Size-matching in lung transplantation by computed tomography for end-stage interstitial disease: a retrospective analysis.

Background: Size matching between donors and recipients is a major issue in lung transplantation (LTx), especially in patients with restrictive lung disease (RLD). This study aims to evaluate computed tomography (CT) as an additional method for defining the total lung capacity (TLC) in patients with end-stage interstitial disease awaiting LTx. Methods: Clinical data and CT scans from patients who underwent a first LTx from January 2014 to July 2018 in Bichat Hospital, Paris, were prospectively included in a database. CT TLC (ctTLC) was retrospectively calculated after semi-automatic contouring of the parenchyma and compared with measured TLC (mTLC) and predicted TLC (pTLC) values. Results: The study group included 89 patients (male:female =68:21; mean age, 59.5±10.0 years). The time between pulmonary function tests (PFTs) and CT scan was 162±270 days [median, 67 days; interquartile range (IQR), 0-233 days]. ctTLC was inferior to mTLC and pTLC (respectively 2,979±1,001 mL, 3,530±1,077 and 6,381±955 mL, P<0.001). The relative difference between CT lung volume (ctLV) and measured lung volume (mLV) was higher on the left than on the right side (25.4% vs. 16.3%, respectively, P=0.11). After exclusion of two outliers, we found a significant correlation between ctTLC and mTLC (r=0.762, P<0.001). Conclusions: CT volume is a feasible method to assess TLC in patients with end-stage interstitial disease awaiting LTx. This study highlights potential size-mismatch for graft selection before LTx and opens the perspective of a prospective trial evaluating impact of size-matching by donor-recipient (D-R) ctTLC ratio on postoperative outcomes.

History Is the Key to Diagnosis: A Case of Nitrofurantoin-Induced Interstitial Lung Disease.

We present the case of a 74-year-old woman with a past medical history (PMH) significant for anxiety, depression, and hypertension who presented to the pulmonary clinic for consultation regarding progressive shortness of breath, which started five months ago after developing COVID-19. Further history-taking revealed that she had been started on nitrofurantoin two months ago for recurrent urinary tract infections (UTIs). Her pulmonary function tests (PFTs) demonstrated a moderately restrictive disease. A CT chest was obtained, showing pleural thickening with bilateral pleural-based ground glass opacities. Nitrofurantoin was then discontinued, and she was started on a prednisone taper for suspected nitrofurantoin-induced interstitial lung disease (ILD). At a follow-up clinic visit six months later, she showed great improvement in her shortness of breath, marked improvement in forced vital capacity (FVC) on PFTs, and near resolution of pleural-based lesions and basal ground glass opacities on CT chest. This case emphasizes the importance of keeping the diagnosis of nitrofurantoin-induced ILD in mind, as well as the need to implement guidelines for the monitoring of this potential pulmonary adverse effect.

"Horses for courses" computed tomography or predicted total lung capacity for size matching in lung transplantation.

Size-matching donors to recipients in lung transplantation continues to be a clinical challenge. Predicted total lung capacity equations, or more simply, donor and recipient heights, while widely used, are imprecise and may not be representative of the pool of donors and recipients. These inherent limitations may result in size discrepancies. The advent of easily accessible software and the widespread availability of computed tomography (CT) imaging in donor assessments have made it possible to directly measure lung volumes in donors and recipients. As a result, there is a growing interest in adopting personalized CT volumetry as an alternative. This article explores both methods and underscores the potential benefits and precision offered by CT.

Lung function at three months after hospitalization due to COVID­19 pneumonia: Comparison of alpha, delta and omicron variant predominance periods.

The coronavirus disease (COVID-19) pandemic has already affected millions of individuals, with increasing numbers of survivors. These data suggest that the pulmonary sequelae of the infection may have an effect on a wide range of individuals. The aim of the present study was to evaluate pulmonary function in patients hospitalized due to COVID-19 three months after hospital discharge. A total of 116 patients, 34 females and 82 males, with a mean age of 57.77±11.45 years, who were hospitalized due to COVID-19, underwent pulmonary function testing three months after their hospital discharge. Of these, 83 (71.6%) patients were hospitalized in the period of alpha variant predominance, 16 (13.8%) in the period of delta variant predominance and 17 (14.6%) in the omicron variant predominance period. The mean value of diffusion capacity for carbon monoxide (DLCO)% predicted (pred) was statistically higher in patients affected by the omicron variant (P=0.028). Abnormal values (<80% pred) of DLCO and total lung capacity (TLC) were observed in 28.4 and 20.7% of the patients, respectively. Active smoking was an independent predictor of abnormal values of forced expiratory volume in 1 sec % pred and TLC% pred [P=0.038; odds ratio (OR): 8.574, confidence interval (CI) 1.124-65.424 and P=0.004, OR: 14.733, CI 2.323-93.429, respectively], age was an independent predictor of abnormal values of forced vital capacity % pred and DLCO% pred (P=0.027, OR: 1.124, CI 1.014-1.246 and P=0.011, OR:1.054, CI 1.012-1.098, respectively); and female sex was an independent predictor of abnormal values of DLCO% pred (P=0.009, OR: 1.124, CI 1.014-1.246). Α significant percentage of hospitalized patients due to COVID-19 pneumonia will develop abnormal pulmonary function, regardless of the SARS-CoV-2 variant.

A reference equation for lung volume on computed tomography in Japanese middle-aged and elderly adults.

BACKGROUND: Effective use of lung volume data measured on computed tomography (CT) requires reference values for specific populations. This study examined whether an equation previously generated for multiple ethnic groups in the United States, including Asians predominantly composed of Chinese people, in the Multi-Ethnic Study of Atherosclerosis (MESA) could be used for Japanese people and, if necessary, to optimize this equation. Moreover, the equation was used to characterize patients with chronic obstructive pulmonary disease (COPD) and lung hyperexpansion. METHODS: This study included a lung cancer screening CT cohort of asymptomatic never smokers aged ≥40 years from two institutions (n = 364 and 419) to validate and optimize the MESA equation and a COPD cohort (n = 199) to test its applicability. RESULTS: In all asymptomatic never smokers, the variance explained by the predicted values (R2) based on the original MESA equation was 0.60. The original equation was optimized to minimize the root mean squared error (RMSE) by adjusting the scaling factor but not the age, sex, height, or body mass index terms of the equation. The RMSE changed from 714 ml in the original equation to 637 ml in the optimized equation. In the COPD cohort, lung hyperexpansion, defined based on the 95th percentile of the ratio of measured lung volume to predicted lung volume in never smokers (122 %), was observed in 60 (30 %) patients and was associated with centrilobular emphysema and air trapping on inspiratory/expiratory CT. CONCLUSIONS: The MESA equation was optimized for Japanese middle-aged and elderly adults.

A comparative study of dynamic lung hyperinflation and tidal volume to total lung capacity ratios during exercise in patients with chronic respiratory disease and healthy individuals.

BACKGROUND: Current measures of tidal volume/forced vital capacity (VT/FVC) and VT/inspiratory capacity (VT/IC) at peak exercise cannot differentiate restrictive from obstructive ventilation patterns. This study aimed to investigate the utility of VT/total lung capacity (VT/TLC) as a marker for dynamic lung hyperinflation (DH) in patients with chronic obstructive pulmonary disease (COPD) and interstitial lung disease (ILD). METHODS: 267 subjects were screened: 23 ILD, 126 COPD, and 33 healthy individuals were enrolled. Lung function tests and cardiopulmonary exercise tests with repeated IC maneuver were conducted and compared at three exercise efforts: unloaded, middle of exercise, and peak exercise. RESULTS: During exercise, ILD patients demonstrated normal end-expiratory lung volume/TLC (EELV/TLC) ratios, but elevated end-inspiratory lung volume/TLC (EILV/TLC) ratios, except for peak exercise. COPD patients exhibited elevated ratios for both EELV/TLC and EILV/TLC during exercise with a larger EELV/TLC ratio compared to ILD patients at peak exercise (p < 0.05). The VT/TLC ratio distinguished ILD, COPD, and healthy controls at peak exercise (p < 0.05). A VT/TLC ratio of ≤ 0.22 or ≥ 0.30 indicated airflow obstruction with hyperinflation or normal lung expansion, respectively (AUC: 0.74 or 0.88). Furthermore, VT/TLC outperformed VT/FVC and VT/IC in differentiating lung expansion between ILD and COPD during exercise (all p < 0.05). CONCLUSION: Exercise-induced DH was absent in ILD patients but observed in COPD patients. Excessive lung expansion occurred in all patients during exercise, except for limited expansion in ILD at peak exercise probably due to specific lung properties. VT/TLC can distinguish between restrictive, obstructive, and normal ventilatory patterns.

Predicting total lung capacity from spirometry: a machine learning approach.

Background and objective: Spirometry patterns can suggest that a patient has a restrictive ventilatory impairment; however, lung volume measurements such as total lung capacity (TLC) are required to confirm the diagnosis. The aim of the study was to train a supervised machine learning model that can accurately estimate TLC values from spirometry and subsequently identify which patients would most benefit from undergoing a complete pulmonary function test. Methods: We trained three tree-based machine learning models on 51,761 spirometry data points with corresponding TLC measurements. We then compared model performance using an independent test set consisting of 1,402 patients. The best-performing model was used to retrospectively identify restrictive ventilatory impairment in the same test set. The algorithm was compared against different spirometry patterns commonly used to predict restriction. Results: The prevalence of restrictive ventilatory impairment in the test set is 16.7% (234/1402). CatBoost was the best-performing machine learning model. It predicted TLC with a mean squared error (MSE) of 560.1 mL. The sensitivity, specificity, and F1-score of the optimal algorithm for predicting restrictive ventilatory impairment was 83, 92, and 75%, respectively. Conclusion: A machine learning model trained on spirometry data can estimate TLC to a high degree of accuracy. This approach could be used to develop future smart home-based spirometry solutions, which could aid decision making and self-monitoring in patients with restrictive lung diseases.

Assessment of respiratory function and exercise tolerance at 4-6 months after COVID-19 infection in patients with pneumonia of different severity.

BACKGROUND: The evaluation of COVID-19 systemic consequences is a wide research field in which respiratory function assessment has a pivotal role. However, the available data in the literature are still sparse and need further strengthening. AIM: To assess respiratory function 4-6 months after hospital discharge based on lung disease severity in patients who overcome COVID-19 pneumonia. METHODS: Patients hospitalised either in the Internal Medicine Department (IMD) for moderate to severe disease or in the Intensive Care Unit (ICU) for critical disease underwent spirometry with maximal flow-volume curve, lung volumes, lung diffusion capacity (DLCO ) and six-minute walking test (6-MWT). RESULTS: Eighty-eight patients were analysed: 40 from the IMD and 48 from the ICU. In both cohorts, there was a greater prevalence of male patients. In the IMD cohort, 38% of patients showed at least one altered respiratory parameter, while 62% in the ICU cohort did so (P < 0.05). Total lung capacity (TLC) and DLCO were the most frequently altered parameters: 15% and 33% from IMD versus 33% and 56% from ICU, respectively (P < 0.05). In IMD patients, 5% had only restrictive deficit, 22% had only lung diffusion impairment and 10% had both. In ICU patients, 6% had only restrictive deficit, 29% had only lung diffusion impairment and 27% had both (P < 0.05). ICU patients showed a higher frequency of abnormal 6-MWT (P < 0.05). CONCLUSION: Lung function tests and 6-MWT are highly informative tools for monitoring the negative consequences of COVID-19 pneumonia, which were more frequent and more complex in patients discharged from ICU.

Impacts of cold air on the performance of cardiopulmonary function and athletic skills in synchronized swimming / Impactos do ar frio sobre o desempenho da função cardiopulmonar e habilidades atléticas no nado sincronizado / Impacto del aire frío en el rendimiento de la función cardiopulmonar y las habilidades atléticas en la natación sincronizada

ABSTRACT Introduction: Synchronized swimming is a sport that demands high cardiopulmonary capacity from the athletes, physical conditioning, excellent swimming, and aerobic metabolism preparation. Long-term exposure to cold air is a key factor that affects lung function, affecting the athlete's performance in synchronized swimming. This exposure can lead to inflammation of the athletes' airways, although few studies have analyzed the changes in cardiorespiratory conditioning during competition. Objective: This study aims to analyze the effect of synchronized swimming athletes' cardiopulmonary function on competition performance in cold air environments. Methods: This paper selects volunteer swimmers for the research. Ventilation tests are performed to collect data and to analyze the effect of training on cardiorespiratory conditioning during swimming. Results: There were significant differences in small airway function, generally defined as airways with caliber < 2 mm internal diameter, without cartilage, values measured among synchronized swimmers (P<0.05). There were significant differences in forced vital capacity, and one-second forced expiratory rate between synchronized swimmers (P<0.05). Conclusion: Synchronized swimmers may have their small airway function impaired due to the inherent characteristics of the sport. Level of evidence II; Therapeutic studies - investigation of treatment outcomes.

RESUMO Introdução: O nado sincronizado é um esporte que exige alta capacidade cardiopulmonar dos atletas, condicionamento físico, excelente natação e preparo do metabolismo aeróbico. A exposição a longo prazo ao ar frio é um fator essencial que afeta a função pulmonar, afetando o desempenho do atleta no nado sincronizado. Essa exposição pode levar à inflamação das vias aéreas dos atletas, apesar de poucos estudos analisarem as alterações do condicionamento cardiorrespiratório durante a competição. Objetivo: O objetivo deste estudo é analisar o efeito da função cardiopulmonar dos atletas de nado sincronizado sobre o desempenho da competição em ambientes com ar frio. Métodos: Este artigo seleciona nadadores voluntários à pesquisa. Testes de ventilação são executados para a coleta dos dados, além de análise do efeito do treinamento sobre o condicionamento cardiorrespiratório durante a natação. Resultados: Houve diferenças significativas na função das vias aéreas de pequeno porte, geralmente definidas como vias aéreas com calibre < 2 mm de diâmetro interno, sem cartilagem, valores medidos entre nadadores sincronizados (P<0,05). Houve diferenças significativas na capacidade vital forçada e taxa expiratória forçada de um segundo entre nadadores sincronizados (P<0,05). Conclusão: Nadadores sincronizados podem ter a função das suas vias aéreas de pequeno porte prejudicadas devido às características inerentes do esporte. Nível de evidência II; Estudos terapêuticos - investigação dos resultados do tratamento.

RESUMEN Introducción: La natación sincronizada es un deporte que exige a las atletas una alta capacidad cardiopulmonar, un acondicionamiento físico, un excelente nado y una preparación del metabolismo aeróbico. La exposición prolongada al aire frío es un factor esencial que afecta a la función pulmonar, lo que repercute en el rendimiento del atleta en la natación sincronizada. Esta exposición puede provocar la inflamación de las vías respiratorias de los atletas, aunque son pocos los estudios que analizan los cambios en el acondicionamiento cardiorrespiratorio durante la competición. Objetivo: El objetivo de este estudio es analizar el efecto de la función cardiopulmonar de las atletas de natación sincronizada en el rendimiento de la competición en ambientes de aire frío. Métodos: Este artículo selecciona nadadores voluntarios para la investigación. Se realizan pruebas de ventilación para la recogida de datos, así como el análisis del efecto del entrenamiento en el acondicionamiento cardiorrespiratorio durante la natación. Resultados: Hubo diferencias significativas en la función de las vías respiratorias pequeñas, generalmente definidas como vías respiratorias con calibre < 2 mm de diámetro interno, sin cartílago, valores medidos entre los nadadores sincronizados (P<0,05). Hubo diferencias significativas en la capacidad vital forzada y en la tasa de espiración forzada de un segundo entre las nadadoras sincronizadas (P<0,05). Conclusión: Las nadadoras de natación sincronizada pueden tener la función de las vías respiratorias pequeñas alterada debido a las características inherentes a este deporte. Nivel de evidencia II; Estudios terapéuticos - investigación de los resultados del tratamiento.

Tidal volume expandability affected by flow, dynamic hyperinflation, and quasi-fixed inspiratory time in patients with COPD and healthy individuals.

Exertional dyspnea (ED) and impaired exercise performance (EP) are mainly caused by dynamic hyperinflation (DH) in chronic obstructive pulmonary disease (COPD) patients by constraining tidal volume expansion at peak exercise (VTpeak). As VTpeak is the product of inspiratory time (TIpeak) and flow (VT/TIpeak), it was hypothesized that VTpeak and VTpeak/total lung capacity (VTpeak/TLC) may be affected by TIpeak and VT/TIpeak. Hence, the study investigated the (1) effect of TIpeak and VT/TIpeak on VTpeak expansion, (2) factors associated with TIpeak, expiratory time (TEpeak), VT/TIpeak, and VTpeak/TLC, and (3) relationships between VT/TIpeak and VTpeak/TLC with ED and EP in COPD patients and controls. The study enrolled 126 male stable COPD patients and 33 sex-matched controls. At peak exercise, TIpeak was similar in all subjects (COPD versus controls, mean ± SD: 0.78 ± 0.17 s versus 0.81 ± 0.20 s, p = NS), whereas the COPD group had lower VT/TIpeak (1.71 ± 0.49 L/s versus 2.58 ± 0.69 L/s, p < .0001) and thus the COPD group had smaller VTpeak (1.31 ± 0.34 L versus 2.01 ± 0.45 L,p < .0001) and VTpeak/TLC (0.22 ± 0.06 vs 0.33 ± 0.05, p < .0001). TIpeak, TEpeak, and VT/TIpeak were mainly affected by exercise effort, whereas VTpeak/TLC was not. TEpeak, VT/TIpeak, and VTpeak/TLC were inversely changed by impaired lung function. TIpeak was not affected by lung function. Dynamic hyperinflation did not occur in the controls, however, VTpeak/TLC was strongly inversely related to DH (r = -0.79) and moderately to strongly related to lung function, ED, and EP in the COPD group. There was a slightly stronger correlation between VTpeak/TLC with ED and EP than VT/TIpeak in the COPD group (|r| = 0.55-0.56 vs 0.38-0.43). In summary, TIpeak was similar in both groups and the key to understanding how flow affects lung expansion. However, the DH volume effect was more important than the flow effect on ED and EP in the COPD group.

Semiautomatic assessment of respiratory dynamics using cine MRI in chronic obstructive pulmonary disease.

Purpose: The quantitative assessment of impaired lung motions and their association with the clinical characteristics of COPD patients is challenging. The aim of this study was to measure respiratory kinetics, including asynchronous movements, and to analyze the relationship between lung area and other clinical parameters. Materials and methods: This study enrolled 10 normal control participants and 21 COPD patients who underwent dynamic MRI and pulmonary function testing (PFT). The imaging program was implemented using MATLAB®. Each lung area was detected semi-automatically on a coronal image (imaging level at the aortic valve) from the inspiratory phase to the expiratory phase. The Dice index of the manual measurements was calculated, with the relationship between lung area ratio and other clinical parameters, including PFTs then evaluated. The asynchronous movements of the diaphragm were also evaluated using a sagittal image. Results: The Dice index for the lung region using the manual and semi-automatic extraction methods was high (Dice index = 0.97 ± 0.03). A significant correlation was observed between the time corrected lung area ratio and percentage of forced expiratory volume in 1 s (FEV1%pred) and residual volume percentage (RV%pred) (r = -0.54, p = 0.01, r = 0.50, p = 0.03, respectively). The correlation coefficient between each point of the diaphragm in the group with visible see-saw like movements was significantly lower than that in the group without see-saw like movements (value = -0.36 vs 0.95, p = 0.001). Conclusion: Semi-automated extraction of lung area from Cine MRI might be useful for detecting impaired respiratory kinetics in patients with COPD.

Air pollution enhance the progression of restrictive lung function impairment and diffusion capacity reduction: an elderly cohort study.

BACKGROUND: Some evidences have shown the association between air pollution exposure and the development of interstitial lung diseases. However, the effect of air pollution on the progression of restrictive ventilatory impairment and diffusion capacity reduction is unknown. This study aimed to evaluate the effects of long-term exposure to ambient air pollution on the change rates of total lung capacity, residual volume, and diffusion capacity among the elderly. METHODS: From 2016 to 2018, single-breath helium dilution with the diffusion capacity of carbon monoxide was performed once per year on 543 elderly individuals. Monthly concentrations of ambient fine particulate matters (PM2.5) and nitric dioxide (NO2) at the individual residential address were estimated using a hybrid Kriging/Land-use regression model. Linear mixed models were used to evaluate the association between long-term (12 months) exposure to air pollution and lung function with adjustment for potential covariates, including basic characteristics, indoor air pollution (second-hand smoke, cooking fume, and incense burning), physician diagnosed diseases (asthma and chronic airway diseases), dusty job history, and short-term (lag one month) air pollution exposure. RESULTS: An interquartile range (5.37 ppb) increase in long-term exposure to NO2 was associated with an additional rate of decline in total lung volume (- 1.8% per year, 95% CI: - 2.8 to - 0.9%), residual volume (- 3.3% per year, 95% CI: - 5.0 to - 1.6%), ratio of residual volume to total lung volume (- 1.6% per year, 95% CI: - 2.6 to - 0.5%), and diffusion capacity (- 1.1% per year, 95% CI: - 2.0 to - 0.2%). There is no effect on the transfer factor (ratio of diffusion capacity to alveolar volume). The effect of NO2 remained robust after adjustment for PM2.5 exposure. CONCLUSIONS: Long-term exposure to ambient NO2 is associated with an accelerated decline in static lung volume and diffusion capacity in the elderly. NO2 related air pollution may be a risk factor for restrictive lung disorders.

An 80-year-old woman with myelofibrosis and diffuse mosaic attenuation on chest computed tomography.

An 80-year-old woman with myelofibrosis sought evaluation for progressive dyspnea. Her past medical history included essential thrombocytosis, which transformed to myelofibrosis. Inspiratory computed tomography of chest showed diffuse mosaic attenuation with lymphadenopathy. Flexible bronchoscopy with lymph node and pulmonary parenchymal cryo biopsy revealed nodular deposits of extramedullary hematopoiesis in lung parenchyma and moderate to severe vascular medial and intimal thickening of pulmonary vasculature consistent with pulmonary parenchymal extramedullary hematopoiesis associated with pulmonary hypertension (a rare compensatory mechanism in myeloproliferative disorders). In this report, we explore the manifestations, pathogenesis, treatment, and prognosis of pulmonary extramedullary hematopoiesis reported in the literature.

Air Trapping and the Risk of COPD Exacerbation: Analysis From Prospective KOCOSS Cohort.

Background and Aims: Air trapping is a predictive index for a decline in lung function and mortality in patients with chronic obstructive pulmonary disease (COPD). However, the role of air trapping in COPD exacerbation has rarely been studied. Therefore, this study aimed to investigate the impact of air trapping as a continuous parameter on COPD exacerbation. Materials and Methods: To evaluate air trapping, we identified the ratio of residual volume (RV) to total lung capacity (TLC) of patients with COPD from the Korean COPD Subgroup Study (KOCOSS) cohort, which is a multicenter-based, prospective, consecutive cohort in Korea. The primary outcome was a development of COPD exacerbation during 3 years of follow-up. Results: Of 2,181 participants, 902 patients measured the RV/TLC ratio in the baseline enrollment, and 410 were evaluated for assessing the development of COPD exacerbation. Of 410 patients, the rate of moderate to severe exacerbation and severe exacerbation was 70.7% and 25.9%. A 10% increase of RV/TLC ratio increased the risk of the moderate to severe exacerbation by 35% and severe exacerbation by 36%. In subgroup analysis, an interaction effect between triple inhaled therapy and the RV/TLC ratio for severe exacerbation nullified the association between the RV/TLC ratio and severe exacerbation (p for interaction = 0.002). Conclusions: In this prospective cohort study, we found that air trapping (representing RV/TLC ratio as a continuous parameter) showed an association with an increased risk of COPD exacerbation, particularly in patients who have not undergone triple inhaler therapy.

[Respiratory physiotherapy in post-acute COVID-19 adult patients: Systematic review of literature]. / Fisioterapia respiratoria en pacientes adultos post-COVID-19: revisión sistemática de la literatura.

Background: Patients with SARS-CoV-2 present signs and symptoms that primarily involve the respiratory system. The sequelae result in impaired quality of life, pneumonia, dyspnea, fatigue, and joint pain. Objective: To sustain with scientific evidence the importance of respiratory physiotherapy and its effects on post-acute COVID-19 adult patients. Material and methods: A systematic review was conducted in four databases (Scopus, Web of Science, PubMed, and ScienceDirect). The searching period was carried out in February 2021 with a total of one 1229 potential studies. Finally, 5 studies that met the eligibility criteria were included: two clinical trials, two case reports and one cross-sectional study. The methodological quality of the articles was evaluated. Results: Respiratory muscle training, targeted breathing, and strength training provide significant data of improvement of functional performance. Evidence shows positive effects of respiratory physiotherapy in post-acute COVID-19 adult patients, since it increases resistance to exercise, it decreases fatigue, reduces dyspnea, improves functionality and quality of life. Conclusions: More future studies, such as randomized controlled trials, studies including lower age range groups, and individualized approaches, need to be developed.

Introducción: los pacientes con SARS-CoV-2 presentan signos y síntomas que involucran principalmente el sistema respiratorio. Las secuelas son consecuencia de un deterioro de la calidad de vida, neumonía, fatiga, disnea y dolor articular. Objetivo: tener el sustento científico que permita evidenciar la importancia de la fisioterapia respiratoria y sus efectos sobre los pacientes adultos post-COVID-19 de fase aguda. Material y métodos: se hizo una revisión sistemática de la literatura en cuatro bases de datos (Scopus, Web of Science, PubMed y ScienceDirect). La búsqueda fue realizada en febrero de 2021 con un total de 1229 estudios. Finalmente, se incluyeron cinco estudios que cumplieron con los criterios de elegibilidad: dos ensayos clínicos, dos reportes de caso y un estudio transversal. La calidad metodológica de las publicaciones fue evaluada. Resultados: el entrenamiento de la musculatura respiratoria, las respiraciones dirigidas y el fortalecimiento general dan datos significativos en la mejora de la funcionalidad. La evidencia demuestra que hay efectos positivos de la fisioterapia respiratoria en pacientes adultos post-COVID-19, pues aumenta la resistencia al ejercicio, disminuye la fatiga, se reduce la disnea, mejora la funcionalidad y la calidad de vida. Conclusiones: es necesario que se desarrollen más ensayos clínicos aleatorizados y estudios de grupos de menor rango de edad y con enfoques individualizados.

Restrictive spirometry versus restrictive lung function using the GLI reference values.

BACKGROUND: Restrictive lung function may indicate various underlying diseases. The aim of this study was to evaluate the accuracy of different restrictive spirometry patterns (RSPs) to identify restrictive lung function (total lung capacity [TLC] < lower limit of normal [LLN]) according to reference values by the Global Lung Function Initiative (GLI) in a wide age-ranged, general population sample. METHODS: A general population sample (n = 607, age 23-72 years, smokers 18.8%) with proper dynamic spirometry and TLC measurements, was included. Accuracy of two main categories of RSP to identify TLC < LLN were evaluated: traditional RSPs (definition 1: FVC < 80% of predicted and FEV1 /FVC ≥ 0.7 and definition 2: FVC < LLN and FEV1 /FVC ≥ LLN) and RSPs defined by Youden's method (definition 3: FVC < 85.5% of predicted and FEV1 /FVC ≥ LLN and definition 4: FVC Z-score < -1.0 and FEV1 /FVC ≥ LLN). RESULTS: The prevalence of restrictive lung function (TLC < LLN) was 5.3%. The most accurate cut-offs for FVC to identify TLC < LLN were 85.5% for FVC% of predicted, and -1.0 for FVC Z-score. The traditional RSP definitions 1 and 2 had higher specificity (95.0% and 96.9%) but substantially lower sensitivity compared to RSP definitions 3 and 4. CONCLUSION: Based on the GLI reference values, the RSP definition FVC < LLN and FEV1 /FVC ≥ LLN yielded the highest specificity and may appropriately be used to rule out restrictive lung function. The RSP definition with the most favourable trade-off between sensitivity and specificity, FVC < 85.5% of predicted and FEV1 /FVC ≥ LLN, may serve as an alternative with higher sensitivity for screening.

Delayed chest closure for oversized lung allograft in lung transplantation: a retrospective analysis from turkey

Abstract Introduction: The aim of this study was to evaluate the delayed chest closure (DCC) results in patients who underwent lung transplantation. Methods: Sixty patients were evaluated retrospectively. Only bilateral lung transplantations and DCC for oversized lung allograft (OLA) were included in the study. Six patients who underwent single lung transplantation, four patients who underwent lobar transplantation, two patients who underwent retransplantation, and four patients who underwent DCC due to bleeding risk were excluded from the study. Forty-four patients were divided into groups as primary chest closure (PCC) (n=28) and DCC (n=16). Demographics, donor characteristics, and operative features and outcomes of the patients were compared. Results: The mean age was 44.5 years. There was no significant difference between the demographics of the groups (P>0.05). The donor/recipient predicted total lung capacity ratio was significantly higher in the DCC group than in the PCC group (1.06 vs. 0.96, P=0.008). Extubation time (4.3 vs. 3.1 days, P=0.002) and intensive care unit length of stay (7.6 vs. 5.2 days, P=0.016) were significantly higher in the DCC group than in the PCC group. In the DCC group, postoperative wound infection was significantly higher than in the PCC group (18.6% vs. 0%, P=0.19). Median survival was 14 months in all patients and there was no significant difference in survival between the groups (16 vs. 13 months, P=0.300). Conclusion: DCC is a safe and effective method for the management of OLA in lung transplantation.

Prueba de ejercicio cardiopulmonar en receptores de trasplante cardíaco / Cardiopulmonary Exercise Test in Heart Transplant Recipients

RESUMEN Introducción: La capacidad de ejercicio de los pacientes con insuficiencia cardíaca avanzada mejora después del trasplante cardíaco (TXC). La prueba de ejercicio cardiopulmonar (PECP) es reconocida como el estudio "estándar de oro" para la evaluación de la capacidad de ejercicio aeróbico. El objetivo del estudio fue analizar las características de la PECP realizada en receptores de TXC. Material y métodos: Se realizó un estudio de corte transversal. Se incluyeron pacientes mayores de 18 años receptores de TXC desde el 1 de noviembre de 2013 hasta el 30 de junio de 2019, que hubieran realizado una PECP dentro del primer año posterior al trasplante. Se analizaron variables clínicas y de la PECP. Resultados: Se incluyeron 122 pacientes (edad media 50,1 ± 11,8 años, 77,0% hombres). El consumo de oxígeno (VO2) pico fue de 23,3 ± 5,3 mL/min/kg y el 45,9% alcanzó el umbral anaeróbico. El 68,0% y el 28,7% de la población mostró valores de pulso de oxígeno y de la pendiente de la eficiencia del VO2 (OUES) normales, respectivamente. El 46,7%, 23,0% y 3,3% presentaron una reducción leve, moderada o grave de la capacidad funcional, respectivamente. El valor de OUES fue bajo en el 80,0%, 71,4% y 92,9% de los pacientes con disminución de la capacidad funcional de origen cardiovascular, periférico y mixto, respectivamente. Conclusión: En esta población de receptores de TXC, la proporción de sujetos con capacidad funcional reducida o valores de OUES alterados fue considerable. La evaluación de estos pacientes a través de la PECP podría favorecer la derivación temprana a centros de rehabilitación cardiovascular.

ABSTRACT Background: Exercise capacity of patients with advanced heart failure improves after heart transplantation (HTX). Cardiopulmonary exercise test (CPET) is recognized as the "gold standard" study for the evaluation of aerobic exercise capacity. Objective: The aim of this study was to analyze the characteristics of CPET in HTX recipients. Methods: A cross-sectional study was performed in patients over 18 years of age undergoing HTX from November 1, 2013 to June 30, 2019, and with a CPET within the first year after transplantation. Clinical and CPET variables were analyzed. Results: A total of 122 patients with mean age of 50.1 ± 11.8 years and 77.0% men were included in the study. Peak oxygen consumption (VO2) was 23.3 ± 5.3 mL/min/kg and 45.9% of patients achieved the anaerobic threshold. In 68.0% and 28.7% of cases, the population presented normal oxygen pulse and oxygen uptake efficiency slope (OUES) values, respectively. Mild, moderate, or severe reduced functional capacity was found in 46.7%, 23.0%, and 3.3% of patients, respectively. Oxygen uptake efficiency slope was low in 80.0%, 71.4% and 92.9% of patients with decreased functional capacity of cardiovascular, peripheral, and mixed origin, respectively. Conclusion: In this population of HTX recipients, a considerable proportion of subjects showed reduced functional capacity or abnormal OUES values. The evaluation of these patients through CPET could favor early referral to cardiovascular rehabilitation centers.

Measurement of the Total Lung Volume Using an Adjusted Single-Breath Helium Dilution Method in Patients With Obstructive Lung Disease.

Background: Whole-body plethysmography (WBP) is the gold standard for measuring lung volume, but its clinical application is limited as it requires expensive equipment and is not simple to use. Studies have shown that the single-breath helium dilution (SBHD) method, which is commonly used in clinical practice, significantly underestimates lung volume in patients with obstructive lung disease (OLD). By comparing the differences in lung volume measured using SBHD and WBP, we aimed to establish a correction equation for the SBHD method to determine the total lung volume in patients with OLD of different severities. Methods: From 628 patients with OLD simultaneously subjected to SBHD and WBP, 407 patients enrolled between January 2018 and November 2019 were in the training group and 221 enrolled between December 2019 and December 2020 were in the prospective verification cohort. The multiple linear regression equation was used for data in the training group to establish a correction equation for SBHD to determine the total lung volume, and this was validated in the prospective validation cohort. Results: There was a moderate positive correlation between total lung capacity (TLC) determined using the SBHD [TLC (SBHD)] and WBP methods [TLC (WBP)] (r = 0.701; P < 0.05), and the differences between TLC (SBHD) and TLC (WBP) (ΔTLC) were related to the severity of obstruction. As the severity of obstruction increased, the TLC was underestimated by the SBHD method. We established the following correction equation: TLC (adjusted SBHD) (L) = -0.669 + 0.756*TLC(SBHD)(L) - 0.047* F E V 1 F V C +0.039*height (cm)-0.009*weight(kg)(r2 = 0.753 and adjusted r2 = 0.751). Next, we validated this equation in the validation cohort. With the correction equation, no statistical difference was observed between TLC (adjusted SBHD) and TLC (WBP) among the obstruction degree groups (P > 0.05). Conclusions: The SBHD method is correlated with WBP to measure the total lung volume, but the SBHD method presents limitations in determining the total lung volume in patients with obstructive lung disease. Here, we established an effective and reliable correction equation in order to accurately assess the total lung volume of patients with OLD using the SBHD method.