Análise dos critérios para ajuste do suporte ventilatório da ventilação mecânica / Analysis of criteria for ventilatory support adjustment of mechanical ventilation

Renata Pletsch Assunção

22 November 2016

Introdução: A assistência ventilatória adequada é imprescindível para o tratamento do paciente ventilado artificialmente. A busca por parâmetros para realizar o ajuste ótimo e que tenham aplicação fácil a beira leito como, por exemplo, métodos não-invasivos, são desejáveis. Objetivo: analisar a acurácia diagnóstica das variáveis do padrão respiratório, da P0.1 esofágica e traqueal, para o ajuste da assistência ventilatória em pressão de suporte. Métodos: Vinte e sete pacientes internados em unidade de terapia intensiva foram consecutivamente incluídos no estudo. Todos pacientes estavam no modo de pressão de suporte, que foi aumentada para 20 cmH2O e diminui em passos de 3 cmH2O, até 2 cmH2O ou antes se o paciente apresentasse sinais de desconforto respiratório. Os pacientes foram monitorizados com cateteres para medidas de pressão esofágica e gástrica, com uma peça proximal ao tubo para mensurar a pressão traqueal a partir da oclusão da via aérea e com um pneumotacógrafo para medidas de fluxo. Durante todos níveis de suporte, foram gravados os dados dos cateteres esofágicos, gástricos, da traquéia, dados hemodinâmicos e do padrão respiratório. O ajuste da assistência ventilatória foi classificado como adequado, insuficiente e excessivo de acordo com critérios pré-estabelecidos. Resultados: Foram analisados 210 períodos com diferentes pressões de suporte e em 49% destes períodos a assistência foi excessiva, enquanto em 3,8% a assistência foi insuficiente. No início do estudo, enquanto os pacientes ainda estavam com a assistência ventilatória ajustada pela equipe assistente, 48,2% apresentavam assistência ventilatória excessiva. Pela pequena incidência de períodos com assistência ventilatória insuficiente, não foi avaliado a acurácia das variáveis para diagnóstico de assistência insuficiente. Para diagnosticar assistência ventilatória excessiva, a variável do padrão respiratório que se mostrou mais acurada foi a frequência respiratória, com sensibilidade de 90% e especificidade de 88% quando a frequência respiratória foi menor que 17 incursões por minuto. Outras variáveis do padrão respiratório não mostraram elevada acurácia. Também para o diagnóstico de assistência excessiva, foi elevada a acurácia da P0.1 esofágica (sensibilidade de 81% e especificidade de 70% quando P0.1 <= 1,9) e da P0.1 traqueal (sensibilidade de 81% e especificidade de 70% quando P0.1 <= 2,1). Conclusão: A ocorrência de assistência ventilatória excessiva foi significativamente maior que a assistência ventilatória insuficiente. A frequência respiratória menor que 17 foi a variável do padrão respiratório com maior acurácia para diagnosticar assistência ventilatória excessiva. As P0.1 esofágica e traqueal também tiveram acurácia elevas, mas menores que a frequência respiratória . / Introdution: The adequate assistance is essential for the treatment of mechanically ventilated patient. The search of parameters to achieve the optimal adjustment and with easy application to bedside, for example, non-invasive methods. Objective: Analyze the diagnostic accuracy of the breathing pattern variables, esophageal and tracheal P0.1 for adjustment of mechanical ventilation in pressure support ventilation. Methods: Twenty-seven patients in intensive care unit were consecutively included in the study. All patients were in the pressure support mode, which was raised to 20 cmH2O and decreased in steps of 3 cmH2O up to 2 cmH2O or earlier if the patient had signs of respiratory distress. Patients were monitored with catheters for esophageal and gastric pressure measurements, with the T-piece was used close to the tube to measure tracheal pressure during an airway occlusion and a pneumotachograph for flow measurements. Data was recorded for all support levels to esophageal, gastric, and tracheal pressures, also hemodynamic data and ventilatory pattern. The adjustment of mechanical ventilation was classified as adequate assistance, overassistance and underassistance according to pre-established criteria. Results: Two hundred and ten periods were analyzed with different pressures of support and 49% of these periods were overassistance, while 3,8% these periods were underassistance. At baseline, while patients were still ventilatory assistance set by assistance staff, 48,2% had overassistance. Due to the low incidence of periods with underassistance, the variables accurancy has not been evaluated. The variable breathing pattern that was more accurate diagnosing overassistance was the respiratory rate (90% sensitivity and specificity of 88 % when the respiratory rate was less than 17 breaths per minute). Other variables of the breathing pattern did not show high accuracy although esophageal P0.1 (sensitivity 81 % and specificity of 70 % when P0.1 <= 1,9) and tracheal P0.1 (sensitivity 81 % and specificity of 70 % when P0.1 <= 2,1) were high accuracy diagnosing overassistance. Conclusion: The occurrence of overassistance was significantly higher than underassistance. The respiratory rate below 17 was the variable breathing pattern more accurate to predict overassistance. The esophageal and tracheal P0.1 also had high accuracy but lower than the respiratory rate

Desmame do respirador

Fisiologia respiratória

Insuficiência respiratória

Mecânica respiratória

Respiração artificial

Sistema respiratório

Mechanical ventilation

Respiratory distress

Respiratory mechanics

Respiratory physiology

Respiratory system

Weaning

Estudo da incidência de lesão pulmonar aguda e síndrome do desconforto respiratório agudo nas unidades de terapia intensiva da região da Grande Vitória no Espírito Santo / Study of the incidence of acute lung injury and acute respiratory distress syndrome in the intensive care units in the region of Vitória in Espírito Santo

Eliana Bernadete Caser

21 February 2013

INTRODUÇÃO: Existem muitas controvérsias, nos estudos epidemiológicos existentes, a respeito da incidência e desfechos da síndrome de lesão pulmonar aguda. A incidência e as características clínicas da síndrome dependem principalmente da definição utilizada e da metodologia empregada no estudo, bem como da disponibilização e utilização dos leitos nas unidades de terapia intensiva da região estudada. Pela ausência de dados epidemiológicos existentes de lesão pulmonar aguda na Grande Vitória, no Espírito Santo, realizamos este estudo para analisar a incidência, características, sobrevida aos 28 dias e mortalidade hospitalar. MÉTODOS: Os pacientes internados nas 14 unidades de terapia intensiva da Grande Vitória, durante o período de 15 meses, submetidos à ventilação mecânica e que preencheram os critérios de lesão pulmonar aguda da Conferência de Consenso Européia-Americana de 1994 foram selecionados prospectivamente para o estudo. Os pacientes também foram classificados de acordo com a nova definição de Berlim. Avaliamos as características clínicas e funcionais no primeiro dia de internação, durante a primeira semana, no 14º dia e no 28º dia de evolução. Foram calculadas a incidência da síndrome acumulada/ano, a sobrevida aos 28 dias e a mortalidade hospitalar. RESULTADOS: Foram avaliados 7.133 pacientes admitidos nas unidades de terapia intensiva, dos quais 130 (1,8%) foram selecionados. A mediana de tempo para o diagnóstico de lesão pulmonar aguda foi de 2 dias (IQ: 0-3 dias), sendo 25,4% dos diagnósticos realizados no momento da internação na unidade de terapia intensiva. Os fatores de risco foram principalmente pneumonia (35,3%), sepse não pulmonar (31,5%) e trauma (16,9%). A média de idade dos pacientes foi de 44,2 ± 15,9 anos, sendo 61,5% do sexo masculino. A média do APACHE II foi de 20,7 ± 7,9 e a média da PaO2/FiO2, de 206,7 ± 61,6. O tempo médio em ventilação mecânica foi de 21 ± 15 dias e o tempo médio de permanência na unidade de terapia intensiva foi de 26,4 ± 18,7 dias. De acordo com a nova definição de Berlim, os pacientes com a síndrome de desconforto respiratório agudo foram classificados em: leve, com 49 casos (37,7%); moderada, com 68(52,3%); e grave, com 13(10%). A incidência acumulada de LPA foi de 10,1 casos/100.000 habitantes/ano, sendo 3,8 casos/100.000 habitantes/ano para LPA sem SDRA e 6,3 casos/100.000 habitantes/ano para SDRA, representando 1,7% das admissões no ano. A relação PaO2/FiO2 nos dias 6 e 7 de evolução após o diagnóstico da síndrome foi um fator preditor independente para a mortalidade aos 28 dias, que foi de 38,5% (95% IC, 30,1-46,8). A mortalidade intrahospitalar foi de 49,2% (95% IC, 40,6-57,8), não diferindo entre os pacientes com LPA sem SDRA e SDRA. CONCLUSÕES: A incidência de LPA nos pacientes submetidos à ventilação mecânica invasiva na região da Grande Vitória, Espírito Santo, foi baixa, sendo a maioria dos casos diagnosticada 2 dias após a admissão nas unidades de terapia intensiva. A mortalidade aos 28 dias e a hospitalar dos pacientes com LPA sem SDRA e com SDRA não foram estatisticamente diferentes neste estudo. As mudanças nas práticas assistenciais nas unidades de terapia intensiva poderão contribuir para a redução da incidência da SDRA intrahospitalar / INTRODUCTION: There are many controversies in the existing epidemiological studies regarding the incidence and outcomes in acute lung injury. The incidence and clinical features of the syndrome mainly depend on the definition adopted and on the methodology employed in the study, as well as on the availability and use of beds in intensive therapy units in the regions studied. Due to the absence of existing epidemiological data concerning acute lung injury in Vitória, Espírito Santo, we conducted this study to analyze the incidence, clinical characteristics, survival rate at 28 days, and mortality rate. METHODS: The patients hospitalized in the 14 units of intensive therapy in the region of Grande Vitória for the period of 15 months submitted to mechanical ventilation, who fulfilled the criteria of acute lung injury as defined by the Conference of European-American Consensus of 1994, were prospectively selected for the study. These patients were also classified according to the new Berlin definition. We evaluated the clinical and functional characteristics on the first day of hospitalization, during the first week, on day 14 and on day 28 of clinical evolution. We calculated the cumulative incidence/year for the syndrome, the survival rate at 28 days, and hospital mortality. RESULTS: A total of 7,133 patients admitted to the intensive care units was evaluated, of whom 130 (1.8%) were selected. The median time to diagnosis of acute lung injury was 2 days (IQR: 0-3 days), 25.4% of diagnoses being made at admission to the intensive care unit. The risk factors were mainly pneumonia (35.3%), nonpulmonary sepsis (31.5%) and trauma (16.9%). The patients\' mean age was 44.2 ± 15.9 years, 61.5% being male. The APACHE II prognostic score averaged 20.7 ± 7.9, mean arterial oxygenation variable PaO2/FiO2 206 ± 61.6 and time on mechanical ventilation with a mean of 21 ± 15 days. The average length of stay in intensive care unit was 26.4 ± 18.7 days. Based on the new Berlin definition, patients with acute respiratory distress syndrome were classified as mild: 49 (37.7%); moderate: 68 (52.3%); and severe: 13 (10%). The cumulative incidence was 10.1 cases per 100,000 inhabitants /year for ALI, of which 3.8 cases per 100,000 inhabitants / year were for non-ARDS ALI and 6.3 cases per 100,000 inhabitants / year were for ARDS, representing 1.7% of admissions in the year. The variable arterial oxygenation on days 6 and 7 of evolution after the diagnosis of the syndrome was an independent factor for mortality at 28 days, which was 38.5% (95% CI, 30.1 to 46.8). In-hospital mortality was 49.2% (95% CI, 40.6 to 57.8), and did not differ between patients with ALI non-ARDS and acute respiratory distress syndrome Summary (ARDS). CONCLUSIONS: The incidence of acute lung injury in patients undergoing invasive mechanical ventilation in the region of Grande Vitória, Espírito Santo was low, most of them being diagnosed 2 days after admission to intensive care units. Mortality at 28 days and hospital mortality of patients with ALI non-ARDS were not statistically different in this study. Changes in care practices in intensive therapy units can contribute to reduce the incidence of in-hospital ARDS

Epidemiologia

Lesão pulmonar aguda

Unidade de terapia intensiva

Ventilação mecânica invasiva

Acute lung injury

Acute respiratory distress syndrome

Epidemiology

Intensive care unit

Invasive mechanical ventilation

Efeito da ventilação não invasiva com pressão positiva contínua nas vias aéreas de pacientes oncológicos / Effects of noninvasive ventilation with continuous positive pressure on the airways of oncologic patients

Manfrim, Gabriela Marcon

26 September 2008

INTRODUÇÃO: A insuficiência respiratória acomete grande parte dos pacientes oncológicos levando a altos índices de mortalidade. A ventilação não invasiva (VNI) pode auxiliar seu manejo, mas seus efeitos ainda são pouco conhecidos sobre os mecanismos de defesa pulmonar. OBJETIVOS: Observar o efeito da VNI com máscara facial usando-se geradores de fluxo com pressão positiva contínua (CPAP) e ventilador microprocessado no modo pressão de suporte + pressão positiva ao final da expiração (PSV + PEEP), a fim de verificar impacto nas propriedades viscoelásticas do muco respiratório e o conforto proporcionado ao paciente. MÉTODOS: A VNI foi instalada após diagnóstico de insuficiência respiratória em dezenove pacientes, admitidos nas unidades de tratamento intensivo do Hospital A. C. Camargo, sendo nove submetidos ao CPAP e dez com PSV + PEEP. Foram colhidos antes e após uma hora de VNI: os dados clínicos, secreção nasal, gasometria, e o grau de conforto através de uma escala visual. As propriedades físicas do muco (transportabilidade in vitro, adesividade e wettabilidade ou hidrofobicidade) foram avaliadas respectivamente no palato de rã, máquina da tosse e ângulo de contato. RESULTADOS: Os grupos eram homogêneos entre si em relação à idade, sexo, tipo e estadiamento do tumor e SAPS II. Em relação às propriedades físicas do muco, houve um aumento da transportabilidade in vitro do muco nasal com o sistema PSV + PEEP (p = 0,04) e um aumento na wettabilidade no grupo CPAP (p = 0,06). Os dois sistemas foram eficazes em melhorar significativamente os sinais vitais, a PaO2/FiO2, o padrão e o conforto respiratório e em evitar a intubação traqueal nas primeiras 24 horas (p < 0,05). Entretanto, independentemente do tipo de sistema de VNI usado, foram encontrados altos índices de intubação endotraqueal e mortalidade no seguimento destes pacientes. CONCLUSÃO: As propriedades físicas do muco (transportabilidade in vitro e wettabilidade) se alteraram após uma hora de uso da VNI e parecem ser dependentes da temperatura e umidificação dentro da máscara. A VNI mostrou-se útil em reverter a insuficiência respiratória em pacientes selecionados, ou pelo menos em trazer conforto para pacientes hipoxêmicos que a princípio recusam a intubação endotraqueal / INTRODUCTION: Respiratory failure is a common situation among cancer patients leading to high rates of mortality. Noninvasive ventilation (NIV) can help its management, but its effects are still unknown regarding the pulmonary defense mechanisms. OBJECTIVES: Observe the effect of NIV with facial mask using a flow generator with continuous positive pressure (CPAP) and standard intensive care unit ventilator using pressure support ventilation + positive end expiratory pressure (PSV + PEEP), to verify impact on the physical properties of respiratory mucus and the comfort provided to the patient. METHODS: NIV was started after diagnosis of respiratory failure in nineteen patients, admitted in the intensive care unit of the A. C. Camargo Hospital. Nine patients were submitted to CPAP and ten to PSV + PEEP. Nasal mucus, blood gases, and the degree of comfort through a visual scale were accessed before and after one hour. The physical properties of nasal mucus (transportabilility in vitro, adhesivity and wettability or hydrofobicity) were evaluated respectively by frog palate, cough machine and contact angle. RESULTS: Groups had similar characteristics about age, sex, tumor and SAPS II score. Regarding the physical properties of the mucus, there was an increase in mucus transportability (by the frog palate model) with the system PSV + PEEP (p = 0.04) and an increase in the contact angle in the CPAP groupo (p = 0.06). The two systems were effective in improving the vital signs, the PaO2/FiO2, the respiratory pattern and comfort and avoiding endotracheal intubation in the first 24 hours (p < 0.05). However, regardless of the type of NIV system used, high rates of endotracheal intubation and mortality were found. CONCLUSION: The physical properties of the mucus (transportability in vitro and wettability) changed after an hour of use of the NIV as a result of temperature and humidification into the mask. NIV was useful in reversing the respiratory failure in selected patients, or at least in bringing comfort for those who refuse endotracheal intubation

Acute respiratory distress syndrome

Continuous positive pressure

Cuidados paliativos

Dispnéia

Metástase neoplásica

Metastatic cancer

Muco

Mucus

Palliative care

Regulation of Breathing under Different Pulmonary Conditions

Rieger-Fackeldey, Esther

January 2004

<p>The breathing pattern of preterm infants is immature and is associated with a variety of reflexes. In a patient on the ventilator these reflexes interfere with spontaneous breathing. A better understanding of the immature control of breathing could lead to further improvements in ventilatory techniques. This thesis concerns studies of pulmonary stretch receptor (PSR) and phrenic nerve activity as part of the regulation of breathing in an animal model. </p><p>During assist/control ventilation with three different inspiratory pressure waveforms in animals with healthy lungs, squarewave pressure waveform<b> </b>strongly inhibits spontaneous inspiratory activity.</p><p>During partial liquid ventilation (PLV) in animals with healthy lungs, all PSRs studied maintained their phasic character, with increased impulse frequency during inspiration. PSR activity was not higher during PLV than during gas ventilation (GV), indicating that there was no extensive stretching of the lung during PLV.</p><p>During proportional assist ventilation (PAV) the applied airway pressure is servo-controlled proportionally to the ongoing breathing effort, thereby interacting with the activity of PSRs. Peak PSR activity was higher and occurred earlier during PAV than during CPAP. The regulation of breathing is maintained during PAV in surfactant-depleted animals before and early after surfactant instillation, with a higher ventilatory response and a lower breathing effort than during CPAP in both conditions.</p><p>Both lung mechanics and gas exchange influence the regulation of breathing. Inhibition of inspiratory activity occurred at a lower arterial pH and a higher PaCO₂ during PLV than during GV in animals with surfactant-depleted lungs, which might be related to recruitment of a larger number of pulmonary stretch receptors during PLV.</p><p>In summary, selected aspects of the regulation of breathing were studied in an animal model with different ventilatory techniques under different lung conditions similar to those that can occur in infants.</p>

Pediatrics

Control of breathing

Pulmonary Stretch Receptor

Phrenic Nerve Activity

Respiratory Distress Syndrome

Surfactant

Partial Liquid Ventilation

Assisted Ventilation

Pediatrik

Paediatric medicine

Pediatrisk medicin

The Independent Effect of Three Inline Suction Adapters and Lung Compliance change on Amplitude and delivered Tidal Volume during High Frequency Oscillatory Ventilation in an adult patient with ARDS: Bench Model

Thacker, Shreya

01 August 2011

Introduction: The use of high frequency oscillatory ventilation is increasing in treatment ofacute respiratory distress syndrome over the past decade. The technique of HFOV of ventilatingthe lungs at volumes less than the anatomical dead space calms the clinical concerns surroundingventilating stiff ARDS lungs with high pressures and volumes. This largely reduces theprobability of barotraumas and/or atelectrauma. Purpose: The study was on an in vitro bench model that answered the following researchquestions: 1. The effect of three inline closed suction adapters on delivered tidal volume duringHFOV with varying lung compliance 2. The effect of varying compliance on the amplitudedelivered by HFOV; and 3. The effect of compliance on tidal volume delivered by HFOV. Method: An in vitro bench model using high fidelity breathing simulator (ASL 5000, IngMarMedical) simulating an adult patient with ARDS was set up with 3100B SensorMedic highfrequency ventilator. The simulation included varying the compliance for each lung at 50, 40, 30and 20cmH2O while maintaining fixed resistance of 15 cmH2O/L/sec. The ventilator was set tothe following parameters: power of 6, frequency (f) of 5, inspiratory time (Ti) of 33%, bias flow(BF) of 30 LPM and oxygen concentration of 50%. The breathing simulator was connected withthe high frequency ventilator using a standard HFOV circuit and a size 8.0mm of endotrachealtube. Fourteen French Kimberly Clark suction catheters (with T and Elbow adapters) and Air-Life suction catheters (Y adapter) were placed in-line with the circuit successively to carry outthe study. Each run lasted for 1 minute after achieving stable state conditions. Thisapproximated to 300 breaths. The data was collected from the stimulator and stored by the hostcomputer. Data Analysis: The data was analyzed using SPSS v.11 to determine the statistical significance.A probability value (P value) of ≤ 0.001 was considered to be statistically significant. Results: The data analysis showed that Air-Life Y-adapter suction catheters caused the least lostin tidal volume when placed in line with HFOV and hence proved to be the most efficient. Thestudy also showed a direct relationship between amplitude and lung compliance i.e. an increasein lung compliance caused an associated increase in amplitude (power setting remainingunaltered). Lastly, the study did not show a statistically significant change in tidal volume withchanges in lung compliance. Future studies may be required to further evaluate the clinicalsignificance of the same. Conclusion:1. Many factors affect delivery of tidal volume during high frequency ventilation and thus it isnot constant. Choice of in-line suction system to be placed in line is one of the determinants ofthe same.2. Lung compliance changes lead to associated changes in amplitude delivery by HFOV. Thisshould be adjusted as patient condition improves by altering the power settings to ensure optimalventilation and to avoid trauma to the lungs.

In-Line Suctioning

Suction Adapters

Medicine and Health Sciences

Développements méthodologiques pour l'Imagerie par Résonance Magnétique de l’hélium 3 hyperpolarisé et applications / Hyperpolarized helium3 Magnetic Resonance Imaging methodological developments and applications on a clinical scanner

Bannier, Élise

14 January 2009

Cette thèse porte sur la mise en place, sur un imageur clinique, de nouveaux protocoles adaptés à l'IRM de l'hélium3 hyperpolarisé et sur leur validation au cours d'études précliniques et cliniques. L’IRM de l’hélium3 hyperpolarisé étant non invasive et non ionisante, elle est bien adaptée à l'utilisation chez l'enfant, dès le plus jeune âge, et aux suivis longitudinaux. Pourtant, les protocoles d’imagerie sont le plus souvent réalisés pendant l’apnée, rendant la technique difficilement applicable chez de jeunes enfants. La première contribution de cette thèse porte sur un protocole de respiration spontanée, sa modélisation et sa validation préclinique, préalables à une application chez des patients non coopératifs. La deuxième étude traite de l'application conjointe de l'IRM proton et hélium3 hyperpolarisé à un modèle de pathologie aiguë chez le lapin, maladie jusqu’à présent non étudiée en IRM de l’hélium3 hyperpolarisé. Enfin, la troisième étude s’intéresse à l’évaluation de la sensibilité de la technique et de l'influence d'une séance de drainage bronchique, chez des enfants atteints de mucoviscidose dont la fonction pulmonaire est asymptomatique. / This work deals with the design, on a clinical scanner, of new protocols for helium3 MRI and with their application to preclinical and clinical studies. Allowing for a virtually unlimited number of acquisitions, helium3 MRI is well adapted for longitudinal or pediatric studies. Acquisitions, however, are mostly performed under breath-hold, precluding the application to non cooperative patients. The first part of this thesis addresses the use of a free-breathing protocol, validated in vivo on rabbit and optimized using a model of gas exchange. A second study tackles the joint use of helium3 and proton MRI to study acute diseases, using a rabbit model of Acute Respiratory Distress Syndrome. Finally, the third study demonstrates the sensitivity of helium3 MRI and evaluates the influence of chest physical therapy on cystic fibrosis children with normal respiratory function.

Imagerie par Résonance Magnétique

Poumon

Respiration spontanée

Mucoviscidose

Hélium

Magnetic Resonance Imaging

Lung

Cystic fibrosis

Acute Respiratory Distress Syndrome

616.075

Regulation of Breathing under Different Pulmonary Conditions

Rieger-Fackeldey, Esther

January 2004

The breathing pattern of preterm infants is immature and is associated with a variety of reflexes. In a patient on the ventilator these reflexes interfere with spontaneous breathing. A better understanding of the immature control of breathing could lead to further improvements in ventilatory techniques. This thesis concerns studies of pulmonary stretch receptor (PSR) and phrenic nerve activity as part of the regulation of breathing in an animal model. During assist/control ventilation with three different inspiratory pressure waveforms in animals with healthy lungs, squarewave pressure waveform strongly inhibits spontaneous inspiratory activity. During partial liquid ventilation (PLV) in animals with healthy lungs, all PSRs studied maintained their phasic character, with increased impulse frequency during inspiration. PSR activity was not higher during PLV than during gas ventilation (GV), indicating that there was no extensive stretching of the lung during PLV. During proportional assist ventilation (PAV) the applied airway pressure is servo-controlled proportionally to the ongoing breathing effort, thereby interacting with the activity of PSRs. Peak PSR activity was higher and occurred earlier during PAV than during CPAP. The regulation of breathing is maintained during PAV in surfactant-depleted animals before and early after surfactant instillation, with a higher ventilatory response and a lower breathing effort than during CPAP in both conditions. Both lung mechanics and gas exchange influence the regulation of breathing. Inhibition of inspiratory activity occurred at a lower arterial pH and a higher PaCO2 during PLV than during GV in animals with surfactant-depleted lungs, which might be related to recruitment of a larger number of pulmonary stretch receptors during PLV. In summary, selected aspects of the regulation of breathing were studied in an animal model with different ventilatory techniques under different lung conditions similar to those that can occur in infants.

Pediatrics

Control of breathing

Pulmonary Stretch Receptor

Phrenic Nerve Activity

Respiratory Distress Syndrome

Surfactant

Partial Liquid Ventilation

Assisted Ventilation

Pediatrik

Paediatric medicine

Pediatrisk medicin

Cell- and Cell-based Gene Therapy for Experimental Acute Lung Injury and Sepsis

Mei, Shirley Hsin-Ju

20 January 2009

The acute respiratory distress syndrome (ARDS) and its less severe form, acute lung injury (ALI), are among the leading causes of morbidity and mortality in critically ill patients. Commonly induced by conditions associated with severe pulmonary inflammation, ALI results in disruption of the lung alveolar-capillary membrane barrier and resultant pulmonary edema associated with a proteinaceous alveolar exudate. Sepsis is another frequent and often fatal clinical condition for patients in the intensive care unit. It is characterized by a combination of infection and systemic inflammatory response syndrome (SIRS). Current effective treatment strategies for both ALI/ARDS and sepsis are lacking. We first examined the potential therapeutic role of mesenchymal stromal cells (MSCs) alone or together with the vasculoprotective factor, angiopoietin-1 (ANGPT1), for treatment of experimental ALI in mice. MSCs significantly reduced LPS (lipopolysaccharide)-induced pulmonary inflammation, as reflected by cell counts in bronchoalveolar lavage (BAL) fluid and pro-inflammatory cytokine levels in both BAL fluid and lung parenchymal homogenates. More importantly, administration of MSCs transfected with human ANGPT1 plasmid (MSCs-pANGPT1) completely reversed LPS-induced permeability in the lung (i.e., ALI). A follow-up study showed that MSCs remained effective in rescuing mice with LPS-induced ALI; however, the additional benefit from ANGPT1 was no longer observed. To further evaluate MSC-based therapy in a more clinically relevant model of acute injury, the cecal-ligation-and-puncture (CLP) model for sepsis was employed. Our results demonstrated that MSCs can reduce both systemic and pulmonary inflammation, as well as renal and liver dysfunction/injury, as reflected by plasma urea and bilirubin levels, in septic mice. Most notably, MSCs reduced sepsis-associated mortality from 45% to 24%. Our data demonstrate the feasibility and effectiveness of MSC- and MSC-based gene therapy for experimental ALI and sepsis, and provide the basis for the development of an innovative approach for the prevention and treatment of clinical ALI/ARDS and sepsis.

cell therapy

cell-based gene therapy

acute lung injury

Acute Respiratory Distress Syndrome

mesenchymal stromal (stem) cells

angiopoietin

inflammation

sepsis

0564

Cell- and Cell-based Gene Therapy for Experimental Acute Lung Injury and Sepsis

Mei, Shirley Hsin-Ju

20 January 2009

The acute respiratory distress syndrome (ARDS) and its less severe form, acute lung injury (ALI), are among the leading causes of morbidity and mortality in critically ill patients. Commonly induced by conditions associated with severe pulmonary inflammation, ALI results in disruption of the lung alveolar-capillary membrane barrier and resultant pulmonary edema associated with a proteinaceous alveolar exudate. Sepsis is another frequent and often fatal clinical condition for patients in the intensive care unit. It is characterized by a combination of infection and systemic inflammatory response syndrome (SIRS). Current effective treatment strategies for both ALI/ARDS and sepsis are lacking. We first examined the potential therapeutic role of mesenchymal stromal cells (MSCs) alone or together with the vasculoprotective factor, angiopoietin-1 (ANGPT1), for treatment of experimental ALI in mice. MSCs significantly reduced LPS (lipopolysaccharide)-induced pulmonary inflammation, as reflected by cell counts in bronchoalveolar lavage (BAL) fluid and pro-inflammatory cytokine levels in both BAL fluid and lung parenchymal homogenates. More importantly, administration of MSCs transfected with human ANGPT1 plasmid (MSCs-pANGPT1) completely reversed LPS-induced permeability in the lung (i.e., ALI). A follow-up study showed that MSCs remained effective in rescuing mice with LPS-induced ALI; however, the additional benefit from ANGPT1 was no longer observed. To further evaluate MSC-based therapy in a more clinically relevant model of acute injury, the cecal-ligation-and-puncture (CLP) model for sepsis was employed. Our results demonstrated that MSCs can reduce both systemic and pulmonary inflammation, as well as renal and liver dysfunction/injury, as reflected by plasma urea and bilirubin levels, in septic mice. Most notably, MSCs reduced sepsis-associated mortality from 45% to 24%. Our data demonstrate the feasibility and effectiveness of MSC- and MSC-based gene therapy for experimental ALI and sepsis, and provide the basis for the development of an innovative approach for the prevention and treatment of clinical ALI/ARDS and sepsis.

cell therapy

cell-based gene therapy

acute lung injury

Acute Respiratory Distress Syndrome

mesenchymal stromal (stem) cells

angiopoietin

inflammation

sepsis

0564

Pathophysiology and treatment of chlorine gas-induced lung injury : an experimental study in pigs /

Wang, Jianpu.

January 2004

Diss. (sammanfattning) Linköping : Linköpings universitet, 2004. / Härtill 5 uppsatser.