What is Oxygen Concentrator?

What is Oxygen Concentrator?

What is Oxygen Concentrator and What Does It Do?
The oxygen concentrator (sometimes known as the "oxygen generator") is a medical device used to deliver oxygen to those in need of oxygen. If people have a condition in their blood that causes low oxygen levels or gives results, they may need it. Oxygen concentrators are normally obtained by prescribing on doctor's advice. Oxygen concentrators (concentrators) are powered by plugging them into an electrical outlet or battery. If the concentrator is powered by an electric battery, it must be plugged into a wall outlet and charged. Several parts form a compressor, including a compressor, screen filter and circuit boards.
An oxygen concentrator has a compression apparatus, but it should not be mixed with compressed oxygen or an oxygen tank. Although a tank has a certain amount of oxygen dispensed, a condenser is filtered in the air, compressed, and continuously releases air. The air supply never ends. Instead of re-filling compressed air, the condenser needs only power. How Oxygen Concentrator Works?
An oxygen concentrator works like a window air conditioning unit: it takes the air outside, replaces it, filters it and presents it as oxygen in a new form. An oxygen concentrator takes air and makes it used by people who require medical oxygen due to the low level of oxygen in their blood.
How to Use Medical Oxygen Safely
What is Oxygen Tank?
Oxygen tanks are a type of storage system that holds oxygen or liquid oxygen in a pressure vessel. The size and appearance of an oxygen tank can vary depending on where it is used and the mobility requirements.
Using Oxygen Tubes in Medical Therapy
Oxygen therapy requires the term used to describe the oxygen prescribed by doctors, a medical oxygen cylinder, and a suitable respirator. Doctors use oxygen therapy in emergency departments, during surgery, and for long-term patients who require oxygen for a medical condition.
Long-term oxygen therapy may be required for the following medical conditions:
Chronic obstructive pulmonary disease
Pulmonary Hypertension
Congestive Heart Failure
Cystic fibrosis
Lung cancer
Alpha 1
Oxygen Delivery
Taking oxygen from the oxygen cylinder to the individual usually requires a mask or nasal cannula. The mask and nasal cannula are usually attached to the tank through a hose. Then a mask is placed on a person's face over the mouth and nose. The nasal cannula is placed directly into the nostrils.
Although oxygen cylinders are containers containing pressurized oxygen, they are used in a variety of different environments and situations. The proper use and dimensions of the medical oxygen cylinder will vary depending on the size of the tube that the doctor determines is the most suitable.
Safety of the Medical Oxygen Tube
Many patients who use home and portable oxygen tanks are curious about the safety of storing tanks. When care is taken in handling and storing tanks, fire and other hazards are minimized. History of the Oxygen Concentrator
Have you ever wondered the history of the oxygen concentrator from the past? While the use of oxygen for medical purposes has continued since the 1800s, the use of modern oxygen concentrator technology is quite new. It is interesting to see that today's oxygen stores are delivering oxygen to the patients by absorbing oxygen in the air that surrounds the oxygen that physically stores oxygen with today's oxygen concentrators.
Oxygen was first discovered in 1772 by a Swedish chemist, Carl Wilhelm Scheele. However, a British researcher, Joseph Priestley, independently found oxygen in 1774 and published his findings three years before Scheele was published.
It was first noted that oxygen use was made on 6 March 1885 by Dr. George Holtzapple, who used oxygen for the treatment of pneumonia in York, PA. Then, in the early periods of 1887, a woman used oxygen from a device that stored enough oxygen.
How is the sleep test done?

How is the sleep test done?

Sleep test, or polysomnography, brainwave during the night's sleep, eye movements, respiratory activities, the amount of oxygen in the blood and muscle activity are examined by measuring. SLEEP TEST STAGES: The patient who is going to undergo a sleep test will go to the sleep center recommended by the doctor and prepare for the test. It is recommended that the patient take a shower to ensure that the electrodes to be glued to the patient are better adhered to in the sleep test. | On the day of sleep test, it should not be taken alcohol, should not sleep during daytime, so as to disturb sleep quality of tea and so on. drinks should not be consumed and sleeping drugs should not be taken. | The patient who comes to the sleep center is taken to the room where the test will be done after resting for a while. Then the patient puts on his own clothes. The sleep technician begins to connect the electrodes after explaining the procedures to be applied to the patient. | The electrodes are adhered to the scalp, behind the ear, close to both eyes, the jaw and the chest. In order to measure the amount of oxygen in the blood, the nose is attached to the nose to examine the fingertips, snoring and breathing. | Then all of these electrodes and sensors are connected to a device. At this stage, it is recommended for male patients to come to the sleep center where the test will be performed by shaving. | After the sensors and electrodes are connected to the device, the technician is drawn into the monitoring room and starts to monitor the signals from the electrodes and sensors on the computer. | In addition, the patient's image is also recorded with a camera in the bedroom. | The results are given to the patient by analyzing the computer taken all night. | |
Treatment options for snoring

Treatment options for snoring

Treatment options for your snoring depend on a number of factors, but the two key ones are these: Do you snore through your nose or through your throat?
Do you snore and have obstructive sleep apnoea (OSA)?
At ResMed, we have solutions for throat snorers, as well as for throat snorers with sleep apnoea. This includes both mild to moderate OSA as well as more severe cases of OSA. Throat snorers who don’t have sleep apnoea
You fall into this category if you’ve tested for sleep apnoea and obtained an apnoea-hypopnoea index (AHI) score of less than 5. If you don’t know what your AHI is, we strongly recommend you get screened. Otherwise, you risk adopting a solution to the wrong problem. At ResMed, we believe one of the most efficient treatment option for throat snoring is a custom made device1,2 that simply fits in your mouth and helps keep your lower jaw forward while you sleep – this in turn helps keep the back of your throat open. These devices go by many names but we call ours a mandibular repositioning device (MRD) and its named Narval CC™*. Are you a nose snorer? Then MRDs are probably not for you. You’ll need to investigate options that include sprays, nose strips, chin straps and more. Visit your country’s sleep association for recommendations. Throat snorers with mild to moderate obstructive sleep apnoea
If your AHI levels fall between 5 and 30, ResMed offers both the Narval MRD as well as full range of positive airway pressure (PAP) therapy options. MRDs are a first intention therapy option and a clinically-proven alternative to PAP therapy for snorers with mild to moderate OSA.3,4,5 Users tend to prefer oral appliances over CPAP, so they tend to wear them for longer periods.6 This higher ease of adoption means that they are equally as effective as CPAP.7 Throat snorers with severe OSA
If your AHI levels are over 30, your sleep physician will recommend PAP therapy as a first choice. There are different types of PAP therapy, including APAP, CPAP, and bi-level therapy. ResMed has a full range of masks, devices and accessories to make your PAP therapy as comfortable and non-intrusive as possible. If you’ve demonstrated that you do not support PAP therapy, your sleep physician can prescribe an MRD. In fact, in the largest multilevel study of its kind, users with severe OSA who regularly wore Narval CC were just as likely to reduce their AHI levels by 50% as wearers with mild to moderate OSA.1 Other options for treating snoring include surgery and radiofrequency treatment.
Sleep Apnea Treatment

Sleep Apnea Treatment

Obesity, which should be done first in the treatment of sleep apnea, is to be overcome. If there are significant anatomic strictures in the upper respiratory tract, the patient should be evaluated for surgical intervention by an Ear Nose Throat specialist. Progressive airway pressure (CPAP) therapy should be used in the treatment of sleep apnea. Depending on the treatment effect and the patient's preference, the patient should be followed up either by making adjustments in automatic settings or by switching to a constant pressure device. In case of difficulty in using CPAP device or in case of mild cases, it can be prevented to block the upper respiratory tract by falling back to the lower jaw with the appliance in the mouth. The specific treatment of sleep apnea is provided by the use of devices that deliver compressed air to keep the airway open continuously. PAP (positive airway pressure) devices prevent sleep apnea by allowing upper airways to remain open during sleep. These devices, which give compressed air through a silicon mask that sits firmly on the face during the night, may initially seem annoying to the patient. However, patients who wake up in the morning and have wakefulness easily accept the device. A second night must be spent in the sleep laboratory to determine which device is appropriate for the patient and to see if apneas are missing or have been reduced to a minimum number. After sleep apnea therapy, the survivors of sleep apnea survivors rise again.


The respiratory device, also called the ventilator, is used in the treatment of chronic respiratory insufficiency. Long-term mechanical ventilation at home is very important in the treatment of respiratory insufficiency. Breathing apparatus is widely used, especially in terms of chest wall and neuromuscular diseases. Two types of respiratory support are given to the patient through the ventilator used in ALS patients. Non-invasive mechanical ventilation: Use of a respiratory support device only with the aid of a mask without opening the hole in the patient's respiratory tract Invasive mechanical ventilation: The use of a breathing apparatus that will provide respiratory support by opening a hole in the respiratory tract, ie tracheostomy, by means of a cannula placed in the hole Determination of home-type invasive mechanical ventilation device The MV parameters for the patient's respiratory system must be determined
The power source of the breathing apparatus should be explained.
The desired alarm and warning systems in the respiratory device should be determined and the alarm limits should be set in the most appropriate way. In other words, systems such as power cut, oxygen deficiency, high pressure, battery power, charge level should be in the desired form if the patient leaves the device.
A spare ventilator should be provided with the breathing apparatus and it should be possible to use the spare breathing apparatus as soon as the problem is solved.
Patients should be tested for at least 48 hours with this respiratory device in the hospital or intensive care unit, as the type and parameters of the respiratory device that will be appropriate for the patient are determined by a specialist neurologist or chest physician in this area. In this process, it is possible for the device to be suitable for the patient and for the patient to adapt to the device. Although the parameters detected in patients are applied, sometimes problems may arise in different respiratory devices. For this reason, more than one breathing apparatus may need to be tested. In cases where respiratory support at home is to be applied, the family doctor and the nurse who follows the patient can make a more successful application.
What to know about respiratory devices

What to know about respiratory devices

Cpap and BiPAP are respiratory devices used in patients with respiratory problems. BIPAP (Bilevel positive airway pressure) Continuous positive airway pressure (CPAP) These two devices are used for external breathing assistance. Respiratory devices can be used not only for ALS, but also for many respiratory problems such as chronic lung disease, sleep apnea. Here, the target is to provide mechanical respiratory support for patients who can not get enough oxygen due to respiration. For ALS patients, a respiratory device, usually of the BIPAP type, is used. This is caused by the fact that these patients lose their ability to breathe spontaneously, especially in the night. The BIPAP breathing apparatus automatically switches on in this case, providing the patient with breathing needs. By responding to the respiratory reflex, they help the patient. These features are referred to as BIPAP S / T devices. They have an automatic respiratory system. Artificial respiration ie mechanical ventilation can be done in 2 ways; Non-invasive ie masked Invasive, that is, breathing is made with a larynx attached to the tube. This is done by opening a hole in the patient's throat with a small surgical procedure. A specialist doctor can decide which method will be applied to the patients. If there is a delegation report, respiratory devices may be covered by the social security institution. However, after the treatment, the devices must be returned to the institution.
Sleep Respiratory Remission

Sleep Respiratory Remission

Sleep Respiratory Disease (Obstructive Sleep Apnea Syndrome) Recurrent respiratory disorders (apnea, apnea, hypopnea: hypopnea) develop as a result of obstruction of the throat during sleep.
It causes sleep interruption due to the complete interruption of breathing or a considerable decrease in sleep during sleep, and causes a decrease in the proportion of oxygen in the body. Breathing ends with waking, breathing starts again. When alertness occurs in the nervous system, the effect of the relevant nervous system on the heart and vessels causes the blood pressure to rise. Degradation of sleep affects metabolism and sexual functions. Obstructive sleep apnea syndrome is therefore an important health problem that affects many body systems.
Patients often disgrace in a noisy way, have not received their morning sleep, wake up unrestrained. With the cause of insomnia, disturbances in mental ability and sleepiness during the day can develop.
Excessive weight, causes in the throat tightness, alcohol intake in the evening, some drugs aggravate respiratory arrest in sleep. The use of non-prescription medicines can be detrimental to the use of medicines related to sleep without knowing the underlying problem.
Obstructive sleep apnea syndrome is diagnosed in the sleep laboratory for sleep and respiratory changes. It is also necessary to work in sleep laboratories to regulate treatment in patients who will undergo pressure therapy
The prospect of community health can be summarized in three main sections: Sleep disordered breathing is a common condition in the community: The most common cause of excessive sleepiness is known as sleep apnea syndrome (obstructive sleep apnea syndrome). It has been shown in studies that obstructive sleep apnea syndrome is present in 4% of men and 2% of women in adulthood. Up to 3% of cases have been reported in studies conducted in children. However, very few of the patients are diagnosed. It is estimated that only 1/10 of the patients can be diagnosed in USA where sleep laboratories are common.
Obstructive sleep apnea syndrome leads to major health problems (illness and death). Clinical consequences such as sleep disturbance, decreased oxygen, increased hypertension in patients with sympathetic nervous system hypertension, respiratory and cardiac insufficiency, stroke, impaired cardiac rhythm, and overweight (obesity) may develop. Insomnia can lead to accidents in people who use vehicles that require careful attention. Patients' compliance with their surroundings may deteriorate, job performance and quality of life may decrease. Studies have shown that the life expectancy of patients with obstructive sleep apnea hypopnea syndrome is reduced compared to the non-ill persons due to the mentioned disease outcomes and the expectation of life expectancy by treatment can be increased. Increased cardiovascular disease in these patients may result in fatal outcomes. This suggests the importance of obstructive sleep apnea syndrome in terms of community health.
Obstructive sleep apnea syndrome is a treatable disease. In obstructive sleep apnea syndrome, efficacy has been shown for today, it is a pressure therapy applied through mask in the form of treatment. The purpose of the treatment is to keep the upper airway, which has increased tendency to close during sleep, by giving positive pressure from the outside. Surgical treatment may be appropriate for patients with moderate disease who are not overweight and have anatomic stenosis in the upper airway. The other treatment that can be selected in these patients is oral devices (oral appliance). It can be said that treatment can reduce or eliminate the negative consequences of obstructive sleep apnea syndrome.
In summary, obstructive sleep apnea is an important public health problem threatening the quality and duration of the hypopnea syndrome. It needs to be recognized and treated appropriately in terms of patient and community health. Diagnosis and treatment are possible when referring to health centers, sleep laboratories related to the subject.
What causes sleep insomnia?

What causes sleep insomnia?

PSYCHOLOGICAL FACTORS Insomnia tendency: Some people have more insomnia than other people in stressful periods. Others respond to stress by headache or stomach pain. Knowing that the person is prone to insomnia and that it will not last too long is useful when you deal with it when you develop insomnia.
Persistent stress: Family problems can be attributed to a child with a serious illness or to an unsatisfactory job sleeping problem. Learning to deal with stress helps to treat your sleeplessness. LIFE STYLE Reminders: Caffeine keeps people awake. Even if you drink coffee at night and do not block your sleep, your sleep will be less relaxing. Nicotine keeps people awake, smokers fall asleep for longer than gore drinkers. Many drugs contain stimulants. These drugs include weight loss and allergy and asthma medications. Some cold medicines also contain stimulants.
Alcohol: You may think that a glass of wine before bedtime helps you sleep. Alcohol, however, causes you to wake up briefly in the sleep all night long, as well as providing you with a quick night sleep.
Working hours: If you are working on a shift, you are more likely to have a sleeping problem. This includes people whose working hours are constantly changing. It also includes employees at night or early in the morning. Even on weekends it is important to keep the same program constant. This helps to schedule your body to sleep at certain times and to remain awake at other times. Wake up every morning at the same time is a way to stabilize your sleeping pattern. It is important to have a routine.
Exercise: You may think that resting and a calm lifestyle prevents you from sleeping. In fact, people who do little or no exercise experience the difficulty of falling asleep at night. Regular exercise allows people to sleep better. The best time to exercise is after lunch. Do not exercise close to bedtime. Leave at least two hours between bedtime and slowing heart rate after exercise.
Sleeping pills: Sleeping pills should be used to control your doctor. Some sleeping pills, if used every day, become useless after a few weeks. On the other hand, if you stop using it suddenly, your sleep will get worse for a while. This problem can be reduced by slowing down the sleeping pills. ENVIRONMENTAL FACTORS Sound: Keep the bedroom as quiet as possible. Nearby traffic, airplanes, television and other sounds can wake your sleep without causing you to wake up.
Light: Use a canopy or thick curtains to keep the bedroom dark. The light reaches your eyes even if your eyes are closed. Light can dissipate your sleep.
If you feel tired at night if you think that you are going all night without interruption, all these factors should be watched. WHEN I NEED TO CALL HELP?
If you are sleeping longer than a month, and if your daily function is disrupted, it is time to seek help. Ask your doctor and talk to a sleeping specialist. Your medical history, physical examination, and some blood tests are useful in establishing some of the causes of insomnia. Your bed partner and other family members may have valuable information about your sleep. Ask them whether you have snored or not snored or if you have been restlessly sleeping. Your health care professional will also want to know whether sleeplessness makes you sleepy or depressed during the day, or whether it affects your other forms of life.
Sometimes insomnia can only be improved by providing information and training. Some people naturally sleep less than others. Everyone needs to sleep for eight hours. Counseling can help with insomnia related to poor sleep accomodation. In other cases, evaluation may be recommended at the center of drugs or a sleep disorder.
If you are told that you need to be assessed at the center of a sleep disorder, you may be asked to sleep for one or two weeks and to keep a sleep log showing your awake periods. Can sleeping pills help?
Sleeping pills are not curable for insomnia. Sleeping pills can sometimes mask or reverse problems caused by other diseases. For example, sleeping pills affect sleep-related respiratory distress in the worst way. Insomnia should be recognized correctly and treatment options should be discussed with a sleep specialist before the drug is started.
Many sleeping pills are available, including some without prescription. Different types of medicines have some advantages and disadvantages. For example, some are 'short-acting' and are best suited to situations where sleeping is difficult. Others are 'long-acting' and provide sleep all night. Talk to a sleep specialist to determine which is the best medicine for you.
Movement Disorders in Sleep

Movement Disorders in Sleep

It is the most commonly seen Restless Legs syndrome in Movement Disorders. Restless Legs Syndrome (RLS) is a movement disorder associated with sleep. Patients feel the need to move their legs unbearably at night. Symptoms vary from patient to patient. Most patients have difficulty describing their uncomfortable sensations in their legs. It is often described as 'numbness' or 'tingling'. This is a very different histamine from cramps. This feeling of restlessness in the legs is the calf most often. Sitting and lying still increases this unpleasant feeling in the stools. Moving and receiving the legs reduces the complaints temporarily and for a short time. In some patients there are similar unpleasant sensations in the legs and in the corners. While some of the HBS patients' complaints are not constant, others appear every night. For this reason, a lot of patients have a bad sleep. Good sleep can be very tired over the last days. For this reason, their professional and social lives may be disturbed. Daytime sleepiness is only one of the problems of HBS creation. These patients can often be very difficult in car or plane travel. They also have difficulty in cinema, theater and business meetings where they have to sit for a long time in a similar way. HBS can cause anxiety and depression due to poor quality sleep causing it and causing sleep divisions.
The majority of patients with RLS also have a disease called Periodic Leg Movement Disorders in Sleep. When patients are asleep, they frequently twist backwards in the toes. This can be accompanied by joint movement in the form of ankle, knee and hip stretching. Sometimes these movements are described by spouses as throwing or kicking. Periodic leg movements tend to occur at regular intervals. Ranges are usually 20-40 seconds long. They occur more frequently in the first half of the day. Just like HBS, which is a sibling, this disease can also be with the legs and sometimes in the back.
'Periodic Leg Motion Disorder in Sleep' is almost always asleep, unlike HBS. Patients are unaware of this condition, so it is unlikely they will. On the contrary, the HBS's statement occurs during the day, and the legs are voluntarily moved because of unpleasant sensations in the legs.
'Periodic Leg Movement Disorders in Sleep' can significantly degrade sleep quality just like HBS. It can cause short-term wakefulness during sleep. Short-term vigilance that is not recognized by this patient is called 'microarousal'. For this reason, divided and non-restful sleep may occur. Patients can easily become drowsy during the day. Often they sleep while reading newspapers, watching television, working or driving. 'Periodic Leg Motion Disorder in Sleep' can disrupt sleep in wives who share the same bed, not just the patient. These spouses can say that they are kicked all night by the patient. Again, due to the movement of the legs they can open or fall over the bedcover.
Types of Sleep Apnea

Types of Sleep Apnea

There are three main types of sleep apnea: Obstructive Sleep Apnea (OSA)
Central Sleep Apnea (CSA)
Mixed sleep apnea Obstructive Sleep Apnea (OSA)
Obstructive Sleep Apnea is the most common type of sleep apnea. The diagnosis of sleep apnea is 84%.
Obstructive sleep apnea; It is in the upper respiratory tract and is caused by a blockage in the nose and throat that stops air flow to the lungs. Why the upper respiratory tract may be blocked: During sleep, the muscles relax and the airway stops and the airway stops.
Airway constriction thickness around neck.
Inflammatory tonsils or other transient causes.
Structural causes such as nose, neck, or chin. Central Sleep Apnea (CSA) Rare Central Sleep Apnea (CSA) may arise from some medications used in pain treatment such as opioids, heart failure, severe injuries and operations. And also;
Stroke Glioma
Viral brain infection
It may occur in chronic respiratory disorders.
Although Central Respiratory Apnea is open in the Central Sleep Apnea, as a result of the absence of breathing effort, it is the breathing of the lungs that can not reach the air.
Central Sleep Apnea is usually confused with snoring and it is therefore difficult to notice. Investigations 4 Patients with Central Sleep Apnea were found to have heart failure. CSA is also associated with Cheyne-Stokes Respiratory (CSR), which occurs in heart failure. CSR is a cycle of breathing, deep, sometimes rapid breathing. Central Sleep Apnea and Cheyne-Stokes heart failure are 30-50% undetermined and are known as CSA-CSR. Mixed Sleep Apnea
This mixture of CSA and OSA is an obtuse.
Your doctor can help you further if needed. If you are worried about your sleep apnea, consult your doctor. Opioid = Chemical substances that act like morphine in the body. Its main use is analgesia. These agents act by binding to opioid receptors in the central nervous system and the gastrointestinal tract.
Total : 27
Whatsap'tan Bize Yazın | News
Sayfa Başı