Cuidados de enfermería en el paciente crítico con ventilación mecánica no invasiva

El desarrollo biotecnológico en el siglo XX, y la progresión mantenida en el siglo XXI, generan un gran cambio en los cuidados a los pacientes. Como disciplina y profesión sanitaria la Enfermería debe ser capaz de adaptarse a los cambios y a las necesidades de los usuarios, con el fin de garantizar y procurar la excelencia del cuidado. La Ventilación Mecánica No Invasiva (VMNI) es un soporte ventilatorio que, sin invadir la vía aérea, logra mantener presiones positivas. Sus beneficios y utilidades son diversos según sus modos –BiPAP, CPAP-. El hecho de no ser invasiva conlleva que el paciente debe estar consciente y colaborar con la técnica ventilatoria, evitando de este modo la sedación y el riesgo de infección relacionado con los dispositivos supra e infra glóticos. Sin duda, como toda intervención también están descritas sus contraindicaciones y, el abordaje de cuidados por parte de enfermería debe ser constante, con el fin de garantizar la calidad de dicho procedimiento. La VMNI a través de un flujo generado por una turbina / respirador, logra la presión positiva en el paciente al ceñir una interfaz a la superficie facial. Existen múltiples interfaces en función del tamaño del usuario, de la vía aérea a ventilar –boca, nariz y boca-nariz- y de los puntos de apoyo donde se realiza la presión con el fin de ceñir la máscara y evitar fugas. Al generar presión a NIMVel tisular, existe un alto riesgo per se. Enfermería debe de valorar, diagnosticar y planificar los objetivos e intervenciones con el fin de preservar la dermis y la epidermis de lesiones; evaluando de manera periódica los resultados obtenidos y adaptando sus cuidados a las nuevas necesidades del paciente. A la intervención propiamente de la VMNI le acompañan otros procedimientos habitualmente, como son la monitorización gasométrica del paciente, la aerosolterapia y todas aquellas actividades que el profesional de Enfermería realiza para evitar las infecciones. Además, durante la evaluación continua de todo el proceso, la agudización de la situación del paciente puede conllevar la necesidad de permeabilizar la vía aérea, por lo que hay que conocer la Secuencia Rápida de Inducción e Intubación. La presente Tesis da respuesta a cómo se deben realizar los cuidados que Enfermería durante el complejo manejo del paciente crítico que precisa Ventilación Mecánica No Invasiva. Con el fin de mejorar el confort de los usuarios y favorecer la limpieza de la vía aérea, el intercambio gaseoso y mejorar el patrón respiratorio se han diseñado y ejecutado cinco estudios y dos proyectos de investigación, con el fin de generar nuevas y futuras líneas de investigación en las que ya se están trabajando. Las conclusiones alcanzas determinan la necesidad de cambio en las actividades en dos de las intervenciones descritas en la clasificación normalizada de Enfermería –NIC-: “Manejo de la Ventilación Mecánica: prevención de la Neumonía” y “Manejo de la Ventilación Mecánica: No Invasiva”. Además, de la necesidad de desarrollar e incluir a la NIC: “Administración de medicación: aerosolterapia durante la ventilación mecánica no invasiva: inhalatoria”.

Correlación SO2/FiO2 con PaO2/FiO2 en niños en ventilación mecánica a grandes alturas : estudio multicéntrico

Cambios en la PaO2 se correlacionan de manera positiva con cambios en la SO2 permitiendo determinar la severidad de la hipoxemia. La búsqueda de un predictor que de forma no invasiva detecte pacientes con mayor compromiso pulmonar ha ganando auge; estableciendo los grados de hipoxemia moderada o severa como criterios para LPA y SDRA, a partir de los valores de PaO2/FiO2 y su correlación con la SO2/FiO2. No se conocen los valores de SO2/FiO2 que a más de 2500msnm permitan identificar la severidad de la hipoxemia en pediatría. Metodología: estudio de correlación y predicción en pacientes de un mes a 18 años de edad admitidos a UCIP, con soporte ventilatorio mecánico y análisis de gases arteriales seriados en dos Hospitales de referencia. Análisis de relación lineal y determinación de la correlación SOFiO2 y PaFiO2 a partir de 430 mediciones. Resultados: el estudio mostro una media para PaO2/FiO2 de 192,12 (DS+75,62) y para SO2/FiO2 de 208,61 (DS+62,79). La correlación SO2/FiO2 y Pa/FiO2 fue positiva y moderada-alta (r= 0,702;p<0.01). A partir de la regresión lineal entre las variables se obtuvo la ecuación de determinación PaO2/FiO2 = (0.92xSO2/FIO2) - 12, con sensibilidad y especificidad de 76% para detectar hipoxemia severa (SO2/FiO2<231), y sensibilidad de 74% y especificidad de 71% para hipoxemia moderada (SO2/FiO2<340). Discusión: los hallazgos obtenidos son muy útiles desde el punto de vista clínico para detectar rápidamente pacientes con hipoxemia moderada y severa, con riesgo potencial de deterioro, cuando no se dispone de línea arterial ó gases arteriales.

Ventilação e prescrições urbanísticas: uma aplicação simulada para a Orla da Praia do Meio em Natal/RN

This work analyses a study on natural ventilation and its relation to the urban legislation versus the building types in an urban fraction of coastal area of Praia do Meio in the city of Natal/RN, approaching the type or types of land use most appropriate to this limited urban fraction. The objective of this study is to analyse the effects of the present legislation as well as the types of buildings in this area on the natural ventilation. This urban fraction was selected because it is one of the sites from where the wind flows into the city of Natal. This research is based on the hypothesis stating that the reduction on the porosity of the urban soil (decrease in the set back/boundary clearance), and an increase in the form (height of the buildings) rise the level of the ventilation gradient, consequently causing a reduction on the wind speed at the lowest part of the buildings. Three-dimensional computational models were used to produce the modes of occupation allowed in the urban fraction within the area under study. A Computational Fluid Dynamics (CFD) software was also used to analyse the modes of land occupation. Following simulation, a statistical assessment was carried out for validation of the hypothesis. It was concluded that the reduction in the soil porosity as a consequence of the rates that defined the minimum boundary clearance between the building and the boundary of the plot (and consequently the set back), as well as the increase in the building form (height of the buildings) caused a reduction in the wind speed, thus creating heat islands

Ventilação e prescrições urbanísticas: uma aplicação simulada no bairro de Petrópolis em Natal/RN

The present work studies the natural ventilation and its relationship with the urban standards, which establishes the form of occupation and use of the land in our cities. The method simulates the application of the urban standards of the City Master Plan over the last three years. The simulation takes place in the District of Petrópolis, in the city of Natal , Brazil and analyses the effects of the standards of natural ventilation. The formulated hypothesis states that the reductions in the urban spaces between buildings rises up the vertical profile of ventilation, reducing, therefore, the velocity of the wind at the lower levels of the buildings. To develop the study, occupation models were built, using computerized, three-dimensional models. These occupation models were analyzed using the CFD (Computational Fluid Dynamics) code. The conclusion is that the more we reduce the urban space between buildings, the more we reduce the wind speed in constructed areas, increasing, therefore, the possibility to generate heat islands

Comparação entre a ventilação com pressão positiva intermitente ou pressão controlada em equinos anestesiados com isofluorano

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Avaliação dos níveis de umidificação e aquecimento durante ventilação artificial com a estação de trabalho de anestesia Primus da Dräger com baixo fluxo de gases frescos e permutador de calor e umidade

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Ventilação e prescrições urbanísticas: uma aplicação simulada para a Orla da Praia do Meio em Natal/RN

This work analyses a study on natural ventilation and its relation to the urban legislation versus the building types in an urban fraction of coastal area of Praia do Meio in the city of Natal/RN, approaching the type or types of land use most appropriate to this limited urban fraction. The objective of this study is to analyse the effects of the present legislation as well as the types of buildings in this area on the natural ventilation. This urban fraction was selected because it is one of the sites from where the wind flows into the city of Natal. This research is based on the hypothesis stating that the reduction on the porosity of the urban soil (decrease in the set back/boundary clearance), and an increase in the form (height of the buildings) rise the level of the ventilation gradient, consequently causing a reduction on the wind speed at the lowest part of the buildings. Three-dimensional computational models were used to produce the modes of occupation allowed in the urban fraction within the area under study. A Computational Fluid Dynamics (CFD) software was also used to analyse the modes of land occupation. Following simulation, a statistical assessment was carried out for validation of the hypothesis. It was concluded that the reduction in the soil porosity as a consequence of the rates that defined the minimum boundary clearance between the building and the boundary of the plot (and consequently the set back), as well as the increase in the building form (height of the buildings) caused a reduction in the wind speed, thus creating heat islands

Ventilação e prescrições urbanísticas: uma aplicação simulada no bairro de Petrópolis em Natal/RN

The present work studies the natural ventilation and its relationship with the urban standards, which establishes the form of occupation and use of the land in our cities. The method simulates the application of the urban standards of the City Master Plan over the last three years. The simulation takes place in the District of Petrópolis, in the city of Natal , Brazil and analyses the effects of the standards of natural ventilation. The formulated hypothesis states that the reductions in the urban spaces between buildings rises up the vertical profile of ventilation, reducing, therefore, the velocity of the wind at the lower levels of the buildings. To develop the study, occupation models were built, using computerized, three-dimensional models. These occupation models were analyzed using the CFD (Computational Fluid Dynamics) code. The conclusion is that the more we reduce the urban space between buildings, the more we reduce the wind speed in constructed areas, increasing, therefore, the possibility to generate heat islands

Ventilação e prescrições urbanísticas: uma aplicação simulada para a Orla da Praia do Meio em Natal/RN

This work analyses a study on natural ventilation and its relation to the urban legislation versus the building types in an urban fraction of coastal area of Praia do Meio in the city of Natal/RN, approaching the type or types of land use most appropriate to this limited urban fraction. The objective of this study is to analyse the effects of the present legislation as well as the types of buildings in this area on the natural ventilation. This urban fraction was selected because it is one of the sites from where the wind flows into the city of Natal. This research is based on the hypothesis stating that the reduction on the porosity of the urban soil (decrease in the set back/boundary clearance), and an increase in the form (height of the buildings) rise the level of the ventilation gradient, consequently causing a reduction on the wind speed at the lowest part of the buildings. Three-dimensional computational models were used to produce the modes of occupation allowed in the urban fraction within the area under study. A Computational Fluid Dynamics (CFD) software was also used to analyse the modes of land occupation. Following simulation, a statistical assessment was carried out for validation of the hypothesis. It was concluded that the reduction in the soil porosity as a consequence of the rates that defined the minimum boundary clearance between the building and the boundary of the plot (and consequently the set back), as well as the increase in the building form (height of the buildings) caused a reduction in the wind speed, thus creating heat islands

Ventilação e prescrições urbanísticas: uma aplicação simulada no bairro de Petrópolis em Natal/RN

The present work studies the natural ventilation and its relationship with the urban standards, which establishes the form of occupation and use of the land in our cities. The method simulates the application of the urban standards of the City Master Plan over the last three years. The simulation takes place in the District of Petrópolis, in the city of Natal , Brazil and analyses the effects of the standards of natural ventilation. The formulated hypothesis states that the reductions in the urban spaces between buildings rises up the vertical profile of ventilation, reducing, therefore, the velocity of the wind at the lower levels of the buildings. To develop the study, occupation models were built, using computerized, three-dimensional models. These occupation models were analyzed using the CFD (Computational Fluid Dynamics) code. The conclusion is that the more we reduce the urban space between buildings, the more we reduce the wind speed in constructed areas, increasing, therefore, the possibility to generate heat islands

Mecánica de la partícula

Duración (en horas): De 41 a 50 horas. Nivel educativo: Grado

Monitorización avanzada en el posoperatorio de las cardiopatías congénitas : motorización hemodinámica avanzada en el posoperatorio de cardiopatías congénitas mediante termodilución transpulmonar y espectroscopia cercana al infrarrojo

196 p. : graf.

El tiempo como observable en mecánica cuántica

121 p.

Estadificación ganglionar (N) no invasiva en el cáncer de pulmón (no pequeñas células)

97 p. : il.