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Introduction: Cardiovascular diseases have been increasing gradually each year, and their incidence has reached 80%. Mechanical ventilation (MV) is essential in the postoperative period of cardiac surgery (CS) due to anesthetic induction. The tidal volume (TV) is a parameter that depends on the conditions of the respiratory system mechanics, aiming at the reduction of dynamic hyperinflation. Objective: Analyze the effect of different TVs on blood gas analysis variables and respiratory mechanics in patients submitted to CS. Materials and methods: This was an uncontrolled randomized clinical trial. Patients were randomized by lottery into the following two groups: One group was ventilated with a TV of 6 mL/kg; while the other received a TV of 8 mL/kg. After 30 minutes of admission with the VT, blood gas analysis data were evaluated, such as pH, oxygen arterial pressure (PaO2), arterial pressure of carbon dioxide (PaCO2), and peripheral oxygen saturation (SpO2). The evaluation of respiratory mechanics was composed of static and dynamic compliance, airway resistance, and driving pressure. Results: A total of 78 patients were included, 58% of whom were males with a mean age of 55 ± 13 years. It was observed that there were no significant differences regarding respiratory mechanics, only the driving pressure presented statistical significance, the group 6 mL/kg was 8.3 ± 2.5 in the group 8 mL/kg 10.4 ± 2.1 presenting a value of (p < 0.001). Conclusion: Based on the findings of the present study, we conclude that different TVs do not significantly alter the blood gas variables and do not influence the respiratory mechanics of patients undergoing CS. How to cite this article: Cordeiro A, Souza A, de Brito Lima CR, Araújo J, Mascarenhas H, Guimarães A. Analysis of Different Tidal Volumes on Ventilatory Mechanics and Arterial Blood Gas Variables in Patients Undergoing Cardiac Surgery. Indian J Crit Care Med 2023;27(12):930-933.
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INTRODUCTION: At the beginning of the SARS-CoV-2 pandemic, acute respiratory failure has been the most important cause of hospitalization in patients with COVID-19, being more severe in patients with comorbidities and risk factors. In these scenarios hypoxemia has been associated with increased mortality. Our objective was to identify parameters obtained from arterial blood gases (ABG) associated with mortality in patients with COVID-19 at hospital admission. METHODS: GSA samples obtained by breathing room air (FiO2 21%) processed in the clinical laboratory were retrospectively studied in an ABL90 flex analyzer (Radiometer). RESULTS: Acute respiratory alkalosis was the predominant acid-base disturbance. Considering those patients with respiratory failure (paO2 < 60 mmHg), "silent" hypoxemia was observed in 11/176 (6%) of studied patients. In a multivariate analysis, three gasometric parameters at admission showed a positive association with hospital mortality: paO2 (p=0.053), paO2/pO2e index (which expresses the paO2 adjusted to the paO2 expected for age) (p=0.047) and fractional saturation of hemoglobin (OxiHb%) (p=0.028). DISCUSSION: GSA generate a key contribution in understanding the pathophysiology of the COVID-19 patient: in the initial evaluation, monitoring and prognosis of this disease.
Introducción: En los inicios de la pandemia por SARSCoV-2 la insuficiencia respiratoria aguda ha sido la causa más importante de hospitalización inmediata en los pacientes con COVID-19 que acudían a los servicios de urgencias, siendo mayor la gravedad en pacientes con comorbilidades y factores de riesgo preexistentes; en estos escenarios la hipoxemia ha sido asociada a mortalidad. Nuestro objetivo fue identificar parámetros obtenidos de los gases en sangre arterial (GSA) asociados a mortalidad en pacientes con COVID-19 al ingreso hospitalario. Métodos: Se estudiaron retrospectivamente muestras de GSA obtenidos respirando aire ambiente (FiO2 21%) procesadas en el laboratorio clínico en un analizador ABL90 flex (Radiometer). Resultados: La alcalosis respiratoria aguda fue el disturbio ácido base predominante. Considerando aquellos pacientes con insuficiencia respiratoria (paO2 < 60 mmHg) se observó hipoxemia "silenciosa" en 11/176 (6%) de los pacientes estudiados. En un análisis multivariado tres parámetros gasométricos al ingreso mostraron asociación positiva a mortalidad hospitalaria: paO2 (p = 0.053), índice paO2/pO2e (que expresa la paO2 ajustada a la paO2 esperada para la edad) (p = 0.047) y saturación fraccional de hemoglobina (OxiHb%) (p = 0.028). Discusión: Los GSA generan un aporte clave en la comprensión de la fisiopatología del paciente COVID-19; en la evaluación inicial, seguimiento y pronóstico de esta enfermedad.
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COVID-19 , Humanos , Mortalidade Hospitalar , SARS-CoV-2 , Estudos Retrospectivos , Hipóxia , Hospitalização , OxigênioRESUMO
Resumen Introducción : En los inicios de la pandemia por SARS-CoV-2 la insuficiencia respiratoria aguda ha sido la causa más importante de hospitalización inmediata en los pacientes con COVID-19 que acudían a los servicios de urgencias, siendo mayor la gravedad en pacientes con comorbilidades y factores de riesgo preexistentes; en estos escenarios la hipoxemia ha sido asociada a mortalidad. Nuestro objetivo fue identificar parámetros obtenidos de los gases en sangre arterial (GSA) asocia dos a mortalidad en pacientes con COVID-19 al ingreso hospitalario. Métodos : Se estudiaron retrospectivamente muestras de GSA obtenidos respirando aire ambiente (FiO2 21%) procesadas en el laboratorio clínico en un analizador ABL90 flex (Radiometer). Resultados : La alcalosis respiratoria aguda fue el dis turbio ácido base predominante. Considerando aquellos pacientes con insuficiencia respiratoria (paO2 < 60 mmHg) se observó hipoxemia "silenciosa" en 11/176 (6%) de los pacientes estudiados. En un análisis multivariado tres parámetros gasométricos al ingreso mostraron asocia ción positiva a mortalidad hospitalaria: paO2 (p = 0.053), índice paO2/pO2e (que expresa la paO2 ajustada a la paO2 esperada para la edad) (p = 0.047) y saturación fraccional de hemoglobina (OxiHb%) (p = 0.028). Discusión : Los GSA generan un aporte clave en la comprensión de la fisiopatología del paciente COVID-19; en la evaluación inicial, seguimiento y pronóstico de esta enfermedad.
Abstract Introduction : At the beginning of the SARS-CoV-2 pandemic, acute respiratory failure has been the most important cause of hospitalization in patients with COVID-19, being more severe in patients with comorbidi ties and risk factors. In these scenarios hypoxemia has been associated with increased mortality. Our objective was to identify parameters obtained from arterial blood gases (ABG) associated with mortality in patients with COVID-19 at hospital admission. Methods : GSA samples obtained by breathing room air (FiO2 21%) processed in the clinical laboratory were retrospectively studied in an ABL90 flex analyzer (Radi ometer). Results : Acute respiratory alkalosis was the predomi nant acid-base disturbance. Considering those patients with respiratory failure (paO2 <60 mmHg), "silent" hypox emia was observed in 11/176 (6%) of studied patients. In a multivariate analysis, three gasometric parameters at admission showed a positive association with hos pital mortality: paO2 (p=0.053), paO2/pO2e index (which expresses the paO2 adjusted to the paO2 expected for age) (p=0.047) and fractional saturation of hemoglobin (OxiHb%) (p=0.028). Discussion : GSA generate a key contribution in un derstanding the pathophysiology of the COVID-19 pa tient: in the initial evaluation, monitoring and prognosis of this disease.
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OBJECTIVE: To determine how blood gas exchange is altered during the transition in the first hour of life in infants with congenital diaphragmatic hernia (CDH). STUDY DESIGN: This was a prospective observational cohort study evaluating arterial blood gas (ABG) samples and ventilator support in 34 infants with CDH in the first hour of life. Infants were stratified into mild, moderate, and severe CDH. The first ABG was compared with the umbilical cord ABGs and response to intervention evaluated on subsequent ABGs among infants with different CDH severities. RESULTS: Infants were intubated at a median of 120 seconds (range 50-240 seconds) and ABGs obtained at a median of 6 minutes (IQR 4, 8 minutes), 16 minutes (IQR 13.5, 22.5 minutes), and 60 minutes (IQR 56, 64 minutes). Compared with the cord ABG, first ABG mean partial pressure of carbon dioxide (PaCO2) increased from 49.8 mm Hg to 82.1 mm Hg, mean base deficit decreased from -2.2 to -7.3, and mean pH from 7.298 to 7.060. With ventilator adjustments, second mean PaCO2 decreased to 76.7 mm Hg and third mean PaCO2 48.5 mm Hg. When stratified, with all CDH severities PaCO2 increased abruptly, remained elevated in moderate and severe CDH, and improved in all severities by 60 minutes after delivery. CONCLUSIONS: Gas exchange is markedly altered in the first hour of life in infants with CDH with abrupt onset of acidemia and a mixed respiratory and metabolic acidosis. Early implementation of adequate cardiopulmonary support may contribute to more timely stabilization of gas exchange.
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Oxigenação por Membrana Extracorpórea , Hérnias Diafragmáticas Congênitas , Gasometria , Hérnia Diafragmática , Hérnias Diafragmáticas Congênitas/terapia , Humanos , Estudos Prospectivos , Estudos RetrospectivosRESUMO
ABSTRACT BACKGROUND: The mechanism of exercise limitation in idiopathic pulmonary arterial hypertension (IPAH) is not fully understood. The role of hemodynamic alterations is well recognized, but mechanical, ventilatory and gasometric factors may also contribute to reduction of exercise capacity in these individuals. OBJECTIVE: To investigate whether there is an association between ventilatory pattern and stress Doppler echocardiography (SDE) variables in IPAH patients. DESIGN AND SETTING: Single-center prospective study conducted in a Brazilian university hospital. METHODS: We included 14 stable IPAH patients and 14 age and sex-matched controls. Volumetric capnography (VCap), spirometry, six-minute walk test and SDE were performed on both the patients and the control subjects. Arterial blood gases were collected only from the patients. The IPAH patients and control subjects were compared with regard to the abovementioned variables. RESULTS: The mean age of the patients was 38.4 years, and 78.6% were women. The patients showed hypocapnia, and in spirometry 42.9% presented forced vital capacity (FVC) below the lower limit of normality. In VCap, IPAH patients had higher respiratory rates (RR) and lower elimination of CO2 in each breath. There was a significant correlation between reduced FVC and the magnitude of increases in tricuspid regurgitation velocity (TRV). In IPAH patients, VCap showed similar tidal volumes and a higher RR, which at least partially explained the hypocapnia. CONCLUSIONS: The patients with IPAH showed hypocapnia, probably related to their higher respiratory rate with preserved tidal volumes; FVC was reduced and this reduction was positively correlated with cardiac output.
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Humanos , Feminino , Adulto , Hipertensão Arterial Pulmonar , Estudos Transversais , Estudos Prospectivos , Ecocardiografia sob Estresse , Teste de Esforço , Hipertensão Pulmonar Primária Familiar , Pulmão/diagnóstico por imagemRESUMO
NEW FINDINGS: What is the central question of this study? This study presents a new model for studying the rapid onset of severe, acute hyperkalaemia in rats with intact kidney function by administering an intragastric KCl load. What is the main finding and its importance? This new model of intragastric KCl load produces a reliable and reproducible model for studying the rapid onset of severe, acute hyperkalaemia in rats with intact kidney function. We report unprecedented rapid changes (30 min) in ECG, blood pressure and various arterial blood analyses with this new model, providing a solid foundation for future experiments in this field. ABSTRACT: A variety of animal models have been proposed to study hyperkalaemia, but most of them have meaningful limitations when the goal is to study the effect of potassium overload on healthy kidneys. In this study, we aimed to introduce a new approach for induction of hyperkalaemia in a reliable and reproducible animal model. We used intragastric administration of potassium chloride [KCl 2.3 M, 10 ml/(kg body weight)] to male Holtzman rats (300-350 g) to induce hyperkalaemia. The results showed that this potassium load can temporarily overwhelm the renal and extrarenal handling of this ion, causing an acute and severe hyperkalaemia that can be useful to study the effect of potassium imbalance in a variety of scenarios. Severe hyperkalaemia (>8 meqiv/l) and very profound ECG alterations, characterized by lengthening waves and intervals, were seen as early as 30 min after intragastric administration of KCl in rats. In addition, a transient increase in arterial blood pressure and time-dependent bradycardia were also seen after the KCl administration. No metabolic acidosis was present in the animals, and the potassium ion did not increase proportionally to chloride ion in the blood, leading to an increased anion gap. In conclusion, the results suggest that intragastric KCl loading is a reliable model to promote rapid and severe hyperkalaemia that can be used for further research on this topic.
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Hiperpotassemia , Animais , Arritmias Cardíacas , Hiperpotassemia/etiologia , Rim , Masculino , Potássio , Cloreto de Potássio/farmacologia , RatosRESUMO
INTRODUCCIÓN: la presión barométrica determina la presión parcial de los gases tanto en el medio ambiente como a nivel alveolar pulmonar, por lo que, para una determinada presión barométrica, la presión de oxígeno y dióxido de carbono es distinta. OBJETIVO: el objetivo del presente estudio es caracterizar los valores de gasometría arterial en residentes adultos sanos a muy alta altitud en la ciudad de El Alto. METODOLOGÍA: Estudio serie de casos, realizado durante la gestión 2019 en 22 (73%) mujeres y 8 varones (27%), con una media de edad de 36.07 años. El estudio contó con la aprobación del Comité de Ética Hospitalario. RESULTADOS: a 4150 metros sobre el nivel del mar, el pH tiende hacia la alcalosis (7.43) así como la PaO2 es menor (58.69mmHg), el valor de PaCO2 (26.14mmHg) es menor correspondiente a una ciudad con mayor altitud, el valor de bicarbonato sérico (20.14mmol/L) se encuentra disminuido en compensación a la disminución de la PaCO2 y el valor de la SatO2% (91.7%) es menor al reportado a nivel del mar. Hay que destacar que el índice PaO2/FiO2 no concuerda con el cálculo realizado según la fórmula propuesta dentro de la definición de los Criterios de Berlín. Se evidencia también que, en la muestra, si bien la correlación entre la PaO2 y la SatO2% resulta como alta, no resulta perfectamente lineal. CONCLUSIÓN: resulta imperativo precisar las características propias a la fisiología correspondientes a cada altitud, buscando aplicar parámetros propios como los de la gasometría arterial para el tratamiento de las enfermedades prevalentes en cada región, así como desarrollar investigaciones específicas a gran altura, ensayar posibilidades y documentarlas.
INTRODUCTION: barometric pressure determines the partial pressure of gases both in the environment and at the pulmonary alveolar level, so for a given barometric pressure, the pressure of oxygen and carbon dioxide is different. The objective of this paper is to characterize arterial blood gas values in healthy adult residents at very high altitude in the city of El Alto. METHODOLOGY: case series study, carried out during 2019; 22 volunteers (73%) women and 8 men (27%), mean age 36.07 years are included. The study was approved by the Hospital Bioethics Committee. RESULTS: at 4150 meter above sea level, pH tends towards alkalosis (7.43) as well as PaO2 is lower (58.69mmHg), the value of PaCO2 (26.14mmHg) is lower corresponding to a city with higher altitude, the value of serum bicarbonate (20.14mmol/L) is lower in compensation at the decrease in PaCO2 and the value of SatO2% (91.7%) is lower than that reported at sea level. The PaO2/FiO2 index does not match the calculation made according to the proposed formula within the definition of the Berlin Criteria. It is also evident that, although the correlation between PaO2 and SatO2% is high, it is not perfectly linear. CONCLUSION: it is imperative to precise the characteristics corresponding to the physiology corresponding to each altitude, looking forward to apply these parameters, such as those of arterial blood gas, in the treatment of prevalent diseases for each region, and so as develop specific studies at high altitude, also testing and reporting them.
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Masculino , Feminino , Adulto , Pressão Atmosférica , Gasometria , Altitude , SangueRESUMO
Los adaptados genéticamente a la altura son los tibetanos, sherpas y etíopes; los aymaras y quechuas están aclimatados (Bolivia, Perú y norte de Chile). En Bolivia el mal crónico de montaña afecta 10% de la población masculina. El objetivo fue determinar la función ventricular derecha en residentes sanos y con mal crónico de montaña mediante ecocardiografía transtoráxica. Se utilizaron participantes sanos y con mal crónico de montaña admitidos por el IBBA, desde el año 2012 al 2013. Las variables tomadas son: demográficas, espirometria forzada, gasometría arterial en reposo e hiperoxia, ECG y ECCTT. Los controles (n 40), la edad promedio (44,13±9,69 años), predominio masculino y sobrepeso (IMC 26,27±6,68kg /m2), procedentes de La Paz 3.600 msnm (54%), Potosí 4.000 msnm (22%), El Alto 4.100 msnm (15%) y Oruro 3.800 msnm (9%), el promedio de Hematocrito 51,34±2,91%, hemoglobina 17,15±0,89gr/ dl, Espirometria forzada y Gasometría arterial en reposo e hiperoxia normales, la ECCTT muestra hipertensión pulmonar leve (35,85±3,64mmHg), aumento de grosor del VD (0,51±0,08), TAPSE (2,94±3,85mmHg) y el índice de Tei (0,44±0,22) normales. Los casos (n 40), la edad promedio (48,43±8,08 años), predominio masculino y sobrepeso (IMC 29,54±3,41kg / m2), procedente de La Paz 3.600 msnm (56%), Potosí 4.000 msnm (24%), El Alto 4.100 msnm (13%) y Oruro 3.800 msnm (7%), Hematocrito 63,08±6,2%, Hemoglobina 21,01±2,01gr/dl con eritrotrocitosis, espirometría forzada normal, gasometría arterial en reposo con hipoxemia moderada (PaO2 51,73±4,68mmHg), hipocapnia (PaCO2 27,62±2,04mmHg) y gradiente Alveolo-arterial aumentado (7,61±3,15). Gasometría arterial en hiperoxia descarta shunt (PaO2 308,9±52,58mmHg), el ECG muestra 2 de 11 criterios de crecimiento VD, la ECCTT con hipertensión pulmonar moderada (PSAP 45,22±5,69mmHg), aumento de grosor del VD (0,73±0,22), TAPSE (2,08±0,18cm), normal e índice de Tei (0,51±0,10) ligeramente aumentado. Se concluyó que la función ventricular derecha se encuentra conservada, a pesar de tener hipertensión pulmonar leve (controles) y moderada (casos), con aumento del grosor del ventrículo derecho.
Those genetically adapted to the height are the Tibetans, Sherpas, and Ethiopians; the Aymara and Quechuas are acclimatized (Bolivia, Peru, and northern Chile). In Bolivia, chronic mountain sickness affects 10% of the male population. The objective was to determine the right ventricular function in healthy residents with chronic mountain sickness using transthoracic echocardiography. Use the healthy and chronically ill mountain participants admitted by the IBBA, from 2012 to 2013. The variables taken are demographic, forced spirometry, arterial blood gas at rest and hyperoxia, ECG, and ECCTT. Controls (n 40), average age (44.13 ± 9.69 years), male predominance and overweight (BMI 26.27 ± 6.68kg / m2), frequency from La Paz 3,600 masl (54%), Potosí 4,000 masl (22%), El Alto 4,100 masl (15%) and Oruro 3,800 masl (9%), the average Hematocrit 51.34 ± 2.91%, hemoglobin 17.15 ± 0.89gr / dl, Forced spirometry y Resting arterial blood gas and normal hyperoxia, ECCTT shows mild pulmonary hypertension (35.85 ± 3.64 mmHg), increased RV thickness (0.51 ± 0.08), TAPSE (2.94 ± 3.85 mmHg ) and the Tei index (0.44 ± 0.22) normal. The cases (n 40), the average age (48.43 ± 8.08 years), male predominance and overweight (BMI 29.54 ± 3.41kg / m2), derived from La Paz 3,600 masl (56%), Potosí 4,000 masl (24%), El Alto 4,100 masl (13%) and Oruro 3,800 masl (7%), Hematocrit 63.08 ± 6.2%, Hemoglobin 21.01 ± 2.01gr / dl with erythrocytosis, normal forced spirometry , resting arterial blood gas with moderate hypoxemia (PaO2 51.73 ± 4.68mmHg), hypocapnia (PaCO2 27.62 ± 2.04mmHg) and increased Alveolo-arterial gradient (7.61 ± 3.15). Arterial blood gas in hyperoxia rules out shunt (PaO2 308.9 ± 52.58mmHg), ECG shows 2 of 11 RV growth criteria, ECCTT with moderate pulmonary hypertension (PSAP 45.22 ± 5.69mmHg), increased RV thickness (0.73 ± 0.22), TAPSE (2.08 ± 0.18cm), normal and Tei index (0.51 ± 0.10) slightly increased. It was concluded that the right ventricular function is preserved, a weight of having mild pulmonary hypertension (controls) and moderate (cases), with increased thickness of the right ventricle.
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Humanos , Adulto , Pessoa de Meia-Idade , Adaptação Fisiológica/genética , Função Ventricular Direita/fisiologia , Doença da Altitude , Valores de Referência , Espirometria/métodos , Gasometria , Bolívia , Ecocardiografia , Estudos Transversais , Estudos Prospectivos , Povos IndígenasRESUMO
Fruit peels of Plinia cauliflora (Mart.) Kausel are widely used in Brazilian traditional medicine, but no studies have proved the safety of its pharmacological effects on the respiratory, cardiovascular, and central nervous systems. The present study assessed the safety pharmacology of P. cauliflora in New Zealand rabbits. First, an ethanol extract (EEPC) was selected for the pharmacological experiments and chemical characterization. Then, different groups of rabbits were orally treated with EEPC (200 and 2000 mg/kg) or vehicle. Acute behavioral and physiological alterations in the modified Irwin test, respiratory rate, arterial blood gas, and various cardiovascular parameters (i.e., heart rate, blood pressure, and electrocardiography) were evaluated. The main secondary metabolites that were identified in EEPC were ellagic acid, gallic acid, O-deoxyhexosyl quercetin, and the anthocyanin O-hexosyl cyanidin. No significant behavioral or physiological changes were observed in any of the groups. None of the doses of EEPC affected respiratory rate or arterial blood gas, with no changes on blood pressure or electrocardiographic parameters. The present study showed that EEPC did not cause any significant changes in respiratory, cardiovascular, or central nervous system function. These data provide scientific evidence of the effects of this species and important safety data for its clinical use.
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La encefalopatía por hipoxia es causa de discapacidad y requiere de nuevas estrategias terapéuticas. El pirofosfato de tiamina (PPT) es un cofactor esencial de enzimas fundamentales en el metabolismo de la glucosa, cuya disminución puede conducir a la falla en la síntesis de ATP y a la muerte celular. El objetivo de este estudio fue determinar si la administración de PPT, puede reducir el daño celular en un modelo de hipoxia neonatal en ratas. Animales de 11 días de edad fueron tratados con PPT (130 mg/kg) en dosis única o solución salina, una hora antes del protocolo de hipoxia o al término de ésta. Los cerebros fueron colectados para la evaluación del daño celular. Además, se tomaron muestras sanguíneas para evaluar los indicadores gasométricos de presión de dióxido de carbono (PaCO2) y de oxígeno (PaO2) en sangre arterial y pH. Los resultados muestran que la administración de PPT previa a la inducción de hipoxia, reduce el daño celular y restablece los indicadores gasométricos. Estos datos indican que el uso de PPT reduce el daño inducido por la hipoxia en animales neonatos.
Hypoxic encephalopathy is a leading cause of disability and requires new therapeutic strategies. Thiamine pyrophosphate (TPP) is an essential cofactor of fundamental enzymes involved in glucose metabolism. TPP reduction may lead to ATP synthesis failure and cell death. The objective of this study was to determine if TPP administration can reduce cellular damage in a model of neonatal hypoxia in rats. Eleven day old animals were treated with TPP (130 mg/kg) as a single dose or with saline solution one hour before the hypoxia protocol or after ending the protocol. The brains were collected to evaluate cellular damage. Blood samples were also collected to evaluate arterial oxygen tension (PaO2), carbon dioxide tension (PaCO2) and acidity (pH). The results showed that TPP administration previous to hypoxia induction reduces cellular damage and reestablishes arterial blood gases. These data indicate that TPP use reduces the damage induced by hypoxia in neonatal animals.
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Animais , Masculino , Ratos , Tiamina Pirofosfato/administração & dosagem , Apoptose/efeitos dos fármacos , Substâncias Protetoras/administração & dosagem , Hipóxia/tratamento farmacológico , Oxigênio/sangue , Tiamina Pirofosfato/farmacologia , Gasometria , Encefalopatias/prevenção & controle , Ratos Wistar , Substâncias Protetoras/farmacologia , Modelos Animais de Doenças , Concentração de Íons de Hidrogênio , Animais Recém-NascidosRESUMO
Antecedentes: El procedimiento de tomar las muestras de gases arteriales puede ser técnicamente difícil y tiene limitaciones y complicaciones. La colocación de un catéter venoso central es un procedimiento obligado en la unidad de cuidados intensivos (UCI). La toma de muestras de sangre venosa central es mucho más fácil y rápida, y menos complicada. Contexto: Correlación y concordancia entre los valores de pH, PO2, PCO2 y HCC3 en sangre arterial y venosa central de pacientes con ventilación mecánica. Objetivo: El objetivo era evaluar la correlación y la concordancia entre los valores de pH, PO2, PCO2 y HCC3 en sangre arterial y venosa central e inferir si los valores de los gases venosos centrales podían reemplazar la lectura de los gases arteriales. Lugar y diseño: UCI y estudio prospectivo de tipo observacional. Materiales y métodos: Se tomaron en total 100 muestras (50 gases arteriales y 50 gases venosos centrales) de 50 pacientes adultos con distintos procesos patológicos ingresados en la UCI de un hospital universitario. Se ingresaron en el estudio los pacientes normotensos y normotérmicos que requirieron ventilación mecánica y tenían arteria radial palpable. No se repitió ningún paciente en el estudio. En cada paciente se tomó primero la muestra de sangre arterial de la arteria radial y 2 min después se tomó la muestra de sangre venosa central. Se evaluaron la correlación y la concordancia entre los valores de pH, PO2, PCO2 y HCO3 - en sangre arterial y venosa central. Análisis estadístico utilizado: Correlación de Pearson y análisis de Bland Altman. Resultados: Se encontró una correlación significativa entre los valores venosos y arteriales de pH, PO2, PCO2 y HCO3 (r pH = 0,88, p< 0,001; rP02 = 0,358, p<0,05; rPC0(2) = 0,470, p< 0,001 y rHC03 = 0,714, p< 0,001). Se derivaron ecuaciones de regresión para predecir los valores en sangre arterial a partir de los valores en sangre venosa: pH arterial = 0,879 xpH venoso central +114,4 (constante), R² = 0,128, PC0(2) arterial = 0,429 x P0(2) venoso central + 24.627 (constante), R² = 0,2205 y HC0(3) arterial = 1.045 x HC0(3) venoso central+ 3.402 (constante), R² = 0,5101. La diferencia media de la lectura arterial menos la venosa para pH, P0(2), PC0(2), y bicarbonato fue de 0,053 ± 0,014, 56,04 ± 15,74, 2,20 ± 4,4 y 4,30 ± 1,64, respectivamente. Las gráficas de Bland-Altmanpara la concordancia de los valores de pH, P0(2), PC0(2) y bicarbonato mostraron límites de concordancia del 95% de -0,04 a 0,146, -52,51 a 164,59, -26,61 a 31,01 y -7,0 a 15,6, respectivamente. Conclusiones: Hubo una buena correlación entre los valores arteriales y venosos centrales de pH, P0(2), PC0(2) y HCO3 -. Sin embargo, solamente el valor venoso central del pH puede reemplazar el valor arterial del pH.
Background: The procedure for arterial blood sampling can be technically difficult with various limitations and complications. Central venous catheterization is a mandatory procedure in ICU. The sampling of central venous blood is much easier, quicker and less complicated. Context: Correlation and agreement between arterial and central venous blood pH, PO2, PCO2 and HCO3 − values of mechanically ventilated patients. Aims: Aim was to evaluate the correlation and agreement between arterial and central venous blood pH, PO2, PCO2 and HCO3 − values and infer whether central venous blood gas values could replace arterial blood gas values. Settings and design: Intensive Care Unit and prospective observational study. Materials and methods: A total of 100 samples (50 arterial blood gas and 50 central venous blood gas) were collected from 50 adult patients with varied disease process admitted in a medical college ICU. Patients requiring mechanical ventilation having palpable radial artery, normotensive and normothermic were enrolled for the study. No patient was repeated for the study. Arterial blood was collected from radial artery and within 2 minutes central venous blood was withdrawn from the same patient. Correlation and agreement were evaluated between arterial and central venous pH, PO2, PCO2 and HCO3 −. Statistical analysis used: Pearson's correlation and Bland-Altman analysis. Results: The pH, PO2, PCO2 and HCO3 − of CVBG correlated significantly with arterial values (r pH = 0.88, P < 0.001; rPO2 = 0.358, P < 0.05; rPCO2 = 0.470, P < 0.001 and rHCO3 = 0.714, P < 0.001). Regression equations were derived to predict arterial blood values from venous blood values as follows: arterial pH= 0.879×central venous pH+ 0.9422 (constant), arterial PO2 = 0.421×central venous PO2 + 114.4 (constant), R² = 0.128, arterial PCO2 = 0.429×central venous PO2 + 24.627 (constant), R² = 0.2205 and arterial HCO3 = 1.045×central venous HCO3 + 3.402 (constant), R² = 0.5101. The mean arterial minus venous difference for pH, PO2, PCO2, and bicarbonatewas 0.053±0.014, 56.04±15.74, 2.20±4.4 and 4.30±1.64 respectively. Bland-Altman plots for agreement of pH, PO2, PCO2, and bicarbonate showed 95% limits of agreement of −0.04 to 0.146, −52.51 to 164.59, −26.61 to 31.01 and −7.0 to 15.6, respectively. Conclusions: The arterial pH, PO2, PCO2 and HCO3 – values correlatedwell with central venous values. However, only the arterial pH value can replace the central venous pH value.