[Lung volume reduction in severe emphysema]

BACKGROUND: Lung volume reduction (LVR) surgery is an effective and organ-preserving treatment option for patients suffering from severe dyspnea due to endstage emphysema. METHOD: Resection of functionally inactive lung parenchyma reduces over-inflation and restores the elastic recoil of the lungs. Thus it results in improvement of dyspnea, mobility and pulmonary function. Patient selection is crucial. Of simliar importance is pulmonary rehabilitation, as well as sufficient expertise in the treatment of endstage chronic respiratory failure. RESULTS AND CONCLUSION: The in-hospital morbidity and mortality after LVR are acceptable (0 to 5%) and the good results seem to last at least 18 to 24 months. LVR can be offered to selected patients either as an alternative or as bridge to lung transplantation.

Combined cardiac and lung volume reduction surgery

Coronary artery disease is prevalent in patients who have severe emphysema and who are being considered for lung volume reduction surgery (LVRS). Significant valvular heart diseases may also coexist in these patients. Few thoracic surgeons have performed LVRS in patients who have severe cardiac diseases. Conversely, few cardiac surgeons have been willing to undertake major cardiac surgery in patients who have severe emphysema. This report reviews the evidence regarding combined cardiac surgery and LVRS to determine the optimal management strategy for patients who have severe emphysema and who are suitable for LVRS, but who also have coexisting significant cardiac diseases that are operable.

Lung Volume Reduction in Pulmonary Emphysema from the Radiologist's Perspective

Pulmonary emphysema causes decrease in lung function due to irreversible dilatation of intrapulmonary air spaces, which is linked to high morbidity and mortality. Lung volume reduction (LVR) is an invasive therapeutical option for pulmonary emphysema in order to improve ventilation mechanics. LVR can be carried out by lung resection surgery or different minimally invasive endoscopical procedures. All LVR-options require mandatory preinterventional evaluation to detect hyperinflated dysfunctional lung areas as target structures for treatment. Quantitative computed tomography can determine the volume percentage of emphysematous lung and its topographical distribution based on the lung's radiodensity. Modern techniques allow for lobebased quantification that facilitates treatment planning. Clinical tests still play the most important role in post-interventional therapy monitoring, but CT is crucial in the detection of postoperative complications and foreshadows the method's high potential in sophisticated experimental studies. Within the last ten years, LVR with endobronchial valves has become an extensively researched minimally-invasive treatment option. However, this therapy is considerably complicated by the frequent occurrence of functional interlobar shunts. The presence of "collateral ventilation" has to be ruled out prior to valve implantations, as the presence of these extraanatomical connections between different lobes may jeopardize the success of therapy. Recent experimental studies evaluated the automatic detection of incomplete lobar fissures from CT scans, because they are considered to be a predictor for the existence of shunts. To date, these methods are yet to show acceptable results. KEY POINTS Today, surgical and various minimal invasive methods of lung volume reduction are in use. Radiological and nuclear medical examinations are helpful in the evaluation of an appropriate lung area. Imaging can detect periinterventional complications. Reduction of lung volume has not yet been conclusively proven to be effective and is a therapeutical option with little scientific evidence.

Effects of tidal volume and positive end-expiratory pressure during resuscitation of very premature lambs

Background: Guidelines recommend neonatal resuscitation without controlling tidal volume or positive end-expiratory pressure (PEEP). However, these may improve gas exchange, lung volume and outcome. Aim: To investigate resuscitation of very premature lambs with a Laerdal bag without PEEP versus volume guarantee ventilation with PEEP. Methods: Anaesthetized lambs (n = 20) delivered at 125 d gestation were randomized to three groups receiving 15 min resuscitation: (1) Laerdal bag and no PEEP; (2) ventilation with a tidal volume of 5 ml/kg and 8 cm H2O PEEP; (3) ventilation with 10 ml/kg and 8 cm H2O PEEP. They were then all ventilated for 2 h with tidal volumes of 5 or 10 ml/kg, and 8 cm H2O PEEP. Ventilation parameters and blood gases were recorded. Results: Different tidal volumes affected PaCO2 within minutes, with 10 ml/kg causing severe hypocarbia. PEEP had little effect on PaCO2. Oxygenation improved significantly with PEEP of 8 cm H2O, irrespective of tidal volume. Conclusion: Very premature lambs can be resuscitated effectively using volume-guarantee ventilation and PEEP. Tidal volumes affected PaCO2 within minutes but had little effect on oxygenation. PEEP halved the oxygen requirement compared with no PEEP. Resuscitating premature babies with controlled tidal volumes and PEEP might improve their outcome.

Image reconstruction affects computer tomographic assessment of lung hyperinflation

Objectives: Lung hyperinflation may be assessed by computed tomography (CT). As shown for patients with emphysema, however, CT image reconstruction affects quantification of hyperinflation. We studied the impact of reconstruction parameters on hyperinflation measurements in mechanically ventilated (MV) patients. Design: Observational analysis. Setting: A University hospital-affiliated research Unit. Patients: The patients were MV patients with injured (n = 5) or normal lungs (n = 6), and spontaneously breathing patients (n = 5). Interventions: None. Measurements and results: Eight image series involving 3, 5, 7, and 10 mm slices and standard and sharp filters were reconstructed from identical CT raw data. Hyperinflated (V-hyper), normally (V-normal), poorly (V-poor), and nonaerated (V-non) volumes were calculated by densitometry as percentage of total lung volume (V-total). V-hyper obtained with the sharp filter systematically exceeded that with the standard filter showing a median (interquartile range) increment of 138 (62-272) ml corresponding to approximately 4% of V-total. In contrast, sharp filtering minimally affected the other subvolumes (V-normal, V-poor, V-non, and V-total). Decreasing slice thickness also increased V-hyper significantly. When changing from 10 to 3 mm thickness, V-hyper increased by a median value of 107 (49-252) ml in parallel with a small and inconsistent increment in V-non of 12 (7-16) ml. Conclusions: Reconstruction parameters significantly affect quantitative CT assessment of V-hyper in MV patients. Our observations suggest that sharp filters are inappropriate for this purpose. Thin slices combined with standard filters and more appropriate thresholds (e.g., -950 HU in normal lungs) might improve the detection of V-hyper. Different studies on V-hyper can only be compared if identical reconstruction parameters were used.

Computed tomographic assessment of lung weights in trauma patients with early posttraumatic lung dysfunction

Introduction: Quantitative computed tomography (qCT)-based assessment of total lung weight (M(lung)) has the potential to differentiate atelectasis from consolidation and could thus provide valuable information for managing trauma patients fulfilling commonly used criteria for acute lung injury (ALI). We hypothesized that qCT would identify atelectasis as a frequent mimic of early posttraumatic ALI. Methods: In this prospective observational study, M(lung) was calculated by qCT in 78 mechanically ventilated trauma patients fulfilling the ALI criteria at admission. A reference interval for M(lung) was derived from 74 trauma patients with morphologically and functionally normal lungs (reference). Results are given as medians with interquartile ranges. Results: The ratio of arterial partial pressure of oxygen to the fraction of inspired oxygen was 560 (506 to 616) mmHg in reference patients and 169 (95 to 240) mmHg in ALI patients. The median reference M(lung) value was 885 (771 to 973) g, and the reference interval for M(lung) was 584 to 1164 g, which matched that of previous reports. Despite the significantly greater median M(lung) value (1088 (862 to 1,342) g) in the ALI group, 46 (59%) ALI patients had M(lung) values within the reference interval and thus most likely had atelectasis. In only 17 patients (22%), Mlung was increased to the range previously reported for ALI patients and compatible with lung consolidation. Statistically significant differences between atelectasis and consolidation patients were found for age, Lung Injury Score, Glasgow Coma Scale score, total lung volume, mass of the nonaerated lung compartment, ventilator-free days and intensive care unit-free days. Conclusions: Atelectasis is a frequent cause of early posttraumatic lung dysfunction. Differentiation between atelectasis and consolidation from other causes of lung damage by using qCT may help to identify patients who could benefit from management strategies such as damage control surgery and lung-protective mechanical ventilation that focus on the prevention of pulmonary complications.

Extrapolation from ten sections can make CT-based quantification of lung aeration more practicable

Clinical applications of quantitative computed tomography (qCT) in patients with pulmonary opacifications are hindered by the radiation exposure and by the arduous manual image processing. We hypothesized that extrapolation from only ten thoracic CT sections will provide reliable information on the aeration of the entire lung. CTs of 72 patients with normal and 85 patients with opacified lungs were studied retrospectively. Volumes and masses of the lung and its differently aerated compartments were obtained from all CT sections. Then only the most cranial and caudal sections and a further eight evenly spaced sections between them were selected. The results from these ten sections were extrapolated to the entire lung. The agreement between both methods was assessed with Bland-Altman plots. Median (range) total lung volume and mass were 3,738 (1,311-6,768) ml and 957 (545-3,019) g, the corresponding bias (limits of agreement) were 26 (-42 to 95) ml and 8 (-21 to 38) g, respectively. The median volumes (range) of differently aerated compartments (percentage of total lung volume) were 1 (0-54)% for the nonaerated, 5 (1-44)% for the poorly aerated, 85 (28-98)% for the normally aerated, and 4 (0-48)% for the hyperaerated subvolume. The agreement between the extrapolated results and those from all CT sections was excellent. All bias values were below 1% of the total lung volume or mass, the limits of agreement never exceeded +/- 2%. The extrapolation method can reduce radiation exposure and shorten the time required for qCT analysis of lung aeration.

Ipsilateral Lung Volumes Assessed by Three-Dimensional Ultrasonography in Fetuses with Isolated Congenital Diaphragmatic Hernia

Objective: To evaluate the precision of three-dimensional ultrasonography (3DUS) in estimating the ipsilateral lung volume and the potential of this measurement to predict neonatal death in congenital diaphragmatic hernia (CDH). Methods: Between January 2002 and December 2004, the ipsilateral lung volumes were assessed by 3DUS using the technique of rotation of the multiplan imaging in 39 fetuses with CDH. The observed/ expected ipsilateral lung volume ratios (o/e-IpsiFLVR) were compared to the lung/head ratios (LHR) and to the observed/ expected total fetal lung volume ratios (o/e-TotFLVR) as well as to postnatal death. Results: Ipsilateral lung volumes (median 0.12, range 0.01-0.66) were more reduced than the total lung volumes (median 0.52, range 0.11-0.95, p < 0.001) in CDH. The bias and precision of 3DUS in estimating ipsilateral lung volumes were -0.61 and 0.99 cm 3, respectively, with absolute limits of agreement from -2.56 to +1.33 cm(3). The o/e-IpsiFLVR was lower in neonatal death cases (median 0.09, range 0.01-0.46) than in survivals (median 0.18, range 0.01-0.66), but this difference was not statistically significance (p > 0.05). The sensitivity, speci-ficity, (positive and negative) predictive values and accuracy of o/e-IpsiFLVR in predicting neonatal death was 52.6% (10/19), 83.3% (10/12), 83.3% (10/12), 52.6% (10/19) and 64.5% (20/31), respectively. Conclusion: Although the ipsilateral lung volume can be measured by 3DUS, it cannot be used to predict neonatal death when considering it alone. However, it is important to measure it to calculate the total fetal lung volumes as the o/e-TotFLVR has the best efficacy in predicting neonatal death in isolated CDH. Copyright (C) 2008 S. Karger AG, Basel

Prone position prevents regional alveolar hyperinflation and mechanical stress and strain in mild experimental acute lung injury

Prone position may delay the development of ventilator-induced lung injury (VILI), but the mechanisms require better elucidation. In experimental mild acute lung injury (ALI), arterial oxygen partial pressure (Pa(O2)), lung mechanics and histology, inflammatory markers [interleukin (IL)-6 and IL-1 beta], and type III procollagen (PCIII) mRNA expressions were analysed in supine and prone position. Wistar rats were randomly divided into two groups. In controls, saline was intraperitoneally injected while ALI was induced by paraquat. After 24-h, the animals were mechanically ventilated for 1-h in supine or prone positions. In ALI, prone position led to a better blood flow/tissue ratio both in ventral and dorsal regions and was associated with a more homogeneous distribution of alveolar aeration/tissue ratio reducing lung static elastance and viscoelastic pressure, and increasing end-expiratory lung volume and Pa(O2). PCIII expression was higher in the ventral than dorsal region in supine position, with no regional changes in inflammatory markers. In conclusion, prone position may protect the lungs against VILI, thus reducing pulmonary stress and strain. (C) 2009 Elsevier B.V. All rights reserved.

Bilateral lung transplantation in asymmetric thorax: Case reports

Suppurative lung diseases, such as cystic fibrosis and bronchiectasis, when diffuse and associated with important functional loss, can be treated with bilateral lung transplantation with good results. These diseases are frequently associated with previous lung resections presenting an asymmetric thorax, thus making lung extraction difficult and generating disproportion between the graft and the pleural cavity. To treat this condition, pneumonectomy and single lung transplantation is a feasible option; however, there are associated comorbidities and an invariable need for extracorporeal circulation. Described herein are 2 patients with an asymmetric thorax, treated with bilateral transplantation and lung volume reduction with lobectomy.

Placental transmogrification of the lung presenting as giant bullae with soft-fatty components

A 44-year-old man presented with progressive dyspnea and a previous pneumothorax. Chest CT scan showed a mediastinal shift due to giant bullae containing soft tissue and fatty components in the left lower lung Lobe, and a right upper lung lobe partially collapsed. The pulmonary function tests revealed forced vital capacity (FVC) 53% (of the predicted) and forced vital capacity in 1 s (FEV1) 52%. Then, resection of the lower lobe was performed with intention to prevent other pneumothoraxes and to revert the upper lobe collapse. The pathological examination showed a placental. transmogrification of the lung (PTL). One month after the surgery, the patient was asymptomatic, the pulmonary function tests normalized and the upper lobe was well expanded. In conclusion, we described the first CT finding of soft tissue and fatty components within the PTL-related bullae, and the PTL should be considered in the differential diagnosis of pulmonary lesions with soft-fatty and air components. (c) 2007 European Association for Cardio-Thoracic Surgery. Published by Elsevier B.V. All rights reserved.

Ventilação de Alta Frequência Oscilatória Exclusiva com Optimização do Volume Pulmonar no Recém-Nascido de Extremo Baixo Peso (Estudo Comparativo com Ventilação de Alta Frequência Oscilatória após Ventilação Convencional)

Objectivo: A Ventilação de Alta Frequência Oscilatória (VAFO) tem ainda poucos anos de utilização em Portugal. Os seus resultados pouco uniformes têm sido relacionados com o tipo de estratégia utilizada. A optimização do volume pulmonar com utilização de uma estratégia de alto volume, tem vindo a definir-se como a estratégia mais eficaz. Considerámos como objectivos prioritários, a avaliação dos benefícios desta técnica na redução da mortalidade e na redução da morbilidade respiratória precoce e tardia, na retinopatia da prematuridade (ROP) e na hemorragia intraperiventricular (HIPV). Doentes e Métodos: Desde 1 de Janeiro de 1999 até 31 de Março de 2000 (15 meses), usámos esta estratégia ventilatória no Recém Nascido de Muito Baixo Peso (RN MBP). Utilizámos VAFO como modalidade ventilatória exclusiva e imediatamente após intubação traqueal ou após chegada do RN à Unidade de Cuidados Intensivos neonatais (UCIN). Iniciámos de imediato a Optimização do Volume Pulmonar (OPT). A administração de surfactante só foi efectuada após critério de pulmão optimizado. Foram ventilados com esta técnica, 154 RN com idade gestacional < 34 semanas com DMH/SDR e necessitando de ventilação mecânica. Destes RN, o grupo com peso de nascimento (PN) < 950 gramas e idade gestacional entre 25-29 semanas (Coorte VAFO/OPT = 36 RN) foi comparado com uma Coorte histórica de VAFO após curto período de ventilação convencional (VC) de 1997-1998 (grupo VC + VAFO = 27 RN). Ambos os grupos tiveram a Doença das Membranas Hialinas(DMH) como diagnóstico primário. Local de Estudo: Unidade de Cuidados Intensivos Neonatais da Maternidade Dr. Alfredo da Costa (12 postos de ventilação permanente). Resultados: Os dois grupos comparados (VAFO/OPT e VC + VAFO) foram semelhantes nos dados demográficos (peso, idade gestacional, sexo), corticoterapia pré-natal e gravidade radiológica da DMH. Apesar da gravidade radiológica de ambos os grupos ser semelhante, o tipo de estratégia ventilatória utilizada no grupo VAFO/OPT, ou seja, a optimização do volume pulmonar, permitiu uma menor administração do surfactante. O tempo de ventilação e o tempo de oxigenação (dias de 02) foi estatisticamente inferior no grupo VAFO/OPT (respectivamente p=0,000 e p=0.003), tal como a HIPV, ROP e mortalidade (respectivamente p=0,0029, p=0,009 e p=0,031). A Doença Pulmonar Crónica (DPC) foi percentualmente bastante inferior neste grupo (p=0,051). Conclusão: A VAFO como modalidade ventilatória exclusiva, iniciada imediatamente após intubação traqueal e/ou chegada do RN à UCIN e com optimização do volume pulmonar, encurtou a necessidade de suporte respiratório e de oxigenação e melhorou a morbilidade pulmonar no RN MBP com DMH.

Ventilação de Alta Frequência Oscilatória como Método Ventilatório Único e Exclusivo e com Estratégia de Optimização do Volume Pulmonar no Recém-Nascido de Muito Baixo Peso

Objectivo: A Ventilação de Alta Frequência Oscilatória(VAFO) tem resultados promissores na ventilação de RN de pré-termo com Doença das Membranas Hialinas (DMH), embora os resultados dos estudos publicados não sejam uniformes. Esta diferença dos resultados poderá ser atribuída à falta de uniformidade das estratégias utilizadas e à forma de utilização desta técnica de ventilação. A utilização de VAFO precoce com optimização precoce do volume pulmonar, tem sido a estratégia mais eficaz, levando a uma menor incidência de morbilidade pulmonar. Considerámos como objectivos prioritários, a avaliação dos benefícios desta técnica na redução da morbilidade respiratória precoce e tardia, na incidência da retinopatia da prematuridade (ROP) e da hemorragia intraperiventricular (HIPV) e na redução da mortalidade. Desenho do Estudo: Estudo descritivo prospectivo. Os Recém-nascidos (RN) foram seguidos periodicamente desde a altura do nascimento até ao momento da alta hospitalar. Local do estudo: Unidade de Cuidados Intensivos Neonatais(UCIRN) da Maternidade Dr. Alfredo da Costa (Unidade Terciária com 12 postos de ventilação permanentes). Doentes: 424 RN com peso de nascimento inferior ou igual a 1500gr (RN MBP), nascidos na Maternidade entre 1 de Janeiro de 1999 e 1 de Janeiro de 2003 (4 anos). O grupo de extremo baixo peso(peso de nascimento < 1000 gr) foi analisado separadamente. Foram excluídos RN com hidrópsia fetal, anomalias congénitas cardíacas, pulmonares ou da parede abdominal (incluindo hérnia diafragmática) e também RN com pneumonia congénita e aqueles nascidos fora da maternidade ("Outborn"). Foram também excluídos RN optimizados mas sem o critério de optimização definido pelo estudo. Métodos: Em todos os RN MBP foi utilizada VAFO como modalidade ventilatória única e exclusiva e imediatamente após intubação traqueal na Unidade de Cuidados Intensivos Neonatais(UCIN) ou após chegada do RN à UCIN vindo da sala de partos ou do bloco operatório. Iniciámos de imediato a Optimização do Volume Pulmonar (OPT). A administração de surfactante só foi efectuada após optimização do volume pulmonar (1°- critério de pulmão optimizado: definido como a CDP (MAP) que permitiu reduzir o Fi02 para valores < 40%, 2°- critérios de administração de surfactante; CDP X Fi02 > 3 - 4, a / A 02 < 0.22 - 0.17 e / ou evidência radiológica de DMH de grau III - IV). A Doença pulmonar Crónica(DPC) foi definida como a necessidade de suplementação com 02 às 36 semanas de idade pós-concepcional. Resultados: O total da população de RN MBP, nascidos na MAC, correspondeu a 424; destes, 57 RN faleceram (13,4%) e 367 sobreviveram (86,5 %). A mediana do peso de nascimento foi de 989 gr e a da idade gestacional de 28 semanas. Dos sobreviventes a mediana do tempo de ventilação e de suplementação com 02 foi respectivamentre de 2,5 dias (min/Max = 6 horas/70 dias) e 23 dias (min / Max = 2 / 130 dias). A incidência de DPC foi de 9.0 % (33 / 367). Nenhum RN teve alta hospitalar submetido a terapêutica com 02. A incidência de HIPV grau III - IV (grupo total de RN) foi de 9.9% (42 / 424) e a de ROP 3 de 7.7% (24 / 310). A população total de extremo baixo peso, nascida na MAC (RN < 1000 gr), correspondeu a 210 RN; 46 faleceram (21.9%), 164 RN sobreviveram(78.1%). Dos sobreviventes a mediana do tempo de ventilação e do tempo de suplementação com 02 foi respectivamente de 5 dias (min/ Max = 12 horas / 70 dias) e de 40 dias (min / Max = 4 / 130 dias). A incidência de DPC foi neste grupo de 15.9% (26 / 164). Nenhum RN teve alta hospitalar submetido a terapêutica com 02. A incidência de HIPV de grau III - IV (grupo total < 1000 gr) foi de 13.8 %(29 / 210) e a de ROP 3 foi de 13.1 % (20 / 153). Conclusão: A VAFO como modalidade ventilatória única e exclusiva, iniciada imediatamente após intubação traqueal e/ou chegada do RN à UCIN e com optimização precoce do volume pulmonar, melhorou as trocas gasosas, encurtou a necessidade do suporte respiratório e do tempo de suplementação com 02 e melhorou a morbilidade pulmonar no RN MBP com DMH.

Lung function in idiopathic pulmonary fibrosis--extended analyses of the IFIGENIA trial.

BACKGROUND The randomized placebo-controlled IFIGENIA-trial demonstrated that therapy with high-dose N-acetylcysteine (NAC) given for one year, added to prednisone and azathioprine, significantly ameliorates (i.e. slows down) disease progression in terms of vital capacity (VC) (+9%) and diffusing capacity (DLco) (+24%) in idiopathic pulmonary fibrosis (IPF). To better understand the clinical implications of these findings we performed additional, explorative analyses of the IFGENIA data set. METHODS We analysed effects of NAC on VC, DLco, a composite physiologic index (CPI), and mortality in the 155 study-patients. RESULTS In trial completers the functional indices did not change significantly with NAC, whereas most indices deteriorated with placebo; in non-completers the majority of indices worsened but decline was generally less pronounced in most indices with NAC than with placebo. Most categorical analyses of VC, DLco and CPI also showed favourable changes with NAC. The effects of NAC on VC, DLco and CPI were significantly better if the baseline CPI was 50 points or lower. CONCLUSION This descriptive analysis confirms and extends the favourable effects of NAC on lung function in IPF and emphasizes the usefulness of VC, DLco, and the CPI for the evaluation of a therapeutic effect. Most importantly, less progressed disease as indicated by a CPI of 50 points or lower at baseline was more responsive to therapy in this study.

Alveolar overdistension as a cause of lung injury: differences among three animal species.

This study analyses characteristics of lung injuries produced by alveolar overdistension in three animal species. Mechanical ventilation at normal tidal volume (10 mL/Kg) and high tidal volume (50 mL/Kg) was applied for 30 min in each species. Data were gathered on wet/dry weight ratio, histological score, and area of alveolar collapse. Five out of six rabbits with high tidal volume developed tension pneumothorax, and the rabbit results were therefore not included in the histological analysis. Lungs from the pigs and rats showed minimal histological lesions. Pigs ventilated with high tidal volume had significantly greater oedema, higher neutrophil infiltration, and higher percentage area of alveolar collapse than rats ventilated with high tidal volume. We conclude that rabbits are not an appropriate species for in vivo studies of alveolar overdistension due to their fragility. Although some histological lesions are observed in pigs and rats, the lesions do not appear to be relevant.