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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

The effect of negative pressure generated during endotrachael suctioning on lung volumes and pulmonary compliance

Hipenbecker, Diane L. January 1981 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1981. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 125-127).
2

Spirometric and gas transfer measurements among normal adult South African men : an investigation into anthropoemtric, socio-economic, racial and environmental factors influencing lung function

Goldin, Jonathan Gerald 06 April 2020 (has links)
An investigation into anthropocentric, socio-economic, racial and environmental factors influencing lung function. In modern clinical practice the data derived from pulmonary function tests are an integral part of the evaluation of pulmonary disease states. Such data may shed light on the nature of the disease state, the extent (severity) of the disease and the degree of functional impairment that is present. It is generally recognized that there is a lack of consistent data regarding "normal" values in pulmonary function. Despite great progress in standardizing instrumentation, methodology and calculation of the lung function test, the interpretation of the test is complicated by the lack of standardized prediction values. The identification of race as a confounding variable is particularly important in an evaluation of appropriateness of currently used pulmonary function reference values. It has been pointed out that reference values for blacks, in particular, have deficiencies and that this issue demands urgent investigation. The study of differences in lung function in different race groups is complex. Race, itself, is a controversial concept and its close relationship to social stratification needs to be explored before differences may be attributed to race itself.
3

Modelling of Cardiovascular Regulation in Humans

May, Andrew 01 1900 (has links)
<p> A linear state space model (LSSM) of cardiovascular regulation in ten normal human volunteers is developed using instantaneous lung volume (IL V), heart rate (HR.), pulse pressure (PP) and mean arterial blood pressure (MBP) time series. Closed-loop transfer functions are computed and physiologically interpreted and the sensitivity of the transfer functions is assessed by comparison of supine and standing experimental results. The zeros ofthe transfer functions are used to infer the causality relationship between HR and PP. Results (1) In the supine condition, changes in ILV cause changes in HR within 0.5 s, followed shortly (0.3 -0.5 s) by changes in PP and finally changes in MBP 1 -2 slater. (2) When standing, changes in MBP occur concurrent with changes in PP. (3) MBP changes are dominated by blood pooling effects when standing. ( 4) Group delay is less affected than the magnitude by the physiological differences between the supine and standing conditions. (5) The relationship between HR and PP is neither completely causal nor anti-causal, but rather a combination of the two. (6) The minimum system delays are coincident with breathing frequencies between 0.2 -0.4 Hz. Conclusions Closed-loop LSSM and transfer function analysis may be used to infer the time delays and causality of the closed-loop system response. The classical model of RSA generation is supported by the LS SM results. </p> / Thesis / Master of Engineering (MEngr)
4

Obesity effects on lung volume, transdiaphragmatic pressure, upper airway dilator and inspiratory pump muscle activity in obstructive sleep apnoea.

Stadler, Daniel Lajos January 2010 (has links)
Obstructive sleep apnoea (OSA) is a common respiratory disorder characterised by repetitive periods of upper airway (UA) collapse during sleep. OSA is more common in males and the obese but the reasons why remain poorly understood. Abdominal obesity, particularly common in males, is likely to indirectly modulate the amount of tension (tracheal traction) exerted on the UA by the trachea and other intrathoracic structures, potentially leading to increased UA collapsibility. Other factors such as lung volume changes with obesity, altered drive to UA muscles and exaggerated arousal responses are also likely to contribute to UA instability. An investigation of these potential contributing factors forms the basis of this thesis. In the first study, the effect of external abdominal compression on UA collapsibility during sleep was investigated in a group of obese male OSA patients. A large pneumatic cuff wrapped around the abdomen was inflated to increase intra-abdominal pressure, aiming to produce an upward force on the diaphragm, designed to reduce axial tension on the UA. Abdominal compression increased end-expiratory gastric (PGA) and end-expiratory transdiaphragmatic (PDI) pressure by ~50% and produced a significant rise in UA collapsibility compared to the cuff deflated condition. These data support that increased intra-abdominal pressure has a negative effect on UA function during sleep. This effect may help explain why obesity is the leading risk factor for OSA and why OSA affects men more than women, given that abdominal obesity is particularly common in obese males. In the second study, differences in minimum expiratory (tonic) diaphragm activity during wakefulness were compared between 8 obese OSA patients and 8 healthyweight controls. Changes in tonic diaphragm activity and lung volume following sleep onset were also compared between the two groups. There was no evidence of increased tonic diaphragmatic activity during wakefulness in obese OSA patients to support significant diaphragmatic compensation for abdominal compressive effects of obesity. There were small decrements in lung volume following sleep onset in both groups (<70 ml), with significantly greater lung volume and diaphragmatic EMG decrements when sleep onsets were immediately followed by respiratory events. While lung volume decrements at sleep onset were relatively small, this does not discount that UA function is not more sensitive to effects of reduced lung volume in obese OSA patients. To more closely investigate the potential interactive effects of obesity on physiological variables likely influencing UA function, the third study investigated the temporal relationships between a comprehensive range of relevant physiological variables leading into and following the termination of obstructive apnoeas during sleep in 6 obese OSA patients. Prior to UA obstruction, diaphragm and genioglossus muscle activity decreased, while UA resistance increased. Lung volume and end-expiratory PGA and end-expiratory PDI also fell during this period, consistent with diaphragm ascent. There was a substantial increase in ventilation, muscle activity and lung volume immediately following the termination of obstructive events. Respiratory events and arousals occurred in close temporal proximity prior to and following obstructive apnoeas, supporting that cyclical respiratory events and arousals may both help to perpetuate further events. The results from this study support that there is a ‘global’ loss in respiratory drive to UA dilator and pump muscles precipitating obstructive respiratory events. The associated decreases in UA dilator muscle activity and lung volume may therefore both contribute to the propensity for the UA to obstruct. In summary, increased intra-abdominal pressure was shown to negatively impact UA airway collapsibility during sleep. A decrease in lung volume at sleep onset and prior to UA obstruction further support that lung volume decrement, coincident with a decline in overall respiratory drive, potentially contributes to the propensity for airway obstruction. Further studies are needed to elucidate the relative contribution of relatively small changes in lung volume versus changes in respiratory and UA muscle activity per se on UA patency in OSA patients. / Thesis (Ph.D.) -- University of Adelaide, School of Medical Sciences, 2010
5

Change in lung volume in asthma with particular reference to obesity

Schachter, L. M January 2005 (has links)
Doctor of Philosophy(PhD) / Over the last 20 years both asthma and obesity have increased in prevalence. What is the link? There are data to suggest that increasing obesity is a risk for the increase in prevalence of asthma. A number of mechanisms have been postulated including the effects of reduced lung volume on bronchial reactivity and mechanical changes with lower lung volumes. Other possibilities include other obesity-induced co-morbidities including gastro-oesophageal reflux. The aim of this thesis was to evaluate the link between asthma and obesity in both adult and childhood populations and to undertake experimental studies to examine the effects of changes in lung volume on bronchial reactivity. In chapter 1, the literature is reviewed. The current literature suggests that there is a link between diagnosis of asthma, new onset of asthma, symptoms of shortness of breath and wheeze. In chapter 2, data on 1997 adults in 3 population studies were analysed and the association between body mass index (BMI) and symptoms of shortness of breath and wheeze, diagnosis of asthma, medication usage for asthma, lung function and bronchial responsiveness were studied. This study showed that obesity was a risk for recent asthma (OR 2.04; 95%CI 1.02-3.76, p=0.048), symptoms of shortness of breath and wheeze (OR 2.6; 95%CI 1.46- 4.70, p=0.001), and medication usage for asthma (OR 2.53; 95%CI 1.36-4.70, p=0.003). There was a reduction in lung volume as measured by forced vital capacity (FVC), but there was no increase in bronchial hyperresponsiveness (BHR) (OR 0.87; 95% CI 0.35-2.21, p=0.78). Thus although the symptoms of asthma are increased there were no increases in BHR, despite significantly reduced lung volumes. The increase the medication usage is unlikely to have normalised the BHR, as there were ongoing symptoms suggestive of asthma. In chapter 3, data on 5993 children in 7 population studies were analysed and the association between BMI percentile and symptoms of cough, wheeze, ix diagnosis of asthma, medication usage for asthma, atopy, lung function and bronchial responsiveness was studied. After adjusting for atopy, sex, age, smoking and family history, BMI was a significant risk factor for wheeze ever (OR=1.06; 95%CI 1.01-1.10, p=0.008) and cough (OR=1.09; 95%CI 1.05-1.14, p=0.001) but not for recent asthma (OR=1.02; 95%CI 0.98-1.07 p=0.43), or bronchial hyperresponsiveness (OR=0.97; 95%CI 0.95-1.04 p=0.77). In girls, a higher BMI was significantly associated with higher prevalence of atopy (x2 trend 7.9, p=0.005), wheeze ever (x2 trend 10.4, p=0.001), and cough (x2 trend 12.3, p<0.001). These were not significant in boys. With increasing BMI in children, there was no reduction in lung volume, no increase in airway obstruction and no increase in bronchial responsiveness. In chapter 4, the hypothesis that obesity per se is associated with bronchial responsiveness was tested. Six obese women without asthma were compared to 6 non-obese women without asthma with high dose methacholine challenges to assess the bronchial responsiveness. There was no increase in bronchial responsiveness, and no difference in the position or shape of the high dose methacholine curve despite the fact that these women had reduced lung volumes associated with their obesity. In chapter 5, the hypothesis whether reduced lung volume per se would cause a change in greater mechanical effect, ie more marked airway narrowing in both non-asthmatic and asthmatic subjects was tested. Lung volumes and methacholine challenges were undertaken in the supine and erect position on different days. As expected in normal subjects there was a small reduction in lung volume on lying down, this was associated with an increase in the measure of bronchial reactivity DRR. In contrast, in asthmatics, there was no acute fall in lung volume and there were variable changes in the index of reactivity suggesting non-homogeneity in the lung function abnormality. This suggests changes in bronchial reactivity can occur without any relationship to lung volume change. These negative results suggest that lung volume changes that may occur in obesity are unlikely contributors to the apparent increase in asthma symptoms. In chapter 6, the hypothesis that the supposed increase in asthma symptoms in the obese were due to the effects of gastro-oesophageal reflux were assessed in 147 obese subjects graded for gastro-oesophageal reflux severity using manometry and gastroscopy. This study showed that subjects with increased gastro-oesophageal reflux did not have subjective increases in asthma prevalence, obstructive sleep apnoea, or snoring however they had a clear worsening of gas transfer as measured by carbon monoxide transfer suggesting a greater level of parenchymal disease. The overall results are that there is an increase of diagnosis of asthma, increase in symptoms of asthma and medication usage for the treatment of asthma in the obese. Objectively despite reductions in lung volume, there is no increase in bronchial responsiveness in this group suggesting that these symptoms are not related to true asthma, but to alternative co-morbidities associated with obesity such as gastro-oesophageal reflux. Notably gastrooesophageal reflux was not associated with increased asthma prevalence or airway obstruction. However it was associated with reduced gas transfer suggesting parenchymal disease. This suggests that the increase in symptoms of wheeze and shortness of breath in the obese should not be attributed to asthma in the absence of variable airflow limitation that is reversible spontaneously or with treatment, or with an increase in the existing bronchial hyperresponsiveness (BHR) to a variety of stimuli.
6

The effects of a volitional breathing technique on swallowing and respiratory coordination in individuals with amyotrophic lateral sclerosis: A pilot investigation

Bohaichuk, Amanda R Unknown Date
No description available.
7

Change in lung volume in asthma with particular reference to obesity

Schachter, L. M January 2005 (has links)
Doctor of Philosophy(PhD) / Over the last 20 years both asthma and obesity have increased in prevalence. What is the link? There are data to suggest that increasing obesity is a risk for the increase in prevalence of asthma. A number of mechanisms have been postulated including the effects of reduced lung volume on bronchial reactivity and mechanical changes with lower lung volumes. Other possibilities include other obesity-induced co-morbidities including gastro-oesophageal reflux. The aim of this thesis was to evaluate the link between asthma and obesity in both adult and childhood populations and to undertake experimental studies to examine the effects of changes in lung volume on bronchial reactivity. In chapter 1, the literature is reviewed. The current literature suggests that there is a link between diagnosis of asthma, new onset of asthma, symptoms of shortness of breath and wheeze. In chapter 2, data on 1997 adults in 3 population studies were analysed and the association between body mass index (BMI) and symptoms of shortness of breath and wheeze, diagnosis of asthma, medication usage for asthma, lung function and bronchial responsiveness were studied. This study showed that obesity was a risk for recent asthma (OR 2.04; 95%CI 1.02-3.76, p=0.048), symptoms of shortness of breath and wheeze (OR 2.6; 95%CI 1.46- 4.70, p=0.001), and medication usage for asthma (OR 2.53; 95%CI 1.36-4.70, p=0.003). There was a reduction in lung volume as measured by forced vital capacity (FVC), but there was no increase in bronchial hyperresponsiveness (BHR) (OR 0.87; 95% CI 0.35-2.21, p=0.78). Thus although the symptoms of asthma are increased there were no increases in BHR, despite significantly reduced lung volumes. The increase the medication usage is unlikely to have normalised the BHR, as there were ongoing symptoms suggestive of asthma. In chapter 3, data on 5993 children in 7 population studies were analysed and the association between BMI percentile and symptoms of cough, wheeze, ix diagnosis of asthma, medication usage for asthma, atopy, lung function and bronchial responsiveness was studied. After adjusting for atopy, sex, age, smoking and family history, BMI was a significant risk factor for wheeze ever (OR=1.06; 95%CI 1.01-1.10, p=0.008) and cough (OR=1.09; 95%CI 1.05-1.14, p=0.001) but not for recent asthma (OR=1.02; 95%CI 0.98-1.07 p=0.43), or bronchial hyperresponsiveness (OR=0.97; 95%CI 0.95-1.04 p=0.77). In girls, a higher BMI was significantly associated with higher prevalence of atopy (x2 trend 7.9, p=0.005), wheeze ever (x2 trend 10.4, p=0.001), and cough (x2 trend 12.3, p<0.001). These were not significant in boys. With increasing BMI in children, there was no reduction in lung volume, no increase in airway obstruction and no increase in bronchial responsiveness. In chapter 4, the hypothesis that obesity per se is associated with bronchial responsiveness was tested. Six obese women without asthma were compared to 6 non-obese women without asthma with high dose methacholine challenges to assess the bronchial responsiveness. There was no increase in bronchial responsiveness, and no difference in the position or shape of the high dose methacholine curve despite the fact that these women had reduced lung volumes associated with their obesity. In chapter 5, the hypothesis whether reduced lung volume per se would cause a change in greater mechanical effect, ie more marked airway narrowing in both non-asthmatic and asthmatic subjects was tested. Lung volumes and methacholine challenges were undertaken in the supine and erect position on different days. As expected in normal subjects there was a small reduction in lung volume on lying down, this was associated with an increase in the measure of bronchial reactivity DRR. In contrast, in asthmatics, there was no acute fall in lung volume and there were variable changes in the index of reactivity suggesting non-homogeneity in the lung function abnormality. This suggests changes in bronchial reactivity can occur without any relationship to lung volume change. These negative results suggest that lung volume changes that may occur in obesity are unlikely contributors to the apparent increase in asthma symptoms. In chapter 6, the hypothesis that the supposed increase in asthma symptoms in the obese were due to the effects of gastro-oesophageal reflux were assessed in 147 obese subjects graded for gastro-oesophageal reflux severity using manometry and gastroscopy. This study showed that subjects with increased gastro-oesophageal reflux did not have subjective increases in asthma prevalence, obstructive sleep apnoea, or snoring however they had a clear worsening of gas transfer as measured by carbon monoxide transfer suggesting a greater level of parenchymal disease. The overall results are that there is an increase of diagnosis of asthma, increase in symptoms of asthma and medication usage for the treatment of asthma in the obese. Objectively despite reductions in lung volume, there is no increase in bronchial responsiveness in this group suggesting that these symptoms are not related to true asthma, but to alternative co-morbidities associated with obesity such as gastro-oesophageal reflux. Notably gastrooesophageal reflux was not associated with increased asthma prevalence or airway obstruction. However it was associated with reduced gas transfer suggesting parenchymal disease. This suggests that the increase in symptoms of wheeze and shortness of breath in the obese should not be attributed to asthma in the absence of variable airflow limitation that is reversible spontaneously or with treatment, or with an increase in the existing bronchial hyperresponsiveness (BHR) to a variety of stimuli.
8

Ventilation and lung volume during sleep and in obstructive sleep apnea /

Appelberg, Jonas, January 2003 (has links)
Diss. (sammanfattning) Uppsala : Univ., 2003. / Härtill 4 uppsatser.
9

Avaliação da função pulmonar por espirometria na leishmaniose visceral / Pulmonary function evaluation by spirometry in visceral leishmaniasis

Maia, Isabel Aragão 23 September 2015 (has links)
Introdução: Das formas clínicas das leishmanioses, a forma clássica da leishmaniose visceral (LV) é a forma mais grave da doença, afetando órgãos como baço, fígado e linfonodos. Como a doença apresenta um comprometimento intersticial secundário à infecção pela Leishmania, existe o envolvimento de outros órgãos. No pulmão, o envolvimento se manifesta pela pneumonite intersticial. Essa alteração foi provada por estudo anatomopatológico em hamsteres, cães e homens. Embora as pesquisas pulmonares na doença avaliem as alterações ultraestruturais provocadas pela leishmaniose, não existem estudos que avaliem o impacto dessas sobre a função pulmonar. Objetivo: Caracterizar o distúrbio ventilatório em pacientes internado com LV por espirometria. Métodos: Foram avaliados transversalmente 20 pacientes com diagnóstico confirmado por Kalazar detect, mielograma e/ou sorologia. Os parâmetros medidos foram a capacidade vital forçada (CVF), volume expiratório forçado do primeiro segundo (VEF1), índice de Tiffeneau e fluxo expiratório forçado (25-75%). Posteriormente, foram utilizados, na análise estatística, o teste não paramétrico de Mann-Whitney, teste exato de Fisher, não paramétrico de Wilcoxon e o coeficiente de correlação de Speraman. Nível de significância com p < 0,05. Resultados: A espirometria mostrou-se alterada em 14 pacientes (70%). O padrão de distúrbio ventilatório apresentado foi somente restritivo. Em relação aos dados laboratoriais, os pacientes com hipoalbuminemia apresentaram espirometria alterada. Não foi achada correlação estatisticamente significativa entre tempo de medicação, consumo de tabaco, infecção, sintomas respiratórios, ocupação, tempo de sintomas. Conclusão: Os achados da espirometria evidenciaram volumes pulmonares reduzidos, com diminuição da CVF e, em 55% dos pacientes com VEF1, também diminuído. Neste estudo, demonstrou-se que a alteração da função pulmonar está, provavelmente, relacionada à fibrose pulmonar que ocorre na LV, como descrito / The clinical forms of leishmaniasis, the classic form of visceral leishmaniasis (VL) is the most severe form of the disease, affecting organs such as the spleen, liver and lymph nodes. As the disease presents an interstitial deterioration secondary to the infection by Leishmania, there is the involvement of other organs. In the lung, the involvement is manifested by the interstitial pneumonitis. This alteration has been proved by anatomopathological studies in hamsters, dogs and men. Although the researches concerning this lung disease assess the ultrastructural alterations caused by leishmaniasis, there are no studies evaluating the impact of these on lung function. Objective: To characterize the ventilatory disorder in patients hospitalized with VL by spirometry. Methods: 20 patients were transversely evaluated with diagnosis confirmed by Kalazar Detect, myelogram and / or serology. The measured parameters were the forced vital capacity (FVC), forced expiratory volume in one second (FEV1), Tiffeneau index and forced expiratory flow (25-75%). Thereafter, the non-parametric Mann-Whitney test, Fisher\'s exact test, non-parametric Wilcoxon and Spearman correlation coefficient were used in the statistical analysis. Significance level of p < 0.05. Results: The spirometry was altered in 14 patients (70%). The presented ventilatory disorder pattern was only restrictive. Regarding the laboratory data, patients with hypoalbuminemia presented altered spirometry findings. It was not found statistically significant correlation between time of medication, smoking, infections, respiratory symptoms, occupation, time of symptoms. Conclusion: The findings of spirometry showed reduced lung volumes, with decreased FVC and in 55% of patients with FEV1 also decreased. In this study it was shown that the change in lung function is probably related to pulmonary fibrosis that occurs in the VL as described in anatomicopathological studies conducted earlier
10

Avaliação da função pulmonar por espirometria na leishmaniose visceral / Pulmonary function evaluation by spirometry in visceral leishmaniasis

Isabel Aragão Maia 23 September 2015 (has links)
Introdução: Das formas clínicas das leishmanioses, a forma clássica da leishmaniose visceral (LV) é a forma mais grave da doença, afetando órgãos como baço, fígado e linfonodos. Como a doença apresenta um comprometimento intersticial secundário à infecção pela Leishmania, existe o envolvimento de outros órgãos. No pulmão, o envolvimento se manifesta pela pneumonite intersticial. Essa alteração foi provada por estudo anatomopatológico em hamsteres, cães e homens. Embora as pesquisas pulmonares na doença avaliem as alterações ultraestruturais provocadas pela leishmaniose, não existem estudos que avaliem o impacto dessas sobre a função pulmonar. Objetivo: Caracterizar o distúrbio ventilatório em pacientes internado com LV por espirometria. Métodos: Foram avaliados transversalmente 20 pacientes com diagnóstico confirmado por Kalazar detect, mielograma e/ou sorologia. Os parâmetros medidos foram a capacidade vital forçada (CVF), volume expiratório forçado do primeiro segundo (VEF1), índice de Tiffeneau e fluxo expiratório forçado (25-75%). Posteriormente, foram utilizados, na análise estatística, o teste não paramétrico de Mann-Whitney, teste exato de Fisher, não paramétrico de Wilcoxon e o coeficiente de correlação de Speraman. Nível de significância com p < 0,05. Resultados: A espirometria mostrou-se alterada em 14 pacientes (70%). O padrão de distúrbio ventilatório apresentado foi somente restritivo. Em relação aos dados laboratoriais, os pacientes com hipoalbuminemia apresentaram espirometria alterada. Não foi achada correlação estatisticamente significativa entre tempo de medicação, consumo de tabaco, infecção, sintomas respiratórios, ocupação, tempo de sintomas. Conclusão: Os achados da espirometria evidenciaram volumes pulmonares reduzidos, com diminuição da CVF e, em 55% dos pacientes com VEF1, também diminuído. Neste estudo, demonstrou-se que a alteração da função pulmonar está, provavelmente, relacionada à fibrose pulmonar que ocorre na LV, como descrito / The clinical forms of leishmaniasis, the classic form of visceral leishmaniasis (VL) is the most severe form of the disease, affecting organs such as the spleen, liver and lymph nodes. As the disease presents an interstitial deterioration secondary to the infection by Leishmania, there is the involvement of other organs. In the lung, the involvement is manifested by the interstitial pneumonitis. This alteration has been proved by anatomopathological studies in hamsters, dogs and men. Although the researches concerning this lung disease assess the ultrastructural alterations caused by leishmaniasis, there are no studies evaluating the impact of these on lung function. Objective: To characterize the ventilatory disorder in patients hospitalized with VL by spirometry. Methods: 20 patients were transversely evaluated with diagnosis confirmed by Kalazar Detect, myelogram and / or serology. The measured parameters were the forced vital capacity (FVC), forced expiratory volume in one second (FEV1), Tiffeneau index and forced expiratory flow (25-75%). Thereafter, the non-parametric Mann-Whitney test, Fisher\'s exact test, non-parametric Wilcoxon and Spearman correlation coefficient were used in the statistical analysis. Significance level of p < 0.05. Results: The spirometry was altered in 14 patients (70%). The presented ventilatory disorder pattern was only restrictive. Regarding the laboratory data, patients with hypoalbuminemia presented altered spirometry findings. It was not found statistically significant correlation between time of medication, smoking, infections, respiratory symptoms, occupation, time of symptoms. Conclusion: The findings of spirometry showed reduced lung volumes, with decreased FVC and in 55% of patients with FEV1 also decreased. In this study it was shown that the change in lung function is probably related to pulmonary fibrosis that occurs in the VL as described in anatomicopathological studies conducted earlier

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