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Can you breathe and sleep at the same time? A silly question? You probably answered “yes.” You maybe interested to know that many people experience difficulty sleeping and breathing simultaneously. Sleep related breathing disorder, commonly known as obstructive sleep apnea, affects over 12 million Americans. Do any of these signs and symptoms fit you or someone you know: difficulty getting to sleep, loud snoring, choking or gasping, kicking legs during sleep, waking up with a headache, feeling sleepy during the day, memory or learning problems, feeling irritable or lacking energy? If you observe a person who is lying down with eyes closed, he or she looks about the same whether sleeping or quietly awake with eyes closed. But, if you pay particular attention to the person’s breathing pattern and facial muscle tone, you will notice subtle differences. The face of a person who is sleeping will be relaxed while the person who is awake with eyes closed exhibits subtle facial muscle tension. Also, a careful observer would notice that breathing pattern and sound is also slightly different as one falls asleep. The most easily discernable sign of transition to sleep is muscle relaxation. When we get tired and sleepy, we often notice our eyelids getting heavy. This is because our facial muscles are starting to relax. When someone is “nodding off,” his or her neck muscles begin to lose their tone, and you know the person is falling asleep. Human airway begins with the nose and end deeply in the lungs. Constructed of cartilage and facial bones, the nose is semi-rigid. The windpipe, or trachea, is lined by rings of cartilage which give it shape and hold it open. Our throat, or pharynx, located just above the vocal cords is different. This part of the airway is unusual as it lacks any rigid structures. It is simply a group of thin, floppy muscles that require tension to maintain shape. What is also unusual about this area is that it is under high level of control by the brain as it takes up enormous amount of brain function. This is because we use this part of our airway for oral communication. This particular function separates us from other animals. Thin and floppy airway is needed for not only for communication but also for eating and swallowing as well as breathing. Unfortunately, when we fall asleep we lose muscle tension and this area may become partially narrowed and obstructed. As a result we are the only natural animals that snore and have sleep related breathing disorder. When we fall asleep and our muscles relax, there is a collapse of this part of the airway. For the majority, this is not a problem because the airway remains open enough to adequately facilitate breathing during sleep. However, for millions of people, collapse of this part of the airway is beyond normal and there is little open space in the pharynx for breathing during sleep. This causes increased turbulence which we call snoring. Further relaxation and the resulting collapse of the airway lead to apneas. While our brain is in the sleep mode, normal breathing occurs without much effort. But severe snoring, or sleep apnea, results in an increased effort to breathe as the body struggles to get more air though the narrowed airway. This causes an increased level of stress to the body and sometimes a drop in oxygen level. There is surge in stress hormones, catecholamines. Soon the brain wakes up to respond to the “breathing emergency” and our sleep is interrupted. The awakening by the brain causes a sudden increase in the upper airway tone. The airway opens as the body continues to hunger for air. This leads to sudden inhalation of air which sleep mates sometimes describe as a snort or gasping for air. The result of untreated sleep apnea is that labored breathing constantly interferes with sleep and the sleep pattern becomes fragmented. We now understand that fragmented sleep is non-restorative. Most people experiencing sleep apnea wake up feeling unrefreshed and feel less awake throughout the day. A profound cardiovascular effect often accompanies obstructive sleep apnea syndrome. With increased efforts to breathe through the narrowed upper airway, the body produces tremendous variations in chest pressure. At the same time, there is a rise in stress hormones being released into the body. There may be “heart pounding” and the development of anxiety (the fight or flight response) as the body and lungs continue their struggle for air. Normally, during sleep hours, our blood pressure drops to compensate for less expenditure of energy. Sleep apnea syndrome causes wide swings in blood pressure that can result in hypertension and heart disease. Inchel Yeam, MD, FCCP | home | about | contact | patient forms | referring physicians | FAQ | links | snoring/apnea | sleep disorders | sleep study |
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