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The oxygenator performs the crucial task of gas exchange in place of the patient’s natural lungs. The native lung and the oxygenator share a number of characteristics, including having a gas compartment and a blood space, being propelled by passive diffusion gradients, and using a membrane to separate the blood from the gas.
The membrane in the oxygenator is typically constructed of microporous polypropylene. This substance is extruded into thin straws with an overall surface area of 2 to 4 m2, an outer diameter of 200 to 400 m, and a wall thickness of 20 to 50 m. Most oxygenators can arterialize up to 7 L/min of normal venous blood and have a static priming volume of 135 to 340 mL.
Adequate tissue oxygenation is the aim of oxygen delivery. The supplementary oxygen delivery method must be suitable for the patient’s size and clinical state. The oxygen delivery system and flow are chosen with the patient’s individual physiologic needs and therapeutic objectives in mind. The lowest possible fractional concentration of inspired oxygen should be used to deliver oxygen therapy at precise and safe levels.
The Global Paediatric oxygenator market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Patients depend on oxygen concentrators 24 hours a day, seven days a week, and need solutions that can meet their needs wherever they travel and whenever they need oxygen. Philips focuses on creating oxygen concentrators that can accomplish this.
They provide an extensive selection of oxygen concentrators ranging from dosage pulse to 10-litre continuous flow, patients can feel secure wherever they go thanks to the simplyGo and simplygo mini’s powerful and portable performance. And with our EverFlo stationary oxygen concentrator a simple, convenient, and fashionable option that weighs only 31 pounds is offered.
The Inogen One portable oxygen concentrator (POC) is strong enough to provide patients with the oxygen therapy they require while also being portable enough for them to go anywhere, day or night (whenever it is operating on battery power or wall power). Some individuals have a higher survival rate when they use additional oxygen for at least 15 hours per day . Furthermore, portable oxygen therapy can be used at any time, day or night.
