Breathing Patterns & Their Impact on Health

"Constant pains within the neck and upper shoulder muscles, unable to sleep or relax, headaches around the front and back of the head, a busy mind that 'won't switch off', constant mid back pains - especially around the shoulder blades, can sometimes feel as though not enough breath is 'drawn in or out' and it can be even painful whilst taking a deep breath in!"

Above is a couple of respiratory related symptoms that might be described by individuals to their practitioner. It is interesting to sometimes observe a client's resting breathing rate which can sometimes be seen as... well, fast! This particular discovery was made after having taken countless blood pressure readings from individuals. Interestingly, a blood pressure reading can sometimes be lowered after asking individuals to slow their breathing rate down. Slower breathing can help slow down the cardiovascular system, slow down the activity of the mind and help stimulate the parasympathetic autonomic nervous system (7).

Normal or 'Optimal' Breathing

There are several different terms to describe irregular respiratory rates by health professionals (3): 

• Bradypnoea: Abnormally slow breathing. 
• Tachyphoea: Rapid breathing. 
• Dyspnoea: Shortness of breath with a elevated, normal or reduced respiratory rate. 
• Hyperpnoea: Deep and laboured breathing. 
• Apnoea: Absence of breathing. 

A recent study by  Yousefiyan et al., (2023) explored whether neck pain, in particular individuals with unilateral cervical radiculopathy (or nerve root entrapment/ irritation), had a correlation with respiratory dysfunction. They concluded that there was a moderate to large clinical significance in individuals with a dysfunctional breathing pattern and a unilateral reduction of diaphragmatic excursion on the side of their cervical radiculopathy (6). One of the main factors to have cause diaphragmatic dysfunction in patients with cervical radiculopathy (CR) is motion restriction of the diaphragm and irritated nerve roots of the phrenic nerve (6).

The study noted that prolonged compression of the ipsilateral phrenic nerve roots can eventually lead to trophic changes and disturbance in nutrition and function of the phrenic nerve, and consequently diaphragmatic weakness and altered breathing patterns (6). 

A very recent study by Garg et al., (2024) discovered that breathing exercises can 'have a modest but significant effect on reducing systolic and diastolic blood pressure (mmHg).' They also observed that breathing exercises can significantly reduce heart rate (beats/ minute).

Research has shown that a slow breathing rate towards 6 breaths per minute can result to an increased venous return (5). Russo et al., (2014) note that this can be further enhanced with diaphragmatic breathing due to the anatomical fact that the diaphragm is connected to and supports the heart and provides passage for the aorta and the inferior vena cava (5).

Studies have found that individuals who breathe at 6 breaths per minute reportedly have a tendency for heartbeats to cluster during the inspiratory phase (5). The relationship between heart rate, blood pressure and respiration are known as cardiorespiratory coupling (5).

There are approximately over one billion people who suffer from hypertension (HTN) and this has been estimated to increase to 1.5 billion in 2025 according to the American Heart Association (AHA) (2). HTN is defined as systolic blood pressure (SBP) over 140 mmHg and diastolic blood pressure (DBP) over 90 mmHg. Uncontrolled HTN may lead to various cardiovascular complications including stroke, aneurysm, myocardial infarction and heart failure.

It is a good idea that practitioners try to take every new client's blood pressure and/or retest it on clients throughout their course of treatment as there is a strong correlation between blood pressure (BP) and adverse cardiovascular outcomes. It is reported that even a small reduction of blood pressure by 5 mmHg BP in hypertensive patients can lead to an approximate 25 % decrease in cardiovascular complications.

The good news is that we can all modify, retrain and improve our breathing pattern and function at any age and breathing techniques can be quietly practised throughout different times of the day (yay!). As Russo et al., (2017) explain, the act of controlling one’s breath for the purpose of enhancing one’s health has been practiced for thousands of years within Eastern cultures (5). For example, yogic breathing (pranayama) is a well-known ancient practice of controlled breathing often performed in conjunction with meditation or yoga for its spiritual and perceived health-enhancing effects (5).

The history of yoga, and pranayama was first introduced to the West in the late 1800s and its popularity rose in the mid-1900s. The interest of breathing techniques within the medical and scientific communities have stimulated research into the area.

Slow breathing practices have gained popularity in the western world due to their claimed health benefits, but yet remain relatively untouched by the medical community.

Normal Respiratory Rate
The normal respiratory rate in adults is 12 to 18 breaths per minute (BPM). Expiration or breathing out should take twice as long as breathing in (during inspiration) (3, 5).

Slow Respiratory Rate
Slow breathing can be defined as any rate from 4 to 10 breaths per minute (5).

Average Respiratory Rate
It is a surprise to learn that the typical respiratory rate amongst the population is within the range of 10–20 breaths per minute (3, 5)!

Hyperventilating
Hyperventilation is considered when a respiratory rate is more than 20 breaths per minute. 

Task 1 - Try It!:
If you consider yourself a 'slow breather' during rest with good respiratory health, try now breathing twenty breaths per minute. This equates to breathing in and out within three seconds during a one minute time frame i.e. 'one-Mississippi' during inspiration and 'two-Mississippi's' during expiration (or vice-versa with two-Mississippi's during expiration and one-Mississippi during inspiration).

Having completed this task, the following might have been felt:
- Nausea and light headed. 
- The feeling of hyperventilating.
- Tight upper back muscles. 
- Unable to complete the one minute task with this new breathing pattern. 
- Warm face with darkened pink cheeks!
- Tight and raised chest.
- Lifted chin and arching of the neck. 
- Tight neck muscles. 
- Raised shoulders to keep up with the number of breaths. 
- Irritation and fatigue.

...Some familiar sensations and symptoms that were described at the very beginning of this post, perhaps!

The author here has established that their sitting resting breathing pattern tends to average at around three-and-a-half to four seconds during inspiration and another three-and-a-half to four seconds during expiration; equating to an average of 8 breaths per minute - noting that there is room for improvement with their breathing pattern and function.

Task 2: Breathing Exercise
Try and count how many breaths per minute you take on average per minute and notice whether you are a chest or lower abdominal breather; i.e. you notice that only the chest raises during inspiration. Or, whether you observe and feel that the abdomen slowly and steadily rises and lowers whilst you are breathing at rest. Place one hand on your abdomen and the other on your chest for if you are not sure, notice which hand raises and lowers more whilst you breathe. This is a good exercise to do to improve breathing quality. Could this breathing rate be slowed down further? I.e. could you raise your lower abdomen a bit more during inspiration? Could you slowly breathe in for another half a second? What are your shoulders and neck doing? Are they relaxed during inhalation and exhalation? Try and notice the detail and quality of your breathing pattern and try practising it through out the day, this is most likely easier to do before going to sleep. 

Note; an increased respiratory rate of more than 20 breaths per minute in adults could have several causes including:

• Fever
  
• Dehydration
• Asthma
• Chronic obstructive pulmonary disease (COPD)
• Hyperventilation
• Lung conditions e.g. lung cancer, pulmonary emboli (PE).
• Infections
• Respiratory acidosis
• Drug overdose
• Heart conditions including heart failure

1. Bradley, H., Esformes, J. D. (2014) Breathing Pattern Disorders and Functional Movement, Int J Sports Phys Ther, 9; 1: 28-39. 

2. Garg, P., Mendiratta, A., Banga, A., Bucharles, A., Victoria, P., Kamara, B., Qasba, R. K., Bansal, V., Thimmapuram, J., Pargament, R., Kashyap, R. (2024) Effect of breathing exercises on blood pressure and heart rate: A systematic review and meta-analysis, Int. J. Cardiol Cardiovasc Risk Prev., 20: 1 - 16. 

3. Hill, B., Annesley, S. H. (2020) Monitoring respiratory rate in adults, 29; 1: 12-16.

https://www.researchgate.net/publication/338508974_Monitoring_respiratory_rate_in_adults

4. Marc A. Russo,1 Danielle M. Santarelli,1 and  Dean O’Rourke (2017) The physiological effects of slow breathing in the healthy human, 13 (4): 298–309.

5. Russo, M. O., Santarelli, D., O'Rourke, D. (2017) The physiological effects of slow breathing in the healthy human, 13: 4: 298-309.

6. Yousefiyan, R., Yoosefinejad, A. K., Jalli, R., Rezaei, I. (2023) Comparison of Breathing Pattern and Diaphragmatic Motion in Patients with Unilateral Cervical Radiculopathy and Asymptomatic Group, BMC Pulmonary Medicine, 23; 498: 1-9. 

7. Zaccaro, A., Piarulli, A., Laurino, M., Garbella, E., Menicucci, D., Neri, B., Gemignani, A. (2018) 

How Breath-Control Can Change Your Life: A Systematic Review on Psycho-Physiological Correlates of Slow Breathing, 12: 353.