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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Creating an Individualized Predictive Model of PAO2 and PACO2 Changes During Voluntary Static Apnea for Sedentary Subjects / Att skapa en individualiserad prediktiv modell av PAO2- och PACO2-förändringar under frivillig statisk apné för stillasittande personer

Anthony, Diana January 2018 (has links)
The primary aim of this study was to fill a gap in the literature in understanding maximal BH in untrained, non-divers by generating a predictive numerical model for PAO2 and PACO2 throughout BH. There have been little to no previous attempts at explicitly characterizing the influence of impermanent personal or environmental factors on PAO2 or PACO2 at BH breakpoint. The metabolic human consumption of O2 and production of CO2 as measured through alveolar partial pressures was observed over time during a voluntary maximum breath-hold for 18 members of the general population. The coefficient of determination was used to determine accuracy of the model in fitting participants’ BH data from this experiment. The volume of the last inhalation pre-BH, time to subjective breakpoint, and breath-to-breath calculated respiratory exchange ratio (RER) were identified as the most influential combination of key variables that improved PAO2 model fit (from R2 = 0.8591 to R2 = 0.8840). Clustering methods coupled with two sample t-tests or ANOVA were then used to identify survey responses most correlated to inter-BH similarities. These were barometric pressure, age, height, weight, resting HR, smoker/ freediver/scuba experience, and weekly frequency of engaging in physical exercise. The model was validated on testing data from an experienced free-diver, from non-rebreathing trials of a sample of the participants, and from simulated dives of 5 participants from research in the Environmental Physiology Department of Karolinska in 1994 [1]. It has been suggested that the presented model can be a valuable tool in developing safer free diving practices. Furthermore, interesting trends in continuous HR, starting PACO2 values, and O2 consumption were observed and analyzed using statistical analysis. Findings were discussed with connection to the underlying physiological principles that might explain the results obtained.
2

An assesssment of non-conventional measures of lung function and the effedt of a herbal extract on mild-moderate childhood asthma

Maxwell, Sheena, sheenamax@optusnet.com.au January 2007 (has links)
Background: Respiratory conditions are prevalent and cause an enormous burden on society. In recent decades, there has been a global increase in asthma in children and adults, yet the diagnosis of asthma must be made on clinical grounds as the diagnostic use of pharmacological reversibility of airway obstruction remains controversial. It is possible however that tools exist from different medical paradigms that may assist in the clinical diagnosis of asthma. Tools such as Traditional Chinese Medicine (TCM) enquiry, Breath Holding Time (BHT) or Electro-Dermal Screening Test (EDST) may provide useful clinical information, yet their use has not been widely explored or validated. Integrative medicine may be considered to represent a new frontier in medicine where each therapy and diagnostic method is seen to have its own advantages and limitations and where an integration of both diagnostic and therapeutic techniques from conventional and complementary medicine is seen to produce the best results. However, while there is a high community use of complementary therapies for conditions such as asthma, there is also a need to maintain accepted standards of medical and scientific principles and foster high quality research into complementary therapies. Objectives: The current study sought to determine: • If there is a correlation between conventional measures of lung function such as Forced Expiratory Volume in one second (FEV1) and less conventional measures such as airways expired NO level (eNO), electrodermal measures, TCM enquiry and BHT. • If any of the lung function measures are able to distinguish between asthmatic and healthy subjects. • If the use of a rye grass extract is better than placebo in improving requirements for bronchodilator medication, peak flow, forced expiratory volume in one second or quality of life in mild to moderate childhood asthma. Rational for carrying out two separate studies as one study; The author was interested on both the integration of diagnostic techniques as well as the effect of the herbal extract on asthma so it was decided to use the opportunity and put both in one study. Method: A range of conventional and non-conventional measures were conducted in healthy and asthmatic children including demographic details, quality of life data, spirometry measures, airway nitric oxide levels, electro-dermal measures, TCM history enquiries, breath holding time, and skin prick tests. The data were analysed to determine any significant correlations between these measures. A double blind randomized controlled pilot clinical trial was also performed to assess the effect of using rye grass extract in asthmatic children aged 8 to 16 years. Results: There were significant correlations between forced expiratory volume in one second and active quality of life, TCM spleen score and fraction of exhaled nitric oxide measurements. There were also statistically significant differences between asthmatic and healthy subjects in TCM history, breath holding time and exhaled nitric oxide. The use of rye grass extract did not produce any significant improvement over placebo in any of the asthma outcome measures. Conclusions: The use of inexpensive measures such as BHT and TCM enquiry may provide useful clinical information when assessing respiratory conditions such as asthma. However, further research is required in larger populations to confirm their use. The use of the rye grass extract at the dose given in this study did not provide any clinical benefit for the asthmatic children in this study.
3

Anxiety Sensitivity and Panic Symptoms: The Moderating Influence of Distress Tolerance

Geyer, Rachel B. 17 November 2021 (has links)
No description available.
4

Avaliação do valor prognóstico dos biomarcadores cardíacos perioperatórios em pacientes de moderado a alto risco cardiovascular submetidos à cirurgia não-cardíaca / Analysis of the maximal voluntary breath-holding time as pulmonary function tests in patients with obstructive ventilatory defects and normal controls

Borges, Flávia Kessler January 2011 (has links)
Introdução: O teste de apneia respiratória tem sido testado e demonstrou ser de utilidade clínica. Objetivos: Determinar o tempo de apneia voluntária máxima em pacientes com distúrbios ventilatórios obstrutivos (DVO) e em indivíduos normais e correlacionar os tempos de apneia com os testes de função pulmonar. Métodos: Foi realizado um estudo caso-controle incluindo pacientes com DVO (casos) e um grupo controle, composto por voluntários com espirometria normal, recrutados no Hospital de Clínicas de Porto Alegre (HCPA). A espirometria foi realizada com espirômetro computadorizado e o teste de apneia respiratória utilizando-se um sistema eletrônico microprocessado e um pneumotacógrafo ((Hans Rudolph ® – Kansas OH, EUA)– Kansas OH, EUA) como transdutor de fluxo. As curvas de fluxo respiratório foram exibidas em tempo real em um computador portátil e os tempos máximos de apneia voluntária inspiratória e expiratória (TAVIM e TAVEM) foram determinados a partir do sinal adquirido. Resultados: Um total de 35 pacientes com DVO (casos) e 16 controles foram incluídos no estudo. O TAVIM foi significativamente menor nos casos (22,3 ± 11,8 s) do que no grupo controle (31,5 ± 15,7 s) com p = 0,025. O TAVEM também foi significativamente menor nos casos (16,9 ± 6,6 s) do que no grupo controle (22,1 ± 7,9 s) com p = 0,017. Foram encontradas correlações positivas moderadas entre TAVIM e CVF (r = 0,476, p = 0,004) e entre TAVIM e VEF1 (r = 0,383, p = 0,023). Conclusões: As medidas de TAVIM e TAVEM foram significativamente menores nos casos do que nos controles, e o TAVIM teve correlação moderada com a CVF e VEF1. Estes resultados fornecem uma evidência adicional da utilidade clínica do tempo de apneia como teste de função pulmonar. / Introduction: Breath-holding test has been tested in some clinical scenarios and has proved to be of clinical utility. Objectives: To determine the maximum voluntary breath-holding time in patients with obstructive ventilator defects and in normal subjects and to correlate the breathholding times with pulmonary function tests. Methods: We conducted a case-control study including patients with obstructive ventilator defects and a control group consisted of volunteers recruited in the same hospital, with normal spirometry. Spirometry was performed using a computerized spirometer. The Breath-holding test was conducted using an electronic microprocessor and a (Hans Rudolph ® – Kansas OH, EUA)pneumotachograph and flow transducer. Respiratory flow curves were displayed in real time on a portable computer. The maximal voluntary apnea inspiratory and expiratory times (MVAIT and MVAET) were determined from the acquired signal. Results: A total of 35 patients with obstructive ventilatory defects and 16 controls met the inclusion criteria and were included in the analysis. The MVAIT was lower in cases (22.3 ± 11.8 seconds) than in controls (31.5 ± 15.7 seconds) (p=0.025). MVAET was also lower in cases than in controls (16.9 ± 6.6 vs. 22.1 ± 7.9; p=0.017). We found positive and significant correlations between MVAIT and FVC (L) (r=0.476; p=0.004) and between MVAIT and FEV1 (L) (r=0.383; p=0.023). Conclusions: MVAIT and MVAET were significant lower in patients with obstructive ventilatory defects than in controls, and that MVAIT was correlated positively with FVC and FEV1 in cases. Our results provide additional evidence of usefulness of MVAIT as a pulmonary function test.
5

Análise dos tempos de apneia voluntária máxima como teste de função pulmonar em pacientes com distúrbios ventilatórios obstrutivos e normais / Analysis of the maximal voluntary breath-holding time as pulmonary function tests in patients with obstructive ventilatory defects and normal controls

Viecili, Raqueli Biscayno January 2011 (has links)
Introdução: O teste de apneia respiratória tem sido testado e demonstrou ser de utilidade clínica. Objetivos: Determinar o tempo de apneia voluntária máxima em pacientes com distúrbios ventilatórios obstrutivos (DVO) e em indivíduos normais e correlacionar os tempos de apneia com os testes de função pulmonar. Métodos: Foi realizado um estudo caso-controle incluindo pacientes com DVO (casos) e um grupo controle, composto por voluntários com espirometria normal, recrutados no Hospital de Clínicas de Porto Alegre (HCPA). A espirometria foi realizada com espirômetro computadorizado e o teste de apneia respiratória utilizando-se um sistema eletrônico microprocessado e um pneumotacógrafo ((Hans Rudolph ® – Kansas OH, EUA)– Kansas OH, EUA) como transdutor de fluxo. As curvas de fluxo respiratório foram exibidas em tempo real em um computador portátil e os tempos máximos de apneia voluntária inspiratória e expiratória (TAVIM e TAVEM) foram determinados a partir do sinal adquirido. Resultados: Um total de 35 pacientes com DVO (casos) e 16 controles foram incluídos no estudo. O TAVIM foi significativamente menor nos casos (22,3 ± 11,8 s) do que no grupo controle (31,5 ± 15,7 s) com p = 0,025. O TAVEM também foi significativamente menor nos casos (16,9 ± 6,6 s) do que no grupo controle (22,1 ± 7,9 s) com p = 0,017. Foram encontradas correlações positivas moderadas entre TAVIM e CVF (r = 0,476, p = 0,004) e entre TAVIM e VEF1 (r = 0,383, p = 0,023). Conclusões: As medidas de TAVIM e TAVEM foram significativamente menores nos casos do que nos controles, e o TAVIM teve correlação moderada com a CVF e VEF1. Estes resultados fornecem uma evidência adicional da utilidade clínica do tempo de apneia como teste de função pulmonar. / Introduction: Breath-holding test has been tested in some clinical scenarios and has proved to be of clinical utility. Objectives: To determine the maximum voluntary breath-holding time in patients with obstructive ventilator defects and in normal subjects and to correlate the breathholding times with pulmonary function tests. Methods: We conducted a case-control study including patients with obstructive ventilator defects and a control group consisted of volunteers recruited in the same hospital, with normal spirometry. Spirometry was performed using a computerized spirometer. The Breath-holding test was conducted using an electronic microprocessor and a (Hans Rudolph ® – Kansas OH, EUA)pneumotachograph and flow transducer. Respiratory flow curves were displayed in real time on a portable computer. The maximal voluntary apnea inspiratory and expiratory times (MVAIT and MVAET) were determined from the acquired signal. Results: A total of 35 patients with obstructive ventilatory defects and 16 controls met the inclusion criteria and were included in the analysis. The MVAIT was lower in cases (22.3 ± 11.8 seconds) than in controls (31.5 ± 15.7 seconds) (p=0.025). MVAET was also lower in cases than in controls (16.9 ± 6.6 vs. 22.1 ± 7.9; p=0.017). We found positive and significant correlations between MVAIT and FVC (L) (r=0.476; p=0.004) and between MVAIT and FEV1 (L) (r=0.383; p=0.023). Conclusions: MVAIT and MVAET were significant lower in patients with obstructive ventilatory defects than in controls, and that MVAIT was correlated positively with FVC and FEV1 in cases. Our results provide additional evidence of usefulness of MVAIT as a pulmonary function test.
6

Avaliação do valor prognóstico dos biomarcadores cardíacos perioperatórios em pacientes de moderado a alto risco cardiovascular submetidos à cirurgia não-cardíaca / Analysis of the maximal voluntary breath-holding time as pulmonary function tests in patients with obstructive ventilatory defects and normal controls

Borges, Flávia Kessler January 2011 (has links)
Introdução: O teste de apneia respiratória tem sido testado e demonstrou ser de utilidade clínica. Objetivos: Determinar o tempo de apneia voluntária máxima em pacientes com distúrbios ventilatórios obstrutivos (DVO) e em indivíduos normais e correlacionar os tempos de apneia com os testes de função pulmonar. Métodos: Foi realizado um estudo caso-controle incluindo pacientes com DVO (casos) e um grupo controle, composto por voluntários com espirometria normal, recrutados no Hospital de Clínicas de Porto Alegre (HCPA). A espirometria foi realizada com espirômetro computadorizado e o teste de apneia respiratória utilizando-se um sistema eletrônico microprocessado e um pneumotacógrafo ((Hans Rudolph ® – Kansas OH, EUA)– Kansas OH, EUA) como transdutor de fluxo. As curvas de fluxo respiratório foram exibidas em tempo real em um computador portátil e os tempos máximos de apneia voluntária inspiratória e expiratória (TAVIM e TAVEM) foram determinados a partir do sinal adquirido. Resultados: Um total de 35 pacientes com DVO (casos) e 16 controles foram incluídos no estudo. O TAVIM foi significativamente menor nos casos (22,3 ± 11,8 s) do que no grupo controle (31,5 ± 15,7 s) com p = 0,025. O TAVEM também foi significativamente menor nos casos (16,9 ± 6,6 s) do que no grupo controle (22,1 ± 7,9 s) com p = 0,017. Foram encontradas correlações positivas moderadas entre TAVIM e CVF (r = 0,476, p = 0,004) e entre TAVIM e VEF1 (r = 0,383, p = 0,023). Conclusões: As medidas de TAVIM e TAVEM foram significativamente menores nos casos do que nos controles, e o TAVIM teve correlação moderada com a CVF e VEF1. Estes resultados fornecem uma evidência adicional da utilidade clínica do tempo de apneia como teste de função pulmonar. / Introduction: Breath-holding test has been tested in some clinical scenarios and has proved to be of clinical utility. Objectives: To determine the maximum voluntary breath-holding time in patients with obstructive ventilator defects and in normal subjects and to correlate the breathholding times with pulmonary function tests. Methods: We conducted a case-control study including patients with obstructive ventilator defects and a control group consisted of volunteers recruited in the same hospital, with normal spirometry. Spirometry was performed using a computerized spirometer. The Breath-holding test was conducted using an electronic microprocessor and a (Hans Rudolph ® – Kansas OH, EUA)pneumotachograph and flow transducer. Respiratory flow curves were displayed in real time on a portable computer. The maximal voluntary apnea inspiratory and expiratory times (MVAIT and MVAET) were determined from the acquired signal. Results: A total of 35 patients with obstructive ventilatory defects and 16 controls met the inclusion criteria and were included in the analysis. The MVAIT was lower in cases (22.3 ± 11.8 seconds) than in controls (31.5 ± 15.7 seconds) (p=0.025). MVAET was also lower in cases than in controls (16.9 ± 6.6 vs. 22.1 ± 7.9; p=0.017). We found positive and significant correlations between MVAIT and FVC (L) (r=0.476; p=0.004) and between MVAIT and FEV1 (L) (r=0.383; p=0.023). Conclusions: MVAIT and MVAET were significant lower in patients with obstructive ventilatory defects than in controls, and that MVAIT was correlated positively with FVC and FEV1 in cases. Our results provide additional evidence of usefulness of MVAIT as a pulmonary function test.
7

Análise dos tempos de apneia voluntária máxima como teste de função pulmonar em pacientes com distúrbios ventilatórios obstrutivos e normais / Analysis of the maximal voluntary breath-holding time as pulmonary function tests in patients with obstructive ventilatory defects and normal controls

Viecili, Raqueli Biscayno January 2011 (has links)
Introdução: O teste de apneia respiratória tem sido testado e demonstrou ser de utilidade clínica. Objetivos: Determinar o tempo de apneia voluntária máxima em pacientes com distúrbios ventilatórios obstrutivos (DVO) e em indivíduos normais e correlacionar os tempos de apneia com os testes de função pulmonar. Métodos: Foi realizado um estudo caso-controle incluindo pacientes com DVO (casos) e um grupo controle, composto por voluntários com espirometria normal, recrutados no Hospital de Clínicas de Porto Alegre (HCPA). A espirometria foi realizada com espirômetro computadorizado e o teste de apneia respiratória utilizando-se um sistema eletrônico microprocessado e um pneumotacógrafo ((Hans Rudolph ® – Kansas OH, EUA)– Kansas OH, EUA) como transdutor de fluxo. As curvas de fluxo respiratório foram exibidas em tempo real em um computador portátil e os tempos máximos de apneia voluntária inspiratória e expiratória (TAVIM e TAVEM) foram determinados a partir do sinal adquirido. Resultados: Um total de 35 pacientes com DVO (casos) e 16 controles foram incluídos no estudo. O TAVIM foi significativamente menor nos casos (22,3 ± 11,8 s) do que no grupo controle (31,5 ± 15,7 s) com p = 0,025. O TAVEM também foi significativamente menor nos casos (16,9 ± 6,6 s) do que no grupo controle (22,1 ± 7,9 s) com p = 0,017. Foram encontradas correlações positivas moderadas entre TAVIM e CVF (r = 0,476, p = 0,004) e entre TAVIM e VEF1 (r = 0,383, p = 0,023). Conclusões: As medidas de TAVIM e TAVEM foram significativamente menores nos casos do que nos controles, e o TAVIM teve correlação moderada com a CVF e VEF1. Estes resultados fornecem uma evidência adicional da utilidade clínica do tempo de apneia como teste de função pulmonar. / Introduction: Breath-holding test has been tested in some clinical scenarios and has proved to be of clinical utility. Objectives: To determine the maximum voluntary breath-holding time in patients with obstructive ventilator defects and in normal subjects and to correlate the breathholding times with pulmonary function tests. Methods: We conducted a case-control study including patients with obstructive ventilator defects and a control group consisted of volunteers recruited in the same hospital, with normal spirometry. Spirometry was performed using a computerized spirometer. The Breath-holding test was conducted using an electronic microprocessor and a (Hans Rudolph ® – Kansas OH, EUA)pneumotachograph and flow transducer. Respiratory flow curves were displayed in real time on a portable computer. The maximal voluntary apnea inspiratory and expiratory times (MVAIT and MVAET) were determined from the acquired signal. Results: A total of 35 patients with obstructive ventilatory defects and 16 controls met the inclusion criteria and were included in the analysis. The MVAIT was lower in cases (22.3 ± 11.8 seconds) than in controls (31.5 ± 15.7 seconds) (p=0.025). MVAET was also lower in cases than in controls (16.9 ± 6.6 vs. 22.1 ± 7.9; p=0.017). We found positive and significant correlations between MVAIT and FVC (L) (r=0.476; p=0.004) and between MVAIT and FEV1 (L) (r=0.383; p=0.023). Conclusions: MVAIT and MVAET were significant lower in patients with obstructive ventilatory defects than in controls, and that MVAIT was correlated positively with FVC and FEV1 in cases. Our results provide additional evidence of usefulness of MVAIT as a pulmonary function test.
8

Avaliação do valor prognóstico dos biomarcadores cardíacos perioperatórios em pacientes de moderado a alto risco cardiovascular submetidos à cirurgia não-cardíaca / Analysis of the maximal voluntary breath-holding time as pulmonary function tests in patients with obstructive ventilatory defects and normal controls

Borges, Flávia Kessler January 2011 (has links)
Introdução: O teste de apneia respiratória tem sido testado e demonstrou ser de utilidade clínica. Objetivos: Determinar o tempo de apneia voluntária máxima em pacientes com distúrbios ventilatórios obstrutivos (DVO) e em indivíduos normais e correlacionar os tempos de apneia com os testes de função pulmonar. Métodos: Foi realizado um estudo caso-controle incluindo pacientes com DVO (casos) e um grupo controle, composto por voluntários com espirometria normal, recrutados no Hospital de Clínicas de Porto Alegre (HCPA). A espirometria foi realizada com espirômetro computadorizado e o teste de apneia respiratória utilizando-se um sistema eletrônico microprocessado e um pneumotacógrafo ((Hans Rudolph ® – Kansas OH, EUA)– Kansas OH, EUA) como transdutor de fluxo. As curvas de fluxo respiratório foram exibidas em tempo real em um computador portátil e os tempos máximos de apneia voluntária inspiratória e expiratória (TAVIM e TAVEM) foram determinados a partir do sinal adquirido. Resultados: Um total de 35 pacientes com DVO (casos) e 16 controles foram incluídos no estudo. O TAVIM foi significativamente menor nos casos (22,3 ± 11,8 s) do que no grupo controle (31,5 ± 15,7 s) com p = 0,025. O TAVEM também foi significativamente menor nos casos (16,9 ± 6,6 s) do que no grupo controle (22,1 ± 7,9 s) com p = 0,017. Foram encontradas correlações positivas moderadas entre TAVIM e CVF (r = 0,476, p = 0,004) e entre TAVIM e VEF1 (r = 0,383, p = 0,023). Conclusões: As medidas de TAVIM e TAVEM foram significativamente menores nos casos do que nos controles, e o TAVIM teve correlação moderada com a CVF e VEF1. Estes resultados fornecem uma evidência adicional da utilidade clínica do tempo de apneia como teste de função pulmonar. / Introduction: Breath-holding test has been tested in some clinical scenarios and has proved to be of clinical utility. Objectives: To determine the maximum voluntary breath-holding time in patients with obstructive ventilator defects and in normal subjects and to correlate the breathholding times with pulmonary function tests. Methods: We conducted a case-control study including patients with obstructive ventilator defects and a control group consisted of volunteers recruited in the same hospital, with normal spirometry. Spirometry was performed using a computerized spirometer. The Breath-holding test was conducted using an electronic microprocessor and a (Hans Rudolph ® – Kansas OH, EUA)pneumotachograph and flow transducer. Respiratory flow curves were displayed in real time on a portable computer. The maximal voluntary apnea inspiratory and expiratory times (MVAIT and MVAET) were determined from the acquired signal. Results: A total of 35 patients with obstructive ventilatory defects and 16 controls met the inclusion criteria and were included in the analysis. The MVAIT was lower in cases (22.3 ± 11.8 seconds) than in controls (31.5 ± 15.7 seconds) (p=0.025). MVAET was also lower in cases than in controls (16.9 ± 6.6 vs. 22.1 ± 7.9; p=0.017). We found positive and significant correlations between MVAIT and FVC (L) (r=0.476; p=0.004) and between MVAIT and FEV1 (L) (r=0.383; p=0.023). Conclusions: MVAIT and MVAET were significant lower in patients with obstructive ventilatory defects than in controls, and that MVAIT was correlated positively with FVC and FEV1 in cases. Our results provide additional evidence of usefulness of MVAIT as a pulmonary function test.
9

Análise dos tempos de apneia voluntária máxima como teste de função pulmonar em pacientes com distúrbios ventilatórios obstrutivos e normais / Analysis of the maximal voluntary breath-holding time as pulmonary function tests in patients with obstructive ventilatory defects and normal controls

Viecili, Raqueli Biscayno January 2011 (has links)
Introdução: O teste de apneia respiratória tem sido testado e demonstrou ser de utilidade clínica. Objetivos: Determinar o tempo de apneia voluntária máxima em pacientes com distúrbios ventilatórios obstrutivos (DVO) e em indivíduos normais e correlacionar os tempos de apneia com os testes de função pulmonar. Métodos: Foi realizado um estudo caso-controle incluindo pacientes com DVO (casos) e um grupo controle, composto por voluntários com espirometria normal, recrutados no Hospital de Clínicas de Porto Alegre (HCPA). A espirometria foi realizada com espirômetro computadorizado e o teste de apneia respiratória utilizando-se um sistema eletrônico microprocessado e um pneumotacógrafo ((Hans Rudolph ® – Kansas OH, EUA)– Kansas OH, EUA) como transdutor de fluxo. As curvas de fluxo respiratório foram exibidas em tempo real em um computador portátil e os tempos máximos de apneia voluntária inspiratória e expiratória (TAVIM e TAVEM) foram determinados a partir do sinal adquirido. Resultados: Um total de 35 pacientes com DVO (casos) e 16 controles foram incluídos no estudo. O TAVIM foi significativamente menor nos casos (22,3 ± 11,8 s) do que no grupo controle (31,5 ± 15,7 s) com p = 0,025. O TAVEM também foi significativamente menor nos casos (16,9 ± 6,6 s) do que no grupo controle (22,1 ± 7,9 s) com p = 0,017. Foram encontradas correlações positivas moderadas entre TAVIM e CVF (r = 0,476, p = 0,004) e entre TAVIM e VEF1 (r = 0,383, p = 0,023). Conclusões: As medidas de TAVIM e TAVEM foram significativamente menores nos casos do que nos controles, e o TAVIM teve correlação moderada com a CVF e VEF1. Estes resultados fornecem uma evidência adicional da utilidade clínica do tempo de apneia como teste de função pulmonar. / Introduction: Breath-holding test has been tested in some clinical scenarios and has proved to be of clinical utility. Objectives: To determine the maximum voluntary breath-holding time in patients with obstructive ventilator defects and in normal subjects and to correlate the breathholding times with pulmonary function tests. Methods: We conducted a case-control study including patients with obstructive ventilator defects and a control group consisted of volunteers recruited in the same hospital, with normal spirometry. Spirometry was performed using a computerized spirometer. The Breath-holding test was conducted using an electronic microprocessor and a (Hans Rudolph ® – Kansas OH, EUA)pneumotachograph and flow transducer. Respiratory flow curves were displayed in real time on a portable computer. The maximal voluntary apnea inspiratory and expiratory times (MVAIT and MVAET) were determined from the acquired signal. Results: A total of 35 patients with obstructive ventilatory defects and 16 controls met the inclusion criteria and were included in the analysis. The MVAIT was lower in cases (22.3 ± 11.8 seconds) than in controls (31.5 ± 15.7 seconds) (p=0.025). MVAET was also lower in cases than in controls (16.9 ± 6.6 vs. 22.1 ± 7.9; p=0.017). We found positive and significant correlations between MVAIT and FVC (L) (r=0.476; p=0.004) and between MVAIT and FEV1 (L) (r=0.383; p=0.023). Conclusions: MVAIT and MVAET were significant lower in patients with obstructive ventilatory defects than in controls, and that MVAIT was correlated positively with FVC and FEV1 in cases. Our results provide additional evidence of usefulness of MVAIT as a pulmonary function test.
10

REFINEMENTS TO THE CURRENT UNDERSTANDING OF FUNCTIONAL MRI ACTIVATION IN WHITE MATTER

Mazerolle, Erin L. 01 June 2012 (has links)
Functional magnetic resonance imaging (fMRI) is a widely used, noninvasive technique to map brain activation, and has provided considerable insight into human brain function over the past two decades. Until recently, fMRI studies have focused on gray matter; however, reports of fMRI activation in white matter are mounting. White matter fMRI activation has the potential to greatly expand the breadth of brain connectivity research, as well as improve the assessment and diagnosis of white matter and connectivity disorders. Despite these potential benefits, white matter fMRI activation remains controversial. The controversy is partially due to the existence of incompletely understood facets of fMRI signals in white matter. This thesis describes three experiments that aim to refine what is currently known about white matter fMRI activation. In the first experiment, one of the main concerns about fMRI activation in white matter was addressed; namely, whether white matter has sufficient cerebrovascular reactivity to support hemodynamic changes that can be measured with fMRI. It was demonstrated that white matter has the capacity to support detectable hemodynamic changes in the absence of partial volume effects. In the second experiment, the effect of static magnetic field strength on sensitivity to white matter fMRI activation was explored as a possible cause of the relative paucity of reports of white matter fMRI activation. The results showed greater sensitivity to white matter fMRI activation at 4 T relative to 1.5 T MRI. In the third experiment, the relationship between white matter activation and the activated network of gray matter regions was explored. This was accomplished using fMRI-guided tractography in which structural connections between activated clusters are evaluated. Structural connectivity between white matter fMRI activation and regions of gray matter activation was demonstrated, providing evidence of the functional significance of fMRI activation in white matter. These experiments provide important insights, which will allow for improved investigations of white matter fMRI activation in the future. In addition, it is posited that experimenter bias, via selective reporting of activation clusters, has contributed to the slow acceptance of fMRI activation in white matter.

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