Aspirin Triggered Resolution Phase Interaction Product D1: A Novel Treatment for Hyperoxic Acute Lung Injury

Cox, Jr., Ruan Rollin

13 July 2015

Acute Lung injury (ALI) and the more severe acute respiratory distress syndrome (ARDS) are respiratory maladies that present immense clinical challenges. ALI affects 200,000 individuals annually and features a 40% mortality rate. ALI can be initiated by both pathogenic and sterile insults originating locally in the lungs or systemically. While immense research has been poured into this disease in an effort to find a therapeutic strategy, the heterogeneously diffuse nature of the disease has not yielded a cure for the disease. Death from this disease is strongly attributed to reduced gas exchange from a severely compromised alveolar-capillary barrier. The only way currently to manage this disease is through enhanced ventilation and hyperoxic therapy. Hyperoxic therapy is a common treatment given to over 800,000 patients each year to treat respiratory maladies such as ALI. Prolonged exposure to oxygen at high concentrations results in the development of a condition known as hyperoxic acute lung injury (HALI). In this disease, the formation of reactive oxygen species damages healthy tissue and impairs gas exchange. Hyperoxia is also a well-documented murine sterile lung injury model that replicates the symptoms of ALI in lung injury patients. The ability of non-lethal dosages of hyperoxia to resolve without lung fibrosis also enables the study of molecules associated with ALI resolution and repair, a process not clearly understood. Inflammation in ALI is associated with disease progression, however pharmaceutical interventions aimed at targeting the inflammatory cascade have failed in clinical trials for ALI. Recent reports point to an aberrant injury resolution mechanisms that may be more strongly correlated with morbidity and mortality. There seems to be a homeostatic imbalance between endogenous inflammation progression and resolution initiation. This is especially the case with HALI, as significant ROS generation results in depletion of redox regulating antioxidants. Resolution mechanisms associated with ALI in the oxygen toxicity setting is poorly understood. Polyunsaturated fatty acids such eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) are essential fatty acids that show immense antioxidant and anti-inflammatory action in cases of acute injury. The lung mucosa is rich in DHA and following inflammatory insult DHA is readily converted to resolution phase interaction products (resolvins), which have shown immense proresolutionary potential in recent reports of acute injury. In the presence of aspirin, more potent and longer-acting aspirin-triggered resolvins are formed. The effects of resolvins and their aspirin triggered epimers have not been studied in an oxygen toxicity setting and are the focus of this dissertation. For the first time, we show that one of these resolvin molecules, aspirin triggered resolvin d1 (AT-RvD1), can enhance resolution of hyperoxic acute lung injury. In vitro results reveals that AT-RvD1 treatment resulted in reduced interaction of two key players in the HALI inflammatory cascade, the macrophage and alveolar epithelium. AT-RvD1 was able to blunt macrophage cytokine secretion as well as inhibit epithelial cell cytokine secretion and adhesion molecule expression. More importantly, AT-RvD1 blunted cytokine mediated leukocyte-epithelial cell interaction in vitro. In a sublethal hyperoxic injury model, mice given AT-RvD1 following hyperoxia exposure displayed reduced HALI pathological severity. ATRvD1 treatment resulted in reduced alveolar-capillary permeability, tissue inflammation, proinflammatory mediator secretion, epithelial cell death, and leukocyte influx. Taken together these novel results demonstrate the therapeutic potential of resolvins in the oxygen toxicity setting. These results also arouse the idea that resolvins could be used to lessen the comorbidities associated with oxygen therapy and improve recovery times of ALI patients.

Inflammation

Interleukin-1beta

resolvins

hyperoxia

injury resolution

Cell Biology

Immunology and Infectious Disease

Hypoxic and hyperoxic incubation affects the ductus arteriosus in the developing chicken embryo (Gallus gallus).

Copeland, Jennifer

12 1900

Developing chicken embryos have two ductus arteriosus (DA) that shunt blood away from the lungs and to the chorioallantoic membrane, the embryonic gas exchanger. In mammals, DA closure is stimulated by an increase in blood gas O2 that occurs as the animal begins to breathe with its lungs. The goal of this study was to determine the influence of O2 levels during incubation on the vascular reactivity and morphology of the O2-sensitive DA and to examine the effects of changing O2 levels during late incubation on the morphology of the DA from chicken embryos. In comparison to normoxia, hypoxia (15%) reduced venous O2 levels in day 16 and day 18 embryos and reduced aircell O2 values in day 16, day 18, and internally pipped (IP) embryos, whereas hyperoxia (30%) increased venous O2 levels and aircell O2 level in day 16, day 18, and IP embryos. In comparison to normoxia, hypoxia delayed closure of the DA, whereas hyperoxia accelerated DA closure. In comparison to the left DA from externally pipped (EP) normoxic embryos, the left DA from EP hypoxic embryos exhibited a significantly weaker contractile response to O2. The DA from day 18 hypoxic embryos exhibited a significantly weaker contractile response to norepinephrine and phenylephrine when compared with the DA from day 18 normoxic and hyperoxic embryos. The effect of incubation in hypoxia / hyperoxia during different developmental windows on the DA O2-induced contractile response was observed only in IP embryos that were incubated in normoxia for 16 days and were then moved to hyperoxia. Incubation in hypoxia / hyperoxia resulted in differences in embryo mass, yolk mass, and heart mass. There is an association between the decreased contractile response to O2 and delayed closure in the proximal portion of the DA from hypoxic embryos; as well as an increased contractile response to O2 and accelerated closure in the proximal portion of the DA from hyperoxic embryos.

Hypoxia

chicken embryo

ductus arteriosus

hyperoxia

Chickens -- Embryos.

Eggs -- Incubation.

Ductus arteriosus.

Oxygen.

AMBIENT OXYGEN AVAILABILITY MODULATES EXPRESSION OF VASCULAR ANGIOGENIC FACTORS AND CAPILLARY REMODELING (ANGIOPLASTICITY) IN THE MOUSE BRAIN

Benderro, Girriso Futara

07 March 2013

No description available.

Neurobiology

hypoxia

hyperoxia

angioplasticity

angiogenesis

microvascular regression

HIF-¿¿

COX-2

VEGF

Ang-2

Metabolic Signatures of Cryptosporidium parvum-Infected HCT-8 Cells and Impact of Selected Metabolic Inhibitors on C. parvum Infection under Physioxia and Hyperoxia

Vélez, Juan, Velasquez, Zahady, Silva, Liliana M. R., Gärtner, Ulrich, Failing, Klaus, Daugschies, Arwid, Mazurek, Sybille, Hermosilla, Carlos, Taubert, Anja

27 April 2023

Cryptosporidium parvum is an apicomplexan zoonotic parasite recognized as the second leading-cause of diarrhoea-induced mortality in children. In contrast to other apicomplexans, C. parvum has minimalistic metabolic capacities which are almost exclusively based on glycolysis. Consequently, C. parvum is highly dependent on its host cell metabolism. In vivo (within the intestine) infected epithelial host cells are typically exposed to low oxygen pressure (1–11% O2, termed physioxia). Here, we comparatively analyzed the metabolic signatures of C. parvum-infected HCT-8 cells cultured under both, hyperoxia (21% O2), representing the standard oxygen condition used in most experimental settings, and physioxia (5% O2), to be closer to the in vivo situation. The most pronounced effect of C. parvum infection on host cell metabolism was, on one side, an increase in glucose and glutamine uptake, and on the other side, an increase in lactate release. When cultured in a glutamine-deficient medium, C. parvum infection led to a massive increase in glucose consumption and lactate production. Together, these results point to the important role of both glycolysis and glutaminolysis during C. parvum intracellular replication. Referring to obtained metabolic signatures, we targeted glycolysis as well as glutaminolysis in C. parvum-infected host cells by using the inhibitors lonidamine [inhibitor of hexokinase, mitochondrial carrier protein (MCP) and monocarboxylate transporters (MCT) 1, 2, 4], galloflavin (lactate dehydrogenase inhibitor), syrosingopine (MCT1- and MCT4 inhibitor) and compound 968 (glutaminase inhibitor) under hyperoxic and physioxic conditions. In line with metabolic signatures, all inhibitors significantly reduced parasite replication under both oxygen conditions, thereby proving both energy-related metabolic pathways, glycolysis and glutaminolysis, but also lactate export mechanisms via MCTs as pivotal for C. parvum under in vivo physioxic conditions of mammals.

info:eu-repo/classification/ddc/570

ddc:570

Effects of Hyperoxia on Aging Biomarkers: A Systematic Review

Tessema, Belay, Sack, Ulrich, Serebrovska, Zoya, König, Brigitte, Egorov, Egor

22 January 2024

The effects of short-term hyperoxia on age-related diseases and aging biomarkers have been reported in animal and human experiments using different protocols; however, the findings of the studies remain conflicting. In this systematic review, we summarized the existing reports in the effects of short-term hyperoxia on age-related diseases, hypoxiainducible factor 1α (HIF-1α), and other oxygen-sensitive transcription factors relevant to aging, telomere length, cellular senescence, and its side effects. This review was done as described in the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guideline. A systematic search was done in PubMed, Google Scholar, and Cochrane Library and from the references of selected articles to identify relevant studies until May 2021. Of the total 1,699 identified studies, 17 were included in this review. Most of the studies have shown significant effects of short-term hyperoxia on age-related diseases and aging biomarkers. The findings of the studies suggest the potential benefits of short-term hyperoxia in several clinical applications such as for patients undergoing stressful operations, restoration of cognitive function, and the treatment of severe traumatic brain injury. Short-term hyperoxia has significant effects in upregulation or downregulation of transcription factors relevant to aging such as HIF-1α, nuclear factor kappa-light-chain-enhancer of activated B-cells (NF-kB), and nuclear factor (erythroidderived 2)-like 2 (NRF2) among others. Short-term hyperoxia also has significant effects to increase antioxidant enzymes, and increase telomere length and clearance of senescent cells. Some of the studies have also reported adverse consequences including mitochondrial DNA damage and nuclear cataract formation depending on the dose and duration of oxygen exposure. In conclusion, short-term hyperoxia could be a feasible treatment option to treat age-related disease and to slow aging because of its ability to increase antioxidant enzymes, significantly increase telomere length and clearance of senescent cells, and improve cognitive function, among others. The reported side effects of hyperoxia vary depending on the dose and duration of exposure. Therefore, it seems that additional studies for better understanding the beneficial effects of short-term hyperoxia and for minimizing side effects are necessary for optimal clinical application.

info:eu-repo/classification/ddc/610

ddc:610

Controle neurovascular em repouso e durante o exercí­cio em indiví­duos com diferentes ní­veis de pressão arterial: papel dos quimiorreceptores periféricos / Neurovascular control at rest and during exercise in subjects with different blood pressure levels: role of peripheral chemoreceptors

Saraiva, Graziela Amaro Vicente Ferreira

12 April 2018

INTRODUÇÃO: A hipertensão arterial tem sido associada à hipersensibilidade quimiorreflexa arterial. A consequência dessa disfunção autonômica nessa população é a ativação simpática e vasoconstrição. De fato, a atividade nervosa simpática está aumentada e o fluxo sanguíneo muscular diminuído, em repouso e durante manobras fisiológicas como o exercício, em pacientes hipertensos. Contudo, o papel dos quimiorreceptores periféricos na resposta neurovascular durante o exercício não tem sido investigado nesses pacientes. OBJETIVO: Avaliar a influência dos quimiorreceptores periféricos no controle neurovascular da atividade nervosa simpática muscular (ANSM), condutância vascular no antebraço e pressão arterial em repouso, durante o exercício e a oclusão circulatória em pacientes com hipertensão arterial. MÉTODOS: Vinte e cinco sujeitos, na faixa etária entre 25 e 60 anos, sedentários, com índice de massa corporal menor que 30kg/m2 e não engajados em tratamento farmacológico participaram do estudo. Os participantes foram divididos em dois grupos, de acordo com o nível de pressão arterial clínica e classificados como hipertensos ou normotensos. Foram avaliados a ANSM (microneurografia), o fluxo sanguíneo muscular (pletismografia de oclusão venosa), a pressão arterial (oscilométrica), a frequência cardíaca (eletrocardiograma) e respiratória (cinta piezoelétrica) e a saturação de pulso de oxigênio (oxímetro). Todas as avaliações foram realizadas em repouso, durante o exercício de preensão de mão (30% da contração voluntária máxima) e durante a oclusão circulatória pós-exercício, em condições de normóxia (inalação de níveis ambientes com 21% de oxigênio) e hiperóxia (manobra que desativa os quimiorreceptores arteriais através da inalação da concentração de 100% de oxigênio). Em repouso, também foram avaliadas a variabilidade da frequência cardíaca e da pressão arterial e o ganho do controle barorreflexo da frequência cardíaca. Foi considerada diferença significativa quando P<0,05. RESULTADOS: No repouso, a desativação dos quimiorreceptores periféricos diminuiu a ANSM (38±3 vs. 34±3 disparos/minuto, P=0,02), aumentou o fluxo sanguíneo muscular (2,2±0,3 vs. 2,4±0,3 ml/min/100ml, P=0,02) e tendeu a aumentar a condutância vascular do antebraço (P=0,06) nos pacientes hipertensos. Além disso, a desativação dos quimiorreceptores periféricos aumentou o ganho do controle barorreflexo da frequência cardíaca (8±2 vs. 10±2 ms/mmHg, P=0,03) nesses pacientes tornando-os semelhantes ao grupo normotenso, quando comparados em condição de hiperóxia. Durante o exercício físico, a desativação dos quimiorreceptores periféricos diminuiu a resposta da ANSM nos pacientes hipertensos (A.S.C.= 131±8 vs. 116±9 disparos, P=0,005). No entanto, nenhuma modificação significativa foi observada na condutância vascular do antebraço e na pressão arterial. Interessantemente, durante a oclusão circulatória, manobra que isola os metaborreceptores musculares, a desativação dos quimiorreceptores periféricos aumentou a ANSM no primeiro e segundo minuto de oclusão (?= -2±2 vs. 3±1 disparos/min; ?= -4±2 vs. 3±1 disparos/min, P(grupo)= 0,02). CONCLUSÃO: Em pacientes hipertensos, a desativação dos quimiorreceptores periféricos: 1- Diminui a ANSM e aumenta o fluxo sanguíneo muscular e o ganho do controle barorreflexo da frequência cardíaca em repouso; 2-Diminui a resposta da ANSM durante o exercício e; 3- Normaliza o controle metaborreflexo da ANSM. Analisados em conjunto, esses resultados demonstram a participação do mecanismo quimiorreflexo periférico no controle neurovascular não só em repouso, mas também, durante a manobra fisiológica de exercício nos pacientes hipertensos / INTRODUCTION: Hypertension has been associated with augmented arterial chemoreflex sensitivity. The consequence of this autonomic dysfunction is an increased sympathetic outflow and vasoconstriction. Indeed, sympathetic nerve activity is increased and forearm blood flow is decreased at rest and during physiological maneuvers such as exercise, in hypertensive patients. However, the role of peripheral chemoreceptors in neurovascular response during exercise has not been investigated in these patients. OBJECTIVES: To evaluate the influence of peripheral chemoreceptors on neurovascular control of muscle sympathetic nerve activity (MSNA), forearm vascular conductance and blood pressure at rest, during exercise and postexercise circulatory arrest in patients with hypertension. METHODS: Twenty-five subjects, age between 25 and 60 years old, sedentary, with body mass index less than 30 kg/m2 and not engaged in pharmacological treatment participated in the study. The participants were divided into two groups according to their clinical blood pressure levels and were classified as hypertensive or normotensive. Were evaluated MSNA (microneurography), forearm blood flow (venous occlusion plethysmography), blood pressure (oscillometric), heart rate (electrocardiogram), respiratory rate (piezoelastic strap) and oxygen saturation (oxymeter). The evaluations were performed at rest, during a handgrip exercise (30% of the maximal voluntary contraction) and during postexercise circulatory arrest, in normóxia (breathing ambient air, containing 21% of oxygen) and hyperoxia (breathing air containing 100% oxygen, maneuver that deactivates the peripheral chemoreceptors). At rest, the variability of heart rate and blood pressure and the baroreflex control of heart rate were also evaluated. Significant differences were assumed to be when P<0.05. RESULTS: At rest, the deactivation of the peripheral chemoreceptors decreased the MSNA (38±3 vs. 34±3 bursts/min, P=0.02), increased forearm blood flow (2.2±0.3 vs. 2.4±0.3 ml/min/100ml, P=0.02) and tended to increase forearm vascular conductance (P=0.06) in hypertensive patients. Besides, the deactivation of the peripheral chemoreceptors increased the baroreflex control of heart rate (8±2 vs. 10±2 ms/mmHg, P=0.03) in these patients, toward to the normotensive group levels, when compared during hyperoxia condition. During exercise, the deactivation of peripheral chemoreceptors decreased the MSNA response in hypertensive patients (A.U.C.= 131±8 vs. 116±9 bursts, P=0.005). However, no significant changes were observed in forearm vascular conductance and blood pressure responses. Interestingly, during postexercise circulatory arrest, when the metaboreflex control is isolated, the deactivation of peripheral chemoreceptors increased the MSNA during the first and second minute of circulatory arrest (?= -2±2 vs. 3±1 bursts/min; ?= -4±2 vs. 3±1 bursts/min, P(group)=0.02). CONCLUSION: In hypertensive patients, the deactivation of the peripheral chemoreceptors: 1- Decreases the MSNA and increases the forearm blood flow and baroreflex control of heart rate at rest; 2- Decreases the MSNA response during exercise; 3- Normalizes the metaboreflex control of MSNA. Taken together, these results demonstrate the participation of the peripheral chemorreflex mechanism in the neurovascular control not only at rest, but also during the physiological maneuver of exercise in hypertensive patients

Arterial chemoreflex

Atividade nervosa simpática

Exercício

Exercise

Hiperóxia

Hipertensão arterial

Hyperoxia

Hypertension

Metaboreflex

Metaborreflexo

quimiorreflexo arterial

Sympathetic nervous activity

Impact du stress hyperoxique en période néonatale sur la structure vasculaire : implication des phénomènes de sénescence et rôle possible dans la programmation développementale de l'hypertension artérielle / Consequences of Neonatal Hyperoxia on Vascular Structure : Premature Senescence and Possible Role in Developmental Programming of Hypertension

Huyard, Fanny

26 September 2013

Ce projet traite de la programmation développementale de l'hypertension artérielle (HTA) à travers des influences néonatales précoces pouvant moduler le développement vasculaire. Les bébés prématurés présentent des défenses antioxydantes diminuées comparés aux nouveau-nés à terme et sont exposés à la naissance à des concentrations élevées en oxygène (O2) engendrant la production d'espèces réactives de l'O2 (ERO). Les conséquences vasculaires à long terme de dommages liés aux ERO en période néonatale et les mécanismes impliqués sont très partiellement compris. Les précédents résultats du laboratoire ont montré qu'un stress hyperoxique néonatal conduit chez le rat adulte à de l'HTA, une dysfonction endothéliale et une rigidité artérielle, éléments de vieillissement vasculaire. Nous émettons l'hypothèse qu'un stress hyperoxique néonatale conduit à long terme à l'altération de la structure vasculaire et à un vieillissement vasculaire précoce. Nous avons démontré une diminution de la prolifération cellulaire, une capacité angiogénique altérée, des dommages à l'ADN et une augmentation de l'expression de protéines de sénescences (des indices de sénescence cellulaire) au-delà de la période néonatale suite à une exposition brève à l'O2 au niveau vasculaire dans un modèle animal (ratons Sprague-Dawley exposés à 80 % d'O2 du 3ème au 10ème jour de vie comparés à des ratons restés à l'air ambiant) et cellulaire (cellules musculaires lisses d'aortes thoraciques d'embryon de rat exposées à 40% O2 pendant 24h ou 48h, puis remises en normoxie pendant 96h). De plus, des altérations des composants de la structure vasculaire indiquant un remodelage vasculaire aortique ont été mises en évidence. Ces changements précèdent tous l'HTA et la dysfonction vasculaire observées dans le modèle animal à l'âge adulte et pourraient y contribuer. L'étude de jeunes adultes nés < 29 semaines comparés à des jeunes adultes nés à terme indique une augmentation de marqueurs de rigidité artérielle (indices d'un vieillissement vasculaire précoce) chez la population prématurée. L'ensemble des résultats démontre un vieillissement vasculaire précoce après une exposition néonatale transitoire à un stress hyperoxique permettant une meilleure compréhension des mécanismes physiopathologiques impliqués dans la survenue des troubles vasculaires retrouvés chez l'adulte et contribue à la mise en place de moyens de prévention chez des patients prématurés / The scope of this thesis is developmental programming of arterial high blood pressure (HBP) hypertension through early neonatal stimuli that may alter vascular development. Premature newborns have decreased antioxidant defenses compared to term babies and are exposed upon birth to high oxygen (O2) concentration, causing reactive oxygen species (ROS) production. Long term vascular consequences of ROS related damage during the neonatal period and the mechanisms involved remain unknown. Recent data from the laboratory show that neonatal hyperoxic stress leads in adult rat to HBP, endothelial dysfunction and arterial rigidity, characteristic features of vascular aging. We hypothesize that a neonatal hyperoxic stress leads to long term vascular structure alteration explained by an early aging of the vascular system. We showed a decreased proliferation rate, an altered angiogenic capacity, as well as long term DNA damage and increased expression of senescence proteins at a vascular level following O2 exposure in the animal (male Sprague-Dawley pups kept at 80% O2 from postnatal days 3 to 10 vs. rats remained in room air) and cellular models (embryonic vascular smooth muscle cells from rat thoracic aorta exposed to 40% O2 for 24h or 48h followed by 96h recovery in control conditions). In addition, alterations of vascular structure components indicating vascular remodeling was shown before the onset of the HBP at adult age. Those changes precede the HBP and vascular dysfunction observed in our animal model at adult age and could contribute to them. Study of young adults born before 29 weeks vs. young adults born at term showed that young adults born preterm present indices of arterial stiffness vs. term controls. Results of the present thesis demonstrate a major role of premature vascular aging in the surge of vascular diseases in adulthood and contribute to a better understanding of the patho-physiological mechanisms involved and could put into practice new prevention strategies among preterm patients

Programmation développementale

Prématurité

Hyperoxie

Vieillissement

Rigidité artérielle

Hypertension

Developmental programming

Prematurity

Hyperoxia

Aging

Arterial stiffness

Hypertension

616.132

Intérêt de l'apport en chocolat noir dans la prévention des effets de la plongée à l'air et en apnée sur l'endothélium vasculaire / Benefit of dark chocolate intake in the prevention of vascular endothelial effects induced by SCUBA and breath-hold diving

Theunissen, Sigrid

08 November 2013

Objectifs : Comparer les effets de la plongée à l’air et en apnée sur la vasodilatation d’origine endothéliale et le stress oxydant. Ensuite, tenter de prévenir la dysfonction endothéliale post-plongée par une supplémentation en antioxydants. Méthodes : La fonction endothéliale des grosses artères est évaluée par la dilatation flux-dépendante (FMD) et celle des petites par pléthysmographie. Les concentrations plasmatiques de monoxyde d’azote (NO) furent évaluées en mesurant les nitrites/nitrates par colorimétrie. Les effets de 30g de chocolat noir furent testés en supplémentation 1h30 avant la plongée à l’air et 1h avant l'apnée. Résultats : La FMD diminue dans les 2 types de plongée. Le taux de NO est inchangé après la plongée à l’air alors qu’il augmente après l’apnée. En eau froide, le taux de NO se voit réduit chez les plongeurs en apnée. Lorsque le chocolat noir est administré en supplémentation à des plongeurs, la FMD est augmentée aussi bien après la plongée à l’air qu’en apnée. Le NO augmente après la plongée à l’air alors qu’il ne change pas après l’apnée. Conclusion : En apnée comme en plongée à l’air, la diminution de la FMD suggère qu’elle est liée à un stress oxydant puisqu’elle est prévenue par le chocolat noir. Le chocolat noir est un bon moyen préventif pour la dysfonction endothéliale aussi bien en plongée à l’air qu’en apnée. L’absence de variation du NO suggère que la diminution de la FMD est la conséquence d’une activité du système nerveux autonome et/ou d’une altération du muscle lisse vasculaire. Les mécanismes observés en plongée sont un bon modèle pour la personne âgée où du stress oxydant et une dysfonction endothéliale sont également retrouvés. / Objectives: To compare the effects of SCUBA diving with breath-hold diving on endothelial vasodilation and oxidative stress. Then trying to prevent post dive endothelial dysfunction by a supplementation in antioxidants. Methods: Endothelial function of large arteries is evaluated by FMD and those of small arteries by plethysmography. Plasmatic concentrations of nitric oxide (NO) were evaluated by measuring nitrite/nitrate by colorimetry. The effects of 30g dark chocolate were tested as a supplement 1h30 before SCUBA diving and 1 hour before the breath-hold dives. Results: FMD is reduced in the 2 types of diving. The level of circulating NO remains unchanged after SCUBA diving while it increases after breath-hold diving. The PORH is reduced after SCUBA diving while it is increased in the breath-hold group. In cool water, NO is reduced after breath-hold diving. When dark chocolate is administered to divers FMD is increased after SCUBA diving and breath-hold diving. NO is increased after SCUBA diving while it does not change after breath-hold diving. Conclusion: In breath-hold and SCUBA diving the decreased FMD suggests that it is associated with oxidative stress since it is prevented by dark chocolate. Dark chocolate is a good way to prevent endothelial dysfunction in SCUBA diving and in breath-hold diving. The lack of variation in NO level suggests that the reduced FMD results from the activity of the autonomic nervous system and/or an alteration of vascular smooth muscle. Mechanisms observed in diving are a good model for the elderly people where oxidative stress and endothelial dysfunction are also encountered.

Hyperoxie

Stress oxydant

Radicaux libres

Exercice

Monoxyde d'azote

Antioxydants

Hyperoxia

Oxidative stress

Free radicals

Exercise

Nitric oxide

Antioxidants

Lung hyaluronan and lung water in the perinatal period

Johnsson, Hans

January 2001

Hyaluronan is an important component of the lung extracellular matrix, with a high capacity for water immobilization, but information on perinatal changes in the lung hyaluronan concentration and their association with changes in the lung water content is limited. In this study, conducted both in rabbit pups and in human infants, we investigated changes in the hyaluronan concentration and distribution in the lung and in the lung water content after preterm or term birth, and changes produced by common antenatal and postnatal pathological conditions and treatments. In rabbit pups, we found a gradual decrease in lung hyaluronan concentration and in the intensity of alveolar hyaluronan staining with advancing gestational age at birth in late gestation, but no further changes during the first 7-9 days of life. The lung water content was uniformly high before birth, but decreased significantly after preterm delivery or at birth at term. Postnatal exposure of newborn preterm or term rabbit pups to hyperoxia for 4-9 days resulted in an increase in both lung hyaluronan concentration and lung water content. This was accompanied by more intense hyaluronan staining, mainly in the alveolar walls. Antenatal exposure of rabbit pups to betamethasone or terbutaline resulted in a lower lung hyaluronan concentration at preterm birth, associated with less intense hyaluronan staining in alveolar walls, without altering the lung water content. Betamethasone exposure had a maximal effect at 25 days of gestation (term = 31 days), decreasing thereafter with advancing gestation, while terbutaline exposure resulted in a gradually increasing effect during late gestation, with a maximum at 29 days. In deceased infants born at a gestational age of &lt; 32 weeks, the lung hyaluronan concentration at death was most strongly associated with the gestational age at birth. It also covaried with sex, antenatal steroid administration, intrauterine bleeding, mode of delivery, birth weight, IRDS, and surfactant treatment. In infants born at a gestational age of &gt; 33 weeks there was a weaker association between lung hyaluronan concentration and gestational age. In this group, the lung hyaluronan concentration was associated with administration of a high concentration of oxygen, and covaried with maximal ventilatory pressure, and lung water content.

Obstetrics and gynaecology

antenatal corticosteroids

antenatal terbutaline

hyaluronan

hyperoxia

lung water

perinatal period

Obstetrik och kvinnosjukdomar

Obstetrics and women's diseases

Obstetrik och kvinnosjukdomar

Right ventricular outflow limitation and capacity for exertion associated with age and iron status

Cheng, Hung-Yuan

January 2015

This thesis is concerned with the role of iron in modulating right ventricular (RV) afterload during exercise in healthy people aged between 50 and 80 years. This is predicated on the requirement of the hypoxia-inducible factor (HIF) pathway for ferrous iron. A secondary objective is to examine the reactive oxygen species (ROS) hypothesis in human hypoxic pulmonary vasoconstriction (HPV) using exposure to hyperoxia. Chapters 3 and 4 describe basal relationships that may affect the HIF pathway and exercise capacity during ageing. These were explored in 113 participants using blood tests and exercise tests. Age and inflammatory factors, C-reactive protein, and ferritin were associated with impaired exercise capacity. In addition, ageing did not significantly affect haematological variables or iron status indicators. Chapters 5 and 6 describe the effect of a single intravenous iron infusion on the haematological variables in 32 participants in a randomised, placebo-controlled and double-blinded study. The effects of iron infusion on RV afterload during light exercise, and exercise capacity during heavy exercise, were examined in these participants. With iron infusion, erythropoietin production, and the increase in RV afterload during light exercise were blunted, potentially indicating involvement of the HIF pathway. However, blunting of RV afterload neither influenced the cardiac output during light exercise nor exercise capacity. Chapter 7 describes a study of 11 healthy volunteers, which investigated the ROS hypothesis in HPV using acute isocapnic hypoxia following an 8-hour exposure to hyperoxia. This sustained hyperoxic exposure did not influence the hypoxic behavior of the pulmonary vasculature. This thesis demonstrates the complex relationship between iron status and exercise capacity in older adults. It shows that the decrease in RV afterload during exercise caused by intravenous iron supplementation does not lead to an augmented cardiac output or exercise capacity. Finally, it calls into question the role of ROS in HPV.

612.1