breathing physiology

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How Breathing Regulates the Cardiovascular System and Improves Chemosensitivity

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Key Points

  • Breathing modulates the cardiovascular system through respiratory sinus arrhythmia

  • Slow breathing reduces chemosensitivity to high carbon dioxide and low oxygen

  • Controlled breathing could be a beneficial intervention in different pathological states

The Breathing Diabetic Summary

How does breathing affect us physiologically?  Well, the answer to that is complex.  Breathing is felt by various receptors throughout the body, affecting cardiovascular and autonomic variability on many levels. This review study examined these different modulatory effects of breathing through a comprehensive analysis of the peer-reviewed literature.

 

Breathing and the Cardiovascular System

The cardiovascular system is sensitive to external stimuli. Just picture something scary (like giving a presentation), and your heart rate will likely increase. Consequently, your breathing will also change to match your metabolic needs.

But this is a two-way street. Controlled, rather than reactive, breathing also has profound impacts on the cardiovascular system. This can be temporary, for example, breathing rapidly for one minute, or permanent, for example, developing the behavior/habit of chronic over-breathing.

Knowing that breathing has "direct access" to the cardiovascular system, let's look at how this occurs and how controlled breathing might be beneficial in different pathological states.

 

Respiratory Sinus Arrhythmia

One way in which breathing permeates the cardiovascular system is through respiratory sinus arrhythmia (RSA). RSA is a measurement of how breathing, heart rate, and blood pressure all interact. In simple terms, RSA refers to the increase in heart rate as you inhale and decrease in your heart rate as you exhale. RSA is thought to be an index of vagal activity and direct measurement of heart rate variability.  

When we breathe so that the length of our inhale matches seamlessly with our heart rate increase and our exhale with our heart rate decrease, we maximize RSA. Typically, this occurs when breathing at around 6 breaths per minute. This coherence among respiration and heart rate leads to the maximization of heart rate variability, improving cardiovascular efficiency.

 

Breathing and Chemoreflexes

Slow breathing can reduce breathlessness and improve exercise performance in patients with chronic heart failure. These results suggest that slow breathing could be modifying the chemoreflexes, allowing one to tolerate higher concentrations of carbon dioxide and lower concentrations of oxygen.

To test this hypothesis, a study was conducted with yoga trainees and non-yoga trained participants. Both groups performed different breathing protocols to test their response to high carbon dioxide (hypercapnia) and low oxygen (hypoxia). Although none of these participants had heart problems, the goal was to see if slow breathing could reduce chemoreflexes in the controls to the levels seen in yoga practitioners.

As we might expect, the chemoreflexes of the yoga practitioners at baseline were much lower than the non-trained participants.  This means their breathing did not increase as much when exposed to hypercapnia or hypoxia. Interestingly, the chemoreflexes of the controls decreased to levels similar to the yogis when breathing at 6 breaths per minute.  Therefore, the simple act of slow breathing reduced chemosensitivity to carbon dioxide and hypoxia, regardless of previous training.

These results indicate that breathing could represent another way to better coordinate the breathing muscles, improve chemoreflexes, and improve exercise performance in patients with cardiovascular problems. Slow breathing could, therefore, be a practical alternative when other rehabilitation programs are not available.

 

Breathing Modulates Cardiovascular and Autonomic Control

To summarize, breathing is a potent modulator of cardiovascular and autonomic systems.  Deliberate practice of different breathing patterns (for example, slow breathing) could be beneficial for increasing heart rate variability, improving breathing efficiency, improving chemosensitivity, and enhancing cardio-autonomic control.

 

Abstract

Respiration is a powerful modulator of heart rate variability, and of baro- and chemoreflex sensitivity. Abnormal respiratory modulation of heart rate is often an early sign of autonomic dysfunction in a number of diseases. In addition, increase in venous return due to respiration may help in maintaining blood pressure during standing in critical situations. This review examines the possibility that manipulation of breathing pattern may provide beneficial effects in terms not only of ventilatory efficiency, but also of cardiovascular and respiratory control in physiologic and pathologic conditions, such as chronic heart failure. This opens a new area of future research in the better management of patients with cardiovascular autonomic dysfunction.

 

Journal Reference:

L Bernardi, C Porta, A Gabutti, L Spicuzza, P Sleight.  Modulatory Effects of Respiration.  Auton Neurosci. 2001;90(1-2):47-56. doi: 10.1016/S1566-0702(01)00267-3.

 
 
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Diaphragmatic breathing improves subjective and physiological indicators of anxiety

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Key Points

  • Diaphragmatic breathing reduces anxiety as measured on the Beck Anxiety Inventory

  • Diaphragmatic breathing reduces physiological indicators of anxiety, including breathing rate, heart rate, and skin conductance

The Breathing Diabetic Summary

We’ve all been told to just “take a deep breath.”  As I’ve argued before, that’s not always the best advice.  However, it might not be the worst advice either.

We know that controlling your breath improves autonomic balance and improves several markers of cardiovascular function.  This paper wanted to examine the effects of diaphragmatic breathing on both subjective and physiological indicators of anxiety.

To do this, they studied 30 patients with mild-to-moderate anxiety.  The participants were broken up into a control (n=15) group and diaphragmatic breathing relaxation (DBR; n=15) group.

The DBR group was given instruction on diaphragmatic breathing over an 8-week period.  They also were instructed to practice DBR twice daily, completing 10 breaths with each practice.

(Here is my only qualm with this paper. They did not describe exactly what the DBR technique was.  They just said that the patients received DBR training and were instructed to practice at home and during training sessions with the investigators.  Therefore, we cannot replicate their DBR exercise for ourselves.)

After the 8-week program, the participants in the DBR group significantly reduced their anxiety on the Beck Anxiety Inventory (BAI), a standardized questionnaire used to assess anxiety.  Their average scores dropped from ~19 down to ~5 (lower is better).

Moreover, physiological indicators of anxiety also reduced in the DBR group.  For example, heart rate, breathing rate, and skin conductivity all decreased, indicating reductions in anxiety.

Overall, these results indicate that diaphragmatic breathing improves anxiety from both subjective and physiological perspectives.  That is, it works.  Thus, we can use deep breathing anytime we (or our clients or friends) feel overwhelmed and know that we are changing our physiology to promote a more relaxed state.

Abstract from Paper

PURPOSE: To evaluate the effectiveness on reducing anxiety of a diaphragmatic breathing relaxation (DBR) training program.

DESIGN AND METHODS: This experimental, pre-test-post-test randomized controlled trial with repeated measures collected data using the Beck Anxiety Inventory and biofeedback tests for skin conductivity, peripheral blood flow, heart rate, and breathing rate.

FINDINGS: The experimental group achieved significant reductions in Beck Anxiety Inventory scores (p < .05), peripheral temperature (p = .026), heart rate (p = .005), and breathing rate (p = .004) over the 8-week training period. The experimental group further achieved a significant reduction in breathing rate (p < .001).

PRACTICE IMPLICATIONS: The findings provide guidance for providing quality care that effectively reduces the anxiety level of care recipients in clinical and community settings.

Journal Reference:

Chen YF, Huang XY, Chien CH, Cheng JF. The effectiveness of diaphragmatic breathing relaxation training for reducing anxiety. Perspect Psychiatr Care. 2017;53(4):329-336.