6 breaths/min

2020 Meta-Analysis: Slow Breathing Improves A Variety of Behavioral and Physiological Outcomes

Key Points

  • Across 58 studies and 2,485 patients, heart rate variability biofeedback (HRVB) and slow breathing improve a wide range of behavioral and physiological outcomes.

  • These methods provide a simple, safe, and effective complementary therapy that could be useful in a wide variety of settings.

  • Slow breathing (without biofeedback) is likely to be enough, requiring little more than a cellphone application to get started.

The Breathing Diabetic Summary

A hallmark of slow breathing is that it increases heart rate variability (HRV). It does this by increasing respiratory sinus arrhythmia (RSA), which synchronizes your heart rate with your breathing. When they match, your heart rate increases while you inhale and it decreases while you exhale.

Thus, RSA enhances the “peaks and troughs” of heart rate with each breath, which increases HRV. Because HRV is a robust indicator of overall health and wellness, this is one way in which slow breathing is so powerful. So much so, in fact, that HRV biofeedback (or HRVB) has become extremely popular to help with a variety of problems. 

With HRVB, a person’s “perfect” breathing rate is determined—that is, one that maximizes HRV. And because increases in RSA and HRV are driven by increases in the calming parasympathetic branch of the nervous system, this can reduce negative stress and increase overall resiliency. This has wide-reaching positive benefits.

We’ve covered many of them before. But here are some of the general benefits:

  • Reduced blood pressure.

  • Reduced stress and anxiety.

  • Improved emotional control.

  • Enhanced cognitive function.

  • Better cardio-autonomic function.

  • Improved gas exchange in the lungs.

In this meta-analysis, the authors performed an extensive literature review to examine these benefits of HRVB from a broader statistical perspective. They included papers spanning a wide range of settings, measuring a wide range of outcomes.

Note that, although HRVB sounds fancy (and it can be), many of the benefits are achieved by simply breathing at a rate of about 5-6 breaths per minute.

Therefore, this meta-analysis also included studies that used 6 breaths per minute because:

it is possible that simply doing paced breathing at about six breaths per minute would have the same salutary effects as breathing more exactly at resonance frequency. […] This can easily be taught by following a computer-generated pacing signal or a clock.

From a practical perspective, this might be the most important aspect of this meta-analysis.

After starting with more than 1,500 papers, they ended up with 58 studies having a total of 2,485 patients.

Their statistical analysis of all these studies revealed that HRVB and slow breathing both significantly improve many aspects of health and wellness.

The greatest benefits were for:

  • Athletic performance

  • Artistic performance

  • Depression

  • Gastrointestinal problems

  • Anxiety and anger

  • Respiratory disorders

  • Systolic blood pressure

  • Pain

Smaller, but still meaningful, benefits were found for:

  • Self-reported stress

  • Quality of life

  • Diastolic blood pressure

  • PTSD

  • General energy

  • Sleep

Interestingly, I would have expected several items on the second list to be on the first. But that’s why meta-analyses like this are so important : ) Also, note that measures like “self-reported stress” are harder to quantify. The authors even mention that these results might be the result of how the questionnaires were given.

In any case, the overall results of this meta-analysis are quite exceptional: HRVB and slow breathing both have wide-ranging benefits for overall health and wellness.

These two sentences from the paper sum it up better than I ever could:

These results suggest that HRVB might be a useful addition to the skill sets of clinicians working in a variety of settings, including mental health, behavioral medicine, sports psychology, and education. The method is easy to learn and can easily be used along with other forms of intervention, with rare side effects.

Abstract

We performed a systematic and meta analytic review of heart rate variability biofeedback (HRVB) for various symptoms and human functioning. We analyzed all problems addressed by HRVB and all outcome measures in all studies, whether or not relevant to the studied population, among randomly controlled studies. Targets included various biological and psychological problems and issues with athletic, cognitive, and artistic performance. Our initial review yielded 1868 papers, from which 58 met inclusion criteria. A significant small to moderate effect size was found favoring HRVB, which does not differ from that of other effective treatments. With a small number of studies for each, HRVB has the largest effect sizes for anxiety, depression, anger and athletic/artistic performance and the smallest effect sizes on PTSD, sleep and quality of life. We found no significant differences for number of treatment sessions or weeks between pretest and post-test, whether the outcome measure was targeted to the population, or year of publication. Effect sizes are larger in comparison to inactive than active control conditions although significant for both. HRVB improves symptoms and functioning in many areas, both in the normal and pathological ranges. It appears useful as a complementary treatment. Further research is needed to confirm its efficacy for particular applications.

 

 

Journal Reference:

Lehrer, P., Kaur, K., Sharma, A., Shah, K., Huseby, R., Bhavsar, J., & Zhang, Y. (2020). Heart Rate Variability Biofeedback Improves Emotional and Physical Health and Performance: A Systematic Review and Meta Analysis. Applied Psychophysiology and Biofeedback, 45(3), 109–129. https://doi.org/10.1007/s10484-020-09466-z

 

Slow breathing improves autonomic function in type 1 diabetics

Bernardi_et_al-2017_WTG.JPG

Key Points

  • Slow breathing increased autonomic function, arterial function, and blood oxygen saturation in type 1 diabetic patients

  • Slow breathing stimulates the parasympathetic nervous system and suppresses the sympathetic nervous system, providing an antioxidant effect

  • “Slow breathing could be a simple beneficial intervention in diabetes.”

Breathing Blueprint Summary

The last key point above, taken directly from the abstract, says it all. This paper was published in Nature, one of the most prestigious scientific journals around, and they are highlighting the usefulness of slow breathing for diabetes and autonomic function in general.  Pretty awesome.

Diabetics suffer from an enhanced risk for cardiovascular disease, which is associated with autonomic dysfunction.  However, slow breathing has been shown to restore autonomic balance, suggesting that it might be applicable in type 1 diabetes.

Participants in the study performed 5 minutes of spontaneous breathing, followed by 2 minutes of slow breathing at 6 breaths/min.  That is a very short amount of time, yet they still got fairly remarkable results. 

During spontaneous breathing, diabetics had worse baseline data than controls.  For example, diabetics had a lower resting blood oxygen saturation and higher blood pressure.  The main marker of autonomic function that they measured was the baroreflex sensitivity (BRS). BRS measures your body’s ability to quickly adjust your blood pressure to match the current circumstances.  At baseline, the diabetics’ had a lower BRS score.

However, after just 2 minutes of slow breathing, their BRS increased to values similar to those of the controls during spontaneous breathing.  The authors believe this occurred due to a reduction in sympathetic nervous system activity and an increase in parasympathetic activity.

They also provide evidence that this shift in autonomic activity has a direct antioxidant effect.  Because diabetics (and really anyone with a chronic disease) suffer from excess oxidative stress and free radicals, this aspect of slow breathing is extremely important for improving our overall health and well-being.

Lastly, slow breathing also improved the arterial function and blood oxygen saturation of the diabetics. The authors suspect the improvements in oxygen saturation were due to improved ventilation perfusion (i.e., better matching of air and blood flow in the lungs). 

In summary, with only 2 minutes of slow breathing, type 1 diabetics were able to improve autonomic function, enhance antioxidant capacity, and improve blood oxygen saturation. These results provide practical evidence that slow breathing can improve the overall health of diabetics.

Abstract from Paper

Hyperoxia and slow breathing acutely improve autonomic function in type-1 diabetes. However, their effects on arterial function may reveal different mechanisms, perhaps potentially useful. To test the effects of oxygen and slow breathing we measured arterial function (augmentation index, pulse wave velocity), baroreflex sensitivity (BRS) and oxygen saturation (SAT), during spontaneous and slow breathing (6 breaths/min), in normoxia and hyperoxia (5 L/min oxygen) in 91 type-1 diabetic and 40 age-matched control participants. During normoxic spontaneous breathing diabetic subjects had lower BRS and SAT, and worse arterial function. Hyperoxia and slow breathing increased BRS and SAT. Hyperoxia increased blood pressure and worsened arterial function. Slow breathing improved arterial function and diastolic blood pressure. Combined administration prevented the hyperoxia-induced arterial pressure and function worsening. Control subjects showed a similar pattern, but with lesser or no statistical significance. Oxygen-driven autonomic improvement could depend on transient arterial stiffening and hypertension (well-known irritative effect of free-radicals on endothelium), inducing reflex increase in BRS. Slow breathing-induced improvement in BRS may result from improved SAT, reduced sympathetic activity and improved vascular function, and/or parasympathetic-driven antioxidant effect. Lower oxidative stress could explain blunted effects in controls. Slow breathing could be a simple beneficial intervention in diabetes.

Journal Reference:

Bernardi L, Gordin D, Bordino M, Rosengård-Bärlund M, Sandelin A, Forsblom C, Per-Henrik Groop PR. Oxygen-induced impairment in arterial function is corrected by slow breathing in patients with type 1 diabetes. Sci Rep. 2017;7:6001. DOI:10.1038/s41598-017-04947-4.