Some serious conditions on oxygen, such as pneumonia or heart failure, or an episode of COPD or another lung condition, can make it difficult to breathe. After you leave the hospital, you may still require additional oxygen. You may also be given a prescription for supplemental (additional) oxygen therapy to take home.

Supplemental oxygen therapy gives you more oxygen through a tank or a machine. This allows oxygen to reach your lungs, heart, and other bodily organs. You may feel stronger and more awake as a result of the extra oxygen. It can help persons with COPD (severe chronic obstructive pulmonary disease) who have low oxygen levels over long periods of time avoid death. After a hospital stay, commencing at-home oxygen therapy for the first time might be nerve-wracking. It will be a distinct experience to receive oxygen therapy at home. We’ll walk you through the ins and outs of at-home oxygen therapy in this post, so you can feel more prepared for this new experience.

However, many people use oxygen treatment for much too long. If you start oxygen therapy, talk to your doctor about when and if you can quit. Also, if your doctor recommends it, get a follow-up test. This is why:

Oxygen Support at home, after a hospital stay

You may have a lot of questions if your doctor recommends home oxygen therapy following a hospital stay. To begin, what exactly is oxygen therapy? What kind of gear will I require: portable, stationary, or tank? Your doctor will prescribe pulse or continuous flow, and the litre flow will be recommended (1-5).

After a serious illness, oxygen therapy can help you heal, but you may no longer require it once you’ve recovered. A pulse oximeter that clips onto your finger or a blood gas test taken from an artery in the wrist can both tell you if you need more oxygen.

According to tests, some people recover in a matter of weeks, while the other half recover in two to three months. Continuing oxygen therapy is ineffective for these people. Patients who discontinue home oxygen therapy without being tested do just as well as those who continue it without being tested.

How to determine if you need oxygen at home or not?

The level of oxygen in the blood should be at least 95%. When your oxygen level is less than 88 percent, home oxygen therapy can help.

Some people just require additional oxygen at specific times. When you exercise or sleep, for example, your blood oxygen level is 88 percent or less, your doctor may advise you to utilise oxygen treatment.

If you’ve started using home oxygen, don’t quit or lessen it on your own. If you believe your oxygen therapy needs to be changed, it’s critical to speak with your doctor. If you don’t use extra oxygen when you need it, you risk major health problems, including strain on your heart and lungs.

It’s crucial to do your homework because the gadget that feels most comfortable to you and fits your lifestyle is ultimately your choice. A portable oxygen concentrator (POC) will suit your needs if pulse flow is specified. It can be difficult to choose the correct portable oxygen concentrator.

The following are some crucial questions to consider:

1. Does this gadget match my prescription’s requirements?
2. How long does the device’s battery last?
3. Is the POC’s size appropriate for your daily activities? The Live Active Five POC was created with your independence and flexibility in mind.
4. How pure is the oxygen?

After you’ve done your research and determined whether or not your insurance covers home oxygen, the next step is to find a store that sells the device you want. While ordering directly from the manufacturer’s website is an option, you may prefer to handle the gadget in your hands and get a better feel for it.

Getting Used to Oxygen Therapy at Home

There are several things you can do to make the transition easier when on home oxygen. Make sure you follow your doctor’s recommendations to ensure that your oxygen therapy is as effective as possible.

1. Nasal cannulas can be strange at first, especially if you’re new to oxygen therapy. Learning how to use and clean a nasal cannula might be beneficial.
2. Diet and exercise will help you gain energy and ensure that your body can mend and fight infection, ensuring that your therapy will be successful. People with chronic obstructive pulmonary disease (COPD) require more energy to breathe, and the muscles they employ may require 10 times the calories of someone without COPD.
3. When you’re having trouble catching your breath, try some breathing exercises to help you breathe more effectively. Exercises for dealing with COPD anxiety, breathing workouts for better sleep, and even exercises to assist improve your lung health through jogging breathing methods are all available. Try each one to see which one works best for you.
4. Maintain Oxygen Concentrator safety to ensure that your device is in good working order and that you receive the best oxygen therapy possible. When using a POC, there are a few factors to bear in mind: Keep a safe distance from open fires, don’t smoke when using or near a POC, and don’t obstruct the device’s intake vents.
5. Maintain Oxygen Concentrator safety to ensure that your device is in good working order and that you receive the best oxygen therapy possible. When using a POC, there are a few factors to bear in mind: Keep a safe distance from open fires, don’t smoke when using or near a POC, and don’t obstruct the device’s intake vents.

The conclusion

You could start to wonder if the oxygen treatment is helping you. The most obvious way to tell is to keep track of your breathing patterns. If you realise that your symptoms are less severe than they were before and that you have a greater tolerance for your regular exercises, your therapy is working. Testing your blood oxygen levels is another technique to see if it’s working. A pulse oximeter or a blood gas can be used to perform this. Do not modify your oxygen therapy without visiting your doctor, even if you start to feel better.

To buy one of Servotech’s quality Concentrators, go to, https://www.tatacliq.com/servotech-5-litre-oxygen-concentrator-white/p-mp000000009564677

Next to Continuous Positive Airway Pressure (CPAP) equipment, which oxygen concentrator should you use? We felt it would be a great opportunity to respond to this specific issue while also expanding on the topic of using oxygen with CPAP in general.

Let’s start by looking at why you might need to use a CPAP machine, and then we’ll look at why you might need to utilize oxygen with CPAP.

Both an oxygen concentrator and a continuous positive airway pressure (CPAP) equipment are used to treat breathing problems and other comparable medical disorders. Despite this, the two gadgets are vastly different. While it is critical to follow your consulting doctor’s advice, it is also critical to understand the differences between the two.

What is a Continuous Positive Airway Pressure (CPAP) Machine?

Continuous Positive Airway Pressure is abbreviated as CPAP. A filter and a small water tank that works as a humidifier are included in the machine. It also includes a mask that is worn on the face to allow oxygen to be inhaled. With the help of a tube, the mask and the machine unit are connected. The equipment is especially beneficial for people who suffer from obstructive sleep apnea. It allows patients to breathe more easily and sleep well. The equipment increases the air pressure in the throat, preventing the airway from collapsing during inhaling. The use of a CPAP machine has also been shown to help with snoring.

What is the difference between an oxygen concentrator and a continuous positive airway pressure (CPAP) machine?

The functions of an oxygen concentrator and a CPAP machine are different. They serve two distinct functions. As previously stated, an oxygen concentrator removes nitrogen and other gases from the ambient air to create rich oxygen for breathing. A CPAP machine, on the other hand, does not increase oxygen levels. This equipment provides high pressure to keep the throat open and the obstructive sleep apnea disease under control.

The phrase “sleep apnea” refers to both central and obstructive sleep apnea. Obstructive sleep apnea (OSA) is the most prevalent of the two kinds of sleep apnea.

If your doctor has previously diagnosed you with obstructive sleep apnea (OSA), you most likely have a CPAP machine that you use at night while sleeping. The main purpose of a CPAP machine is to keep your airway open while you sleep by using pressured air. The pressurised air, on the other hand, retains the same normal oxygen concentration as regular air, which is 21% oxygen. OSA can progress to major consequences if left untreated, although the immediate effect is a continuous lack of oxygen during sleep.

If your doctor determines that your oxygen levels drop too low or too frequently while you sleep, even while using a CPAP machine, supplemental oxygen may be prescribed to be used in conjunction with your CPAP machine to maintain normal oxygen levels. This is accomplished by infusing oxygen into your CPAP system to raise the oxygen percentage to more than 21%.

If you’ve come this far in your therapy and are wondering how a CPAP machine and an oxygen concentrator would function together, the answer is simple.

Using an oxygen concentrator and a CPAP machine at the same time

Doctors recommend using an oxygen concentrator and a CPAP machine at the same time for certain difficult medical problems. When a patient has pulmonary edoema as well as obstructive sleep apnea, this might be a problem. To recover from this situation, the patient needs a steady supply of oxygen as well as a device that applies pressure to the neck. Both of these goals can be met by combining an oxygen concentrator with a CPAP machine. With the use of an oxygen concentrator, the amount of oxygen in the ambient air will be raised, and pressure to keep the throat open will be provided using a CAPA and Bipap machine.

When turning both machines on and off, there is another method to follow.

Always switch on the CPAP machine first, before turning on the oxygen concentrator. When you’re finished with them, switch off the oxygen concentrator first, then switch off the CPAP machine. Because high oxygen concentrations can damage the CPAP machine over time, this treatment is required.

The Upshot

Hopefully, you can see how simple it is to use oxygen with CPAP, regardless of the brand of oxygen concentrator you already have. You may easily connect these two devices using a simple adapter (or the connector already on your mask) and oxygen tubing and go about enjoying a nice night’s sleep.

Read also: Unique Understanding Molecular Sieves and how they ensure Purity Levels in Oxygen Concentrators

Oxygen concentrator or COPD is characterized by a loss in lung function that worsens as the disease advances. As a result, most COPD patients will eventually need supplemental oxygen to support their lungs once they are unable to absorb enough oxygen on their own.

Supplemental oxygen is delivered to your lungs by a pressurized oxygen tank or an oxygen concentrator to provide particularly oxygen-rich air. Because this air is often 85-95 percent pure oxygen, your lungs can absorb more oxygen with each breath.

Supplemental oxygen is an important aspect of COPD treatment because it allows your lungs to take in enough oxygen to meet the needs of your organs and tissues. Without it, your blood oxygen saturation can drop to dangerously low levels, causing hypoxemia, which can lead to serious, life-threatening problems.

Supplemental oxygen is also useful for treating acute COPD symptoms, and it can help you if you get out of breath while exercising or if your symptoms worsen. Supplemental oxygen is also used by many patients to treat low blood oxygen levels during the night.

We’ll show you how to practice good oxygen safety in this post so you may avoid accidents, injuries, or fires caused by utilizing supplemental oxygen. We’ll go through the advantages and disadvantages of oxygen therapy, as well as how to avoid fire hazards and follow basic safety protocols when using, storing, and transporting your oxygen.

Hazards involved with Supplemental Oxygen 

Standard oxygen tanks, the most popular type of supplemental oxygen equipment, come with their own set of risks. When oxygen is held in a tank, it must be kept at a high pressure, which implies that if the container is broken or ruptured, the oxygen can burst violently or “go off like a rocket.” An oxygen concentrator equipment can help you avoid this hazard, but they are more expensive and harder to come by. Because their budget, insurance, or medicare provider won’t pay it, many people don’t have access to anything other than pressurised or liquid oxygen tanks.

The Advantages of Supplemental Oxygen

Despite the hazards, supplemental oxygen is normally highly safe to use if used carefully and according to instructions. It’s also a critical component of treatment for patients with COPD and other respiratory illnesses who can’t receive enough oxygen on their own to keep healthy.

Supplemental oxygen therapy can considerably relieve COPD symptoms including dyspnea, coughing, wheezing, and exhaustion by increasing blood oxygen levels and relieving some of the load on your lungs. It can also make it simpler to walk, exercise, and keep your symptoms under control, allowing you to be more active and participate in more of life’s activities.

Here are some additional advantages of using supplementary oxygen therapy:

• Increased mental acuity and mood
• Increased energy and less weariness
• Better cardiovascular health
• Hypoxemia and the risk of hypoxia are reduced.
• Better sleep
• Breathing problems are less common.
• Lowering the risk of COPD complications such as pulmonary hypertension and heart failure.

The need for supplementary oxygen for COPD cannot be overstated. If your doctor has prescribed oxygen for you, it’s critical that you follow your treatment plan carefully.

Guidelines for Using Oxygen in a Safe and Effective Manner

We’ll show you how to practise good oxygen safety now that you have a greater understanding of the benefits and risks of oxygen therapy. Everyone who utilizes supplemental oxygen must take a number of crucial precautions in order to limit the risk of flames and burns.

We’ll provide you a number of methods for preventing oxygen leaks and reducing fire threats in your home in the following sections. We’ll go over all of the different flammable compounds and spark hazards to be aware of, as well as how to cook safely with oxygen at home.

Stopping Oxygen Leaks

Preventing oxygen from leaking out of your tank or mask is one of the most critical aspects of supplemental oxygen safety. A major fire threat exists if too much oxygen escapes into the air. That’s why, when using supplementary oxygen, it’s critical to understand how to manage your equipment securely.

Here are some pointers on how to avoid oxygen leaks:

• When turning the valve on your oxygen container, use caution. Slowly open the valve to avoid releasing too much-compressed oxygen at once.
• When you’re not using your oxygen tank, remember to close the valve. If you’re not sure it’s closed all the way, take the time to double-check.
• Visually inspect any oxygen tanks you have on a regular basis, particularly the valves. Examine the outside of the tank for signs of wear, tear, or damage, as well as any visible leaks.
• Keep your tanks in a safe, secure location where they won’t topple, fall, or be damaged.
• Because liquid oxygen tanks leak if they’re stored on their sides, it’s especially crucial to keep them upright in a car.

While using supplemental oxygen, no matter how careful you are to prevent leaks from your tank and tubing, a little quantity of oxygen will inevitably seep out around your nose and mouth.

That’s why staying away from heat, sparks, and anything else that could cause the oxygen to combust is so critical. In the following sections, we’ll go through this in further depth.

When using oxygen, follow these guidelines to avoid heat and flame hazards:

• Cooking with supplemental oxygen should be done with extreme caution. To use your supplementary oxygen, go at least five feet away from the burner, and never use your nasal cannula near a gas stove or open flame.
• At all times, keep your device at least five feet away from the stove and other heat sources.
• When using oxygen, stay away from all open flames, such as lighters, matches, candles, fireplaces, cigarettes, gas burners, and so on. While oxygen is being used, do not use any of these products or allow anyone near you to start a flame.
• When utilising oxygen, do not smoke, use an electronic cigarette, or vape. Heating elements in e-cigarettes have the ability to ignite the oxygen that gathers around your nasal cannula, resulting in serious facial burns.
• When you’re near where you store your oxygen and extra tanks, use the same precautions you would when using supplementary oxygen. Make sure you and everyone else in your house know where your oxygen tanks and equipment are stored and how to use them properly in the event of a fire.

Here are some suggestions for lowering your fire risk.

• When utilizing oxygen, avoid utilizing electronic gadgets. Electric razors, mechanical toys, heating pads, electric blankets, electric toothbrushes, and electronic hair dryers, curlers, and straighteners are among the items in this category.
• When using supplemental oxygen, avoid using any electronic item that generates heat. Electronic cigarettes are included in this category.
• Avoid textiles that produce static, such as wool, nylon, and synthetic materials (e.g. polyester). Instead, opt for cotton clothing and bedding, which is less likely to generate static electricity.
• Don’t use any flammable lotions, hair treatments, or hair sprays on your skin or hair that could catch fire due to heat or a static spark in the presence of oxygen. Keep an eye out for petroleum-based goods and opt for water-based alternatives instead.
• When using supplemental oxygen, avoid using chapstick and oil-based lotions on your body, especially your face, as these can cause severe burns if they ignite.
• When utilising supplementary oxygen, never utilize aerosol sprays. Air fresheners, spray deodorants, and hairsprays all fall under this category.
• When using supplemental oxygen, avoid using alcohol-based hand sanitizers. If you use hand sanitizer before using oxygen, ensure sure it is totally dry before turning on the machine or contacting any of your oxygen equipment.
• Using a humidifier during dry weather can help to lessen the amount of static electricity in your home. When using supplemental oxygen, keeping your residence at an optimal humidity level (typically about 40 percent humidity) might alleviate your COPD symptoms as well as lower your fire risk.
• If you use an oxygen concentrator, be sure it’s plugged into a grounded outlet (an outlet with three holes instead of two). Never use an extension cable, a broken outlet, or an outlet with other electronics plugged in.

Here are some pointers to help you make sure you’re using your oxygen in well-ventilated areas:

• Check to see if your home’s ventilation system is in good operating order.
• If you’re driving or moving an oxygen tank while taking supplemental oxygen, crack the windows in your automobile.

Here are some tips for making sure you use your oxygen in well-ventilated places:

• Make sure the ventilation system in your home is in good working order.
• Crack the windows in your car if you are using supplemental oxygen while driving or transporting an oxygen tank.
• You should never put anything on top of your oxygen tank. Any oxygen that seeps out could become trapped and build up to dangerously combustible levels if this is done.
• Store your oxygen tanks in a clean, open area where air can readily circulate around them. Never keep your oxygen tanks in a closed place or somewhere without adequate ventilation.

When handling your equipment, use caution.

Here are some pointers on how to handle and use your oxygen equipment safely:

• Make sure you don’t drop your oxygen tanks. When moving your tanks from one location to another, use a stand, trolley, or another secure container.
• Never pull or roll your tanks over the floor, never set them down too hard, and never let them collide with walls or other objects.
• Never raise or carry your oxygen tanks by the cap or valve; always lift or carry them by the bottom or sides of the tank.
• Your oxygen equipment, including tanks, tubing, and electrical wires, should never be covered. They should not be placed underneath any fabric, furniture, or bedding.
• If an oxygen tank has been dropped or is damaged, do not use it.

Final Thoughts

Anyone suffering from COPD should understand how to utilize oxygen safely. Most patients will require supplemental oxygen at some point during their lives, and knowing how to use it safely can help prevent fatal fires and injuries.

Even though most people who use supplementary oxygen have no concerns, a fire or a burn might be caused by a poorly timed mistake or a stroke of bad luck. When something goes wrong, the ramifications can be devastating, which is why being sloppy or negligent is never worth the risk.

Even while taking supplemental oxygen carries certain major dangers, you can greatly reduce them by following correct oxygen safety procedures and keeping your equipment clean and well-maintained. This oxygen safety guide can help you make supplementary oxygen as safe and risk-free as possible for you or someone you care about.

The main purpose of a humidifier bottle, humidifier cup, or water bottle is to humidify the air you breathe. Keep in mind that a humidifier bottle is merely a decorative item. The ability to use your oxygen concentrator is not essential. If using your oxygen concentrator makes your nose or throat irritating, it’s conceivable that the dry air from the concentrator is to blame.

You can either screw the bottle straight onto the threaded oxygen output on your oxygen concentrator or utilize a tubing adapter, depending on the brand of oxygen concentrator you have.

On Oxygen Concentrators with a barbed oxygen outlet, Humidifier Bottle Adapters are required. The adapter is a straightforward gadget. It’s a short hose that you slide over the oxygen outlet with one end. The threaded part on the opposite end should be threaded into the top of the humidifier bottle.

When using a humidifier bottle, make sure to inspect it well before using it. You’ll see that the plastic top is detachable. It attaches to the top of the “cup” where the water is kept. Two faint lines may be seen on the “cup” portion where the water is placed. One of them says “Minimum,” while the other says “Maximum.”

The water should stay between these lines. Your oxygen may not be humidified before you breathe it if the water is too low. You risk getting water in your oxygen tubing if the water level is too high. Make sure you only use distilled water. There will be no contaminants in this filtered water that can clog the inner workings of your humidifier bottle’s cap. Yes, it is hard to come to terms to but there are small pieces in the top of your humidifier container that might fail if they become clogged with tap water.

This is when you will turn the oxygen concentrator on after inspecting your humidifier bottle, filling it suitably, and attaching it to your oxygen concentrator (be careful not to cross-thread it!). Your oxygen concentrator should work normally, and the oxygen in the humidifier bottle should be bubbling. Connect your nasal cannula, face mask, or tubing to the nipple on the humidifier bottle’s top and start breathing in the moist air!

You shouldn’t have more than fifty feet of oxygen hose and a seven-foot nasal cannula or face mask on hand. This is also true when using a humidifier bottle.

Is there water inside your oxygen pipe?

There are a number of different reasons why water droplets can form in your oxygen line.

One or more of the following reasons could apply:

• Humidifier Bottle is filled to the brim
• The Oxygen Concentrator has been shifted forward.
• The flow meter on the oxygen concentrator is set too high.
• The bottle of the humidifier has been tipped forward.
• The temperature in the room is lower than the temperature of the oxygen from the oxygen concentrator.
• The Humidifier Bottle has stopped working.

Here are a few options for getting rid of the extra water. To begin, make sure the water level in the humidifier bottle is within the minimum and maximum lines, as described previously. Second, make sure your Oxygen Concentrator is level, not sitting half on a carpet and partially on a wooden surface. If there was any chance for the Oxygen Concentrator to be tipped forward or slanted, there could be a possibility of the water pouring through the outlet of the humidifier bottle, and thus, into your tubing.

The same inspection should be done for your humidifier bottle. Make sure it is sitting nice and level, and strapped into the humidifier bottle holder that is built into your oxygen concentrator. Water may conceivably run through the humidifier bottle’s outlet and into your tubing if the Oxygen Concentrator was pushed forward. Your humidifier bottle should be inspected in the same way. Make sure it’s properly leveled and secured in the humidifier bottle holder included in your oxygen concentrator.

Also, ensure sure your Oxygen Concentrator’s flow meter isn’t turned up too high. If you force too much oxygen through your humidifier bottle, it may cause small droplets of water to enter the oxygen tubing. It’s also possible that the humidifier bottle has failed and needs to be replaced. It’s important to remember that a humidifier bottle is a disposable item that should be replaced once a month. They are reasonably priced, costing roughly $5 a bottle.

Elevating your tubing is one approach to prevent water from getting into your oxygen pipe. You may drape it over a dresser, a chair back, or a headboard to keep it safe. This will allow water to drain back into your bottle and avoid entering your cannula

. You may always add an accessory called a “water trap” to your Oxygen Tubing if you want to leave it on the floor. It’s a small chamber that’s sandwiched between two tubes (no tools required). It will serve as a low spot for moisture to condense. You can drain the water trap into your sink if necessary.

Using a humidifier Bottles are normally very user-friendly, and they rarely cause any problems. If you run into any issues, maybe this guide will be of assistance!

You can know more and all about Servotech’s Oxygen Concentrators and even shop them at:

Oxygen Concentrator 5ltr

The oxygen provided by home and portable concentrators can be delivered in one of two ways: Continuous Flow or Pulse Flow. Both of these oxygen delivery methods supply medical-grade oxygen directly to the user; however, each method’s dose is calculated differently. This blog will assist you in determining which sort of oxygen supply is best to your needs.

The oxygen that flows through many of the home and portable concentrators on the market is normally measured in litres per minute, while some will offer millilitres per minute. Continuous flow oxygen concentrators typically deliver litres per minute, whereas pulse oxygen concentrators deliver millilitres per minute.

Those who require oxygen therapy will receive a prescription from their doctor specifying their oxygen flow rate requirements, such as 2.0 litres per minute (a frequent prescription). However, the specific amount you require may differ. In most circumstances, the medications will flow between 1L and 10L per minute.

There are primarily two kinds of flows available in modern-day oxygen concentrator machines:

Continuous flow oxygen

The oxygen flow from the cannula is uninterrupted and only stops when the concentrator is turned off. Regardless of the patient’s breathing patterns, these constant flow concentrators will give the same quantity of oxygen through the cannula. The flow rate can be determined at a constant volume of LPM using this form of oxygen supply (liters per minute).

Pulse dose oxygen

When the equipment detects inhalation, the concentrator automatically releases oxygen. When a patient inhales through a cannula, a “bolus,” or “pulse” dose of oxygen, is activated and released. Pulse dosage oxygen machines include “settings” that determine the amount of oxygen supplied each minute. The amount of oxygen delivered to the patient (in millilitres per minute) depends on the manufacturer, the setting, and the patient’s breathing (inhalation) rate. When the parameters are adjusted, the size of the bolus of oxygen dispensed rises.

How To Pick Among the Two?

Always examine the ‘flow rate’ capacity when purchasing an oxygen concentrator. The oxygen concentrator must be used according to the doctor’s prescription – the flow requirement in litres per minute (LPM) will be determined by the patient’s health and the amount of supplemental oxygen therapy required. Flow rates for some oxygen concentrators range from 250 to 750 millilitres per minute, whereas flow rates for others range from two to ten litres per minute. It’s best to choose a device with greater capacity than you’ll need — for example, if you need 3.5 LPM, get an oxygen concentrator with a 5 LPM flow rate.

It should be noted that while a setting of 2 on a pulse dosage machine is intended to approximate 2 LPM on a continuous flow system, the two are not the same. All patients considering a pulse dosage machine should talk to their doctor about the benefits and drawbacks, as well as test the unit for suitability to their personal needs.

It is preferable to choose a concentrator with the least amount of power usage. There are a variety of battery-operated variants available. The battery life varies depending on the product. Furthermore, because continuous flow oxygen concentrators produce more oxygen, they have a shorter battery life than pulse flow oxygen concentrators.

The “maximum oxygen output” of each portable oxygen concentrator model specifies the highest amount of oxygen that the unit can deliver (regardless of setting or breath rate). This is a useful indication of a machine’s “capacity” to produce medical grade oxygen, similar to the horsepower of a car. Pulse dosage administration was created to enable for smaller machines and longer battery life in the first place. As a result, many smaller portable devices only have pulse dose settings, whilst other bigger versions have dual-mode capabilities and can administer both continuous flow and pulses.

It all boils down to your Oxygen Requirement

Your doctor will prescribe a certain oxygen flow rate, such as 2 litres per minute, if you require oxygen therapy. A 2 LPM oxygen flow rate indicates that the patient will receive 2 litres of oxygen per minute through their noses. The typical oxygen prescription ranges from 1 litre per minute to 10 litres per minute, with 70% of patients receiving 2 litres or less.

It’s crucial to talk to your doctor about your individual oxygen needs, both at rest and during exercise. Our Oxygen Specialists will be able to assist you in selecting the suitable equipment when renting or purchasing your own concentrator if you determine the optimal therapeutic dose for both daytime and nocturnal use. Patients should consider their capacity to operate a pulse dose vs a continuous flow machine, as well as the suggested settings on each unit, with their doctors.

Whether you’re switching to a newer concentrator, make sure to check with your doctor to see if your oxygen needs have changed. To handle shifting needs, we strongly advise obtaining an oxygen concentrator that can give oxygen at a higher concentration than required.

Here you can get the right machine for your loved ones. Click: https://shop.servotech.in/oxygen-concentrator/

The oxygen concentrator provided by home and portable concentrators can be delivered in one of two ways: Continuous Flow or Pulse Flow. Both of these oxygen delivery methods supply medical-grade oxygen directly to the user; however, each method’s dose is calculated differently. This blog will assist you in determining which sort of oxygen supply is best for your needs.

The oxygen that flows through many of the home and portable concentrators on the market is normally measured in litres per minute, while some will offer millilitres per minute. Continuous flow oxygen concentrators typically deliver litres per minute, whereas pulse oxygen concentrators deliver millilitres per minute.

Those who require oxygen therapy will receive a prescription from their doctor specifying their oxygen flow rate requirements, such as 2.0 litres per minute (a frequent prescription). However, the specific amount you require may differ. In most circumstances, the medications will flow between 1L and 10L per minute.

There are primarily two kinds of flows available in modern-day oxygen concentrator machines:

Continuous flow oxygen

The oxygen flow from the cannula is uninterrupted and only stops when the concentrator is turned off. Regardless of the patient’s breathing patterns, these constant flow concentrators will give the same quantity of oxygen through the cannula. The flow rate can be determined at a constant volume of LPM using this form of oxygen supply (litres per minute).

Pulse dose oxygen

When the equipment detects inhalation, the concentrator automatically releases oxygen. When a patient inhales through a cannula, a “bolus,” or “pulse” dose of oxygen, is activated and released. Pulse dosage oxygen machines include “settings” that determine the amount of oxygen supplied each minute. The amount of oxygen delivered to the patient (in millilitres per minute) depends on the manufacturer, the setting, and the patient’s breathing (inhalation) rate. When the parameters are adjusted, the size of the bolus of oxygen dispensed rises.

How To Pick Among the Two?

Always examine the ‘flow rate capacity when purchasing an oxygen concentrator. The oxygen concentrator must be used according to the doctor’s prescription – the flow requirement in litres per minute (LPM) will be determined by the patient’s health and the amount of supplemental oxygen therapy required. Flow rates for some oxygen concentrators range from 250 to 750 millilitres per minute, whereas flow rates for others range from two to ten litres per minute. It’s best to choose a device with greater capacity than you’ll need — for example, if you need 3.5 LPM, get an oxygen concentrator with a 5 LPM flow rate.

It should be noted that while a setting of 2 on a pulse dosage machine is intended to approximate 2 LPM on a continuous flow system, the two are not the same. All patients considering a pulse dosage machine should talk to their doctor about the benefits and drawbacks, as well as test the unit for suitability to their personal needs.

It is preferable to choose a concentrator with the least amount of power usage. There are a variety of battery-operated variants available. The battery life varies depending on the product. Furthermore, because continuous-flow oxygen concentrators produce more oxygen, they have a shorter battery life than pulse-flow oxygen concentrators.

The “maximum oxygen output” of each portable oxygen concentrator model specifies the highest amount of oxygen that the unit can deliver (regardless of setting or breath rate). This is a useful indication of a machine’s “capacity” to produce medical-grade oxygen, similar to the horsepower of a car. Pulse dosage administration was created to enable smaller machines and longer battery life in the first place. As a result, many smaller portable devices only have pulse dose settings, whilst other bigger versions have dual-mode capabilities and can administer both continuous flow and pulses.

It all boils down to your Oxygen Requirement

Your doctor will prescribe a certain oxygen flow rate, such as 2 litres per minute if you require oxygen therapy. A 2 LPM oxygen flow rate indicates that the patient will receive 2 litres of oxygen per minute through their noses. The typical oxygen prescription ranges from 1 litre per minute to 10 litres per minute, with 70% of patients receiving 2 litres or less.

It’s crucial to talk to your doctor about your individual oxygen needs, both at rest and during exercise. Our Oxygen Specialists will be able to assist you in selecting suitable equipment when renting or purchasing your own concentrator if you determine the optimal therapeutic dose for both daytime and nocturnal use. Patients should consider their capacity to operate a pulse dose vs a continuous flow machine, as well as the suggested settings on each unit, with their doctors.

Whether you’re switching to a newer concentrator, make sure to check with your doctor to see if your oxygen needs have changed. To handle shifting needs, we strongly advise obtaining an oxygen concentrator that can give oxygen at a higher concentration than required.

Here you can get the right machine for your loved ones. Click: https://shop.servotech.in/oxygen-concentrator/

Questions?

Supplemental oxygen administration is a critical component of effective care for a wide range of clinical disorders that span multiple medical and surgical specialties. The purpose of this blog is to summarise the role of supportive oxygen therapy in a variety of clinical situations that we encounter in our day-to-day practise as oral and maxillofacial surgeons, such as major trauma, shock, sepsis, perioperative and postoperative considerations, and patients with various medical comorbidities. To reduce morbidity and enhance patient prognosis, we propose using oxygen as a medication on a regular and appropriate basis in our day-to-day practice in oral and maxillofacial surgery.

Here are some important questions that we all have on our minds, answered.

Why did my doctor advise me to use oxygen?

Every living thing requires oxygen. Every tissue and cell in the body, in fact, needs a steady supply of oxygen to function properly.

The lungs are where oxygen enters our cells and tissues. The lungs take in oxygen from the air and transport it to the bloodstream via millions of small air sacs known as alveoli. As a result, the amount of oxygen in the blood decreases, and the tissues and cells of the body may not receive enough oxygen to operate correctly. Hypoxemia refers to a lack of oxygen in the bloodstream.

How did my doctor come to the conclusion that I needed extra oxygen?

There are two simple ways to determine the amount of oxygen in the bloodstream:

• Oximetry- This is the most common approach. The amount of light absorbed by the oxygen-carrying haemoglobin in red blood cells is measured by a small clip-on device that shines a light through your finger or earlobe. The device can determine how saturated the hemoglobin is with oxygen molecules, or O2 sat, by assessing the amount of light absorption. The oxygen saturation of the blood is normally between 98 and 100 percent.
• Blood gas analysis- Blood is extracted from an artery, generally in the wrist, using a needle and syringe in this process. The blood is then sent through an analyzer to determine how much oxygen gas is dissolved in it. The arterial oxygen pressure (paO2), which is generally 80 to 100 mm Hg, is the consequence.

The body requires enough oxygen to maintain the blood sufficiently saturated, allowing cells and tissues to operate normally. Furthermore, cells and tissues cannot “save” or “catch up” on oxygen; they require it on a continuous basis. Supplemental oxygen is required when oxygen saturation falls below 89 percent or arterial oxygen pressure falls below 60 mmHg, whether at rest, activity, sleep, or altitude.

Your doctor can calculate your supplementary oxygen needs by testing you at rest and while walking, as well as doing an overnight oximetry study to check your oxygen saturation at night.

When and how frequently should I plug into supplemental oxygen?

Based on the results of your testing, your healthcare physician will issue a prescription for when and how much you should wear your oxygen. The following should be included in the prescription:

• The oxygen flow rate or setting that will keep your saturations at or above 90%, expressed in liters of oxygen per minute (lpm or l/min).
• When should you wear your oxygen mask? (for instance, during activity, overnight, or continuously)
• The type of equipment that will suit your lifestyle requirements

Why would I need to sleep with oxygen on?

Due to a moderately lowered level of breathing, everyone’s oxygen levels in the blood are lower during sleep. During sleep, certain alveoli become inactive.

It’s improbable that your oxygen saturation during sleep will go below 88 percent if your waking oxygen saturation is more than roughly 94 percent on room air. If you have concerns about your oxygen saturation levels while sleeping, your doctor might arrange an overnight oximetry test.

How can I know whether I’m getting the correct amount of extra oxygen?

Your oxygen saturation must be tested while you are using your oxygen to check if you are getting the proper amount of supplemental oxygen. Your physician or an oxygen supplier’s respiratory therapist should assess your oxygen saturation on oxygen while you are at rest, walking, and, if needed, sleeping. You are getting enough supplemental oxygen as long as your saturation is in the 90s.

Should I invest in a finger oximeter to monitor my oxygen levels?

It’s probably a good idea to invest in a finger oximeter to ensure that you’re getting enough supplemental oxygen. Finger oximeters can be found online, at medical supply stores, and even in sports goods stores.

What are the advantages of utilising supplemental oxygen?

When a person doesn’t get enough oxygen, it can impair all of the body’s organs, including the brain, heart, and kidneys. These organs, as well as many others, benefit from the use of supplementary oxygen.

Supplemental oxygen has been shown to improve quality of life, activity tolerance, and even survival in hypoxemic persons.

Supplemental oxygen can also help you feel better. Shortness of breath, weariness, dizziness, and sadness may be relieved. You may feel more alert, sleep better, and be in a better mood as a result of this treatment. You may be able to engage in additional activities, such as traveling, even high-altitude travel.

Shortness of breath can be caused by a variety of factors other than a lack of oxygen. Supplemental oxygen may not be effective in some situations. However, even if tests reveal that you are not obtaining enough oxygen, you should continue to wear your oxygen mask.

Is it possible for me to become over-dependent or addicted to oxygen?

There is no such thing as becoming “dependent on” or “addicted to” supplementary oxygen because everyone requires it to live. If your bloodstream isn’t supplying enough oxygen to your tissues and cells, you’ll require supplemental oxygen to keep your organs and tissues healthy.

Will I need to use supplementary oxygen indefinitely?

That depends on why oxygen was prescribed in the first place. You won’t need supplementary oxygen if your lung or heart condition improves and your blood oxygen levels return to normal without it.

Is there a risk of negative effects from using supplementary oxygen?

It’s critical that you use your oxygen as directed by your doctor. You may be getting too much supplemental oxygen if you start to have headaches, disorientation, or tiredness after you start taking it. Dryness and bleeding of the nose lining can be caused by oxygen settings of 4 liters per minute or higher. A humidifier coupled to your oxygen equipment, as well as some ointments, can aid in the prevention or treatment of dryness.

Will my oxygen equipment allow me to go out and about?

The idea is for you to keep doing as many of your regular activities as possible. Working with your healthcare practitioner and an oxygen supply company to obtain oxygen equipment that will enable you to do these things is recommended.

The Upshot

Choosing the proper ambulatory oxygen equipment for you and your lifestyle is critical, why? because the correct equipment can eventually help you live a better and more enriched life.

Now, you can make an informed choice. Buy Servotech’s fit-for-all Oxygen Concentrators, click here: https://www.tatacliq.com/servotech-5-litre-oxygen-concentrator-white/p-mp000000009564677

The UVC Disinfection System is a highly effective method of removing microbiological contamination from water. Microbes, on the other hand, must be exposed to UV-C radiation in the right amount to effectively disinfect the water. UV disinfection systems are utilized in a variety of applications, from purifying drinking water in individual households to sterilizing entire municipality water supplies.

UV sanitization is useful in practically every application that requires microbial-free, safe, and clean water, and where there is a risk of contamination before the water reaches its final destination.

Drinking water disinfection, process water disinfection, wastewater disinfection, and surface disinfection can all benefit from UV disinfection technologies. This method can be utilized for TOC removal and Ozone destruction in addition to disinfection. There’s also the UV sterilizer, which can be used in hospitals, factories, and workplaces.

How Does the UV Disinfection System Work?

UV disinfection works at wavelengths ranging from 200 to 300 nanometers. UVC radiation has a high bactericidal impact when released. It absorbs DNA, disrupts its structure, and renders live cells inactive. Ultraviolet light with a wavelength of 253.7 nanometers is used in UV water disinfection technology to kill bacteria, viruses, molds, algae, and other microorganisms that replicate and develop. UV disinfection kills bacteria by destroying their DNA, rendering them lifeless and unable to reproduce.

UV radiation renders microorganisms such as viruses, bacteria, yeasts, and fungi harmless in seconds.

UV disinfection is a reliable and environmentally acceptable technology that eliminates the need for chemicals if the irradiance is high enough. Furthermore, the microbes are not able to develop resistance to UV light.

When exposed to the right amount of UV radiation, no bacteria, viruses, molds, or spores can survive. As a result, UV is considered the greatest method for water sterilization, and UV-mobile sterilizer equipment can be utilized for room sterilization.

UVC Disinfection System in Industrial Applications

A UV disinfection system is more than just a bulb in a pipe. The UV Reactor must be configured in such a way that all bacteria are exposed to enough UV light (dose). The reactor must be adjusted to guide the flow in such a way that it maximizes residence duration and boosts turbulence, based on the hydraulic properties of water.

Here are several real-life usages of UVC technology:

• Food & Beverage — A UV disinfection system can assist in achieving high-quality water that meets FDA standards ( Food and Drug Administration)
• Water used in pharmaceutical and healthcare products, as well as for CIP (Cleaning in Place), must be free of pollutants such as chlorine, ozone, and microorganisms.
• Cosmetics – Water that is free of bacteria and toxins ensures the quality of cosmetics and extends its shelf life. UV Sterilization is the preferred method of sterilization in the cosmetics business all around the world.
• Centralized Drinking Water – A UV drinking water disinfection system is a simple, low-cost way to ensure that your house or office has pure water at every tap.
• Waste Water Disinfection and Reuse – UV Disinfection can help tackle the problems of water shortages and growing freshwater costs by treating wastewater in the tertiary stage. UV systems built specifically for wastewater can disinfect wastewater, allowing it to be reused for other purposes like flushing and gardening.
• Swimming Pools — Chlorine has traditionally been used to keep swimming pools clean. However, it is becoming increasingly clear that chemical disinfection causes hundreds of new hazardous compounds to create when it combines with other organic materials. Also, UV is widely acknowledged as a safer and more cost-effective method of pool disinfection.

UV Disinfection Systems Advantages

1. UV is a natural way for the body to purify itself.

2. Environmentally friendly — During the UV disinfection process, no toxic by-products are created.

3. UV light is effective against all known bacteria.

4. Economical – Among disinfection systems, it has the lowest operating cost.

5. Chemical-free and safe – There are no chemicals used therefore there is no risk of overdosing. It is instant because it is in-contact purification.

6. Easy to Operate — Well-designed systems, such as the Alfaa UV systems, have innovative features such as CFD (Computational Fluid Dynamics), high-efficiency electronic ballasts, and incredibly precise UV intensity monitoring, making them highly effective and thus easy to manage.

Is it necessary to maintain a UV disinfection system on a regular basis?

In some circumstances, the water is not appropriately pre-treated, resulting in low turbidity levels. In such instances, a six-monthly inspection and cleaning might be carried out. Cleaning frequency may need to be increased in cases of high turbidity and hardness. Finally, the UVC lamp has a finite lifespan and must be changed after it has reached the end of its useful life. In the odd event that the light fails prematurely, the monitoring circuit will send out a signal to suggest that it be replaced.

Conclusion

It is, in general, the most practical method of disinfection. You can install a (UV) bulb in a room, close it and the entire room will be safe to use in 30-40 minutes. It could be a suitable usage for hospital beds, for example. Consumers are very interested in it because of its qualities and the speed and ease with which it can disinfect items.

Read also: What to Look for When Comparing UV Sterilization Devices

Most experts agree that when you’re sleeping, you breathe differently than when you’re awake. Others breathe via their mouths, while others take weak, irregular breaths. In any case, during sleep, the oxygen level in the blood decreases, which is normal up to a point.

However, if you have asthma, sleep apnea, obesity, or heart disease, you may not obtain enough oxygen while sleeping. Low oxygen levels can exacerbate pre-existing illnesses and contribute to the emergence of new health problems.

As you may be aware, oxygen therapy can be quite beneficial for people suffering from respiratory ailments such as COPD. Oxygen therapy might help you get more done in a day and boost your energy levels. However, for those who aren’t used to it, getting used to oxygen treatment can be a pain– particularly if you’re attempting to sleep through it! Fortunately, there are ways to get the most out of supplemental oxygen therapy, even if you have to take it while sleeping.

If you’re new to using supplemental oxygen, or if you’ve been using it for a while but are having difficulties sleeping while on it, these suggestions can help you have a much better experience.

6 things you should be aware of while using an Oxygen Concentrator

So, here are 6 important things that you should be aware of while using an Oxygen Concentrator overnight.

1. Coping with its noise

When it comes to using oxygen therapy, one of the most common worries is that the noise level might be overwhelming when trying to sleep. It’s possible that your noisy oxygen concentrator is due to the fact that it wasn’t designed for light sleepers. Before you go shopping for a machine, be sure the sound it makes is less than 48 decibels so you can hear it.

2. Dryness of the nose and irritation of the skin

You may suffer adverse effects such as skin irritation and dryness in your nasal passages after using oxygen therapy routinely throughout the night or for extended periods of time. These two problems aren’t uncommon, as they can affect anyone who uses oxygen. To aid with the side effects, a humidifier is necessary for long-term oxygen therapy, and you can also use a moisturizing product such as a saline nasal mist or nasal gel to give lubrication and reduce dryness. In the long run, this may make using oxygen treatment more comfortable.

3. Use the appropriate oxygen rate

It’s common for your doctor to do an arterial blood gas (ABG) test, often known as oximetry, before starting oxygen therapy. This test determines the correct oxygen flow rate for you by measuring the oxygen in your blood. Once your doctor has prescribed a flow rate for you, you must set your concentrator to that rate and stay at it. If you don’t get enough oxygen when sleeping, it can harm your brain and heart. On the other side, exceeding this oxygen flow rate can have negative consequences. You must adhere to your doctor’s instructions.

4. Maintain it on a regular basis

You must ensure that your machine undergoes the proper maintenance inspection and procedure to ensure that it continues to perform without issues. Some oxygen concentrators have filters that must be cleaned on a regular basis. You must follow the maintenance instructions in the manual to ensure that your machine is operating at its best.

5. Proceed with caution while using the machine.

Depending on your doctor’s advice, you may need to use oxygen treatment on a daily basis. While sleeping, you may experience low oxygen levels. Others require oxygen therapy on a regular basis to supplement their oxygen requirements. In any case, you must follow your doctor’s instructions in order to achieve the best outcomes.

6. Maintaining the position of the oxygen mask or cannula

When looking for a cannula or mask, make sure it fits comfortably around your chin and mouth. If the rubber chafes against your face, wrap it in white first-aid tape to act as padding for the tube. Another common problem is when the nasal prongs brush against the insides of your nostrils, producing pain. If this happens to you, lubricate the prongs’ ends with a thin layer of water-based lubricant. You can also use a saline nasal spray on a daily basis to keep your nasal passages wet and relieve pain during the therapy.

Before we end this blog it’s only fair to run down on the benefits that these machines offer if you’re sleeping on them; it allows us to have a holistic view in front of us. So, here are the perks:

• A considerable increase in sleep quality, allowing the body to recover correctly;
• Improved mood by alleviating anxiety and melancholy brought on by insomnia;
• A good night’s sleep gives you more stamina, vitality, and attentiveness during the day;
• There is a significant reduction in the chance of developing health problems as a result of low oxygen levels.

The Conclusion

Don’t take off your mask or cannula, no matter how tempted you are to do so. Continue to wear it. Although oxygen therapy may be difficult at first, after you get used to it, you will notice that your breathing improves. It can bring about a positive contrast in the quality of your life! The most important thing is to follow your doctor’s instructions, which will pay off in both daily activities and in the long run.

You can learn more and all about Servotech’s Oxygen Concentrators and even shop them at:

While we sleep, our breathing pattern alters. Since we breathe predominantly with our lips, we tend to breathe dearer while we’re asleep, however, others may breathe a bit shallower, too. If you utilize oxygen therapy at night, your nighttime oxygen solution may differ from what you use during the day for supplemental oxygen.

During non-rapid eye movement sleep, a person’s breathing rate usually slows down and becomes irregular. Not everyone can sleep through the transitions. When contacted, your physician may suggest sleeping with an oxygen concentrator to assist you in maintaining your oxygen levels throughout the night.

As you may be aware, oxygen therapy can be quite beneficial for people suffering from respiratory ailments such as COPD. Oxygen therapy might help you get more done in a day and boost your energy levels. However, for those who aren’t used to it, getting used to oxygen treatment can be a pain– particularly if you’re attempting to sleep through it!

Lack of oxygen can result in disturbed sleep cycles

Sleep deprivation affects many pulmonary fibrosis patients, increasing fatigue and lowering quality of life. We may find it difficult to fall and stay asleep. Increased weariness and a poor quality of life are linked to sleep deprivation. Sleep issues can be caused by a variety of issues, one of which is low oxygen saturation.

Patients with pulmonary fibrosis are more vulnerable during the REM (rapid eye movement) phase of the sleep cycle. The most regenerative stage of the cycle, REM sleep, is problematic for PF patients. The diaphragm controls breathing during REM sleep, while the smaller auxiliary muscles are temporarily disabled.

When this happens, those who do not have a lung disease are unaffected, but it is a concern for PF patients. Our blood oxygen levels may drop, causing us to become aware and interrupt our REM slumber. We dream, consolidate our memories, and allow our bodies to recoup and prepare for the next day during REM sleep. Our immune system’s performance can be harmed if we don’t get enough REM sleep.

Consult your doctor if an overnight oximetry study to evaluate your oxygen levels while you sleep may be beneficial. Using oxygen during the night may help you sleep better and feel better in the morning.

For some individuals, pulse dosage portable concentrators can be an efficient nightly alternative; nevertheless, to assure optimal blood oxygen levels while sleeping, a continuous-flow oxygen source is often recommended. A nightly sleep study to monitor your blood oxygen levels and breathing behaviors may be used by your doctor to identify your individual needs. Your physician can calculate exactly what flow setting you’ll require while sleeping based on this study and other tests, allowing you to choose your nightly oxygen machine accordingly.

What to look for in a concentrator with a sleep mode feature?

There are various portable solutions to choose from in instances when a large stationary concentrator is not possible or when travel necessitates a tiny and lightweight nocturnal oxygen solution. Certain features of some portable oxygen devices make them better suitable for overnight use. The concentrators reviewed here are excellent for nighttime use as long as they match your recommended oxygen demands.

The Servotech ST-DE-2A Oxygen Machine is among the most versatile alternatives for meeting both daytime and nocturnal oxygen demands. This machine was designed to satisfy the demands of patients who require supplementary oxygen. It has three modes of oxygen delivery: Continuous Flow Mode, Pulse Mode, and Sleep Mode. This machine is particularly portable because it may be powered by a wall socket. This is the most common oxygen solution for people who travel with sleep therapy equipment, such as a CPAP machine and need oxygen.

You may administer oxygen in a continuous flow that delivers nonstop oxygen up to 2 LPM if your physician has ordered it (liters per minute). The pulse dose mode, on the other hand, can be regulated to a maximum of 6.

The ST-DE-2A is designed for continuous use, and its enhanced ‘Sleep Mode’ delivers a pulse dose of oxygen for a longer period of time, allowing for a more restful night’s sleep. If the patient starts breathing shallowly or via their mouth, the device will switch to continuous flow mode and supply oxygen at a rate of 2 LPM to guarantee appropriate oxygenation.

It’s still the most powerful portable oxygen machine on the market, perfect for people who need continuous oxygen on the go. With a continuous flow rate of up to 3 LPM and pulse flow settings ranging from 1 to 9, this machine will meet the majority of oxygen users’ nighttime dose needs.

This machine can alter bolus size based on your breathing patterns when in pulse dose mode, ensuring constant and reliable oxygen delivery and patient comfort. If a patient breathes too softly to activate pulse flow delivery, this equipment has a sensor that will sound an alarm. The continuous flow mode is recommended to eliminate disruptions when sleeping.