By lowering the stress on the lungs, the device can help patients with oxygen saturation levels between 88 and 92. The oxygen concentrator has become a sought-after device as the need for medical oxygen continues to rise with environmental pollution. Concentrators, unlike medical oxygen generated from industrial units and delivered via cylinders, are equipment that can be operated at home.

An oxygen concentrator takes in air, separates the oxygen, and provides it through a nasal cannula to a person. Air contains 79 percent nitrogen and 21% oxygen, but a concentrator that plugs into an electrical source can produce air that contains up to 95 percent oxygen. When respiratory illnesses cause oxygen saturation levels to fall below 90%, an external device that delivers pure oxygen relieves the strain on the lungs. However, in cases of severe respiratory distress, oxygen that is nearly 99 percent pure may be required, and an oxygen concentrator is not capable of doing so. If you are looking for a suitable oxygen concentrator in Dubai, buy from Sehaaonline. Our comprehensive range of products are made from the best quality.

#1. When is an oxygen concentrator needed?

It could be a sign of respiratory distress if blood saturation levels fall below 94 percent. Normally, this would necessitate hospitalisation, but if they can't get to a hospital, the gadget could aid those whose saturation levels are between 88 and 92. Any lower would necessitate more intensive oxygenation, while any higher would indicate that improved lung function could eliminate the need for such a device.

#2. How does it work?

A compressor and a sieve bed filter make up a concentrator. The former compresses ambient air while also adjusting the delivery pressure. The nitrogen is separated by the sieve bed, which is formed of a substance called Zeolite. Two sieve beds work together to release oxygen into a tank linked to the cannula, as well as release the separated nitrogen, forming a continuous loop that continues to produce fresh oxygen.

#3. Are all concentrators the same?

These items are available in a number of specifications. There are those who produce varied amounts of oxygen. Patients with COVID-19, for example, should use a device with a 5L-10L output. What matters is that it delivers air that is at least 90% pure oxygen. These devices might cost anything between 40,000 and 90,000. There are also pulse and continuous flow concentrators, the latter of which utilises a sensor to deliver a puff of oxygen when a user is about to inhale, and the former of which uses a pulse to give oxygen at a steady pace.

#4. What is the difference between an oxygen cylinder and oxygen concentrator?

The primary distinction between a concentrator and a cylinder is how oxygen is delivered. While oxygen cylinders have a fixed amount of oxygen compressed within them and must be refilled, oxygen concentrators, if they continue to have power backup, can deliver a limitless supply of medical-grade oxygen. To put it another way, an oxygen concentrator functions similarly to an air conditioner. It collects air from the environment, alters it, and then distributes it for usage.

#5. How can the oxygen concentrator help?

Medical equipment that provides more oxygen is known as an oxygen concentrator. If you have a health condition that causes your oxygen level to drop too low, your doctor may prescribe one for you.

It can assist certain people who are having difficulty breathing due to conditions such as:

1. COPD (Chronic Obstructive Pulmonary Disease)

2. Asthma Lung Cancer

3. The flu is a contagious illness.

4. COVID-19

Before you buy or use a portable oxygen concentrator, you must first receive permission from your doctor. It's risky to use one without their permission or a prescription. If your doctor thinks a concentrator is good for you, they'll tell you how much oxygen you should take and how long you should use it.

#6. How Do I Use an at-Home Unit?

If you require continual oxygen while at home or sleeping, your doctor may prescribe this for you. Because it is powered by electricity, you must have it plugged in at all times in order for it to function properly. (If you notice that it raises your electric bill, tell your utility company that you're using medical equipment and ask for a discount.)

Follow the device's user and maintenance instructions. The doctor will advise you how many litres per minute you should set the oxygen flow rate at. Unless your doctor tells you otherwise, don't change the rate your doctor prescribed.

These modifications may improve the concentrator's performance for you:

1. Add a humidifier to the mix. You might be able to attach a humidifier bottle to the machine if the extra oxygen dries up your nose. When you fill it with distilled water, it moistens the air you breathe.

2. Increase the tubing's length. With a hose adapter, you can stretch the tube that runs from the machine to your nose by up to 50 feet. If you do this, make sure you don't trip over the hose while walking around.

#7. How to Clean Your Concentrator?

You'll need to clean your concentrator equipment on a frequent basis.

1. Facemask or tubing - Wash with warm water and mild dish soap once a week. If you get sick, clean it more frequently. Allow it to air dry and do not allow water to enter the tube. If the tubing appears to be damaged, contact your oxygen source for a replacement.

2. Bottle with humidifier - Clean it every three days with warm water and mild dish soap if you use one. Rinse it thoroughly with hot water. To remove any remaining bacteria, immerse it in a solution of vinegar and water for a few minutes. After using a paper tower to dry the bottle, let it air dry.

3. Concentrator filter - Clean the concentrator filter once a month. Remove it from the package and place it in a clean container filled with water and mild dish soap. Scrub any dirt or dust away using a washcloth, then rinse it under water to eliminate any soap residue. Before reinstalling the filter in the concentrator, place it on a clean, dry towel and let it air dry entirely.

#8. How Do I Use a Portable Unit?

This smaller concentrator operates in the same way as the at-home one, only it can be used outside and in your car. It is powered by a rechargeable battery. The device may be carried in a backpack with a handle or a sling over your shoulder, among other choices. Portable concentrators deliver oxygen in “pulse doses,” which means that each time you inhale, the oxygen is delivered in short bursts. Some types can also deliver oxygen at a constant pace. Consult your doctor to ensure you're getting the proper amount of oxygen from either setting.

Follow your doctor's instructions included with your equipment. You should additionally do the following:

Bring an additional battery with you - Even if the display panel on your device should tell you how much battery life is left, bring a backup in case you won't be back home for a while.

Clean your equipment on a regular basis - Once a week, wash the tubing or facemask with warm water and mild dish soap. If you get sick, clean them more frequently. Allow them to air dry and do not allow water to enter the tube. If the tubing appears to be damaged, contact your oxygen source for a replacement. Clean the filter according to the manufacturer's recommendations.

#9. What Safety Measures Should I Take?

To keep you and your loved ones safe when using your Philips oxygen concentrator, follow these steps:

1. When using an oxygen device, never use it near an open flame or while smoking.

2. Keep the device in a well-lit area. This reduces the chances of it breaking or overheating.

3. Don't block any of the concentrator's vents. This makes it more difficult for it to carry out its duties.

4. Check the instruction manual if your equipment beeps or sounds an alert. It could indicate that something is wrong, and you should double-check that you're getting enough oxygen.

Also, never purchase an oxygen concentrator that isn't accompanied by a prescription. The FDA has not authorised those. Using a concentrator without a prescription or your doctor's approval might result in serious health problems, such as getting too little oxygen - or getting too much oxygen, which can cause lung damage. It may also cause you to miss out on therapy for diseases like COVID-19.