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Literature DB >> 21941160

Pressure modes of invasive mechanical ventilation.

Abstract

Pressure modes of invasive mechanical ventilation generate a tidal breath by delivering pressure over time. Pressure control ventilation (PC) is the prototypical pressure mode and is patient- or time-triggered, pressure-limited, and time-cycled. Other pressure modes include pressure support ventilation (PSV), pressure-regulated volume control (PRVC, also known as volume control plus [VC+]), airway pressure release ventilation (APRV), and biphasic ventilation (also known as BiLevel). Despite their complexity, modern ventilators respond to patient effort and respiratory system mechanics in a fairly predictable fashion. No single mode has consistently demonstrated superiority in clinical trials; however, empiric management with a pressure mode may achieve the goals of patient-ventilator synchrony, effective respiratory system support, adequate gas exchange, and limited ventilator-induced lung injury.

Entities: Disease Species

Mesh：

Year: 2011 PMID： 21941160 DOI： 10.1097/SMJ.0b013e31822da7fa

Source DB: PubMed Journal: South Med J ISSN： 0038-4348 Impact factor: 0.954

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Cited

5 in total

Review 1. Brazilian recommendations of mechanical ventilation 2013. Part I.

Authors:
Journal: J Bras Pneumol Date: 2014 Jul-Aug Impact factor: 2.624

Review 2. Invasive Mechanical Ventilation.

Authors: James M Walter; Thomas C Corbridge; Benjamin D Singer
Journal: South Med J Date: 2018-12 Impact factor: 0.954

Review 3. Brazilian recommendations of mechanical ventilation 2013. Part I.

Authors: Carmen Sílvia Valente Barbas; Alexandre Marini Isola; Augusto Manoel de Carvalho Farias; Alexandre Biasi Cavalcanti; Ana Maria Casati Gama; Antonio Carlos Magalhães Duarte; Arthur Vianna; Ary Serpa Neto; Bruno de Arruda Bravim; Bruno do Valle Pinheiro; Bruno Franco Mazza; Carlos Roberto Ribeiro de Carvalho; Carlos Toufen Júnior; Cid Marcos Nascimento David; Corine Taniguchi; Débora Dutra da Silveira Mazza; Desanka Dragosavac; Diogo Oliveira Toledo; Eduardo Leite Costa; Eliana Bernardete Caser; Eliezer Silva; Fabio Ferreira Amorim; Felipe Saddy; Filomena Regina Barbosa Gomes Galas; Gisele Sampaio Silva; Gustavo Faissol Janot de Matos; João Claudio Emmerich; Jorge Luis Dos Santos Valiatti; José Mario Meira Teles; Josué Almeida Victorino; Juliana Carvalho Ferreira; Luciana Passuello do Vale Prodomo; Ludhmila Abrahão Hajjar; Luiz Cláudio Martins; Luiz Marcelo Sá Malbouisson; Mara Ambrosina de Oliveira Vargas; Marco Antonio Soares Reis; Marcelo Brito Passos Amato; Marcelo Alcântara Holanda; Marcelo Park; Marcia Jacomelli; Marcos Tavares; Marta Cristina Paulette Damasceno; Murillo Santucci César Assunção; Moyzes Pinto Coelho Duarte Damasceno; Nazah Cherif Mohamad Youssef; Paulo José Zimmermann Teixeira; Pedro Caruso; Péricles Almeida Delfino Duarte; Octavio Messeder; Raquel Caserta Eid; Ricardo Goulart Rodrigues; Rodrigo Francisco de Jesus; Ronaldo Adib Kairalla; Sandra Justino; Sérgio Nogueira Nemer; Simone Barbosa Romero; Verônica Moreira Amado
Journal: Rev Bras Ter Intensiva Date: 2014 Apr-Jun

4. Comparison of respiratory and hemodynamic stability in patients with traumatic brain injury ventilated by two ventilator modes: Pressure regulated volume control versus synchronized intermittent mechanical ventilation.

Authors: Omid Aghadavoudi; Babak Alikiaii; Fariba Sadeghi
Journal: Adv Biomed Res Date: 2016-11-28

5. Whole-lung finite-element models for mechanical ventilation and respiratory research applications.

Authors: Nibaldo Avilés-Rojas; Daniel E Hurtado
Journal: Front Physiol Date: 2022-10-04 Impact factor: 4.755

5 in total