ABSTRACT
BACKGROUND: In mechanically ventilated subjects, intra-tracheal secretions can be aspirated with either open suction systems (OSS) or closed suction systems (CSS). In contrast to CSS, conventional OSS require temporarily disconnecting the patient from the ventilator, which briefly diminishes PEEP and oxygen supply. On the other hand, CSS are more expensive and less effective at aspirating secretions. Thus, it was hypothesized that the 2 procedures differentially affect pulmonary and cardiovascular parameters after suction. METHODS: Subjects in the ICU (N = 66) were quasi-randomized for initial treatment with OSS or CSS in a crossover design. To compare the potential for these suction systems to compromise cardiorespiratory stability, changes in cardiopulmonary physiology were assessed from before to just after use of each suction system (three 10-s aspirations). RESULTS: For most pulmonary and cardiovascular parameters (ie, peak inspiratory pressure, airway resistance, pressure plateau, heart rate, and arterial pressures), the effects of aspiration inversely correlated with baseline values for that parameter, with a similar regression slope between suction systems. However, when controlling for baseline values, OSS caused significantly greater increases in airway resistance and peak inspiratory pressure (P < .001 and < .01 vs CSS, respectively). CONCLUSIONS: Elevated airway resistance prior to endotracheal suction may justify use of a CSS and contraindicate a conventional OSS in mechanically ventilated subjects. Adoption of this approach into clinical guidelines may prevent suction-induced pulmonary injury in subjects, especially for those with underlying diseases involving increased airway resistance or increased alveolar pressure. (ClinicalTrials.gov registration: NCT03256214.).
Subject(s)
Intubation, Intratracheal , Respiration, Artificial , Humans , Respiration, Artificial/adverse effects , Respiratory Physiological Phenomena , Suction/adverse effects , TracheaABSTRACT
La presencia de una presión arterial pulmonar media >25 mmHg en reposo y >30 mmHg en ejercicio, con una presión en cuña igual o menor de 15 mmHg y una resistencia vascular pulmonar >3 mmHg /L/ min (Uds. Wood) condiciona una entidad clínica heterogenea denominada hipertensión arterial pulmonar que tiene un amplio rango de causas o enfermedades que llevan a cambios estructurales de las pequeñas arterias pulmonares ocasionando un aumento progresivo de la presión arterial pulmonar y de la resistensia vascular pulmonar, produciendo finalmente una sobrecarga del ventrículo derecho, insuficiencia cardíaca y muerte. Es una entidad clínica con síntomas muy inespecíficos en sus etapas más tempranas y se necesita un buen criterio clínico para llegar a su diagnóstico más rápidamente. En este sentido es que adquiere valor el uso de la ecocardiografía, método que permitirá o solo cuantificar los valores de presión arterial pulmonar, sino también determinar la causa del problema, una adecuada evaluación anatómica y funcional del lecho pulmonar y de las cavidades derechas del corazón, predecir el pronostico de estos pacientes y vigilar el efecto terapéutico de tratamientos muy específicos al ayudar a detectar estados preclínicos de la enfermedad. Revisamos la utilidad y el papel del ecocardiograma en el estudio de la hipertensión arterial pulmonar.
The presence of Medium Arterial Pulmonary Pressure >25 mmHg at rest or >30mmHg during exercise associated with a wedge pulmonary pressure equal or less than 15mmHg, and a Pulmonary Vascular Resistance > 3 mmHg/L/min (Wood units) entails a heterogeneous clinical entity known as Pulmonary Arterial Hipertension which has a very wide spectrum of causes or diseases which produce estructural changes in the walls of the small pulmonary arteries causing a progressive increase of the arterial pulmonary pressure as well as the pulmonary vascular resistence, ultimately producing right ventricular overload, heart failure and death. It is a clinical entitywith very unspecific symptoms at the early stages. Wich makes the physician´s good clinical criteria needed to diagnose itsooner. In this way comes to great value the use of echocardiography, method that would allow not only to measure the arterial pulmonary pressure but would help to carify the cause of the disease, getting an adequate anatomical and funtional evaluation of the pulmonary bed and right heart chambers, predict the outcome in these patients by detecting pre-clinic stages of the disease. We reviewed the utility and role of the Echocardiogram in the study of Pulmonary Arterial Hypertension.