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Introduction: During pneumoperitoneum (PNP), airway driving pressure (ΔPRS) increases due to the stiffness of the chest wall and cephalic shift of the diaphragm, which favors atelectasis. In addition, depending on the mechanical power (MP) formulas, they may lead to different interpretations. Methods: Patients >18 years of age with body mass index >35 kg/m2 were included in a single-center randomized controlled trial during their admission for bariatric surgery by abdominal laparoscopy. Intra-abdominal pressure was set at 15 mmHg at the pneumoperitoneum time point (PNP). After the recruitment maneuver, the lowest respiratory system elastance (ERS) was detected during the positive end-expiratory pressure (PEEP) step-wise decrement. Patients were randomized to the 1) CTRL group: ventilated with PEEP of 5 cmH2O and 2) PEEPIND group: ventilated with PEEP value associated with ERS that is 5% higher than its lowest level. Respiratory system mechanics and mean arterial pressure (MAP) were assessed at the PNP, 5 min after randomization (T1), and at the end of the ventilation protocol (T2); arterial blood gas was assessed at PNP and T2. ΔPRS was the primary outcome. Three MP formulas were used: MPA, which computes static PEEP × volume, elastic, and resistive components; MPB, which computes only the elastic component; and MPC, which computes static PEEP × volume, elastic, and resistive components without inspiratory holds. Results: Twenty-eight patients were assessed for eligibility: eight were not included and 20 patients were randomized and allocated to CTRL and PEEPIND groups (n = 10/group). The PEEPIND ventilator strategy reduced ΔPRS when compared with the CTRL group (PEEPIND, 13 ± 2 cmH2O; CTRL, 22 ± 4 cmH2O; p < 0.001). Oxygenation improved in the PEEPIND group when compared with the CTRL group (p = 0.029), whereas MAP was comparable between the PEEPIND and CTRL groups. At the end of surgery, MPA and MPB were correlated in both the CTRL (rho = 0.71, p = 0.019) and PEEPIND (rho = 0.84, p = 0.020) groups but showed different bias (CTRL, -1.9 J/min; PEEPIND, +10.0 J/min). At the end of the surgery, MPA and MPC were correlated in both the CTRL (rho = 0.71, p = 0.019) and PEEPIND (rho = 0.84, p = 0.020) groups but showed different bias (CTRL, -1.9 J/min; PEEPIND, +10.0 J/min). Conclusion: Individualized PEEP was associated with a reduction in ΔPRS and an improvement in oxygenation with comparable MAP. The MP, which solely computes the elastic component, better reflected the improvement in ΔPRS observed in the individualized PEEP group. Clinical Trial Registration: The protocol was registered at the Brazilian Registry of Clinical Trials (U1111-1220-7296).
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Introducción. Las cardiopatías congénitas (CC) en Chile corresponden a la segunda causa de muerte en menores de 1 año, requiriendo cirugías paliativas y/o correctivas el 65% de estas. En el post operatorio frecuentemente se utiliza ventilación mecánica invasiva (VM) y succión endotraqueal (SET) para remover secreciones. Sin embargo, la kinesiología respiratoria (KTR) ha mostrado mejoras significativas en la distensibilidad toracopulmonar (Cest) y resistencia de vía aérea (Rva) en otros grupos de usuarios pediátricos y adultos en VM. Objetivo. Comparar los cambios en la Cest y Rva en usuarios pediátricos en VM post cirugía de cardiopatía congénita (CCC) sometidos a KTR versus SET exclusiva. Métodos. Revisión sistemática de estudios publicados en bases de datos PUBMED, PeDro, Scielo y Google Scholar que comparan el uso de KTR ó SET sobre los cambios en mecánica ventilatoria en usuarios pediátricos en VM post cirugía de cardiopatía congénita, limitados a inglés, español y portugués, excluyendo a sujetos con traqueostomía o con oxigenación por membrana extracorpórea. Se utilizó guía PRISMA para la selección de artículos. Se revisaron 397 artículos y se seleccionó 1 artículo extra de los artículos sugeridos. Se eliminó 1 artículo por duplicidad. Por títulos y resúmenes se seleccionaron 2 artículos, los cuales al leer el texto completo fueron retirados debido a que la población no correspondía a cardiópatas. Resultados. El final de artículos seleccionados fue de 0 artículos, debido a lo cual se removió el operador Booleano "NOT", y se removió la población de cardiopatías. De este modo quedaron 2 artículos seleccionados para la revisión cualitativa final donde se compara KTR versus SET, y KTR en kinesiólogos especialistas y no especialistas, mostrando ambos aumento en la Cest y disminución de la Rva a favor de la KTR, hasta los 30 minutos post intervención. Conclusiones. No se encontraron artículos que demuestren cambios en Cest y Rva con el uso de KTR + SET versus SET exclusiva, en usuarios pediátricos ventilados posterior a CCC. Con la remoción de filtros seleccionamos 2 artículos que demuestran aumento de Cest y disminución de Rva en sujetos pediátricos en VM, uno comparando con SET, y por grupos de especialistas y no especialistas en respiratorio. Se sugieren estudios primarios para evaluar los efectos de esta intervención en esta población.
Introduction. Congenital heart diseases (CHD) are the second general cause for children death under 1 year. In Chile, approximately 65% CHD need surgery, could was palliative or corrective. In the postoperative period, invasive mechanical ventilation (MV) is frequently used as a life support method, but it is associated with complications. Tracheal suction (SET) is regularly used to remove secretions; however, respiratory chest physiotherapy (KTR) has shown significant improvements in thoraco-pulmonary compliance and airway resistance in other groups of pediatrics and adult's users in MV. Objetive. to compare changes in thoraco-pulmonary compliance and airway resistance in pediatric subjects under mechanical ventilation after congenital heart disease surgery comparing chest physiotherapy and exclusive tracheal suction. Methods. systematic review of studies published in PUBMED, PeDro, Scielo and Google Scholar databases who compares KTR or SET use on changes in ventilatory mechanics in pediatric users under MV after congenital heart disease surgery, limited to English, Spanish and Portuguese languages, excluding user with tracheostomy or extracorporeal membrane of oxygenation. It was use the PRISMA guide to articles selection. A search was carried out, with a total of 397 articles reviewed (English: PubMed = 3, PeDro = 8, Scholar = 383; Spanish: Scholar = 3, Scielo = 0; and Portuguese: Scielo = 0). One extra article was selected from the suggested articles, and 1 article was eliminated due to duplication. By titles and abstracts, 2 articles were selected, but the population did not correspond to heart disease. Results. the final selected articles were 0 articles. By this reason, it were removed: Boolean operator "NOT", and congenital heart disease population. Thus, 2 articles were selected for the final qualitative review where it was compares KTR versus SET, and KTR by specialist and non-specialist. Both articles shown improvement in compliance and resistance until 30 minutes post intervention. The CC population was in a 40 to 60% range in both studies. Conclusions. it was no found articles that demonstrate changes in compliance and resistance in the airway with the use of KTR + SET versus exclusive SET in pediatric users after CCC connected to MV. After filter remotion, we found 2 studies shown improves in increase compliance and reduce resistance in pediatric user in MV, ones comparing with SET, and the other one comparing between specialists in respiratory pediatric physiotherapy and not specialists. It suggests to made primary clinical studies about this intervention in CC population.
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INTRODUÇÃO: A interação coração-pulmão influenciada pela Ventilação Mecânica (VM), que impacta diretamente no retorno venoso e débito cardíaco através, e não somente, de ajustes da Pressão Positiva Expiratória Final (PEEP) e Pressão média nas vias aéreas (Pmed). Além disso, as pausas inspiratórias para avaliação da mecânica pulmonar interrompem o movimento torácico, pode impactar mais nesta interação. OBJETIVO: Comparar as alterações hemodinâmicas durante os tempos de 0,5 e 2,0 segundos de pausa inspiratória durante as mensurações de mecânica respiratória. MÉTODOS: Trata-se de um estudo transversal, realizado nas unidades de terapia intensivas de um hospital público de Salvador/BA. Foram incluídos pacientes em uso de VM e acima de 18 anos. Os excluídos foram aqueles que apresentassem instabilidade hemodinâmica e hipoxemia sustentada durante a avaliação. Para caracterização amostral, os pacientes foram divididos em grupos daqueles com e sem afecções pulmonares. Os principais dados coletados e analisados foram PEEP, Pmed, Pressão Arterial Sistólica (PAS), Pressão Arterial Diastólica (PAD), Pressão Arterial Média (PAM), Frequência Cardíaca (FC). Para comparação de dados foram utilizados os testes Wilcoxon-Rank e Mann-Whitney para dados pareados e não pareados, respectivamente. RESULTADOS: Foram incluídos 37 pacientes, mediana de idade 63 anos, 19 (51,4%) do sexo masculino, 30 (81,1%) com diagnóstico admissional de natureza clínica. Não foram identificadas alterações hemodinâmicas estatisticamente significantes entre os tempos de pausa inspiratória de 0,5 e 2,0 segundos nas variáveis PAS (p=0,99), PAD (p=0,11), PAM (p=0,29) e FC (p=0,25). CONCLUSÃO: Não foram identificadas variações hemodinâmicas durante as mensurações da mecânica respiratória nas pausas de 0,5 e 2,0 segundos.
INTRODUCTION: The heart-lung interaction is influenced by Mechanical Ventilation (MV), which directly impacts venous return and cardiac output through, but not limited to, adjustments in Positive End-Expiratory Pressure (PEEP) and mean airway pressure (Pmean). Additionally, inspiratory pauses for the assessment of pulmonary mechanics interrupt thoracic movement, potentially further impacting this interaction. OBJECTIVE: To compare hemodynamic changes during 0.5 and 2.0-second inspiratory pauses during respiratory mechanics measurements. METHODS: This is a cross-sectional study conducted in the intensive care units of a hospital in Salvador/BA. Patients on MV and over 18 years old were included. Exclusions were made for those with hemodynamic instability and sustained hypoxemia during the evaluation. For sample characterization, patients were divided into groups with and without pulmonary conditions. The main data collected and analyzed were PEEP, Pmean, Systolic Blood Pressure (SBP), Diastolic Blood Pressure (DBP), Mean Arterial Pressure (MAP), and Heart Rate (HR). For data comparison, Wilcoxon-Rank and Mann-Whitney tests were used for paired and unpaired data, respectively. RESULTS: Thirty-seven patients were included, with a median age of 63 years, 19 (51.4%) males, and 30 (81.1%) with an admission diagnosis of a clinical nature. No statistically significant hemodynamic changes were identified between the 0.5 and 2.0-second inspiratory pause times in the variables SBP (p=0.99), DBP (p=0.11), MAP (p=0.29), and HR (p=0.25). CONCLUSION: No hemodynamic variations were identified during respiratory mechanics measurements at 0.5 and 2.0-second inspiratory pauses.
Subject(s)
Respiratory Mechanics , Respiration, Artificial , Physical Therapy ModalitiesABSTRACT
ABSTRACT Objective: To investigate the effect of bronchodilator on the respiratory mechanics and pulmonary function of children and adolescents with cystic fibrosis. Methods: Cross-sectional study on clinically stable children and adolescents with cystic fibrosis aged from six to 15 years. Participants underwent impulse oscillometry and spirometry evaluations before and 15 minutes after bronchodilator inhalation. The Kolmogorov-Smirnov test was applied to verify the sample distribution, and the Student's t-test and Wilcoxon test were used to compare the data before and after bronchodilator inhalation. Results: The study included 54 individuals with a mean age of 9.7±2.8 years. The analysis showed a statistically significant improvement in impulse oscillometry and spirometry parameters after bronchodilator inhalation. However, according to the American Thoracic Society (ATS) and European Respiratory Society (ERS) recommendations (2020 and 2021), this improvement was not sufficient to classify it as a bronchodilator response. Conclusions: The use of bronchodilator medication improved respiratory mechanics and pulmonary function parameters of children and adolescents with cystic fibrosis; however, most patients did not show bronchodilator response according to ATS/ERS recommendations.
RESUMO Objetivo: Investigar o efeito do broncodilatador na mecânica respiratória e função pulmonar de crianças e adolescentes com fibrose cística. Métodos: Estudo transversal em crianças e adolescentes com fibrose cística clinicamente estáveis, com idade entre seis e 15 anos. Os participantes realizaram avaliações por meio do sistema de oscilometria de impulso e espirometria antes e 15 minutos depois da inalação de broncodilatador. Foi aplicado o teste Kolmogorov-Smirnov para verificar a distribuição da amostra. Para comparar os dados antes e depois do broncodilatador foram utilizados os testes t de Student e Wilcoxon. Resultados: Participaram do estudo 54 indivíduos com média de idade de 9,7±2,8 anos. Houve melhora estatisticamente significativa nos parâmetros do oscilometria de impulso e espirometria após a inalação com broncodilatador. No entanto, de acordo com recomendações da American Thoracic Society (ATS) e European Respiratory Society (ERS) (2020 and 2021), essa melhora não foi suficiente para classificar como reposta broncodilatadora. Conclusões: O uso de medicamento broncodilatador melhorou a mecânica respiratória e função pulmonar de crianças e adolescentes com fibrose cística, no entanto a maioria da amostra não apresentou resposta ao broncodilatador de acordo com as recomendações da ATS/ERS.
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ABSTRACT Objective: To assess the rib cage expansion and respiratory rate in newborns using an abdominal stabilization band. Methods: The study included 32 newborns of both genders, with gestational age between 35 and 41 weeks. The abdominal stabilization band was used for 15 minutes between the xiphoid process and the anterosuperior iliac crest, with an abdominal contention 0.5cm smaller than the abdominal circumference. The rib cage expansion was evaluated by a breathing transducer (Pneumotrace II™) three minutes before using the band, during the use (15 minutes), and ten minutes after removing the band. The Shapiro-Wilk test verified data normality, and the Wilcoxon test compared the variables considering rib cage expansion and respiratory rate. Significance was set to p<0.05. Results: There was an increase in respiratory rate when comparing before and ten minutes after removing (p=0.008) the abdominal stabilization band, as well as when comparing during its use and ten minutes after its removal (p=0.001). There was also an increase in rib cage expansion when comparing before and during the use of the abdominal stabilization band (p=0.005). Conclusions: The use of the abdominal stabilization band promoted an increase in the rib cage expansion and respiratory rate in the assessed newborns and may be a viable option to improve the respiratory kinematics of this population.
RESUMO Objetivo: Avaliar a expansibilidade torácica e a frequência respiratória em recém-nascidos que fizeram uso de uma faixa de estabilização abdominal. Métodos: O estudo incluiu 32 recém-nascidos de ambos os sexos, com idade gestacional entre 35 e 41 semanas. A faixa de estabilização abdominal foi mantida por 15 minutos entre o processo xifoide e a espinha ilíaca anterossuperior, com contenção abdominal 0,5 cm menor do que a circunferência abdominal. A expansibilidade torácica foi avaliada por um transdutor piezoelétrico (Pneumotrace II™) 3 minutos antes do uso da faixa, durante 15 minutos, e 10 minutos após sua retirada. A normalidade das variáveis foi testada pelo teste de Shapiro-Wilk e a análise comparativa da expansibilidade torácica e da frequência respiratória foi realizada por meio do teste t pareado, considerando-se p<0,05. Resultados: Houve aumento da frequência respiratória quando comparados os tempos antes do uso da faixa e 10 minutos após a retirada (p=0,008), bem como quando comparados os tempos durante o uso e 10 minutos após a retirada da faixa (p=0,001). Houve aumento da expansibilidade torácica quando comparados os tempos antes e durante o uso da faixa (p=0,005). Conclusões: O uso da faixa de estabilização abdominal conferiu aumento da expansibilidade torácica e da frequência respiratória nos recém-nascidos estudados, podendo ser uma opção viável para a melhora da cinemática respiratória dessa população.
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OBJECTIVES: To evaluate the factors associated with mortality in mechanically ventilated patients with acute respiratory distress syndrome due to COVID-19. METHODS: This was a retrospective, multicenter cohort study that included 425 mechanically ventilated adult patients with COVID-19 admitted to 4 intensive care units. Clinical data comprising the SOFA score, laboratory data and mechanical characteristics of the respiratory system were collected in a standardized way immediately after the start of invasive mechanical ventilation. The risk factors for death were analyzed using Cox regression to estimate the risk ratios and their respective 95%CIs. RESULTS: Body mass index (RR 1.17; 95%CI 1.11 - 1.20; p < 0.001), SOFA score (RR 1.39; 95%CI 1.31 - 1.49; p < 0.001) and driving pressure (RR 1.24; 95%CI 1.21 - 1.29; p < 0.001) were considered independent factors associated with mortality in mechanically ventilated patients with acute respiratory distress syndrome due to COVID-19. Respiratory system compliance (RR 0.92; 95%CI 0.90 - 0.93; p < 0.001) was associated with lower mortality. The comparative analysis of the survival curves indicated that patients with respiratory system compliance (< 30mL/cmH2O), a higher SOFA score (> 5 points) and higher driving pressure (> 14cmH2O) were more significantly associated with the outcome of death at 28 days and 60 days. CONCLUSION: Patients with a body mass index > 32kg/m2, respiratory system compliance < 30mL/cmH2O, driving pressure > 14cmH2O and SOFA score > 5.8 immediately after the initiation of invasive ventilatory support had worse outcomes, and independent risk factors were associated with higher mortality in this population.
Subject(s)
COVID-19 , Respiratory Distress Syndrome , Adult , Humans , Cohort Studies , Respiration, Artificial , Retrospective Studies , Respiratory Distress Syndrome/therapyABSTRACT
BACKGROUND: The precision of quasi-static airway driving pressure (ΔP) assessed in pressure support ventilation (PSV) as a surrogate of tidal lung stress is debatable because persistent muscular activity frequently alters the readability of end-inspiratory holds. In this study, we used strict criteria to discard excessive muscular activity during holds and assessed the accuracy of ΔP in predicting global lung stress in PSV. Additionally, we explored whether the physiological effects of high PEEP differed according to the response of respiratory system compliance (CRS). METHODS: Adults with ARDS undergoing PSV were enrolled. An esophageal catheter was inserted to calculate lung stress through transpulmonary driving pressure (ΔPL). ΔP and ΔPL were assessed in PSV at PEEP 5, 10, and 15 cm H2O by end-inspiratory holds. CRS was calculated as tidal volume (VT)/ΔP. We analyzed the effects of high PEEP on pressure-time product per minute (PTPmin), airway pressure at 100 ms (P0.1), and VT over PTP per breath (VT/PTPbr) in subjects with increased versus decreased CRS at high PEEP. RESULTS: Eighteen subjects and 162 end-inspiratory holds were analyzed; 51/162 (31.5%) of the holds had ΔPL ≥ 12 cm H2O. Significant association between ΔP and ΔPL was found at all PEEP levels (P < .001). ΔP had excellent precision to predict ΔPL, with 15 cm H2O being identified as the best threshold for detecting ΔPL ≥ 12 cm H2O (area under the receiver operating characteristics 0.99 [95% CI 0.98-1.00]). CRS changes from low to high PEEP corresponded well with lung compliance changes (R2 0.91, P < .001) When CRS increased, a significant improvement of PTPmin and VT/PTPbr was found, without changes in P0.1. No benefits were observed when CRS decreased. CONCLUSIONS: In subjects with ARDS undergoing PSV, high ΔP assessed by readable end-inspiratory holds accurately detected potentially dangerous thresholds of ΔPL. Using ΔP to assess changes in CRS induced by PEEP during assisted ventilation may inform whether higher PEEP could be beneficial.
Subject(s)
Respiratory Distress Syndrome , Respiratory Mechanics , Adult , Humans , Respiratory Mechanics/physiology , Lung/physiology , Positive-Pressure Respiration , Respiration, Artificial , Tidal Volume/physiology , Respiratory Distress Syndrome/therapyABSTRACT
BACKGROUND: Mechanical hyperinflation maneuver (MHM) is a technique known for optimizing bronchial hygiene and respiratory mechanics; however, its effects on intracranial compliance are not known. METHODS: Sixty patients aged ≥ 18 years, with clinical diagnosis of acute stroke, confirmed by neuroimaging examination, with onset of symptoms within 72 h, under mechanical ventilation through tracheal tube, will participate in this study. Participants will be randomly allocated into 2 groups: experimental group (n = 30)-MHM plus tracheal aspiration-and control group (n = 30)-tracheal aspiration only. Intracranial compliance will be measured by a non-invasive technique using Brain4care BcMM-R-2000 sensor. This will be the primary outcome. Results will be recorded at 5 times: T0 (start of monitoring), T1 (moment before MHM), T2 (moment after the MHM and before tracheal aspiration), T3 (moment after tracheal aspiration), T4, and T5 (monitoring 10 and 20 min after T3). Secondary outcomes are respiratory mechanics and hemodynamic parameters. DISCUSSION: This study will be the first clinical trial to examine the effects and safety of MHM on intracranial compliance measured by non-invasive monitoring. Limitation includes the impossibility of blinding the physical therapist who will supervise the interventions. It is expected with this study to demonstrate that MHM can improve respiratory mechanics and hemodynamic parameters and provide a safe intervention with no changes in intracranial compliance in stroke patients.
Subject(s)
Respiration, Artificial , Respiratory Mechanics , Humans , Respiration, Artificial/methods , Pandemics , Suction , Hemodynamics , Randomized Controlled Trials as TopicABSTRACT
Introdução: As desordens temporomandibulares (DTM) são um grupo de patologias com implicação direta no entendimento das comorbidades que podem envolver o sistema estomatognático. Tal grupo patológico apresenta característica multifatorial e, por isso, tem sido observada sua possível relação com acometimentos sistêmicos, como problemas articulares, psicológicos e, mais especificamente, os distúrbios respiratórios crônicos (DRC). Objetivo: Conduzir uma revisão sistemática da literatura, utilizando ferramentas com validação metodológica, a fim de fornecer dados relevantes acerca da relação entre as DTM e os DRC. Metodologia: Foram pesquisadas as bases de dados MedLine/PubMed, Colaboração Cochrane, Plataforma Capes, Biblioteca Virtual em Saúde, Scopus, Web of Science e SciElo, cobrindo o período de 2000 a 2021 e utilizando a combinação dos descritores "temporomandibular disorders and breathing and pain and mouth breathing". Resultados: Após a busca, que culminou em 698 documentos encontrados, apenas 12 foram selecionados a partir dos critérios de elegibilidade predefinidos. No tocante à relação entre a presença de DTM e o diagnóstico de apneia obstrutiva do sono (AOS), foram encontrados 45 indivíduos com essa associação, reportados por dois estudos. É relatado, também, acometimento por infecções de vias áreas superiores associadas às DTM (7.012 indivíduos reportados), além de diagnóstico de respiração bucal em pacientes que apresentavam o diagnóstico de DTM (30 indivíduos reportados). Conclusão: A associação entre desordens do sono relacionadas à respiração, respiração bucal, AOS e dor relacionada à ATM foi fundamentada por alguns autores, destacando a influência desses parâmetros na qualidade de vida dos indivíduos. Observou-se, ainda, que esses acometimentos podem influenciar a postura do indivíduo, a qual está diretamente relacionada com a sintomatologia das DTM, principalmente pela ocorrência de anteriorização da cabeça.
Introduction: Temporomandibular disorders (TMD) are a group of pathologies that directly affect the understanding of comorbidities that may appear in the stomatognathic system. This group of pathologies has a multifactorial characteristic and, therefore, it has been observed a possible relation with systemic disorders, such as joint and psychological problems and, more specifically, chronic respiratory disorders (CRD). Objective: To conduct a systematic review based on reliable scientific web tools, in order to provide relevant data on the relation between TMD and CRD. Methods: MedLine/PubMed, Collaboration Cochrane, Plataforma Capes, Biblioteca Virtual em Saúde, Scopus, Web of Science and SciElo were searched in order to retrieve scientific articles, covering the period from 2000 to 2021. It was used the following combination of the descriptors: "temporomandibular disorders and breathing and pain and mouth breathing". Results: After the search, which resulted in 698 documents found, 12 were selected based on the pre-defined eligibility criteria. Regarding the relationship between TMD and the diagnosis of obstructive sleep apnea (OSA), there were found 45 individuals with this association, reported by two studies. It was also reported the involvement of upper airway infections in TMD (7,012 individuals reported). Furthermore, the search found patients diagnosed with TMD which were also diagnosed with mouth breathing (30 individuals reported). Conclusion: Some of the authors supported the combination between sleep disorders related to breathing, sleep quality and TMJ related pain, highlighting the influence of these parameters on quality of life. It was also observed that, even though the breathing pattern and its influences are a subject that is rarely mentioned in relation to TMD, this involvement can influence the individual's posture, which is directly related to the TMD symptomatology, mainly due to the occurrence of forward head posture.
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The aim of this study was to investigate mobility, physical functioning, peripheral muscle strength, inspiratory muscle strength and pulmonary function in surgical cancer patients admitted to an intensive care unit (ICU). We conducted a prospective cohort study with 85 patients. Mobility, physical functioning, peripheral muscle strength, inspiratory muscle strength, and pulmonary function were assessed using the following tests: ICU Mobility Scale (IMS); Chelsea Critical Care Physical Assessment (CPAx); handgrip strength and Medical Research Council Sum-Score (MRC-SS); maximal inspiratory pressure (MIP) and S-Index; and peak inspiratory flow, respectively. The assessments were undertaken at ICU admission and discharge. The data were analyzed using the Shapiro-Wilk and Wilcoxon tests and Spearman's correlation coefficient. Significant differences in inspiratory muscle strength, CPAx, grip strength, MRC-SS, MIP, S-Index, and peak inspiratory flow scores were observed between ICU admission and discharge. Grip strength showed a moderate correlation with MIP at admission and discharge. The findings also show a moderate correlation between S-Index scores and both MIP and peak inspiratory flow scores at admission and a strong correlation at discharge. Patients showed a gradual improvement in mobility, physical functioning, peripheral and inspiratory muscle strength, and inspiratory flow during their stay in the ICU.
Subject(s)
Hand Strength , Neoplasms , Humans , Prospective Studies , Muscle Strength/physiology , Intensive Care Units , Neoplasms/surgery , Respiratory MusclesABSTRACT
ABSTRACT Objectives: To evaluate the factors associated with mortality in mechanically ventilated patients with acute respiratory distress syndrome due to COVID-19. Methods: This was a retrospective, multicenter cohort study that included 425 mechanically ventilated adult patients with COVID-19 admitted to 4 intensive care units. Clinical data comprising the SOFA score, laboratory data and mechanical characteristics of the respiratory system were collected in a standardized way immediately after the start of invasive mechanical ventilation. The risk factors for death were analyzed using Cox regression to estimate the risk ratios and their respective 95%CIs. Results: Body mass index (RR 1.17; 95%CI 1.11 - 1.20; p < 0.001), SOFA score (RR 1.39; 95%CI 1.31 - 1.49; p < 0.001) and driving pressure (RR 1.24; 95%CI 1.21 - 1.29; p < 0.001) were considered independent factors associated with mortality in mechanically ventilated patients with acute respiratory distress syndrome due to COVID-19. Respiratory system compliance (RR 0.92; 95%CI 0.90 - 0.93; p < 0.001) was associated with lower mortality. The comparative analysis of the survival curves indicated that patients with respiratory system compliance (< 30mL/cmH2O), a higher SOFA score (> 5 points) and higher driving pressure (> 14cmH2O) were more significantly associated with the outcome of death at 28 days and 60 days. Conclusion: Patients with a body mass index > 32kg/m2, respiratory system compliance < 30mL/cmH2O, driving pressure > 14cmH2O and SOFA score > 5.8 immediately after the initiation of invasive ventilatory support had worse outcomes, and independent risk factors were associated with higher mortality in this population.
RESUMO Objetivos: Avaliar os fatores associados à mortalidade em pacientes ventilados mecanicamente com síndrome o desconforto respiratório agudo por evolução da COVID-19. Métodos: Estudo de coorte retrospectiva, multicêntrica, que incluiu 425 pacientes adultos com COVID-19, ventilados mecanicamente, internados em 4 unidades de terapia intensiva. Foram coletados dados clínicos que compõem o escore SOFA, dados laboratoriais e características mecânicas do sistema respiratório, de forma padronizada, imediatamente após o início da ventilação mecânica invasiva. Os fatores de risco para óbito foram analisados por meio da regressão de Cox, para estimar as razões de risco, e seus respectivos IC95%. Resultados: Índice de massa corporal (RR de 1,17; IC95% 1,11 - 1,20; p < 0,001), escore SOFA (RR de 1,39; IC95% 1,31 - 1,49; p < 0,001) e driving pressure (RR de 1,24; IC95% 1,21 - 1,29; p < 0,001) foram considerados fatores independentes associados à mortalidade em pacientes ventilados mecanicamente com síndrome do desconforto respiratório agudo por COVID-19. Já a complacência do sistema respiratório (RR de 0,92; IC95% 0,90 - 0,93; p < 0,001) foi associada à menor mortalidade. A análise comparativa das curvas de sobrevida demonstra que pacientes com complacência do sistema respiratório (< 30mL/cmH2O), maior SOFA escore (> 5 pontos) e maior driving pressure (> 14cmH2O) apresentaram maior associação ao desfecho morte em 28 dias e 60 dias. Conclusão: Pacientes com índice de massa corporal > 32kg/m2, complacência do sistema respiratório < 30mL/cmH2O, driving pressure > 14cmH2O e SOFA escore > 5,8, imediatamente após o início da assistência ventilatória invasiva, apresentam piores desfechos no segmento, sendo fatores de risco independentes associados à maior mortalidade nessa população.
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BACKGROUND: Pulmonary congestion is a strong predictor of mortality and cardiovascular events in chronic kidney disease (CKD); however, the effects of the mild form on functionality have not yet been investigated. The objective of this study was to assess the influence of mild pulmonary congestion on diaphragmatic mobility (DM) and activities of daily living (ADL) in hemodialysis (HD) subjects, as well as compare ADL behavior on dialysis and non-dialysis days. In parallel, experimentally induce CKD in mice and analyze the resulting pulmonary and functional repercussions. METHODS: Thirty subjects in HD underwent thoracic and abdominal ultrasonography, anthropometric assessment, lung and kidney function, respiratory muscle strength assessment and symptoms analysis. To measure ADL a triaxial accelerometer was used over seven consecutive days. Twenty male mice were randomized in Control and CKD group. Thoracic ultrasonography, TNF-α analysis in kidney and lung tissue, exploratory behavior and functionality assessments were performed. RESULTS: Mild pulmonary congestion caused a 26.1% decline in DM (R2=.261; P=.004) and 20% reduction in walking time (R2=.200; P=.01), indicating decreases of 2.23mm and 1.54min, respectively, for every unit increase in lung comet-tails. Regarding ADL, subjects exhibited statistically significant differences for standing (P=.002), walking (P=.034) and active time (P=.002), and number of steps taken (P=.01) on days with and without HD. In the experimental model, CKD resulted in increased levels of TNF-α on kidneys (P=.037) and lungs (P=.02), attenuation of exploratory behavior (P=.01) and significant decrease in traveled distance (P=.034). Thoracic ultrasonography of CKD mice showed presence of B-lines. CONCLUSION: The mild pulmonary congestion reduced DM and walking time in subjects undergoing HD. Individuals were less active on dialysis days. Furthermore, the experimental model implies that the presence of pulmonary congestion and inflammation may play a decisive role in the low physical and exploratory performance of CKD mice.
Subject(s)
Pulmonary Edema , Renal Insufficiency, Chronic , Humans , Male , Animals , Mice , Activities of Daily Living , Tumor Necrosis Factor-alpha , Lung/diagnostic imaging , Pulmonary Edema/diagnosis , Renal Insufficiency, Chronic/complications , Renal Insufficiency, Chronic/therapyABSTRACT
RESUMEN La evaluación y el monitoreo del trabajo respiratorio es fundamental en los sujetos que se encuentran en las unidades de cuidados intensivos. El estándar de oro para su valoración es el diagrama de Campbell, que requiere la colocación de un balón esofágico. La interpretación del diagrama es compleja y, generalmente, su uso queda ligado al ámbito científico, con poca utilización en la práctica clínica. Para acercar su implementación a la cotidianidad y facilitar su interpretación, el objetivo del paso a paso es describir la elaboración e interpretación del diagrama de Campbell.
ABSTRACT The assesment and monitoring of the work of breathing is essential in subjects hospitalized in intensive care units. The gold standard for its measurement is the Campbell diagram, which requires the placement of an esophageal balloon. The interpretation of the diagram is complex. It is widely used in the scientific field but not often applied in the clinical practice. In order to promote its implementation and facilitate its interpretation, the objective of this study is to describe the construction and interpretation of the Campbell diagram.
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RESUMEN La presión transpulmonar (Ptp) es la diferencia entre la presión en la vía aérea y la presión pleural (Ppl). La medición de la presión esofágica, como sustituto de la Ppl, permite calcular la Ptp y diferenciar entre la mecánica pulmonar y la mecánica de la caja torácica. Para ello, existen dos métodos: el método de Talmor y el método de Gattinoni. Ambos aportan información útil, particularmente en sujetos con síndrome de distrés respiratorio agudo, para individualizar la estrategia de protección pulmonar. El objetivo del siguiente paso a paso es describir el cálculo de la Ptp con ambos métodos durante la fase de soporte total de la ventilación mecánica invasiva.
ABSTRACT Transpulmonary pressure (Ptp) is the difference between airway pressure and pleural pressure (Ppl). Measurement of esophageal pressure, as a surrogate for Ppl, allows for the calculation of Ptp and differentiation between respiratory mechanics and chest wall mechanics. For this purpose, there are two methods: the Talmor method and the Gattinoni method. Both provide useful information, particularly in subjects with acute respiratory distress syndrome, to individualize the lung protective ventilation strategy. The objective of this study is to describe the calculation of Ptp using both methods during the full support phase of invasive mechanical ventilation.
ABSTRACT
Las enfermedades obstructivas de la vía aérea pediátrica son muy frecuentes debido a los fenómenos mecánicos que están involucrados. En los niños más pequeños, la marcada resistencia de las vías aéreas pequeñas, determinada por la falta de tejido elástico y una caja torácica aún no bien desarrollada; tanto su estructura como la musculatura, facilitarán que cuadros infecciosos, mecánicos (cuerpo extraño) y compresivos, determinen que los flujos de aire se vean limitados y con ello la ventilación alveolar. La respuesta fisiológica con aumento del trabajo respiratorio es limitada y por lo tanto la fatiga muscular determinará hipoventilación con las consecuencias de hipoxemia e hipercapnia.
Obstructive diseases of the pediatric airway are very frequent due to the mechanical phenomena that are involved. The marked resistance of the small airways, such as the lack of elastic tissue and a thoracic cage that is not yet well developed, both in its structure and in the musculature, will make it easier for infectious, mechanical (foreign body), compressive and other conditions to determine that the flows of air are limited and with it the alveolar ventilation. The physiological response with increased work of breathing is limited and therefore muscle fatigue will determine hypoventilation, with the consequences of hypoxemia and hypercapnia.
Subject(s)
Humans , Child , Lung Diseases, Obstructive/physiopathology , Asthma/physiopathology , Bronchiolitis/physiopathology , Respiratory Mechanics , Foreign Bodies/physiopathology , HypoventilationABSTRACT
Increased intraabdominal pressure (IAP) during laparoscopy can reduce venous return, but changes in respiratory system mechanics and their effect in left cardiac function are not well documented. This study evaluated the effects of different IAPs on respiratory mechanics and cardiac function in 10 healthy nonpregnant adult Santa Ines ewes randomly submitted to a crossover study using different IAPs: 0 mm Hg (G1), 10 mm Hg (G2), 12 mmHg (G3), and 15 mmHg (G4). Animals were anesthetized and mechanically ventilated (VT = 15 ml/kg; positive end-expiratory pressure = 3 cmH2 O; FiO2 = 1.0). Pneumoperitoneum was induced by Hasson's trocar cannula. Variables were measured at INITIAL (IAP, 0 mmHg) and FINAL time points for each IAP after 1 h. At FINAL, driving airway pressure (ΔP,RS ), and percentage fraction of dead space (Vd/Vt) were higher in G3 and G4 than G1 (p = 0.002, difference in means [MD] 4.60, 95% CI: 7.91-1.28, and p < 0.001, MD 5.4, 95% CI: 8.7-2.0; p = 0.016, MD -9.5, 95% CI: -17.9 to -1.2; and p = 0.027, MD -8.7, 95% CI: -17.1 to -0.4). The ejection fraction and fractional shortening were lower in G3 (p = 0.039, MD -11.38, 95% CI: -0.07--22.68; p = 0.015, MD -13.05, 95% CI: -1.74--24.36) and G4 (p = 0.039, MD -9.94, 95% CI: -0.07 to -19.80; p = 0.015, MD -11.43, 95%CI: -1.57 to -21.30, respectively) than G2. In G3, the maximum pulmonary flow velocity correlated negatively with ΔP,RS (r = -0.740; p = 0.018), and Vd/Vt correlated positively with ΔP,RS (r = 0.738, p = 0.046). At IAP of 12 and 15 mm Hg impaired respiratory system mechanics, reduced left cardiac function and no change in maximum pulmonary artery flow velocity were detected. Therefore, respiratory mechanics should be monitored as an interplay to reduce left cardiac function.
Subject(s)
Lung , Respiratory Mechanics , Animals , Female , Abdomen , Cross-Over Studies , Monitoring, Physiologic , SheepABSTRACT
Mechanical ventilation has been a vital treatment for Covid-19 patients with respiratory failure. Lungs assisted with mechanical ventilators present a wide variability in their response that strongly depends on air-tissue interactions, which motivates the creation of simulation tools to enhance the design of ventilatory protocols. In this work, we aim to create anatomical computational models of the lungs that predict clinically-relevant respiratory variables. To this end, we formulate a continuum poromechanical framework that seamlessly accounts for the air-tissue interaction in the lung parenchyma. Based on this formulation, we construct anatomical finite-element models of the human lungs from computed-tomography images. We simulate the 3D response of lungs connected to mechanical ventilation, from which we recover physiological parameters of high clinical relevance. In particular, we provide a framework to estimate respiratory-system compliance and resistance from continuum lung dynamic simulations. We further study our computational framework in the simulation of the supersyringe method to construct pressure-volume curves. In addition, we run these simulations using several state-of-the-art lung tissue models to understand how the choice of constitutive models impacts the whole-organ mechanical response. We show that the proposed lung model predicts physiological variables, such as airway pressure, flow and volume, that capture many distinctive features observed in mechanical ventilation and the supersyringe method. We further conclude that some constitutive lung tissue models may not adequately capture the physiological behavior of lungs, as measured in terms of lung respiratory-system compliance. Our findings constitute a proof of concept that finite-element poromechanical models of the lungs can be predictive of clinically-relevant variables in respiratory medicine.
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RESUMO Objetivo: Comparar a mecânica pulmonar e os desfechos entre a síndrome do desconforto respiratório agudo associada à COVID-19 e a síndrome do desconforto respiratório agudo não associada à COVID-19. Métodos: Combinamos dados de dois ensaios randomizados sobre a síndrome do desconforto respiratório agudo, um incluindo apenas pacientes com COVID-19 e o outro incluindo apenas pacientes sem COVID-19, para determinar se a síndrome do desconforto respiratório agudo associada à COVID-19 está associada à maior mortalidade aos 28 dias do que a síndrome do desconforto respiratório agudo não associada à COVID-19 e também examinar as diferenças na mecânica pulmonar entre esses dois tipos de síndrome do desconforto respiratório agudo. Resultados: Foram incluídos na análise principal 299 pacientes com síndrome do desconforto respiratório agudo associada à COVID-19 e 1.010 pacientes com síndrome do desconforto respiratório agudo não associada à COVID-19. Os resultados mostraram que os pacientes sem COVID-19 utilizaram pressão positiva expiratória final mais alta (12,5cmH2O; DP 3,2 versus 11,7cmH2O; DP 2,8; p < 0,001), foram ventilados com volumes correntes mais baixos (5,8mL/kg; DP 1,0 versus 6,5mL/kg; DP 1,2; p < 0,001) e apresentaram menor complacência respiratória estática ajustada para o peso ideal (0,5mL/cmH2O/kg; DP 0,3 versus 0,6mL/cmH2O/kg; DP 0,3; p = 0,01). Não houve diferença entre os grupos quanto à mortalidade aos 28 dias (52,3% versus 58,9%; p = 0,52) ou à duração da ventilação mecânica nos primeiros 28 dias entre os sobreviventes (13 [IQ 5 - 22] dias versus 12 [IQ 6 - 26] dias; p = 0,46). Conclusão: Esta análise mostrou que os pacientes com síndrome do desconforto respiratório agudo não associada à COVID-19 têm mecânica pulmonar diferente, mas desfechos semelhantes aos dos pacientes com síndrome do desconforto respiratório agudo associada à COVID-19. Após pareamento por escore de propensão, não houve diferença na mecânica pulmonar e nem nos desfechos entre os grupos.
ABSTRACT Objective: To compare the lung mechanics and outcomes between COVID-19-associated acute respiratory distress syndrome and non-COVID-19-associated acute respiratory distress syndrome. Methods: We combined data from two randomized trials in acute respiratory distress syndrome, one including only COVID-19 patients and the other including only patients without COVID-19, to determine whether COVID-19-associated acute respiratory distress syndrome is associated with higher 28-day mortality than non-COVID-19 acute respiratory distress syndrome and to examine the differences in lung mechanics between these two types of acute respiratory distress syndrome. Results: A total of 299 patients with COVID-19-associated acute respiratory distress syndrome and 1,010 patients with non-COVID-19-associated acute respiratory distress syndrome were included in the main analysis. The results showed that non-COVID-19 patients used higher positive end-expiratory pressure (12.5cmH2O; SD 3.2 versus 11.7cmH2O SD 2.8; p < 0.001), were ventilated with lower tidal volumes (5.8mL/kg; SD 1.0 versus 6.5mL/kg; SD 1.2; p < 0.001) and had lower static respiratory compliance adjusted for ideal body weight (0.5mL/cmH2O/kg; SD 0.3 versus 0.6mL/cmH2O/kg; SD 0.3; p = 0.01). There was no difference between groups in 28-day mortality (52.3% versus 58.9%; p = 0.52) or mechanical ventilation duration in the first 28 days among survivors (13 [IQR 5 - 22] versus 12 [IQR 6 - 26], p = 0.46). Conclusion: This analysis showed that patients with non-COVID-19-associated acute respiratory distress syndrome have different lung mechanics but similar outcomes to COVID-19-associated acute respiratory distress syndrome patients. After propensity score matching, there was no difference in lung mechanics or outcomes between groups.
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BACKGROUND: It has been reported that the manual chest compression and decompression (MCCD) maneuver can increase lung volume in patients receiving invasive mechanical ventilation (IMV), but some important questions related to this maneuver require answers: how long the effects of MCCD on lung volume remain, and whether there are effects on other respiratory and hemodynamic variables. METHODS: Patients receiving IMV support in an intensive care unit (ICU) with signs of hypoventilation, hypoexpansion, or atelectasis were eligible to receive the MCCD maneuver. Immediately before the maneuver, respiratory and hemodynamic parameters were collected. Then, 20 MCCD maneuvers were performed while measured the same parameters. After 10 min, all parameters were measured again. The primary outcome was the tidal volume (Vt ) during the MCCD maneuver and after 10 min compared to the previous Vt . RESULTS: Of the 255 patients who were mechanically ventilated in the study period, 105 patients composed the final cohort. The MCCD increased inspiratory tidal volume (iVt ), expiratory tidal volume (eVt ), and chest dynamic compliance (Cdyn ) during the application of the maneuver, but after 10 min, these parameters returned to their basal levels. The MCCD maneuver did not change the peak pressure, respiratory rate, peripheral oxygen saturation (SpO2 ), heart rate, or blood pressure. There was no difference in increased iVt in patients with sedation, respiratory comorbidity, or obesity. Further, there was no association between the iVt response to the MCCD and the admission diagnosis, and no correlation with the ICU length of stay, IMV duration, or APACHE II score. IMPLICATIONS OF PHYSIOTHERAPY PRACTICE: We concluded that MCCD increased iVt , eVt , and Cdyn during the application of the maneuver, but this effect was not observed after 10 min. Randomized controlled trials should be performed in the future to investigate the mechanism involved in increasing Vt and the possible impact of the MCCD maneuver on ICU outcomes.
Subject(s)
Decompression , Respiration, Artificial , Acetonitriles , Humans , Lung Volume Measurements , Tidal VolumeABSTRACT
RESUMO Objetivo: Analisar a influência da mechanical power e de seus componentes na ventilação mecânica em SARS-CoV-2; identificar os valores dos componentes da ventilação mecânica e verificar suas correlações entre si e com a mechanical power e efeitos sobre o resultado das fórmulas de Gattinoni-S e Giosa. Métodos: Estudo observacional, longitudinal, analítico e quantitativo dos parâmetros do respirador e da mechanical power no SARS-CoV-2. Resultados: A mechanical power média foi de 26,9J/minuto (Gattinoni-S) e 30,3J/minuto (Giosa). A driving pressure foi de 14,4cmH2O, a pressão de platô de 26,5cmH2O, a pressão expiratória positiva final 12,1cmH2O, a elastância de 40,6cmH2O/L, o volume corrente foi de 0,36L e a frequência respiratória de 32/minuto. A correlação entre as fórmulas de Gattinoni e de Giosa foi de 0,98, com viés de -3,4J/minuto e diferença na correlação da pressão de resistência de 0,39 (Gattinoni-S) e 0,24 (Giosa). Entre os componentes, destacaram-se as correlações da elastância com a driving pressure (0,88), pressão expiratória positiva final (-0,54) e volume corrente (-0,44). Conclusão: Na análise da ventilação mecânica da SARS-CoV-2, constatou-se que as correlações de seus componentes com a mechanical power influenciaram em seus valores momentâneos elevados, e que as correlações de seus componentes entre si influenciaram em seu comportamento ao longo do tempo. Por possuírem efeitos específicos sobre as fórmulas de Gatinnoni-S e Giosa, os componentes da ventilação mecânica tiveram influência em seus cálculos e causaram divergências nos valores da mechanical power.
ABSTRACT Objective: To analyze the influence of mechanical power and its components on mechanical ventilation for patients infected with SARS-CoV-2; identify the values of the mechanical ventilation components and verify their correlations with each other and with the mechanical power and effects on the result of the Gattinoni-S and Giosa formulas. Methods: This was an observational, longitudinal, analytical and quantitative study of respirator and mechanical power parameters in patients with SARS-CoV-2. Results: The mean mechanical power was 26.9J/minute (Gattinoni-S) and 30.3 J/minute (Giosa). The driving pressure was 14.4cmH2O, the plateau pressure was 26.5cmH2O, the positive end-expiratory pressure was 12.1cmH2O, the elastance was 40.6cmH2O/L, the tidal volume was 0.36L, and the respiratory rate was 32 breaths/minute. The correlation between the Gattinoni and Giosa formulas was 0.98, with a bias of -3.4J/minute and a difference in the correlation of the resistance pressure of 0.39 (Gattinoni) and 0.24 (Giosa). Among the components, the correlations between elastance and driving pressure (0.88), positive end-expiratory pressure (-0.54) and tidal volume (-0.44) stood out. Conclusion: In the analysis of mechanical ventilation for patients with SARS-CoV-2, it was found that the correlations of its components with mechanical power influenced its high momentary values and and that the correlations of its components with each other influenced their behavior throughout the study period. Because they have specific effects on the Gatinnoni-S and Giosa formulas, the mechanical ventilation components influenced their calculations and caused divergence in the mechanical power values.