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1.
Br J Anaesth ; 127(5): 807-814, 2021 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-34507822

RESUMO

BACKGROUND: Lung rest has been recommended during extracorporeal membrane oxygenation (ECMO) for severe acute respiratory distress syndrome (ARDS). Whether positive end-expiratory pressure (PEEP) confers lung protection during ECMO for severe ARDS is unclear. We compared the effects of three different PEEP levels whilst applying near-apnoeic ventilation in a model of severe ARDS treated with ECMO. METHODS: Acute respiratory distress syndrome was induced in anaesthetised adult male pigs by repeated saline lavage and injurious ventilation for 1.5 h. After ECMO was commenced, the pigs received standardised near-apnoeic ventilation for 24 h to maintain similar driving pressures and were randomly assigned to PEEP of 0, 10, or 20 cm H2O (n=7 per group). Respiratory and haemodynamic data were collected throughout the study. Histological injury was assessed by a pathologist masked to PEEP allocation. Lung oedema was estimated by wet-to-dry-weight ratio. RESULTS: All pigs developed severe ARDS. Oxygenation on ECMO improved with PEEP of 10 or 20 cm H2O, but did not in pigs allocated to PEEP of 0 cm H2O. Haemodynamic collapse refractory to norepinephrine (n=4) and early death (n=3) occurred after PEEP 20 cm H2O. The severity of lung injury was lowest after PEEP of 10 cm H2O in both dependent and non-dependent lung regions, compared with PEEP of 0 or 20 cm H2O. A higher wet-to-dry-weight ratio, indicating worse lung injury, was observed with PEEP of 0 cm H2O. Histological assessment suggested that lung injury was minimised with PEEP of 10 cm H2O. CONCLUSIONS: During near-apnoeic ventilation and ECMO in experimental severe ARDS, 10 cm H2O PEEP minimised lung injury and improved gas exchange without compromising haemodynamic stability.


Assuntos
Oxigenação por Membrana Extracorpórea/métodos , Lesão Pulmonar/fisiopatologia , Respiração com Pressão Positiva/métodos , Síndrome do Desconforto Respiratório/terapia , Animais , Modelos Animais de Doenças , Hemodinâmica , Masculino , Troca Gasosa Pulmonar/fisiologia , Respiração Artificial/métodos , Síndrome do Desconforto Respiratório/fisiopatologia , Índice de Gravidade de Doença , Suínos
2.
Am J Respir Crit Care Med ; 199(5): 603-612, 2019 03 01.
Artigo em Inglês | MEDLINE | ID: mdl-30216736

RESUMO

RATIONALE: There is wide variability in mechanical ventilation settings during extracorporeal membrane oxygenation (ECMO) in patients with acute respiratory distress syndrome. Although lung rest is recommended to prevent further injury, there is no evidence to support it. OBJECTIVES: To determine whether near-apneic ventilation decreases lung injury in a pig model of acute respiratory distress syndrome supported with ECMO. METHODS: Pigs (26-36 kg; n = 24) were anesthetized and connected to mechanical ventilation. In 18 animals lung injury was induced by a double-hit consisting of repeated saline lavages followed by 2 hours of injurious ventilation. Then, animals were connected to high-flow venovenous ECMO, and randomized into three groups: 1) nonprotective (positive end-expiratory pressure [PEEP], 5 cm H2O; Vt, 10 ml/kg; respiratory rate, 20 bpm), 2) conventional-protective (PEEP, 10 cm H2O; Vt, 6 ml/kg; respiratory rate, 20 bpm), and 3) near-apneic (PEEP, 10 cm H2O; driving pressure, 10 cm H2O; respiratory rate, 5 bpm). Six other pigs were used as sham. All groups were maintained during the 24-hour study period. MEASUREMENTS AND MAIN RESULTS: Minute ventilation and mechanical power were lower in the near-apneic group, but no differences were observed in oxygenation or compliance. Lung histology revealed less injury in the near-apneic group. Extensive immunohistochemical staining for myofibroblasts and procollagen III was observed in the nonprotective group, with the near-apneic group exhibiting the least alterations. Near-apneic group showed significantly less matrix metalloproteinase-2 and -9 activity. Histologic lung injury and fibroproliferation scores were positively correlated with driving pressure and mechanical power. CONCLUSIONS: In an acute respiratory distress syndrome model supported with ECMO, near-apneic ventilation decreased histologic lung injury and matrix metalloproteinase activity, and prevented the expression of myofibroblast markers.


Assuntos
Oxigenação por Membrana Extracorpórea , Fibrose Pulmonar/prevenção & controle , Respiração Artificial , Síndrome do Desconforto Respiratório/terapia , Lesão Pulmonar Induzida por Ventilação Mecânica/prevenção & controle , Animais , Modelos Animais de Doenças , Oxigenação por Membrana Extracorpórea/efeitos adversos , Oxigenação por Membrana Extracorpórea/métodos , Hemodinâmica , Fibrose Pulmonar/etiologia , Respiração Artificial/efeitos adversos , Respiração Artificial/métodos , Síndrome do Desconforto Respiratório/complicações , Fenômenos Fisiológicos Respiratórios , Suínos , Lesão Pulmonar Induzida por Ventilação Mecânica/etiologia
3.
Crit Care Med ; 46(2): 216-222, 2018 02.
Artigo em Inglês | MEDLINE | ID: mdl-29341964

RESUMO

OBJECTIVES: Acute kidney injury is a serious complication with unacceptably high mortality that lacks of specific curative treatment. Therapies focusing on the hydraulic behavior have shown promising results in preventing structural and functional renal impairment, but the underlying mechanisms remain understudied. Our goal is to assess the effects of renal decapsulation on regional hemodynamics, oxygenation, and perfusion in an ischemic acute kidney injury experimental model. METHODS: In piglets, intra renal pressure, renal tissue oxygen pressure, and dysoxia markers were measured in an ischemia-reperfusion group with intact kidney, an ischemia-reperfusion group where the kidney capsule was removed, and in a sham group. RESULTS: Decapsulated kidneys displayed an effective reduction of intra renal pressure, an increment of renal tissue oxygen pressure, and a better performance in the regional delivery, consumption, and extraction of oxygen after reperfusion, resulting in a marked attenuation of acute kidney injury progression due to reduced structural damage and improved renal function. CONCLUSIONS: Our results strongly suggest that renal decapsulation prevents the onset of an intrinsic renal compartment syndrome after ischemic acute kidney injury.


Assuntos
Injúria Renal Aguda/complicações , Síndromes Compartimentais/prevenção & controle , Hepatectomia , Rim/irrigação sanguínea , Injúria Renal Aguda/etiologia , Animais , Síndromes Compartimentais/etiologia , Hemodinâmica/fisiologia , Hepatectomia/métodos , Traumatismo por Reperfusão/complicações , Suínos
4.
Rev Chil Pediatr ; 86(6): 404-9, 2015.
Artigo em Inglês | MEDLINE | ID: mdl-26471316

RESUMO

BACKGROUND: Preload dynamic tests, pulse pressure variation (PPV) and stroke volume variation (SVV) have emerged as powerful tools to predict response to fluid administration. The influence of factors other than preload in dynamic preload test is currently poorly understood in pediatrics. The aim of our study was to assess the effect of tidal volume (VT) on PPV and SVV in the context of normal and reduced lung compliance in a piglet model. MATERIAL AND METHOD: Twenty large-white piglets (5.2±0.4kg) were anesthetized, paralyzed and monitored with pulse contour analysis. PPV and SVV were recorded during mechanical ventilation with a VT of 6 and 12mL/kg (low and high VT, respectively), both before and after tracheal instillation of polysorbate 20. RESULTS: Before acute lung injury (ALI) induction, modifications of VT did not significantly change PPV and SVV readings. After ALI, PPV and SVV were significantly greater during ventilation with a high VT compared to a low VT (PPV increased from 8.9±1.2 to 12.4±1.1%, and SVV from 8.5±1.0 to 12.7±1.2%, both P<0.01). CONCLUSIONS: This study found that a high VT and reduced lung compliance due to ALI increase preload dynamic tests, with a greater influence of the latter. In subjects with ALI, lung compliance should be considered when interpreting the preload dynamic tests.


Assuntos
Lesão Pulmonar Aguda/fisiopatologia , Hidratação/métodos , Complacência Pulmonar/fisiologia , Volume de Ventilação Pulmonar/fisiologia , Animais , Pressão Sanguínea/fisiologia , Modelos Animais de Doenças , Respiração Artificial/métodos , Volume Sistólico/fisiologia , Suínos
5.
Paediatr Anaesth ; 23(11): 1069-77, 2013 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-23731357

RESUMO

BACKGROUND: The effects of mild hypothermia (HT) on acute lung injury (ALI) are unknown in species with metabolic rate similar to that of humans, receiving protective mechanical ventilation (MV). We hypothesized that mild hypothermia would attenuate pulmonary and systemic inflammatory responses in piglets with ALI managed with a protective MV. METHODS: Acute lung injury (ALI) was induced with surfactant deactivation in 38 piglets. The animals were then ventilated with low tidal volume, moderate positive end-expiratory pressure (PEEP), and permissive hypercapnia throughout the experiment. Subjects were randomized to HT (33.5°C) or normothermia (37°C) groups over 4 h. Plasma and tissue cytokines, tissue apoptosis, lung mechanics, pulmonary vascular permeability, hemodynamic, and coagulation were evaluated. RESULTS: Lung interleukin-10 concentrations were higher in subjects that underwent HT after ALI induction than in those that maintained normothermia. No difference was found in other systemic and tissue cytokines. HT did not induce lung or kidney tissue apoptosis or influence lung mechanics or markers of pulmonary vascular permeability. Heart rate, cardiac output, oxygen uptake, and delivery were significantly lower in subjects that underwent HT, but no difference in arterial lactate, central venous oxygen saturation, and coagulation test was observed. CONCLUSIONS: Mild hypothermia induced a local anti-inflammatory response in the lungs, without affecting lung function or coagulation, in this piglet model of ALI. The HT group had lower cardiac output without signs of global dysoxia, suggesting an adaptation to the decrease in oxygen uptake and delivery. Studies are needed to determine the therapeutic role of HT in ALI.


Assuntos
Lesão Pulmonar Aguda/prevenção & controle , Hipotermia Induzida/métodos , Inflamação/prevenção & controle , Pneumonia Associada à Ventilação Mecânica/prevenção & controle , Respiração Artificial/efeitos adversos , Anestesia , Animais , Apoptose/fisiologia , Biomarcadores/sangue , Coagulação Sanguínea/fisiologia , Permeabilidade Capilar/fisiologia , Caspase 3/sangue , Citocinas/sangue , Hemodinâmica/fisiologia , Pulmão/patologia , Respiração com Pressão Positiva , Troca Gasosa Pulmonar , Testes de Função Respiratória , Mecânica Respiratória/fisiologia , Suínos
6.
Paediatr Anaesth ; 23(3): 250-7, 2013 Mar.
Artigo em Inglês | MEDLINE | ID: mdl-23043489

RESUMO

BACKGROUND: Surfactant deficiency is the pivotal abnormality in Neonatal and Acute Respiratory Distress Syndrome. Surfactant deactivation can produce hypoxemia, loss of lung compliance, and pulmonary edema, but its circulatory consequences are less understood. OBJECTIVE: To describe the sequential hemodynamic changes and pulmonary edema formation after surfactant deactivation in piglets. METHODS: Surfactant deactivation was induced by tracheal instillation of polysorbate 20 in 15 anesthetized and mechanically ventilated Large White piglets. The hemodynamic consequences of surfactant deactivation were assessed at 30, 120, and 240 min by transpulmonary thermodilution and traditional methods. RESULTS: Surfactant deactivation caused hypoxemia, reduced lung compliance, and progressively increased lung water content (P < 0.01). Early hypovolemia was observed, with reductions of the global end-diastolic volume and stroke volume (P < 0.05). Reduced cardiac output was observed at the end of the study (P < 0.05). Standard monitoring was unable to detect these early preload alterations. Surprisingly, the bronchoalveolar protein content was greatly increased at the end of the study compared with baseline levels (P < 0.01). This finding was inconsistent with the notion that the pulmonary edema induced by surfactant deactivation was exclusively caused by high surface tension. CONCLUSIONS: Hypovolemia develops early after surfactant deactivation, in part due to the resulting fluid shift from the intravascular compartment to the lungs.


Assuntos
Água Extravascular Pulmonar/fisiologia , Deslocamentos de Líquidos Corporais/fisiologia , Hipovolemia/fisiopatologia , Surfactantes Pulmonares , Anestesia , Animais , Gasometria , Líquido da Lavagem Broncoalveolar , Excipientes , Hemodinâmica/fisiologia , Hipovolemia/induzido quimicamente , Complacência Pulmonar/fisiologia , Polissorbatos , Respiração com Pressão Positiva , Edema Pulmonar/patologia , Respiração Artificial , Suínos , Termodiluição
7.
Rev Med Chil ; 140(1): 39-44, 2012 Jan.
Artigo em Espanhol | MEDLINE | ID: mdl-22552553

RESUMO

BACKGROUND: Cardiac output (CO) measurement is not a standard of care for critically ill children, but it can be estimated by indirect methods such as veno-arterial pCO2 difference (ΔVACO2). AIM: To determine the correlation between CO and ΔVACO2 and evaluate the usefulness of ΔVACO2 in the diagnosis of low CO in an experimental pediatric model. MATERIALS AND METHODS: Thirty piglets weighing 4.8 ± 0.35 kg were anesthetized and monitored with transpulmonary thermodilution. Lung injury was induced with tracheal instillation of Tween 20®. Serial measurements of central venous and arterial blood gases, as well as CO, were obtained at baseline, 1, 2 and 4 h after lung injury induction. Low cardiac output (LCO) was defined as CO lower than 2.5 Llminlm². RESULTS: There was an inverse correlation between CO and ΔVACO2 (r = -0.36, p < 0.01). ΔVACO2 was 14 ± 8 mmHg in LCO state and 8 ± 6 mmHg when this condition was not present (p < 0.01). Area under the receiver operating characteristic (ROC) curves of ΔVACO2 and LCO state was 0.78 (0.68-0.86). The best cut-point was 8.9 mmHg to determine LCO with a sensibility 0.78, specificity 0.7, positive predictive value 0.27 and negative predictive value 0.96. CONCLUSIONS: In this model there was an inverse correlation between ΔVACO2 and CO. The best cutoff value to discard LCO was ΔVACO2 of 8.9 mmHg, indicating that under this value the presence of LCO is very unlikely.


Assuntos
Lesão Pulmonar Aguda/sangue , Dióxido de Carbono/sangue , Baixo Débito Cardíaco/sangue , Animais , Área Sob a Curva , Gasometria , Baixo Débito Cardíaco/diagnóstico , Modelos Animais de Doenças , Valor Preditivo dos Testes , Suínos , Termodiluição
8.
Am J Transl Res ; 8(6): 2826-37, 2016.
Artigo em Inglês | MEDLINE | ID: mdl-27398166

RESUMO

Extracorporeal membrane oxygenation (ECMO) is increasingly being used to treat severe acute respiratory distress syndrome (ARDS). However, there is limited clinical evidence about how to optimize the technique. Experimental research can provide an alternative to fill the actual knowledge gap. The purpose of the present study was to develop and validate an animal model of acute lung injury (ALI) which resembled severe ARDS, and which could be successfully supported with ECMO. Eighteen pigs were randomly allocated into three groups: sham, ALI, and ALI + ECMO. ALI was induced by a double-hit consisting in repeated saline lavage followed by a 2-hour period of injurious ventilation. All animals were followed up to 24 hours while being ventilated with conventional ventilation (tidal volume 10 ml/kg). The lung injury model resulted in severe hypoxemia, increased airway pressures, pulmonary hypertension, and altered alveolar membrane barrier function, as indicated by an increased protein concentration in bronchoalveolar fluid, and increased wet/dry lung weight ratio. Histologic examination revealed severe diffuse alveolar damage, characteristic of ARDS. Veno-venous ECMO was started at the end of lung injury induction with a flow > 60 ml/kg/min resulting in rapid reversal of hypoxemia and pulmonary hypertension. Mortality was 0, 66.6 and 16.6% in the SHAM, ALI and ALI + ECMO groups, respectively (p < 0.05). This is a novel clinically relevant animal model that can be used to optimize the approach to ECMO and foster translational research in extracorporeal lung support.

9.
Intensive Care Med Exp ; 2(1): 26, 2014 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-26266923

RESUMO

BACKGROUND: The hydraulic behavior of the renal compartment is poorly understood. In particular, the role of the renal capsule on the intrarenal pressure has not been thoroughly addressed to date. We hypothesized that pressure and volume in the renal compartment are not linearly related, similar to other body compartments. METHODS: The pressure-volume curve of the renal compartment was obtained by injecting fluid into the renal pelvis and recording the rise in intrarenal pressure in six anesthetized and mechanically ventilated piglets, using a catheter Camino 4B® inserted into the renal parenchyma. RESULTS: In healthy kidneys, pressure has a highly nonlinear dependence on the injected volume, as revealed by an exponential fit to the data (R (2) = 0.92). On the contrary, a linear relation between pressure and volume is observed in decapsulated kidneys. We propose a biomechanical model for the renal capsule that is able to explain the nonlinear pressure-volume dependence for moderate volume increases. CONCLUSIONS: We have presented experimental evidence and a theoretical model that supports the existence of a renal compartment. The mechanical role of the renal capsule investigated in this work may have important implications in elucidating the role of decompressive capsulotomy in reducing the intrarenal pressure in acutely injured kidneys.

10.
Rev. chil. pediatr ; 86(6): 404-409, dic. 2015. ilus, graf
Artigo em Inglês | LILACS | ID: lil-771658

RESUMO

Background: Preload dynamic tests, pulse pressure variation (PPV) and stroke volume variation (SVV) have emerged as powerful tools to predict response to fluid administration. The influence of factors other than preload in dynamic preload test is currently poorly understood in pediatrics. The aim of our study was to assess the effect of tidal volume (V T) on PPV and SVV in the context of normal and reduced lung compliance in a piglet model. Material and method: Twenty large-white piglets (5.2 ± 0.4 kg) were anesthetized, paralyzed and monitored with pulse contour analysis. PPV and SVV were recorded during mechanical ventilation with a V T of 6 and 12 mL/kg (low and high V T, respectively), both before and after tracheal instillation of polysorbate 20. Results: Before acute lung injury (ALI) induction, modifications of V T did not significantly change PPV and SVV readings. After ALI, PPV and SVV were significantly greater during ventilation with a high V T compared to a low V T (PPV increased from 8.9 ± 1.2 to 12.4 ± 1.1%, and SVV from 8.5 ± 1.0 to 12.7 ± 1.2%, both P < 0.01). Conclusions: This study found that a high V T and reduced lung compliance due to ALI increase preload dynamic tests, with a greater influence of the latter. In subjects with ALI, lung compliance should be considered when interpreting the preload dynamic tests.


Introducción: Test dinámicos de precarga, variación de presión de pulso (PPV) y variación de volumen sistólico (SVV) han emergido como herramientas poderosas para predecir respuesta a la administración de fluidos. Actualmente la influencia de factores distintos a la precarga en la determinación de los test dinámicos de precarga es pobremente conocida en pediatría. Nuestro objetivo fue medir el efecto del volumen tidal (V T) sobre PPV y SVV en un contexto de compliance pulmonar normal y disminuida en un modelo porcino. Material y método: Veinte cerditos Large-White anestesiados y paralizados (5,2 ± 0,4 kg). PPV y SVV fueron medidos por análisis de contorno de pulso durante ventilación con V T de 6 y 12 mL/kg (V T bajo y alto, respectivamente), ambos previo y posterior a lesión pulmonar aguda (ALI) químicamente inducida con instilación traqueal de polisorbato 20. Resultados: Previo a inducción de ALI, PPV y SVV no tuvieron cambios significativos al modificar el V T. Sin embargo, después de ALI, PPV y SVV fueron significativamente mayores durante ventilación con V T alto, respecto a V T bajo (PPV aumentó de 8,9 ± 1,2 a 12,4 ± 1,1%, y SVV de 8,5 ± 1,0 a 12,7 ± 1,2%, ambos P < 0,01). Conclusiones: Este estudio encontró que un V T alto y una compliance pulmonar disminuida debido a ALI incrementan los test dinámicos de precarga, con una mayor influencia de esta última. En sujetos con ALI la compliance pulmonar debiera ser considerada al interpretar los test dinámicos de precarga.


Assuntos
Animais , Volume de Ventilação Pulmonar/fisiologia , Complacência Pulmonar/fisiologia , Lesão Pulmonar Aguda/fisiopatologia , Hidratação/métodos , Respiração Artificial/métodos , Volume Sistólico/fisiologia , Suínos , Pressão Sanguínea/fisiologia , Modelos Animais de Doenças
11.
Rev. méd. Chile ; 140(1): 39-44, ene. 2012. ilus
Artigo em Espanhol | LILACS | ID: lil-627605

RESUMO

Background: Cardiac output (CO) measurement is not a standard of care for critically ill children, but it can be estimated by indirect methods such as veno-arterial pCO2 difference (ΔVACO2). Aim: To determine the correlation between CO and ΔVACO2 and evaluate the usefulness of ΔVACO2 in the diagnosis of low CO in an experimental pediatric model. Materials and Methods: Thirty piglets weighing 4.8 ± 0.35 kg were anesthetized and monitored with transpulmonary thermodilution. Lung injury was induced with tracheal instillation of Tween 20®. Serial measurements of central venous and arterial blood gases, as well as CO, were obtained at baseline, 1, 2 and 4 h after lung injury induction. Low cardiac output (LCO) was defined as CO lower than 2.5 Llminlm². Results: There was an inverse correlation between CO and ΔVACO2 (r = -0.36, p < 0.01). ΔVACO2 was 14 ± 8 mmHg in LCO state and 8 ± 6 mmHg when this condition was not present (p < 0.01). Area under the receiver operating characteristic (ROC) curves of ΔVACO2 and LCO state was 0.78 (0.68-0.86). The best cut-point was 8.9 mmHg to determine LCO with a sensibility 0.78, specificity 0.7, positive predictive value 0.27 and negative predictive value 0.96. Conclusions: In this model there was an inverse correlation between ΔVACO2 and CO. The best cutoff value to discard LCO was ΔVACO2 of 8.9 mmHg, indicating that under this value the presence of LCO is very unlikely.


Assuntos
Animais , Lesão Pulmonar Aguda/sangue , Dióxido de Carbono/sangue , Baixo Débito Cardíaco/sangue , Área Sob a Curva , Gasometria , Baixo Débito Cardíaco/diagnóstico , Modelos Animais de Doenças , Valor Preditivo dos Testes , Suínos , Termodiluição
12.
Rev. chil. med. intensiv ; 22(2): 114-117, 2007. tab
Artigo em Espanhol | LILACS | ID: lil-518980

RESUMO

La condición hemodinámica de los pacientes críticos puede presentar una amplia variedad de volumen circulante efectivo y función miocárdica. La insuflación de un volumen corriente es capaz de interferir en forma cíclica sobre la hemodinámica, emergiendo la monitorización hemodinámica funcional -reflejo directo de la interacción corazón-pulmón- como una valiosa herramienta para predecir la respuesta a fluidos y como fuente de información dinámica de la condición fisiológica de cada individuo.En el siguiente artículo se revisa en forma resumida los sustentos del empleo de la variación de presión de pulso en ventilación mecánica para la predicción de respuesta a volumen, como también sus limitaciones actualmente aceptadas.


Hemodynamic condition of critically ill patients may present a wide variation of effective circulating volume and miocardic function. The insufflation of an ordinary volume may interfere cyclically on hemodynamics, and functional hemodynamic monitoring (direct reflex of heart-lung interaction) emerges as a valuable tool for predicting the response to fluids and as a dynamic source of information concerning the physiological condition of each individual. In the current article, support for the use of pulse pressure variation in mechanical ventilation for predicting response to volume, and its currently accepted limitations are dealt with in an abridged review.


Assuntos
Humanos , Adulto , Monitorização Fisiológica , Monitorização Ambulatorial da Pressão Arterial , Pressão Sanguínea/fisiologia , Respiração Artificial , Monitores de Pressão Arterial
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