Spelling suggestions: "subject:"hypotension, orthostatic"" "subject:"hypotension, orthostatics""
1 |
The incidence of orthostatic hypotension during physiotherapy in patients who have sustained an acute spinal cord injury /Illman, Ann-Maree. Unknown Date (has links)
Thesis (MPhysio)--University of South Australia, 1998
|
2 |
Physical manoeuvres to prevent vasovagal syncope and initial orthostatic hypotensionKrediet, Constantijn Thomas Paul. January 2007 (has links)
Academisch Proefschrift--Universiteit van Amsterdam, 2007. / Includes bibliographical references (p. 91-108).
|
3 |
The effect of preconditioning on post-surgical orthostatic intolerance a research report submitted in partial fulfillment ... /Burns, Candace. Collins, Terry. Wilson, Lorraine. January 1972 (has links)
Thesis (M.S.)--University of Michigan, 1972.
|
4 |
The effect of preconditioning on post-surgical orthostatic intolerance a research report submitted in partial fulfillment ... /Burns, Candace. Collins, Terry. Wilson, Lorraine. January 1972 (has links)
Thesis (M.S.)--University of Michigan, 1972.
|
5 |
Intravascular dehydration and changes in blood pressure in ultra-marathon runnersBuntman, Ari Jack January 1997 (has links)
A research report submitted to the Faculty of Medicine, University of the Witwatersrand,
in partial fulfilment of the requirements for the degree
of
Master of Science in Medicine in Applied Physiology.
Johannesburg, 1997. / A post-exercise reduction in blood pressure (BP) may be the primary reason that
athletes suffer from exerclse-assoclated collapse (EAC) at the end ot ultra-endurance
running ever.s. Plasma volume decreases, possibly caused by dehydration, may be
the cause of the decrease til blood pressure, In order to determine whether there is a
correlation between plasma volume changes and the post-exercise BP drop, this study
evaluated alterations in pre- and post-race blood pressures and changes in blood and
plasma volumes, It found that compared to resting values, systolic, dlastollc and mean
arterial blood pressures (mmHg) fell significantly from 119 ± 4, mean ± standard
deviation, 74 ± 8, and 88 ± 5 respectively to '106 ± 14, 62 ± 12 and 77 ± 10 (ps 0,05),
whereas pulse pressure failed to change, Compared to pre-race values, plasma and
blood volume were found not to have changed significantly, During the race plasma
urea (U) and creatinine (C) concentrations increased significantly, whereas body mass
and body mass index both fell significantly. Haernatocrlt, haemoglobin, mean cell
volume, red blood cell number, mean cell haemoglobin concentration, the mean cell
haemoglobin, plasma sodium, potassium, chloride and protein concentrations, the U:C
ratio and osmolality remained constant. There were no significClnt correlations
between changes in plasma or blood volume and changes in blood pressure, These
data support the Idea that a post-race decrease in blood pressure does not result
primarily from an intravascular fluid loss, It is likely therefore that athletes who collapse
at the end of ultraendurance races due to EAC do so as a result of 'post-exercise
hypotension' secondary to venous pooling, and not as a result of a reduction in plasma
volume, / MT2017
|
6 |
Predicting orthostatic vasovagal syncope with signal processing and physiological modellingEbden, Mark January 2006 (has links)
Orthostatic vasovagal syncope is the sudden loss of consciousness resulting from a temporary impairment of cerebral blood flow, within approximately an hour of standing. Patients who suffer from this problem have "vasovagal syndrome". The purpose of this thesis was to devise a method to detect the syndrome following the assumption of upright position. Data from 106 syncopal patients undergoing head-up tilt table testing (HUT) were acquired, including electrical activity of the heart (electrocardiogram), blood pressure, oxygen saturation, and cerebral perfusion parameters from near-infrared spectroscopy (NIRS). The data set was examined with the aim of generating automatic diagnoses. Comparison of the rate-pressure product (blood pressure multiplied by heart rate) during the time of syncope with a recommended threshold, in addition to comparison with monitoring the fall of systolic blood pressure during prolonged tilt, yielded an 84% accuracy rate for vasovagal syndrome. The thesis reviewed the techniques used on the aforementioned time series by previous researchers, emphasising the concepts underlying "time-frequency analysis", a method for analysing nonstationary signals. Since even healthy patients experience time-varying frequency information in their haemodynamics, a transform known as the Smoothed Pseudo-Wigner Ville Distribution (SPWVD) is well suited to their analysis. This distribution was applied to RR tachograms, plots of heart period against time. After the smoothing parameters of the SPWVD were chosen based on artificial data, the optimised transform was then applied to a second artificial tachogram to calculate the LF/HF (low- to high-frequency) ratio, an indicator of heart rate variability. The computed LF/HF ratio tracked the expected value within an error margin of 3.6%. Finally, by applying the same transform to clinical data, it was proved to offer better resolution than an alternative known as the Lomb periodogram. Classical techniques from the literature predicting vasovagal syncope were found to fail on the current data set: out of 29 tests, only two yielded statistically significant differences between the two patient groups. These were compared with the author's time-frequency analysis of RR tachograms, linear regression of heart rate, and examination of NIRS oscillations and changes on tilt. Of these, the ICFV during time period P3 was found to perform best (negative predictive value: 0.86). A linear classifier was used to combine the best four predictors; it achieved an overall accuracy of 0.88. Following the data-driven approach, an analytical modelling approach was undertaken. In order to define an appropriate model that traded off simplicity with comprehensiveness, the mechanisms of vasovagal syncope were reviewed. A model of orthostasis was developed, validated, and used toward parameter estimation from patient data. Three parameters (baroreceptor operating point, cardiac effectiveness, and baroreflex gain) were gleaned from the supine baseline recording to "normalise" the model for a given patient, before four new parameters (sympathetic and parasympathetic gains at the sino-atrial node, peripheral vasoconstriction gain, and total blood volume) were estimated from the data collected in the upright position. The expectation was that this approach would improve feature extraction (and hence prediction accuracy) as well as the clinical interpretation of the results. However, the modelling approach was found to offer no significant improvement upon the data-driven signal processing results: a linear classifier on the four post-tilt parameters yielded a negative predictive value of just 0.69. This result may have been due to inaccuracies in the time series data owing to instrumentation error. It is also possible that the modelling approach was not able to provide the quality of feature extraction necessary for predicting vasovagal syncope in the elderly. Finally, methods to predict syncope during mid- to late HUT were examined. Using information derived from heart rate and baroreflex sensitivity, a technique was developed to ease patient comfort by terminating the test approximately 2 minutes before syncope was expected to occur.
|
7 |
Orthostatic blood pressure and heart rate responses within hypovolemic and normovolemic populations.Patterson, Fran Dolores. January 1994 (has links)
A descriptive study was conducted comparing the blood pressure and heart rate responses to position change among hypovolemic and normovolemic subjects. A convenience sample of 32 men and women from an emergency room with complaints of diarrhea, vomiting, vaginal or rectal bleeding for $\ge$12 hours duration were recruited. The normovolemic group consisted of a convenience sample of 30 men and women from the community. Data analysis included a mixed design analysis of variance. Compared to supine baseline measurements, between group changes in the systolic, diastolic, and mean arterial blood pressure were not statistically significant (p $>$.05). Once the subject stood, heart rate increased statistically significant in both groups (p $<$.05). The data suggest orthostatic hypotension can be considered when the supine resting heart rate is $\ge$87 beats per minute, and if upon standing, heart rate increases by $\ge$19.33 or is $\ge$110 beats per minute. Heart rate measurements should be taken at one minute after standing.
|
8 |
Postural changes in circulation and respiration in relation to activity of the antigravity musclesBrogdon, Ruth Elizabeth, January 1940 (has links)
Thesis (Ph. D.)--University of Wisconsin--Madison, 1940. / Typescript. Includes abstract and vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves [27]-[28]).
|
9 |
Physical manoeuvres to prevent vasovagal syncope and initial orthostatic hypotensionKrediet, Constantijn Thomas Paul. January 1900 (has links)
Academisch Proefschrift--Universiteit van Amsterdam, 2007. / Description based on print version record. Includes bibliographical references (p. 91-108).
|
10 |
Student engagement for college students with the hidden disability of orthostatic intolerance /Karabin, Beverly Lynn. January 2009 (has links)
Dissertation (Ph.D.)--University of Toledo, 2009. / Typescript. "Submitted to the Graduate Faculty as partial fulfillment of the requirements for The Doctor of Philosophy Degree in Higher Education." Bibliography: leaves 274-302.
|
Page generated in 0.077 seconds