E-Books durchsuchen
Mechanical Ventilation Amid the COVID-19 Pandemic [2022]
- 1
-
Establishment of the Bridge Ventilator Consortium
- 2
-
An Overview of Lung Anatomy and Physiology
- 3
-
Respiratory Mechanics and Ventilation
- 4
-
Mechanical Ventilators and Monitors: An Abridged Guide for Engineers
- 5
-
An Overview of Mechanical Ventilation and Development of the UC San Diego MADVent
- 6
-
An Introduction to Noninvasive Ventilation
- 7
-
Noninvasive Ventilation and Mechanical Ventilation to Treat COVID-19-Induced Respiratory Failure
- 8
-
COVID-19 Pathophysiology and COVID-19-Induced Respiratory Failure
- 9
-
Spread of COVID-19 and Personal Protective Equipment
- 10
-
An Overview of Personal Protective Equipment and Disinfection
- 11
-
What Is a Bridge Ventilator? Basic Requirements, the Bag Valve Mask, and the Breathing Circuit
- 12
-
Hardware Considerations
- 13
-
Software Considerations
- 14
-
Development of Emergency Resuscitators: Considerations for Mechanical and Electrical Components
- 15
-
Incorporating Patient Assist Mode: The ABBU Experience
- 16
-
A Qualitative Overview of Emergency Resuscitators Approved in the COVID-19 Pandemic
- 17
-
Innovation and Regulation: The FDA’s Response to the COVID-19 Pandemic
- 18
-
Regulatory Considerations for Bridge Ventilators
- 19
-
Human Factors Considerations in the User Interface Design of Bridge Ventilator Devices
- 20
-
Preclinical Animal Testing of Emergency Resuscitator Breathing Devices
- 21
-
Multiplex Ventilation: Requirements and Feasibility of Ventilator Splitters
- 22
-
CPAP-to-Ventilator: Open-Source Documentation, UC Irvine
- 23
-
Alternatives to Conventional Noninvasive Positive-Pressure Ventilation Devices
- 24
-
Development of an Inexpensive Noninvasive Ventilation Hood
- 25
-
Collaborations and Accomplishments Among the Bridge Ventilator Consortium Teams