducing the time and risk of recurrently changing PPE. Patients report better communication and reassurance as the entire face is visible. Conclusion: Rapid upscale of production of cheaply produced powered air purifying respirators, designed to achieve regulatory approval in the country of production, could protect healthcare workers from infection and improve healthcare delivery during the COVID-19 pandemic., Competing Interests: TB is chairman of INDO Lighting Limited who manufacture a certified development version of the prototype respirator presented in this paper. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Elkington, Dickinson, Mavrogordato, Spencer, Gillams, De Grazia, Rosini, Garay-Baquero, Diment, Mahobia, Mant, Baynham and Morgan.)

Published
2021
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4. Roles of line stimulation-induced virtual electrodes and action potential prolongation in arrhythmic propagation.

Author

Baynham TC and Knisley SB

Subjects
Action Potentials physiology, Animals, Computer Simulation, Data Interpretation, Statistical, Electrodes, Heart physiology, Rabbits, Spectrometry, Fluorescence, Arrhythmias, Cardiac physiopathology
Abstract

Introduction: Line stimulation across fibers generates a virtual electrode (VE) pattern that consists of adjacent +Vm and -Vm regions. In this study, we evaluated Vm at the break of line stimulation pulses to determine where arrhythmias arise and their propagation direction relative to +Vm and -Vm regions., Methods and Results: We optically mapped the anterior left ventricular epicardium of isolated rabbit hearts (n = 9). Monophasic line stimuli were applied across fibers at various coupling intervals. In 18 of 24 break arrhythmias, i.e., arrhythmias in which propagation occurred after the break but < or = 30 msec postshock, excitation propagated from the border between +Vm and -Vm regions toward the -Vm region (P < 0.05) for either shock polarity, even though locations of positive and negative Vm changed with shock polarity. In 13 of 18 make arrhythmias, i.e., arrhythmias in which propagation occurred before the break, the excitation propagated from the center of the +Vm region toward the -Vm regions (P < 0.05). For late arrhythmias, i.e., arrhythmias in which propagation was found >30 msec postshock, propagation was reversed, i.e., toward the +Vm region (P < 0.01), which was where the positive VE produced action potential prolongation., Conclusion: The propagation of break, make, and late arrhythmias is spatially related to VEs. The different direction of propagation of late arrhythmias relative to the VEs is explained by the delayed recovery of Vm due to VE-induced action potential prolongation.

Published
2001

5. Errors caused by combination of Di-4 ANEPPS and Fluo3/4 for simultaneous measurements of transmembrane potentials and intracellular calcium.

Author

Johnson PL, Smith W, Baynham TC, and Knisley SB

Subjects
Aniline Compounds chemistry, Animals, Biomarkers analysis, Biomarkers chemistry, Calcium analysis, Fluorescent Dyes chemistry, Membrane Potentials, Models, Biological, Pyridinium Compounds chemistry, Rabbits, Reproducibility of Results, Xanthenes chemistry, Aniline Compounds analysis, Calcium metabolism, Fluorescent Dyes analysis, Myocardium metabolism, Pyridinium Compounds analysis, Spectrometry, Fluorescence standards, Xanthenes analysis
Abstract

Intracellular calcium concentration and transmembrane potentials are two important measurements used to study the mechanisms of cardiac activity. Fluorescent dyes have been used to measure these separately but not simultaneously in cardiac tissue. Fluo-3 and Fluo-4 (a recently improved version of Fluo-3) have been used to measure changes in intracellular calcium concentration and Di-4 ANEPPS has been used to measure transmembrane potentials. This paper addresses the feasibility of using these fluorescent dyes together in order to measure transmembrane potentials and intracellular calcium concentration simultaneously. For the dyes to be used simultaneously, their respective fluorescence spectra must be sufficiently separated in wavelength in order to allow them to be separated by optical filters or spectrographs. An apparatus was constructed to measure the dyes' spectra in a fluorescence imaging chamber as well as in an isolated perfused rabbit heart. The measured spectra were mathematically modeled in order to assess the spectral overlap error under different conditions. Error graphs were constructed which may help researchers select optical filters and dye concentrations that will result in an acceptable error.

Published
1999
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6. Effective epicardial resistance of rabbit ventricles.

Author

Baynham TC and Knisley SB

Subjects
Animals, Computer Simulation, Electric Impedance, Models, Cardiovascular, Rabbits, Heart Conduction System physiology, Pericardium physiology, Ventricular Function
Abstract

This study evaluated effective resistances on the ventricular surfaces of arterially-perfused rabbit hearts. Effective resistances were determined with a four-electrode array that was parallel or perpendicular to epicardial fibers. Resistance along or across epicardial fibers was determined by applying current to the epicardium with two parallel line electrodes and measuring potentials in the region between the electrodes. Computer simulations were performed to gain insight into the distribution of current in the ventricular wall. The effective resistances were not different along versus across fibers. Simulations showed that transmural rotation of fibers causes current to be distributed differently when the electrode is oriented perpendicular versus parallel to epicardial fibers. When the array is oriented so that epicardial current is across fibers, the fraction of current that flows transmurally and along the deeper fibers increases while the fraction of current that flows epicardially decreases. This introduces isotropy of the effective resistance. Thus, in contrast to isolated cardiac fibers, the ventricular epicardium exhibits isotropic effective resistance due to transmural rotation of fibers. The rotation and isotropic resistance may be important for cardiac electrical behavior and effects of electrical current in the ventricles.

Published
1999
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7. Line stimulation parallel to myofibers enhances regional uniformity of transmembrane voltage changes in rabbit hearts.

Author

Knisley SB and Baynham TC

Subjects
Action Potentials, Animals, Electric Stimulation, Fluorescent Dyes, Pyridinium Compounds, Rabbits, Computer Simulation, Heart physiology, Models, Biological, Muscle Fibers, Skeletal physiology
Abstract

The sign of transmembrane voltage (Vm) change (delta Vm) in the heart during unipolar point stimulation is nonuniform, which introduces dispersion of states of Vm-dependent ion channels that depends on fiber orientation. We hypothesized that line stimulation parallel to cardiac fibers increases regional uniformity of the delta Vm sign. To test this, we evaluated electrode current distribution and delta Vm produced by unipolar line stimulation in isolated rabbit hearts. The Vm-sensitive fluorescent dye, di-4-ANEPPS, and a laser scanner provided delta Vm measurements at 63 spots in an 8 x 8-mm epicardial region. Line stimulation was tested at specific angles with respect to the fiber direction. Current peaks occurred at electrode ends. For electrodes parallel to fibers (0 degree), epicardium in regions beyond the ends exhibited a nonuniform delta Vm sign, whereas epicardium between the ends exhibited a uniform delta Vm sign that was essentially negative (hyperpolarized) during anodal pulses and positive (depolarized) during cathodal pulses. The delta Vm sign between the ends became less uniform when the stimulation angle was increased relative to the long axis of the fibers. At 90 degrees, the delta Vm sign between the ends was nonuniform and was frequently opposite, near versus away from the electrode. Spatial distributions of delta Vm during line stimulation were qualitatively predictable from anisotropic effects of point stimulation provided that combined effects of points along the electrode and points with higher current near ends were considered. For biphasic line stimulation, delta Vm during the second phase was weakly correlated with the temporal sum of effects of phases given individually, indicating limited ability of summation to predict delta Vm. Thus, uniformity of the delta Vm sign during stimulation is enhanced in the region between the ends of a line electrode parallel to fibers. This may lessen arrhythmogenic dispersion of Vm-dependent ion channel states in the region.

Published
1997
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8. Successful and unsuccessful contraceptors: a multivariate typology.

Author

Hornick JP, Devlin MC, Downey MK, and Baynham T

Subjects
Americas, Behavior, Canada, Contraception, Developed Countries, Developing Countries, Education, Family Planning Services, North America, Contraception Behavior, Sex Education, Sexual Behavior
Abstract

"The purpose of this study is to develop and test a multivariate, multidimensional exploratory model of successful and unsuccessful contraceptive use." The data concern 200 sexually active females who visited an obstetrics and gynecology department in Hamilton, Ontario, Canada. The authors conclude that successful contraceptive use has to be seen in a multidimensional context and is not simply a problem concerning contraceptive information. They also conclude that early sexual socialization and education, generally in the family setting, is important in the development of sexually responsible behavior., (excerpt)

Published
1985
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