[Application of electrical impedance tomography imaging technology combined with generative adversarial network in pulmonary ventilation monitoring].

Electrical impedance tomography (EIT) plays a crucial role in the monitoring of pulmonary ventilation and regional pulmonary function test. However, the inherent ill-posed nature of EIT algorithms results in significant deviations in the reconstructed conductivity obtained from voltage data contaminated with noise, making it challenging to obtain accurate distribution images of conductivity change as well as clear boundary contours. In order to enhance the image quality of EIT in lung ventilation monitoring, a novel approach integrating the EIT with deep learning algorithm was proposed. Firstly, an optimized operator was introduced to enhance the Kalman filter algorithm, and Tikhonov regularization was incorporated into the state-space expression of the algorithm to obtain the initial lung image reconstructed. Following that, the imaging outcomes were fed into a generative adversarial network model in order to reconstruct accurate lung contours. The simulation experiment results indicate that the proposed method produces pulmonary images with clear boundaries, demonstrating increased robustness against noise interference. This methodology effectively achieves a satisfactory level of visualization and holds potential significance as a reference for the diagnostic purposes of imaging modalities such as computed tomography.

Estimating ventilation correlation coefficients in the lungs using PREFUL-MRI in chronic obstructive pulmonary disease patients and healthy adults.

PURPOSE: Various parameters of regional lung ventilation can be estimated using phase-resolved functional lung (PREFUL)-MRI. The parameter "ventilation correlation coefficient (Vent-CC)" was shown advantageous because it assesses the dynamics of regional air flow. Calculating Vent-CC depends on a voxel-wise comparison to a healthy reference flow curve. This work examines the effect of placing a reference region of interest (ROI) in various lung quadrants or in different coronal slices. Furthermore, algorithms for automated ROI selection are presented and compared in terms of test-retest repeatability. METHODS: Twenty-eight healthy subjects and 32 chronic obstructive pulmonary disease (COPD) patients were scanned twice using PREFUL-MRI. Retrospective analyses examined the homogeneity of air flow curves of various reference ROIs using cross-correlation. Vent-CC and ventilation defect percentage (VDP) calculated using various reference ROIs were compared using one-way analysis of variance (ANOVA). The coefficient of variation was calculated for Vent-CC and VDP when using different reference selection algorithms. RESULTS: Flow-volume curves were highly correlated between ROIs placed at various lung quadrants in the same coronal slice (r > 0.97) with no differences in Vent-CC and VDP (ANOVA: p > 0.5). However, ROIs placed at different coronal slices showed lower correlation coefficients and resulted in significantly different Vent-CC and VDP values (ANOVA: p < 0.001). Vent-CC and VDP showed higher repeatability when calculated using the presented new algorithm. CONCLUSION: In COPD and healthy cohorts, assessing regional ventilation dynamics using PREFUL-MRI in terms of the Vent-CC metric showed higher repeatability using a new algorithm for selecting a homogenous reference ROI from the same slice.

Factores asociados a ventilación mecánica prolongada en niños con fallo respiratorio de causa pulmonar: Estudio de cohortes del registro de LARed Network / Factors associated with prolonged mechanical ventilation in children with pulmonary failure: Cohort study from the LARed Network registry

Objetivos Identificar los factores asociados con la ventilación mecánica prolongada (pVMI) en pacientes pediátricos en la unidad de cuidados intensivos pediátricos (UCIP). Diseño Análisis secundario de una cohorte prospectiva. Ámbito UCIP en los centros que integran LARed Network entre abril del 2017 y enero del 2022. Participantes Pacientes pediátricos en ventilación mecánica (VMI) debido a causas respiratorias. Definimos pVMI como eventos con tiempo VMI mayor al percentil 75 global. Intervenciones Ninguna.Variables de interés principales Datos demográficos, diagnósticos, puntajes de gravedad, terapias, complicaciones, estancias y morbimortalidad. Resultados Se incluyó a 1.698 niños con VMI de 8 ± 7 días y se definió pVMI en 9 días. Los factores relacionados al ingreso fueron la edad menor de 6 meses (OR 1,61, IC del 95%, 1,17-2,22), la displasia broncopulmonar (OR 3,71, IC del 95%, 1,87-7,36) y las infecciones fúngicas (OR 6,66, IC del 95%, 1,87-23,74), mientras que los pacientes con asma tuvieron menor riesgo de pVMI (OR 0,30, IC del 95%, 0,12-0,78). En cuanto a la evolución y la estancia en UCIP, se relacionó a neumonía asociada a la ventilación mecánica (OR 4,27, IC del 95%, 1,79-10,20), necesidad de traqueostomía (OR 2,91, IC del 95%, 1,89-4,48), transfusiones (OR 2,94, IC del 95%, 2,18-3,96), bloqueo neuromuscular (OR 2,08, IC del 95%, 1,48-2,93) y ventilación de alta frecuencia (OR 2,91, IC del 95%, 1,89-4,48) y una mayor estadía en UCIP (OR 1,13, IC del 95%, 1,10-1,16). Además, la presión media aérea mayor a 13cmH2O se asoció a pVMI (OR 1,57, IC del 95%, 1,12-2,21). Conclusiones Se identificaron factores relacionados con VMI de duración mayor a 9 días en pacientes pediátricos en UCIP en cuanto a ingreso, evolución y estancia. (AU)

Objectives To identify factors associated with prolonged mechanical ventilation (pMV) in pediatric patients in pediatric intensive care units (PICUs). Design Secondary analysis of a prospective cohort.SettingPICUs in centers that are part of the LARed Network between April 2017 and January 2022. Participants Pediatric patients on mechanical ventilation (IMV) due to respiratory causes. We defined IMV time greater than the 75th percentile of the global cohort. Interventions None.Main variables of interestDemographic data, diagnoses, severity scores, therapies, complications, length of stay, morbidity, and mortality. Results One thousand 6hundred and ninety 8children with MV of 8±7 days were included, and pIMV was defined as 9 days. Factors related to admission were age under 6 months (OR 1.61, 95% CI 1.17–2.22), bronchopulmonary dysplasia (OR 3.71, 95% CI 1.87–7.36), and fungal infections (OR 6.66, 95% CI 1.87–23.74), while patients with asthma had a lower risk of pIMV (OR 0.30, 95% CI 0.12–0.78). Regarding evolution and length of stay in the PICU, it was related to ventilation-associated pneumonia (OR 4.27, 95% CI 1.79–10.20), need for tracheostomy (OR 2.91, 95% CI 1.89–4.48), transfusions (OR 2.94, 95% CI 2.18–3.96), neuromuscular blockade (OR 2.08, 95% CI 1.48–2.93), high-frequency ventilation (OR 2.91, 95% CI 1.89–4.48), and longer PICU stay (OR 1.13, 95% CI 1.10–1.16). In addition, mean airway pressure greater than 13cmH2O was associated with pIMV (OR 1.57, 95% CI 1.12–2.21). Conclusions Factors related to IMV duration greater than 9 days in pediatric patients in PICUs were identified in terms of admission, evolution, and length of stay. (AU)

Regional ventilation distribution before and after laparoscopic lung parenchymal resection.

Objective.The aim of the present study was to evaluate the influence of one-sided pulmonary nodule and tumour on ventilation distribution pre- and post- partial lung resection.Approach.A total of 40 consecutive patients scheduled for laparoscopic lung parenchymal resection were included. Ventilation distribution was measured with electrical impedance tomography (EIT) in supine and surgery lateral positions 72 h before surgery (T1) and 48 h after extubation (T2). Left lung to global ventilation ratio (Fl), the global inhomogeneity index (GI), standard deviation of regional ventilation delay (RVDSD) and pendelluft amplitude (Apendelluft) were calculated to assess the spatial and temporal ventilation distribution.Main results.After surgery (T2), ventilation at the operated chest sides generally deteriorated compared to T1 as expected. For right-side resection, the differences were significant at both supine and left lateral positions (p< 0.001). The change of RVDSDwas in general more heterogeneous. For left-side resection, RVDSDwas worse at T2 compared to T1 at left lateral position (p= 0.002). The other EIT-based parameters showed no significant differences between the two time points. No significant differences were observed between supine and lateral positions for the same time points respectively.Significance.In the present study, we found that the surgery side influenced the ventilation distribution. When the resection was performed on the right lung, the postoperative ipsilateral ventilation was reduced and the right lung ratio fell significantly. When the resection was on the left lung, the ventilation delay was significantly increased.

Effect of CFTR modulator therapy with elexacaftor/tezacaftor/ivacaftor on pulmonary ventilation derived by 3D phase-resolved functional lung MRI in cystic fibrosis patients.

OBJECTIVES: To investigate whether 3D phase-resolved functional lung (PREFUL)-MRI parameters are suitable to measure response to elexacaftor/tezacaftor/ivacaftor (ETI) therapy and their association with clinical outcomes in cystic fibrosis (CF) patients. METHODS: Twenty-three patients with CF (mean age: 21; age range: 14-46) underwent MRI examination at baseline and 8-16 weeks after initiation of ETI. Morphological and 3D PREFUL scans assessed pulmonary ventilation. Morphological images were evaluated using a semi-quantitative scoring system, and 3D PREFUL scans were evaluated by ventilation defect percentage (VDP) values derived from regional ventilation (RVent) and cross-correlation maps. Improved ventilation volume (IVV) normalized to body surface area (BSA) between baseline and post-treatment visit was computed. Forced expiratory volume in 1 second (FEV1) and mid-expiratory flow at 25% of forced vital capacity (MEF25), as well as lung clearance index (LCI), were assessed. Treatment effects were analyzed using paired Wilcoxon signed-rank tests. Treatment changes and post-treatment agreement between 3D PREFUL and clinical parameters were evaluated by Spearman's correlation. RESULTS: After ETI therapy, all 3D PREFUL ventilation markers (all p < 0.0056) improved significantly, except for the mean RVent parameter. The BSA normalized IVVRVent was significantly correlated to relative treatment changes of MEF25 and mucus plugging score (all |r| > 0.48, all p < 0.0219). In post-treatment analyses, 3D PREFUL VDP values significantly correlated with spirometry, LCI, MRI global, morphology, and perfusion scores (all |r| > 0.44, all p < 0.0348). CONCLUSIONS: 3D PREFUL MRI is a very promising tool to monitor CFTR modulator-induced regional dynamic ventilation changes in CF patients. CLINICAL RELEVANCE STATEMENT: 3D PREFUL MRI is sensitive to monitor CFTR modulator-induced regional ventilation changes in CF patients. Improved ventilation volume correlates with the relative change of mucus plugging, suggesting that reduced endobronchial mucus is predominantly responsible for regional ventilation improvement. KEY POINTS: • 3D PREFUL MRI-derived ventilation maps show significantly reduced ventilation defects in CF patients after ETI therapy. • Significant post-treatment correlations of 3D PREFUL ventilation measures especially with LCI, FEV1 %pred, and global MRI score suggest that 3D PREFUL MRI is sensitive to measure improved regional ventilation of the lung parenchyma due to reduced inflammation induced by ETI therapy in CF patients. • 3D PREFUL MRI-derived improved ventilation volume (IVV) correlated with MRI mucus plugging score changes suggesting that reduced endobronchial mucus is predominantly responsible for regional ventilation improvement 8-16 weeks after ETI therapy.

Assessing airflow unsteadiness in the human respiratory tract under different expiration conditions.

To enhance the understanding of airflow characteristics in the human respiratory system, the expiratory airflow in a human respiratory tract model was simulated using large eddy simulation and dynamic mesh under different expiration conditions aligned with clinically measured data. The airflow unsteadiness was quantitatively assessed using power spectral density (PSD) and spectral entropy (SE). The following findings were obtained: (1) The airflow is highly turbulent in the mouth-pharynx region during expiration, with its dynamic characteristics being influenced by both the transient expiration flow pattern at mouth piece and the glottis motion. (2) PSD analysis reveals that the expiratory airflow is very unsteady, exhibiting a broad-band attenuation spectrum in the pharynx-trachea region. When only transient expiration or glottis motion is considered, the PSD spectrum changes slightly. When both are ignored, however, the change is significant, with the peak frequency reduced to 10% of the real expiration condition. (3) SE analysis indicates that the airflow transitions into turbulence in the trachea, and there may be multiple transitions in the region of soft palate. The transient expiration or glottis motion alone increases turbulence intensity by 2%-15%, while ignoring both reduces turbulence intensity by 10%-20%. This study implies that turbulence characteristics can be significantly different under different expiratory conditions, and therefore it is necessary to determine the expiratory flow characteristics using clinically measured expiratory data.

Systematic Evaluation of the Impact of Lung Segmentation Methods on 4-Dimensional Computed Tomography Ventilation Imaging Using a Large Patient Database.

PURPOSE: A novel form of lung functional imaging applied for functional avoidance radiation therapy has been developed that uses 4-dimensional computed tomography (4DCT) data and image processing techniques to calculate lung ventilation (4DCT-ventilation). Lung segmentation is a common step to define a region of interest for 4DCT-ventilation generation. The purpose of this study was to quantitatively evaluate the sensitivity of 4DCT-ventilation imaging using different lung segmentation methods. METHODS AND MATERIALS: The 4DCT data of 350 patients from 2 institutions were used. Lung contours were generated using 3 methods: (1) reference segmentations that removed airways and pulmonary vasculature manually (Lung-Manual), (2) standard lung contours used for planning (Lung-RadOnc), and (3) artificial intelligence (AI)-based contours that removed the airways and pulmonary vasculature (Lung-AI). The AI model was based on a residual 3-dimensional U-Net and was trained using the Lung-Manual contours of 279 patients. We compared the Lung-RadOnc or Lung-AI with Lung-Manual contours for the entire 4DCT-ventilation functional avoidance process including lung segmentation (surface Dice similarity coefficient [Surface DSC]), 4DCT-ventilation generation (correlation), and subanalysis of 10 patients on a dosimetric endpoint (percentage of high functional volume of lung receiving ≥20 Gy [fV20{%}]). RESULTS: Surface DSC comparing Lung-Manual/Lung-RadOnc and Lung-Manual/Lung-AI contours was 0.40 ± 0.06 and 0.86 ± 0.04, respectively. The correlation between 4DCT-ventilation images generated with Lung-Manual/Lung-RadOnc and Lung-Manual/Lung-AI were 0.48 ± 0.14 and 0.85 ± 0.14, respectively. The difference in fV20[%] between 4DCT-ventilation generated with Lung-Manual/Lung-RadOnc and Lung-Manual/Lung-AI was 2.5% ± 4.1% and 0.3% ± 0.5%, respectively. CONCLUSIONS: Our work showed that using standard planning lung contours can result in significantly variable 4DCT-ventilation images. The study demonstrated that AI-based segmentations generate lung contours and 4DCT-ventilation images that are similar to those generated using manual methods. The significance of the study is that it characterizes the lung segmentation sensitivity of the 4DCT-ventilation process and develops methods that can facilitate the integration of this novel imaging in busy clinics.

Neoadjuvant immune checkpoint inhibitor therapy and chemotherapy improve pulmonary ventilation and diffusion function in patients with lung cancer. / å ç–«æ£€æŸ¥ç‚¹æŠ‘åˆ¶å‰‚è”åˆåŒ–ç–—æ”¹å–„ä¸­æ™šæœŸè‚ºç™Œæ‚£è€ è‚ºé€šæ°”åŠŸèƒ½å’Œå¼¥æ•£åŠŸèƒ½.

OBJECTIVES: To investigate changes of pulmonary ventilation function and diffusion function in lung cancer patients after neoadjuvant immune checkpoint inhibitors (ICIs) therapy combined with chemotherapy treatment. METHODS: Patients with newly diagnosed lung cancer (Ⅱa-Ⅲb) admitted to Zhejiang Cancer Hospital from October 2021 to July 2022, who received ICIs combined with chemotherapy for more than two courses were enrolled. Patients underwent pulmonary ventilation function and diffusion function assessments before and after treatment. The demographic information, sizes and locations of cancer lesions, doses and duration of ICIs used, pulmonary function results before and after treatment, and the tumor regression were documented. The changes of pulmonary function parameters before and after the treatment were analyzed with paired t test and Wilcoxon rank-sum test. The factors influencing the pulmonary function changes were analyzed by multiple linear Lasso regression and ridge regression. RESULTS: Among the 52 patients, 50 cases were males (96.15%) and 43 cases were squamous carcinoma (82.69%). The medium age of the patients was 67 years. After neoadjuvant therapy, 36 patients (69.23%) showed remission of tumor lesions. After treatment, the parameters of pulmonary ventilation inspiratory vital capacity (IVC) and the area under the expiratory flow-volume curve (AREAex), and the parameter of pulmonary diffusion total lung capacity increased compared with the baseline (all P<0.05). Forced vital capacity (FVC) and forced expiratory volume in first second (FEV1) also showed an increasing trend. Multivariate linear Lasso regression and ridge regression showed that baseline IVC had a significant negative effect on IVC improvement (Beta=－0.435, t=－2.968, P<0.01), baseline TLC had a significant negative effect on the improvement of TLC (Beta=－0.266, t=－2.474, P<0.05), and the remission of obstructive pneumonia favored the improvement of TLC (Beta=0.308, t=2.443, P<0.05). CONCLUSIONS: After ICIs neoadjuvant treatment combined with chemotherapy, the lung ventilation and diffusion function can be improved in lung cancer patients, particularly for those with reduced baseline ventilation and diffusion function.

Dysregulation of ventilation at day and night time in heart failure.

Heart failure (HF) is characterized by an increase in ventilatory response to exercise of multifactorial aetiology and by a dysregulation in the ventilatory control during sleep with the occurrence of both central and obstructive apnoeas. In this setting, the study of the ventilatory behaviour during exercise, by cardiopulmonary exercise testing, or during sleep, by complete polysomnography or simplified nocturnal cardiorespiratory monitoring, is of paramount importance because of its prognostic value and of the possible effects of sleep-disordered breathing on the progression of the disease. Moreover, several therapeutic interventions can significantly influence ventilatory control in HF. Also, rest daytime monitoring of cardiac, metabolic, and respiratory activities through specific wearable devices could provide useful information for HF management. The aim of the review is to summarize the main studies conducted at Centro Cardiologico Monzino on these topics.

Exercise oscillatory ventilation: the past, present, and future.

Exercise oscillatory ventilation (EOV) is a fascinating event that can be appreciated in the cardiopulmonary exercise test and is characterized by a cyclic fluctuation of minute ventilation, tidal volume, oxygen uptake, carbon dioxide production, and end-tidal pressure for oxygen and carbon dioxide. Its mechanisms stem from a dysregulation of the normal control feedback of ventilation involving one or more of its components, namely, chemoreflex delay, chemoreflex gain, plant delay, and plant gain. In this review, we intend to breakdown therapeutic targets according to pathophysiology and revise the prognostic value of exercise oscillatory ventilation in the setting of heart failure and other diagnoses.

Impacto de un Programa de Recuperación Funcional en Músculos Ventilatorios y Apendiculares en Pacientes Post-ventilación Mecánica por COVID-19 / Impact of a Functional Recovery Program on Ventilatory and Appendicular Muscles in Patients Post-mechanical Ventilation for COVID-19

Los pacientes con COVID-19 subsidiarios de ventilación mecánica (VM), evolucionan con consecuencias funcionales en la musculatura ventilatoria y apendicular que no necesariamente se abordan de manera diferenciada. El objetivo de esta investigación fue evaluar el impacto de un programa de recuperación funcional en estos pacientes y determinar si las intervenciones afectan de manera diferenciada a las funciones ventilatorias y musculatura apendicular, utilizando pruebas de bajo costo. Se evaluaron 47 pacientes con COVID-19 que estuvieron en VM. Posterior a una espirometría basal se les realizó; presión inspiratoria máxima (PIMáx), fuerza de prensión palmar (FPP), prueba de pararse y sentarse (PPS) y Prueba de caminata en 6 minutos (PC6m), antes y después del plan de intervención. Este programa incluyó ejercicios aeróbicos y de fuerza supervisados por dos sesiones semanales de 60 minutos durante 3 meses. Después del programa, se observaron mejoras significativas en la capacidad vital forzada (CVF), el volumen espiratorio en el primer segundo (VEF1) y la PIMáx. Se encontraron relaciones significativas entre estas mediciones y la distancia recorrida de la PC6m, la FPP y la PPS. En conclusión, el programa de recuperación funcional en pacientes con COVID-19 que requirieron VM, beneficia tanto la función ventilatoria como la fuerza muscular apendicular. Las pruebas de fuerza muscular apendicular pueden ser útiles para evaluar la recuperación ya que pueden entregar información diferenciada de sus rendimientos. Por último, se necesita más investigación para comprender mejor la respuesta de estos pacientes a la rehabilitación.

SUMMARY: Patients with COVID-19 requiring mechanical ventilation (MV) evolve with functional consequences in the ventilatory and appendicular muscles that are not necessarily addressed in a differentiated manner. The objective of this research was to evaluate the impact of a functional recovery program in these patients and determine if the interventions differentially affect ventilatory functions and appendicular muscles, using low- cost tests. 47 patients with COVID-19 who were on MV were evaluated. After a baseline spirometry, they were performed; maximum inspiratory pressure (MIP), handgrip strength (HGS), sit to stand test (STST) and 6-minute walk test (6MWT), before and after the intervention plan. This program included supervised aerobic and strength exercises for two weekly 60-minute sessions for 3 months. After the program, significant improvements were observed in forced vital capacity (FVC), expiratory volume in the first second (FEV1) and MIP. Significant relationships were found between these measurements and the distance traveled of the 6MWT, the HGS and the STST. In conclusion, the functional recovery program in patients with COVID-19 who required MV benefits both ventilatory function and appendicular muscle strength. Appendicular muscle strength tests can be useful to evaluate recovery since they can provide differentiated information about your performances. Finally, more research is needed to better understand the response of these patients to rehabilitation.

Cambios en el índice de stress y presión inspiratoria pico posterior a neumoperitoneo en colecistectomía laparoscópica / Changes in Stress Index and Peak Inspiratory Pressure after Pneumoperitoneum in Laparoscopic Cholecystectomy

Introducción: es bien sabido que el neumoperitoneo en cirugía laparoscópica afecta tanto al sistema cardiovascular como al sistema respiratorio, pero no se entiende por completo el grado en el que debemos modificar los parámetros ventilatorios para mini-mizar las complicaciones debido a la insuflación del neumoperitoneo. Estos cambios in-cluyen disminución de la distensibilidad y mayores presiones inspiratorias pico.

Abstract Background: it is well known that pneumoperitoneum in laparoscopic surgery affects both cardiovascular and respiratory system, but it is not fully understood yet the degree in which we have to make changes in the ventilatory settings to minimize the complica-tions due to insufflation of peritoneum, changes including impaired compliance and hig-her peak inspiratory.

Ventilatory, phonatory and swallowing impairments in advanced neuromuscular disease patients / Alteraciones ventilatorias, fonatorias y deglutorias en pacientes con enfermedad neuromuscular avanzada

Purpose: To analyze the ventilatory, phonatory and swallowing impairments and their relation with physical status in a group of advanced Neuromuscular Disease (NMD).Methods: A cross-sectional observational study was utilized 48 participants from the Association of NMD of Granada (Granada, España), university clinical research, University of Granada. A total of 24 advanced NMD patients and 24 healthy controls matched for age and sex were recruited. Advanced NMD patients were divided in two groups according to the level of their overall physical status (NMD higher physical status group or NMD lower physical status group). Hand grip strength, ventilatory, phonatory and swallowing features were analyzed.Results: There were significant differences (p<.05) among NMDs groups in ventilatory function. There were significant differences (p<.05) between NMDs groups in ventilatory, phonatory and swallowing function. Finally, there were significant differences (p<.05) among advanced NMDs groups in swallowing function and orofacial evaluation. Conclusion: Patients with lower physical status have higher risk of suffer ventilatory, phonatory and swallowing complications after diagnosis of NMD.(AU)

Propósito: Analizar las alteraciones ventilatorias, fonatorias y deglutorias y su relación con el estado físico en un grupo de Enfermos Neuromusculares (ENM) avanzados.Métodos: Se realizó un estudio observacional transversal con 48 participantes de la Asociación de ENM de Granada (Granada, España), y de la facultad de ciencias de la salud de la Universidad de Granada. Se reclutaron un total de 24 pacientes con ENM avanzada y 24 controles sanos emparejados por edad y sexo. Los pacientes con ENM avanzada se dividieron en dos grupos según el nivel de su estado físico general (grupo de ENM de mayor estado físico o grupo de ENM de menor estado físico). Se analizó la fuerza de agarre de las manos y las características ventilatorias, fonatorias y deglutorias.Resultados:Se encontraron diferencias significativas (p<0,05) entre los grupos de ENM en la función ventilatoria. También, se observaron diferencias significativas (p<0,05) entre los grupos de ENM en la función fonatoria y deglutoria. Por último, existieron diferencias significativas (p<0,05) entre los grupos de ENM avanzados respecto a la condición miofuncional orofacial.Conclusiones: Los pacientes con menor estado físico tienen mayor riesgo de sufrir complicaciones ventilatorias, fonatorias y deglutorias tras el diagnóstico de ENM.(AU)

The hypoxic ventilatory response and hypoxic burden are predictors of the magnitude of ventilatory long-term facilitation in humans.

Mild intermittent hypoxia initiates progressive augmentation (PA) and ventilatory long-term facilitation (vLTF) in humans. The magnitude of these forms of plasticity might be influenced by anthropometric and physiological variables, as well as protocol elements. However, the impact of many of these variables on the magnitude of respiratory plasticity has not been established in humans. A meta-analysis was completed using anthropometric and physiological variables obtained from 124 participants that completed one of three intermittent hypoxia protocols. Simple correlations between the aggregate variables and the magnitude of PA and vLTF standardized to baseline was completed. Thereafter, the variables correlated to PA or vLTF were input into a multilinear regression equation. Baseline measures of the hypoxic ventilatory response was the sole predictor of PA (R = 0.370, P = 0.012). Similarly, this variable along with the hypoxic burden predicted the magnitude of vLTF (R = 0.546, P < 0.006 for both variables). In addition, the magnitude of PA was strongly correlated to vLTF (R = 0.617, P < 0.001). Anthropometric measures do not predict the magnitude of PA and vLTF in humans. Alternatively, the hypoxic ventilatory response was the sole predictor of PA, and in combination with the hypoxic burden, predicted the magnitude of vLTF. These influences should be considered in the design of mild intermittent hypoxia protocol studies in humans. Moreover, the strong correlation between PA and vLTF suggests that a common mechanistic pathway may have a role in the initiation of these forms of plasticity. KEY POINTS: Mild intermittent hypoxia initiates progressive augmentation (PA) and ventilatory long-term facilitation (vLTF) in humans. Many of the anthropometric and physiological variables that could impact the magnitude of these forms of plasticity are unknown. Anthropometric and physiological variables were measured from a total of 124 participants that completed one of three distinct intermittent hypoxia protocols. The variables correlated to PA or vLTF were input into a multilinear regression analysis. The hypoxic ventilatory response was the sole predictor of PA, while this variable in addition to the average hypoxic burden predicted the magnitude of vLTF. A strong correlation between PA and vLTF was also revealed. These influences should be considered in the design of mild intermittent hypoxia protocol studies in humans. Moreover, the strong correlation between PA and vLTF suggests that a common mechanistic pathway may have a role in the initiation of these forms of plasticity.

Influence of chronic hypoxia on the hypoxic ventilatory response of juvenile and adult rats.

Chronic hypoxia (CH) from birth attenuates the acute hypoxic ventilatory response (HVR) in rats and other mammals, but CH is often reported to augment the HVR in adult mammals. To test the hypothesis that this transition - from blunting to augmenting the HVR - occurs in the third or fourth postnatal week in rats, juvenile and adult rats were exposed to normobaric CH (12% O2) for 7 days and the HVR was assessed by whole-body plethysmography. No transition was observed, however, and the acute HVR was reduced by 61 - 85% across all ages studied. The failure to observe an augmented HVR in adult rats could not be explained by the substrain of Sprague Dawley rats used, the duration of the CH exposure, the order in which test gases were presented, the level of hypoxia used for CH and to assess the HVR, or the effects of CH on the metabolic response to hypoxia and the hypercapnic ventilatory response. A literature survey revealed several distinct patterns of ventilatory acclimatization to hypoxia (VAH) in adult rats, with most studies (77%) revealing a decrease or no change in the acute HVR after CH. In conclusion, the effects of CH on respiratory control are qualitatively similar across age groups, at least within the populations of Sprague Dawley rats used in the present study, and there does not appear to be one "typical" pattern for VAH in adult rats.

[Application of electrical impedance tomography in pulmonary rehabilitation].

Pulmonary rehabilitation is a comprehensive and individualized intervention for patients suffering from respiratory dysfunction due to various diseases. This approach has been highly valued and implemented by clinical medical professionals. However, the lack of equipment and real-time monitoring of ventilatory lung function during pulmonary rehabilitation treatment is a challenge. In addition, there is a need for improved methods that can directly guide physiotherapists to provide precise treatment. Electrical impedance tomography (EIT) is a novel medical imaging technology that allows real-time monitoring of lung ventilation status. It is currently being translated from basic research into clinical applications and is widely used in respiratory disease, particularly in critical care respiratory management. However, there is a lack of reports on pulmonary rehabilitation guidance and outcome evaluation. This article aimed to provide a comprehensive review of this field, with the aim of generating more ideas for clinical research and further improving individualized treatment in the field of pulmonary rehabilitation.

Concept Analysis of the Nursing Diagnosis of Impaired Spontaneous Ventilation in Critical Patients / Análisis de concepto del diagnóstico de la ventilación espontánea deteriorada en pacientes críticos / Análise conceitual do diagnóstico de ventilação espontânea prejudicada em pacientes críticos

Introduction: In nursing practice, this concept has been identified in studies that address the nursing diagnosis of impaired spontaneous ventilation. Nursing performance facing this unwanted human response is considered essential for the maintenance and control of vital signs, cardiovascular monitoring, gas exchange and respiratory pattern, as well as constant surveillance aimed at signs of hypoventilation and inadequate ventilation. Objective: To analyze the concept of impaired spontaneous ventilation in critically ill patients in an intensive care unit. Methodology: This study is a concept analysis, according to Walker's and Avant's method, conducted using an integrative review. All the referential steps were followed: concept selection, determining the objectives and proposals for concept analysis, identifying the possible uses of the concept, determining the defining attributes, identifying a model case, identifying a contrary case, and identifying the precedents and consequences of the concept. Results: A sample of 38 studies was selected. The following were identified as attributes: distress and fatigue, respiratory distress, tachycardia, hemodynamic instability, altered mental status, abnormal arterial blood gas results, dyspnea, anxiety, agitation, sweating, hypoxemia and hypercapnia. Antecedents: sex, age, oxygen saturation lower than 90%, diseases of the respiratory, cardiovascular, neurological, gastrointestinal, neuromuscular, and metabolic systems, respiratory infections, trauma, poisons, toxins, and sedatives. Consequences: increased heart rate, decreased partial oxygen saturation, increased use of respiratory muscles, dyspnea, increased metabolic rate and restlessness. The model case and the contrary case were used to illustrate the attributes, antecedents, and consequences. Conclusion: The study directed the strengthening of evidence about the phenomenon and demonstrated a strong occurrence in patients who need assistance in intensive care units, thus demanding critical care.

Introducción: en la práctica de enfermería, este concepto fue identificado en estudios que abordan el diagnóstico de la ventilación espontánea deteriorada. La actuación desde enfermería para enfrentar esta indeseada respuesta humana es esencial para el mantenimiento y el control de los signos vitales, el monitoreo cardiovascular, el intercambio de gases y el patrón de respiración, así como para la vigilancia constante de los signos de hipoventilación y ventilación inadecuada. Objetivo: analizar el concepto de ventilación espontánea deteriorada en pacientes críticos en una unidad de cuidado intensivo. Metodología: Este estudio es un análisis de concepto, de acuerdo con el método de Walker y Avant, conducido usando una revisión integrada. Se siguieron todos los pasos referenciales: selección del concepto, determinación de los objetivos y propuestas para el análisis de conceptos, identificación de los posibles usos del concepto, determinar los atributos definitorios, identificación del caso modelo, identificación del caso contrario e identificación de precedentes y consecuencias del concepto. Resultados: se seleccionó una muestra de 38 estudios. Se identificaron como atributos: angustia y fatiga, dificultad respiratoria, taquicardia, inestabilidad hemodinámica, estado mental alterado, gasometría arterial anormal, disnea, ansiedad, agitación, sudoración, hipoxemia e hipercapnia. Antecedentes: sexo; edad; saturación de oxígeno inferior al 90%; enfermedades de los sistemas respiratorio, cardiovascular, neurológico, gastrointestinal, neuromuscular y metabólico; infecciones respiratorias; traumatismos, y venenos, toxinas y sedantes. Consecuencias: aumento del ritmo cardíaco, disminución de la saturación parcial de oxígeno, aumento del uso de los músculos respiratorios, disnea, aumento del índice metabólico e inquietud. Se utilizaron el caso modelo y el caso contrario para ilustrar los atributos, antecedentes y consecuencias. Conclusión: el estudio dirigió el fortalecimiento de la evidencia sobre el fenómeno y demostró una fuerte ocurrencia en pacientes que necesitan asistencia en unidades de cuidados intensivos, quienes requieren, en consecuencia, de cuidados críticos.

Introdução: na prática da enfermagem, esse conceito foi identificado em estudos que abordaram o diagnóstico de ventilação espontânea prejudicada. A atuação da enfermagem para enfrentar essa resposta humana indesejável é essencial para a manutenção e o controle dos sinais vitais, da monitorização cardiovascular, das trocas gasosas e do padrão respiratório, bem como para a vigilância constante dos sinais de hipoventilação e ventilação inadequada. Objetivo: analisar o conceito de ventilação espontânea prejudicada em pacientes graves internados em uma unidade de terapia intensiva. Materiais e método: este estudo é uma análise conceitual, de acordo com o método de Walker e Avant, realizada por meio de uma revisão integrada. Todas as etapas referenciais foram seguidas: seleção do conceito, determinação dos objetivos e proposições para a análise do conceito, identificação dos possíveis usos do conceito, determinação dos atributos definidores, identificação do caso-modelo, identificação do contracaso e identificação dos precedentes e consequências do conceito. Resultados: foi selecionada uma amostra de 38 estudos. Os atributos identificados foram angústia e fadiga, angústia respiratória, taquicardia, instabilidade hemodinâmica, estado mental alterado, gases sanguíneos arteriais anormais, dispneia, ansiedade, agitação, sudorese, hipoxemia e hipercapnia. Antecedentes: sexo; idade; saturação de oxigênio inferior a 90%; doenças dos sistemas respiratório, cardiovascular, neurológico, gastrointestinal, neuromuscular e metabólico; infecções respiratórias; trauma; e venenos, toxinas e sedativos. Consequências: aumento da frequência cardíaca, diminuição da saturação parcial de oxigênio, aumento do uso dos músculos respiratórios, dispneia, aumento da taxa metabólica e inquietação. O caso-modelo e o caso oposto foram usados para ilustrar os atributos, os antecedentes e as consequências. Conclusões: o estudo teve como objetivo fortalecer as evidências sobre o fenômeno e demonstrou uma forte ocorrência em pacientes que necessitam de assistência em unidades de terapia intensiva e que, consequentemente, requerem cuidados críticos.

[Transition of long-term ventilated children to adult medical care]. / Transition von langzeitbeatmeten Kindern in die Erwachsenenmedizin.

Through advances in long-term ventilation, the number of children with chronic respiratory insufficiency reaching adult age has increased tremendously. Therefore, transition of children from pediatric to adult care has become inevitable. Transition is necessary for medicolegal reasons, to increase autonomy of the young patients and because of change in the disease as a result of increasing age. Transition bears the risks of uncertainty of patients and parents, loss of the medical home or even loss of complete medical care. Good structural conditions, professional preparation of patient and parents, a comprehensive formalized transfer and patient coaching are prerequisites for a successful professional transition. This article discusses issues of transition with focus on long-term ventilated children.

[Development of an Active Mechanical Lung for Simulating Human Pulmonary Ventilation].

At present, the passive simulated lung including the splint lung is an important device for hospitals and manufacturers in testing the functions of a respirator. However, the human respiration simulated by this passive simulated lung is quite different from the actual respiration. And it is not able to simulate the spontaneous breathing. Therefore, including" the device simulating respiratory muscle work "," the simulated thorax" and" the simulated airway", an active mechanical lung to simulate human pulmonary ventilation was designed:3D printed human respiratory tract was developed and connected the left and right air bags at the end of the respiratory tract to simulate the left and right lungs of the human body. By controlling a motor running to drive the crank and rod to move a piston back and forth, and to deliver an alternating pressure in the simulated pleural, and so as to generate an active respiratory airflow in airway. The experimental respiratory airflow and pressure from the active mechanical lung developed in this study are consistent with the target airflow and pressure which collected from the normal adult. The developed active mechanical lung function will be conducive to improve the quality of the respirator.