Sentences with phrase «in normal breathing»

It is hardly surprising that this leaves little room for the structures involved in normal breathing.

It's been experimentally demonstrated that we use only 1/7 of our lungs in normal breathing, breathing in only 500 cubic centimeters of air during each inhalation.

In normal breathing, the rib cage expands and the sternum elevates during inhalation; the ribs and sternum descend and settle during exhalation.

This is a sign that your body isn't getting enough oxygen in your normal breathing pattern.

In newborns noisy breathing that happens occasionally is normal.

Dizziness is normal, as is shallow breathing, a slower reaction time in general, unfocused thinking, and so forth.

This is a change in breathing rates and can also be perfectly normal.

Nose drops or nose sprays that contain normal saline (a weak salt water solution) can be used to soften the mucus in the nose and help your child breathe better.

Nasal congestion may sound like a simple issue, but it can in fact prove to be extremely dangerous for a newborn infant, because it would not only cause fatigue and irritability, thereby hampering normal growth, but also cause sleep apnea, which causes temporary moments of not breathing when the newborn is asleep.

Breathing pauses — combined with snoring and snorting — may be a symptom of sleep apnea, but an occasional pause in breathing during sleep can also be perfectlBreathing pauses — combined with snoring and snorting — may be a symptom of sleep apnea, but an occasional pause in breathing during sleep can also be perfectlbreathing during sleep can also be perfectly normal.

In fact, a newborn's normal rate of breathing is around 40 breaths a minute while awake and that may slow by half once they're asleep.

Specifically, intensive postmortem neurological studies of their brain tissues reveal a relatively low density of acetylcholine (a neurotransmitter) nerve sites, which, at normal densities, function in critical ways to help re-initiate breathing following a sleep - related apnea or extended breathing pauses.

In animal models, exposure to cigarette smoke or nicotine during fetal development alters the expression of the nicotinic acetylcholine receptor in areas of the brainstem important for autonomic function, 28 alters the neuronal excitability of neurons in the nucleus tractus solitarius (a brainstem region important for sensory integration), 29 and alters fetal autonomic activity and medullary neurotransmitter receptors.30 In human infants, there are strong associations between nicotinic acetylcholine receptor and serotonin receptors in the brainstem during development.31 Prenatal exposure to tobacco smoke attenuates recovery from hypoxia in preterm infants, 32 decreases heart rate variability in preterm33 and term34 infants, and abolishes the normal relationship between heart rate and gestational age at birth.33 Moreover, infants of smoking mothers exhibit impaired arousal patterns to trigeminal stimulation in proportion to urinary cotinine levels.35 It is important to note also that prenatal exposure to tobacco smoke alters the normal programming of cardiovascular reflexes such that there is a greater - than - expected increase in blood pressure and heart rate in response to breathing 4 % carbon dioxide or a 60 ° head - up tilt.36 These changes in autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDIn animal models, exposure to cigarette smoke or nicotine during fetal development alters the expression of the nicotinic acetylcholine receptor in areas of the brainstem important for autonomic function, 28 alters the neuronal excitability of neurons in the nucleus tractus solitarius (a brainstem region important for sensory integration), 29 and alters fetal autonomic activity and medullary neurotransmitter receptors.30 In human infants, there are strong associations between nicotinic acetylcholine receptor and serotonin receptors in the brainstem during development.31 Prenatal exposure to tobacco smoke attenuates recovery from hypoxia in preterm infants, 32 decreases heart rate variability in preterm33 and term34 infants, and abolishes the normal relationship between heart rate and gestational age at birth.33 Moreover, infants of smoking mothers exhibit impaired arousal patterns to trigeminal stimulation in proportion to urinary cotinine levels.35 It is important to note also that prenatal exposure to tobacco smoke alters the normal programming of cardiovascular reflexes such that there is a greater - than - expected increase in blood pressure and heart rate in response to breathing 4 % carbon dioxide or a 60 ° head - up tilt.36 These changes in autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDin areas of the brainstem important for autonomic function, 28 alters the neuronal excitability of neurons in the nucleus tractus solitarius (a brainstem region important for sensory integration), 29 and alters fetal autonomic activity and medullary neurotransmitter receptors.30 In human infants, there are strong associations between nicotinic acetylcholine receptor and serotonin receptors in the brainstem during development.31 Prenatal exposure to tobacco smoke attenuates recovery from hypoxia in preterm infants, 32 decreases heart rate variability in preterm33 and term34 infants, and abolishes the normal relationship between heart rate and gestational age at birth.33 Moreover, infants of smoking mothers exhibit impaired arousal patterns to trigeminal stimulation in proportion to urinary cotinine levels.35 It is important to note also that prenatal exposure to tobacco smoke alters the normal programming of cardiovascular reflexes such that there is a greater - than - expected increase in blood pressure and heart rate in response to breathing 4 % carbon dioxide or a 60 ° head - up tilt.36 These changes in autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDin the nucleus tractus solitarius (a brainstem region important for sensory integration), 29 and alters fetal autonomic activity and medullary neurotransmitter receptors.30 In human infants, there are strong associations between nicotinic acetylcholine receptor and serotonin receptors in the brainstem during development.31 Prenatal exposure to tobacco smoke attenuates recovery from hypoxia in preterm infants, 32 decreases heart rate variability in preterm33 and term34 infants, and abolishes the normal relationship between heart rate and gestational age at birth.33 Moreover, infants of smoking mothers exhibit impaired arousal patterns to trigeminal stimulation in proportion to urinary cotinine levels.35 It is important to note also that prenatal exposure to tobacco smoke alters the normal programming of cardiovascular reflexes such that there is a greater - than - expected increase in blood pressure and heart rate in response to breathing 4 % carbon dioxide or a 60 ° head - up tilt.36 These changes in autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDIn human infants, there are strong associations between nicotinic acetylcholine receptor and serotonin receptors in the brainstem during development.31 Prenatal exposure to tobacco smoke attenuates recovery from hypoxia in preterm infants, 32 decreases heart rate variability in preterm33 and term34 infants, and abolishes the normal relationship between heart rate and gestational age at birth.33 Moreover, infants of smoking mothers exhibit impaired arousal patterns to trigeminal stimulation in proportion to urinary cotinine levels.35 It is important to note also that prenatal exposure to tobacco smoke alters the normal programming of cardiovascular reflexes such that there is a greater - than - expected increase in blood pressure and heart rate in response to breathing 4 % carbon dioxide or a 60 ° head - up tilt.36 These changes in autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDin the brainstem during development.31 Prenatal exposure to tobacco smoke attenuates recovery from hypoxia in preterm infants, 32 decreases heart rate variability in preterm33 and term34 infants, and abolishes the normal relationship between heart rate and gestational age at birth.33 Moreover, infants of smoking mothers exhibit impaired arousal patterns to trigeminal stimulation in proportion to urinary cotinine levels.35 It is important to note also that prenatal exposure to tobacco smoke alters the normal programming of cardiovascular reflexes such that there is a greater - than - expected increase in blood pressure and heart rate in response to breathing 4 % carbon dioxide or a 60 ° head - up tilt.36 These changes in autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDin preterm infants, 32 decreases heart rate variability in preterm33 and term34 infants, and abolishes the normal relationship between heart rate and gestational age at birth.33 Moreover, infants of smoking mothers exhibit impaired arousal patterns to trigeminal stimulation in proportion to urinary cotinine levels.35 It is important to note also that prenatal exposure to tobacco smoke alters the normal programming of cardiovascular reflexes such that there is a greater - than - expected increase in blood pressure and heart rate in response to breathing 4 % carbon dioxide or a 60 ° head - up tilt.36 These changes in autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDin preterm33 and term34 infants, and abolishes the normal relationship between heart rate and gestational age at birth.33 Moreover, infants of smoking mothers exhibit impaired arousal patterns to trigeminal stimulation in proportion to urinary cotinine levels.35 It is important to note also that prenatal exposure to tobacco smoke alters the normal programming of cardiovascular reflexes such that there is a greater - than - expected increase in blood pressure and heart rate in response to breathing 4 % carbon dioxide or a 60 ° head - up tilt.36 These changes in autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDin proportion to urinary cotinine levels.35 It is important to note also that prenatal exposure to tobacco smoke alters the normal programming of cardiovascular reflexes such that there is a greater - than - expected increase in blood pressure and heart rate in response to breathing 4 % carbon dioxide or a 60 ° head - up tilt.36 These changes in autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDin blood pressure and heart rate in response to breathing 4 % carbon dioxide or a 60 ° head - up tilt.36 These changes in autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDin response to breathing 4 % carbon dioxide or a 60 ° head - up tilt.36 These changes in autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDin autonomic function, arousal, and cardiovascular reflexes might all increase an infant's vulnerability to SIDS.

Periodic breathing, in which breathing starts and stops again, is normal.

More ominously, at least six of the victims developed acute respiratory distress syndrome, a condition in which fluid builds up in the lungs and prevents normal breathing.

The normal job of the carotid body, nestled in the carotid artery, is to signal your brain to step up your breathing if your blood oxygen concentrations drop too low.

While lying in a cylindrical chamber, patients breathe in 100 percent oxygen (normal air is about 21 percent oxygen) at 2 to 3 times regular atmospheric pressure, for at least an hour.

These beverages may give some protection against the ravages of oxidizing chemicals that we breathe in or that cells in our bodies produce as the cells go about their normal housekeeping functions.

When they restored normal nitric oxide levels by having mice breathe in the short - lived gas — as patients have done in clinical trials — cell adhesion did not increase when oxygen levels decreased.

They have investigated temporal changes in oxygen levels of the normal brain and glioma in animal models subjected to breathing oxygen - enriched gases.

When these mice were housed in chambers that contained normal air containing 21 percent oxygen, the equivalent of what a person would breathe at sea level, they developed brain lesions and had a median survival length of 58 days.

So, the continuous in - and - out rush of waves against a shoreline is very similar to a normal, slow breathing cycle, which will only occupy the brain's attention for a short time before being ignored, allowing you to drift off to sleep.

Without warning, I could go from feeling perfectly normal to suddenly experiencing chest pains, heart palpitations, tingling in my arms and fingertips, dizziness, and difficulty breathing.

Users prefer a genuine and fit personal trainer who's a living, breathing, normal human, not just some supermodel from a magazine... one who's succeeded wildly in fitness and now paves the way for the rest.

CPAP provides a steady stream of air through a mask that is worn during sleep, which keeps the airway open to prevent pauses in breathing and restore normal oxygen levels.

In normal unregulated breathing without application of the bandhas, the diaphragm moves downwards and displaces the lower abdominal organs, causing the lower abdomen to protrude outward.

This may help in supporting normal breathing so you can enjoy a smoother run.

Exercise results in the loss of fluids and essential minerals through perspiration, normal bowel and urinary elimination, and breathing.

«Our clinical advisory board will be an integral part of the success in delivering on the Vivos mission to provide powerful and innovative therapies that restore normal breathing during sleep, with the objective of bringing people back to a life full of vitality and happiness,» said Dr. Bennett.

When finished return to normal breathing for a minute or two, then lie down in Shavasana (Corpse Pose) for a few minutes.

Normal breathing is associated with proper muscle movement — the most important being the abdominal muscles in the front and sides of your abdomen and the diaphragm muscle.

It's particularly important to be aware of your breathing during times of stress, which is often when breathing can switch from normal to abnormal as you hold more tension in your abdominal and pelvic muscles.

Make sure to keep your back straight while in this position and try to breathe as normal as you can.

So it takes a normal restful nature hike where you've been enjoying the birds singing and the wind whispering to the trees and instead turns in to just like this, suffer fest where your, you know, covered in sweat and hoisting this 40 lbs vest up the hill and breathing through them that Batman like mask.

I rotated through dresses with scarves / blazers / long necklaces, a pair of motherhood maternity dress slacks that were normal in the front but had an elastic band in the back (so not quite «real» maternity pants, but definitely room to breathe), and elastic - waist skirts.

Focus on breathing ins and outs, leave everything behind but if you're back to a mind busy while doing that and it's normal just keeps bring your mind back on thinking nothing:).

She wants to protect her family — which includes not only her mother (Paula Malcomson: A.I. Artificial Intelligence, The Green Mile) and sister, Prim (Willow Shields), but also the boy she's really in love with, Gale (Liam Hemsworth: The Expendables 2, The Last Song), even though she can not admit that, and Haymitch (Woody Harrelson: Now You See Me, Seven Psychopaths), the other surviving Games winner from District 12 who continues to mentor Kat and Peeta — but she can not help but be the girl for whom disregarding the rules is as normal as breathing.

the characters move around (breathe, walk, run, blink, move their lips in sync) like normal people would.

Still, we fit a normal - size, human in the back of the coupe, and he had plenty of room to live, breathe and operate his cell phone.

This use of the trick is not about reducing your stop loss distance, indeed you will keep the same stop loss distance as a «normal» market entry, instead, you're getting a SAFER stop loss placement and getting more breathing room on your trade, thereby increasing the probability of being on - board when the market moves in your favor.

As I discussed in my trade entry trick article linked to in the previous paragraph, using a normal stop loss distance with a limit entry order on a pin bar for example, allows you more «breathing room» in the trade.

It is important to know what the «normal» snorting and breathing noises are for your short - faced dog, so that you can recognize when they are in trouble.

If your dog has something stuck in his nose or throat — whether it's part of a pine cone or part of his favorite toy — it can block normal breathing and cause snoring.

You can breathe a sigh of relief because your pet will get to maintain their normal routine of feeding, playtime, and exercise in the safety and comfort of your household.

The normal breathing rate for a dogs and cat with well controlled heart failure is less than 35 to 40 breaths per minute, and a very slow breathing rate (less than 20 breaths per minute) is seen in some animals.

Affected horses may be training fine but don't perform well in competition and take longer to recover normal breathing.

If a pet is breathing with greater effort than normal you may see the abdominal muscles (stomach region) moving forcefully in and out with each breath.

In general, all normal dogs, and dogs with asymptomatic heart disease and heart failure that are well controlled on medications, have a breathing rate between 15 - 30 breaths every minute when they are resting calmly or sleeping.

However, there is a difference between normal panting and excessive heavy breathing and restlessness in dogs.

These animals can have a variety of problems contributing to their breathing problems such as narrow nostrils, excessive soft tissue in the mouth and throat like the soft palate and relatively large tongues and they also tend to have very narrow tracheas (windpipes) compared to normal animals of a similar size.