Metabolic Management
|
May 21, 2024

Stress and Insulin Sensitivity - All You Need to Know

Medically Reviewed by
Updated On
September 17, 2024

In our modern, fast-paced world, stress has become an unavoidable aspect of life. From the demands of the workplace to personal responsibilities and societal pressures, stress permeates various facets of daily existence and affects individuals across all demographics.

The ramifications of chronic stress extend far beyond the psychological, profoundly affecting physical health outcomes, including the endocrine, immune, and cardiovascular systems.Β 

This article explores the relationship between stress and insulin sensitivity, underscoring the importance of integrating lifestyle modifications and stress management to address stress-induced alterations in metabolic function.

[signup]

What Is Stress?

Stress is the body's reaction to demands or challenges and manifests in two forms: acute and chronic. Immediate threats trigger acute stress and set off a response involving the release of adrenaline and noradrenaline from the adrenal glands, priming the body for rapid action.Β 

Additionally, the hypothalamic-pituitary-adrenal (HPA) axis coordinates the release of cortisol, the stress hormone that regulates the physiological functions that prepare the body for dealing with stressors.Β 

These responses, orchestrated by the sympathetic nervous system, enhance alertness and energy metabolism while suppressing non-essential bodily functions like digestion and reproduction.

When stress is chronic and lasts over extended periods, this stress response can become persistent and dysregulated, contributing to a range of health problems.

Sources of Stress

Common sources of stress include:

  • Environmental Stressors: Noise pollution, overcrowding, and urbanization can heighten feelings of overwhelm, agitation, and discomfort.
  • Psychological Stressors: Work-related pressures, relationship conflicts, and financial worries significantly affect stress levels. Job stress is a significant source of stress for American adults, with 25% viewing their jobs as the number one stressor in their lives and 40% reporting their jobs as very or extremely stressful. Rates of workplace stress continue to increase. Increased job stress with a feeling of having little control but high demands is linked to increased rates of heart attack, hypertension, and many other health issues.
  • Lifestyle Factors: Poor dietary habits, inadequate sleep, and lack of physical activity also exacerbate stress.

Stress and Its Impact on Metabolic Health

Stress can affect metabolic health in many ways. Here are the most noted:

The Role of Cortisol

Cortisol, the body's stress hormone, regulates metabolism, particularly in response to stress. Cortisol mobilizes glucose into the blood from energy reserves to provide the body with the necessary resources to cope with stressors by influencing glucose regulation and insulin sensitivity.

Gluconeogenesis

Cortisol promotes the synthesis of glucose from noncarbohydrate sources like amino acids and glycerol in the liver, increasing blood glucose levels and providing readily available energy during stressful situations.Β 

In addition, cortisol inhibits glucose uptake by peripheral tissues like muscle and adipose tissue, redirecting glucose to organs needed for immediate survival like the brain.

Insulin Sensitivity

In the short term, cortisol enhances insulin action by promoting the movement of glucose transporters to the cell membrane, facilitating glucose uptake into cells. If cortisol remains chronically elevated due to chronic stress, cells can become less responsive to the effects of insulin, resulting in impaired glucose uptake and increased blood glucose levels.Β 

This phenomenon, known as insulin resistance, is commonly observed in conditions such as obesity, metabolic syndrome, and type 2 diabetes.

How Are Stress and Insulin Sensitivity Connected?

Chronic stress can lead to insulin resistance through several interconnected mechanisms, impacting hormones, blood glucose levels, appetite, and insulin function.Β 

Physiological Effects of Stress on Insulin Sensitivity

Chronically elevated cortisol increases blood glucose levels through gluconeogenesis and reduces insulin sensitivity in tissues like muscle, fat, and the liver, impairing glucose uptake. This results in insulin resistance and persistent elevations in blood sugar (hyperglycemia) despite the presence of insulin.

Additionally, chronic stress disrupts insulin secretion from pancreatic beta cells, with decreased insulin secretion as stress persists and beta cells become exhausted.

Repeated and continued activation of the sympathetic nervous system and HPA axis promotes inflammation, exacerbating insulin resistance and increasing the risk of metabolic disorders like type 2 diabetes.

Behavioral Factors Linking Stress to Insulin Sensitivity

Chronic stress affects brain regions involved in regulating appetite, energy balance, and glucose metabolism, altering hormone secretion and promoting metabolic dysregulation that worsens insulin resistance.Β 

Chronic stress can reduce motivation and energy levels, leading to decreased physical activity and poor dietary choices. A sedentary lifestyle is associated with reduced insulin sensitivity and increased risk of insulin resistance and type 2 diabetes.Β 

Stress can also contribute to chronic sleep deprivation, which alters hormone levels, including cortisol and insulin, further contributing to metabolic dysfunction.

Managing Stress to Improve Insulin Sensitivity

Certain lifestyle modifications and stress management techniques can be used together to help improve insulin sensitivity.

Lifestyle Modifications

Lifestyle modifications can help manage stress and improve insulin sensitivity.Β 

  • Balanced Anti-inflammatory Diet: Focus on a balanced anti-inflammatory diet like the Mediterranean Diet, which is rich in whole foods such as vegetables, fruits, lean proteins, whole grains, and healthy fats. These diets limit the intake of processed foods, sugary snacks, and refined carbohydrates, which can spike blood sugar levels and exacerbate insulin resistance.
  • Move Regularly: Regular physical activity, incorporating aerobic exercise, strength training, and flexibility exercises, improves insulin sensitivity and reduces stress hormones. Aim for at least 150 minutes of moderate-intensity exercise per week or 75 minutes of vigorous activity.
  • Adequate Sleep: Prioritize sufficient, high-quality, restorative sleep for 7-9 hours each night. Establish a consistent sleep schedule, engage in a relaxing bedtime routine, and create a comfortable, quiet, dark environment free of distractions.

Stress Management Techniques

Routinely practicing stress management techniques can help reduce the adverse effects of chronic stress and return the body to a parasympathetic state. The following methods can help reduce cortisol levels and keep blood sugar and insulin more balanced:

  • Mindfulness: This practice involves paying purposeful attention to the present moment without judgment, promoting relaxation, increasing self-awareness, and enhancing emotional regulation to manage chronic stress.
  • Meditation: This ancient practice entails focusing the mind to relieve stress, enhance relaxation, improve concentration, and foster a sense of inner peace.
  • Deep-Breathing Exercises: Breathing exercises, such as diaphragmatic or belly breathing, can help activate the body's relaxation response, slowing the heart rate, lowering blood pressure, and promoting feelings of calm and relaxation.
  • Progressive Muscle Relaxation: Different muscle groups throughout the body are tensed and relaxed to reduce stress, promote muscle relaxation, alleviate physical discomfort, and induce deep relaxation.
  • Yoga: Combining physical postures, breathing exercises, and meditation, yoga can reduce stress by improving flexibility, strength, and balance, and promoting relaxation and mental clarity.
  • Spending Time in Nature: Going for a walk in the park or hiking in the mountains promotes relaxation, improves mood, and fosters a sense of connection with the natural world.
  • Social Support: Seeking support from friends, family, a counselor, or support groups can help reduce stress and improve coping abilities.

Evidence of the Stress-Insulin Sensitivity Link

Several studies collectively highlight the adverse effects of chronic stress on insulin sensitivity and metabolic health. This emerging research underscores the importance of addressing stress as a modifiable risk factor in preventing and managing insulin resistance and related metabolic disorders.

Research suggests that prolonged exposure to stress hormones like cortisol leads to impaired insulin signaling in peripheral tissues, elevated levels of inflammatory markers, and oxidative stress, which all contribute to insulin resistance.Β 

A landmark study investigating how perceived stress levels relate to insulin sensitivity in a group of healthy women found that higher perceived stress was linked to decreased insulin sensitivity, independent of factors like body weight and physical activity levels.

A meta-analysis exploring the relationship between psychological stress and type 2 diabetes risk found that individuals with high levels of psychological stress had a significantly increased risk of insulin resistance and type 2 diabetes compared to those with lower stress levels.

[signup]

Key Takeaways

  • Stress is pervasive in modern society, particularly in the workplace, contributing to various health issues.
  • Chronic stress leads to insulin resistance, a precursor to type 2 diabetes and metabolic syndrome.
  • Insulin resistance disrupts glucose regulation and increases the risk of metabolic disorders.
  • Physiological responses to stress involve cortisol and adrenaline release, influencing glucose metabolism and insulin sensitivity.
  • Lifestyle factors, including nutrition, exercise, and sleep patterns, can exacerbate or mitigate stress's effects on insulin sensitivity.
  • Adopting a well-balanced diet, regular exercise routine, adequate sleep, and seeking social connections can improve stress management and insulin sensitivity.
  • Understanding and addressing the link between stress and insulin sensitivity are crucial for promoting metabolic health and reducing the risk of chronic diseases.

In our modern, fast-paced world, stress has become an unavoidable aspect of life. From the demands of the workplace to personal responsibilities and societal pressures, stress permeates various facets of daily existence and affects individuals across all demographics.

The effects of chronic stress extend far beyond the psychological, potentially influencing physical health outcomes, including the endocrine, immune, and cardiovascular systems.Β 

This article explores the relationship between stress and insulin sensitivity, highlighting the potential benefits of integrating lifestyle modifications and stress management to address stress-related changes in metabolic function.

[signup]

What Is Stress?

Stress is the body's reaction to demands or challenges and manifests in two forms: acute and chronic. Immediate threats trigger acute stress and set off a response involving the release of adrenaline and noradrenaline from the adrenal glands, priming the body for rapid action.Β 

Additionally, the hypothalamic-pituitary-adrenal (HPA) axis coordinates the release of cortisol, the stress hormone that helps regulate the physiological functions that prepare the body for dealing with stressors.Β 

These responses, orchestrated by the sympathetic nervous system, enhance alertness and energy metabolism while suppressing non-essential bodily functions like digestion and reproduction.

When stress is chronic and lasts over extended periods, this stress response can become persistent and dysregulated, potentially contributing to a range of health issues.

Sources of Stress

Common sources of stress include:

  • Environmental Stressors: Noise pollution, overcrowding, and urbanization can heighten feelings of overwhelm, agitation, and discomfort.
  • Psychological Stressors: Work-related pressures, relationship conflicts, and financial worries significantly affect stress levels. Job stress is a significant source of stress for American adults, with 25% viewing their jobs as the number one stressor in their lives and 40% reporting their jobs as very or extremely stressful. Rates of workplace stress continue to increase. Increased job stress with a feeling of having little control but high demands is linked to increased rates of heart attack, hypertension, and many other health issues.
  • Lifestyle Factors: Poor dietary habits, inadequate sleep, and lack of physical activity also exacerbate stress.

Stress and Its Impact on Metabolic Health

Stress can affect metabolic health in many ways. Here are the most noted:

The Role of Cortisol

Cortisol, the body's stress hormone, plays a role in regulating metabolism, particularly in response to stress. Cortisol mobilizes glucose into the blood from energy reserves to provide the body with the necessary resources to cope with stressors by influencing glucose regulation and insulin sensitivity.

Gluconeogenesis

Cortisol promotes the synthesis of glucose from noncarbohydrate sources like amino acids and glycerol in the liver, increasing blood glucose levels and providing readily available energy during stressful situations.Β 

In addition, cortisol inhibits glucose uptake by peripheral tissues like muscle and adipose tissue, redirecting glucose to organs needed for immediate survival like the brain.

Insulin Sensitivity

In the short term, cortisol enhances insulin action by promoting the movement of glucose transporters to the cell membrane, facilitating glucose uptake into cells. If cortisol remains chronically elevated due to chronic stress, cells can become less responsive to the effects of insulin, which may result in impaired glucose uptake and increased blood glucose levels.Β 

This phenomenon, known as insulin resistance, is commonly observed in conditions such as obesity, metabolic syndrome, and type 2 diabetes.

How Are Stress and Insulin Sensitivity Connected?

Chronic stress can lead to insulin resistance through several interconnected mechanisms, impacting hormones, blood glucose levels, appetite, and insulin function.Β 

Physiological Effects of Stress on Insulin Sensitivity

Chronically elevated cortisol may increase blood glucose levels through gluconeogenesis and reduce insulin sensitivity in tissues like muscle, fat, and the liver, potentially impairing glucose uptake. This may result in insulin resistance and persistent elevations in blood sugar (hyperglycemia) despite the presence of insulin.

Additionally, chronic stress may disrupt insulin secretion from pancreatic beta cells, with decreased insulin secretion as stress persists and beta cells become exhausted.

Repeated and continued activation of the sympathetic nervous system and HPA axis may promote inflammation, exacerbating insulin resistance and increasing the risk of metabolic disorders like type 2 diabetes.

Behavioral Factors Linking Stress to Insulin Sensitivity

Chronic stress affects brain regions involved in regulating appetite, energy balance, and glucose metabolism, altering hormone secretion and potentially promoting metabolic dysregulation that worsens insulin resistance.Β 

Chronic stress can reduce motivation and energy levels, leading to decreased physical activity and poor dietary choices. A sedentary lifestyle is associated with reduced insulin sensitivity and increased risk of insulin resistance and type 2 diabetes.Β 

Stress can also contribute to chronic sleep deprivation, which alters hormone levels, including cortisol and insulin, further contributing to metabolic dysfunction.

Managing Stress to Support Insulin Sensitivity

Certain lifestyle modifications and stress management techniques can be used together to help support insulin sensitivity.

Lifestyle Modifications

Lifestyle modifications can help manage stress and support insulin sensitivity.Β 

  • Balanced Anti-inflammatory Diet: Consider focusing on a balanced anti-inflammatory diet like the Mediterranean Diet, which is rich in whole foods such as vegetables, fruits, lean proteins, whole grains, and healthy fats. These diets limit the intake of processed foods, sugary snacks, and refined carbohydrates, which can spike blood sugar levels and exacerbate insulin resistance.
  • Move Regularly: Regular physical activity, incorporating aerobic exercise, strength training, and flexibility exercises, may improve insulin sensitivity and reduce stress hormones. Aim for at least 150 minutes of moderate-intensity exercise per week or 75 minutes of vigorous activity.
  • Adequate Sleep: Prioritize sufficient, high-quality, restorative sleep for 7-9 hours each night. Establish a consistent sleep schedule, engage in a relaxing bedtime routine, and create a comfortable, quiet, dark environment free of distractions.

Stress Management Techniques

Routinely practicing stress management techniques can help reduce the adverse effects of chronic stress and return the body to a parasympathetic state. The following methods may help support balanced cortisol levels and maintain blood sugar and insulin balance:

  • Mindfulness: This practice involves paying purposeful attention to the present moment without judgment, promoting relaxation, increasing self-awareness, and enhancing emotional regulation to manage chronic stress.
  • Meditation: This ancient practice entails focusing the mind to relieve stress, enhance relaxation, improve concentration, and foster a sense of inner peace.
  • Deep-Breathing Exercises: Breathing exercises, such as diaphragmatic or belly breathing, can help activate the body's relaxation response, slowing the heart rate, lowering blood pressure, and promoting feelings of calm and relaxation.
  • Progressive Muscle Relaxation: Different muscle groups throughout the body are tensed and relaxed to reduce stress, promote muscle relaxation, alleviate physical discomfort, and induce deep relaxation.
  • Yoga: Combining physical postures, breathing exercises, and meditation, yoga can reduce stress by improving flexibility, strength, and balance, and promoting relaxation and mental clarity.
  • Spending Time in Nature: Going for a walk in the park or hiking in the mountains promotes relaxation, improves mood, and fosters a sense of connection with the natural world.
  • Social Support: Seeking support from friends, family, a counselor, or support groups can help reduce stress and improve coping abilities.

Evidence of the Stress-Insulin Sensitivity Link

Several studies collectively highlight the potential effects of chronic stress on insulin sensitivity and metabolic health. This emerging research underscores the importance of addressing stress as a modifiable factor in supporting insulin sensitivity and related metabolic functions.

Research suggests that prolonged exposure to stress hormones like cortisol may lead to impaired insulin signaling in peripheral tissues, elevated levels of inflammatory markers, and oxidative stress, which all contribute to insulin resistance.Β 

A landmark study investigating how perceived stress levels relate to insulin sensitivity in a group of healthy women found that higher perceived stress was linked to decreased insulin sensitivity, independent of factors like body weight and physical activity levels.

A meta-analysis exploring the relationship between psychological stress and type 2 diabetes risk found that individuals with high levels of psychological stress had a significantly increased risk of insulin resistance and type 2 diabetes compared to those with lower stress levels.

[signup]

Key Takeaways

  • Stress is pervasive in modern society, particularly in the workplace, contributing to various health issues.
  • Chronic stress may lead to insulin resistance, a precursor to type 2 diabetes and metabolic syndrome.
  • Insulin resistance can disrupt glucose regulation and increase the risk of metabolic disorders.
  • Physiological responses to stress involve cortisol and adrenaline release, influencing glucose metabolism and insulin sensitivity.
  • Lifestyle factors, including nutrition, exercise, and sleep patterns, can exacerbate or mitigate stress's effects on insulin sensitivity.
  • Adopting a well-balanced diet, regular exercise routine, adequate sleep, and seeking social connections can help manage stress and support insulin sensitivity.
  • Understanding and addressing the link between stress and insulin sensitivity are crucial for promoting metabolic health and reducing the risk of chronic diseases.
The information in this article is designed for educational purposes only and is not intended to be a substitute for informed medical advice or care. This information should not be used to diagnose or treat any health problems or illnesses without consulting a doctor. Consult with a health care practitioner before relying on any information in this article or on this website.

Learn more

No items found.

Lab Tests in This Article

No lab tests!

Anderson, S. (2022, May 19). 6 Preventable Risk Factors Associated With Heart Attacks. Rupa Health. https://www.rupahealth.com/post/5-things-to-do-after-a-heart-attack

Blake, K. (2023, May 22). Anti Inflammatory Diet 101: What to Eat and Avoid Plus Specialty Labs To Monitor Results. Rupa Health. https://www.rupahealth.com/post/anti-inflammatory-diet

Centers for Disease Control. (2019). CDC - Stress at Work - NIOSH Workplace Safety and Health Topic. CDC. https://www.cdc.gov/niosh/stress/about/?CDC_AAref_Val=https://www.cdc.gov/niosh/topics/stress/default.html

Cerf, M. E. (2013). Beta Cell Dysfunction and Insulin Resistance. Frontiers in Endocrinology, 4(37). https://doi.org/10.3389/fendo.2013.00037

Chaunt, L. A. (2023, April 3). Mental Health Benefits of Yoga and Meditation. Rupa Health. https://www.rupahealth.com/post/mental-health-benefits-of-yoga-and-meditation

Chida, Y., & Hamer, M. (2008). An association of adverse psychosocial factors with diabetes mellitus: a meta-analytic review of longitudinal cohort studies. Diabetologia, 51(12), 2168–2178. https://doi.org/10.1007/s00125-008-1154-1

Christie, J. (2023, January 6). A functional medicine approach to obesity and weight management. Rupa Health. https://www.rupahealth.com/post/an-integrative-approach-to-obesity

Cloyd, J. (2023a, March 15). The relationship between the sleep stress cycle. Rupa Health. https://www.rupahealth.com/post/the-relationship-between-the-sleep-stress-cycle

Cloyd, J. (2023b, April 10). A Functional Medicine Hypertension Protocol. Rupa Health. https://www.rupahealth.com/post/functional-medicine-hypertension-protocol

Cloyd, J. (2023c, July 5). Integrative Approaches to Managing High Blood Sugar: Specialty Testing, Lifestyle Modifications, and Natural Remedies. Rupa Health. https://www.rupahealth.com/post/integrative-approaches-to-managing-high-blood-sugar-testing-lifestyle-modifications-and-natural-remedies

Cloyd, J. (2023d, October 2). A Functional Medicine Approach to Stress Management. Rupa Health. https://www.rupahealth.com/post/a-functional-medicine-approach-to-stress-management

Cloyd, J. (2023e, December 1). A Functional Medicine Protocol For Balancing Blood Sugar. Rupa Health. https://www.rupahealth.com/post/a-functional-medicine-protocol-for-balancing-blood-sugar

Cloyd, J. (2024, January 11). Integrating Resveratrol for Improved Insulin Sensitivity and Endocrine Health. Rupa Health. https://www.rupahealth.com/post/integrating-resveratrol-for-improved-insulin-sensitivity-and-endocrine-health

Diorio, B. (2022, October 25). How to Balance Adrenaline Levels Naturally. Rupa Health. https://www.rupahealth.com/post/adrenaline

Diorio, B. (2023, March 17). How to test for hypothalamic-pituitary-adrenal (HPA) axis dysfunction. Rupa Health. https://www.rupahealth.com/post/what-is-the-hypothalamic-pituitary-adrenal-hpa-axis

Epel, E. S., McEwen, B., Seeman, T., Matthews, K., Castellazzo, G., Brownell, K. D., Bell, J., & Ickovics, J. R. (2000). Stress and Body Shape: Stress-Induced Cortisol Secretion Is Consistently Greater Among Women With Central Fat. Psychosomatic Medicine, 62(5), 623–632. https://doi.org/10.1097/00006842-200009000-00005

Hirotsu, C., Tufik, S., & Andersen, M. L. (2015). Interactions between sleep, stress, and metabolism: From physiological to pathological conditions. Sleep Science, 8(3), 143–152. https://doi.org/10.1016/j.slsci.2015.09.002

Janssen, J. A. M. J. L. (2022). New Insights into the Role of Insulin and Hypothalamic-Pituitary-Adrenal (HPA) Axis in the Metabolic Syndrome. International Journal of Molecular Sciences, 23(15), 8178. https://doi.org/10.3390/ijms23158178

Khakham, C. (2023a, March 27). An integrative approach to endocrinology. Rupa Health. https://www.rupahealth.com/post/an-integrative-approach-to-endocrinology

Khakham, C. (2023b, April 6). Understanding Your Risk of Cardiovascular Disease With Functional Medicine Labs. Rupa Health. https://www.rupahealth.com/post/understanding-your-risk-of-cardiovascular-disease-with-functional-medicine-labs

Kirwan, J. P., Sacks, J., & Nieuwoudt, S. (2018). The essential role of exercise in the management of type 2 diabetes. Cleveland Clinic Journal of Medicine, 84(7), 15–21. https://doi.org/10.3949/ccjm.84.s1.03

Kuti, D., Winkler, Z., HorvΓ‘th, K., JuhΓ‘sz, B., SzilvΓ‘sy-SzabΓ³, A., Fekete, C., Ferenczi, S., & KovΓ‘cs, K. J. (2022). The metabolic stress response: Adaptation to acute-, repeated- and chronic challenges in mice. IScience, 25(8), 104693. https://doi.org/10.1016/j.isci.2022.104693

Maholy, N. (2023a, March 9). Integrative Medicine Protocol For Reversing Type 2 Diabetes. Rupa Health. https://www.rupahealth.com/post/integrative-medicine-protocol-for-reversing-type-2-diabetes

Maholy, N. (2023b, April 14). How to reduce stress through mind-body therapies. Rupa Health. https://www.rupahealth.com/post/how-to-reduce-stress-through-mind-body-therapies

Maholy, N. (2023c, May 10). A Functional Medicine Immune Support Protocol. Rupa Health. https://www.rupahealth.com/post/a-functional-medicine-immune-support-protocol

Mariotti, A. (2015). The effects of chronic stress on health: new insights into the molecular mechanisms of brain–body communication. Future Science OA, 1(3). https://doi.org/10.4155/fso.15.21

Merabet, N., Lucassen, P. J., Crielaard, L., Stronks, K., Quax, R., Sloot, P. M. A., la Fleur, S. E., & Nicolaou, M. (2022). How exposure to chronic stress contributes to the development of type 2 diabetes: A complexity science approach. Frontiers in Neuroendocrinology, 65, 100972. https://doi.org/10.1016/j.yfrne.2021.100972

Mucci, N., Traversini, V., Lorini, C., De Sio, S., Galea, R. P., Bonaccorsi, G., & Arcangeli, G. (2020). Urban Noise and Psychological Distress: A Systematic Review. International Journal of Environmental Research and Public Health, 17(18), 6621. https://doi.org/10.3390/ijerph17186621

Ozbay, F., Johnson, D. C., Dimoulas, E., Morgan, C. A., Charney, D., & Southwick, S. (2007). Social Support and Resilience to stress: from Neurobiology to Clinical Practice. Psychiatry (Edgmont), 4(5), 35–40. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2921311/

Ryu, S., & Fan, L. (2022). The Relationship between Financial Worries and Psychological Distress among U.S. Adults. Journal of Family and Economic Issues, 44(1), 16–33. https://doi.org/10.1007/s10834-022-09820-9

Sinha, R., & Jastreboff, A. M. (2013). Stress as a Common Risk Factor for Obesity and Addiction. Biological Psychiatry, 73(9), 827–835. https://doi.org/10.1016/j.biopsych.2013.01.032

Stanford, J. (2024, March 21). Insulin Resistance and Inflammation: Understanding the Connection. Rupa Health. https://www.rupahealth.com/post/insulin-resistance-and-inflammation-understanding-the-connection

Sweetnich, J. (2023a, February 22). How Stress Affects Our Gut Health. Rupa Health. https://www.rupahealth.com/post/how-stress-affects-our-gut-health

Sweetnich, J. (2023b, February 28). How to Balance Cortisol Levels Naturally. Rupa Health. https://www.rupahealth.com/post/how-to-balance-cortisol-levels-naturally

Thau, L., Gandhi, J., & Sharma, S. (2023). Physiology, cortisol. National Library of Medicine; StatPearls Publishing. https://www.ncbi.nlm.nih.gov/books/NBK538239/

The American Institute of Stress. (2021). Workplace Stress - the American Institute of Stress. The American Institute of Stress. https://www.stress.org/workplace-stress

Weinberg, J. L. (2022a, November 16). 4 Science Backed Health Benefits of The Mediterranean Diet. Rupa Health. https://www.rupahealth.com/post/4-science-backed-health-benefits-of-the-mediterranean-diet

Weinberg, J. L. (2022b, December 6). 7 Natural Ways To Stimulate Your Vagus Nerve. Rupa Health. https://www.rupahealth.com/post/5-reasons-you-should-be-stimulating-your-vagus-nerve

Weinberg, J. L. (2023a, January 11). How To Test Your Patients For Metabolic Syndrome. Rupa Health. https://www.rupahealth.com/post/how-to-test-your-patients-for-metabolic-syndrome-a-functional-medicie-approach

Weinberg, J. L. (2023b, January 17). How To Treat Leptin Resistance: A Functional Medicine Approach. Rupa Health. https://www.rupahealth.com/post/how-to-treat-leptin-resistance-a-functional-medicine-approach

Weinberg, J. L. (2023c, November 29). What is Nature Therapy, and How Can You Practice It to Boost Your Health? Rupa Health. https://www.rupahealth.com/post/what-is-nature-therapy-and-how-can-you-practice-it-to-boost-your-health

Weinberg, J. L. (2023d, December 19). The Science of Sleep: Functional Medicine for Restorative Sleep. Rupa Health. https://www.rupahealth.com/post/the-science-of-sleep-functional-medicine-for-restorative-sleep

Weinberg, J. L. (2024a, February 29). The Neurobiology of Stress: Cortisol and Beyond. Rupa Health. https://www.rupahealth.com/post/the-neurobiology-of-stress-cortisol-and-beyond

Weinberg, J. L. (2024b, March 14). The Impact of Stress on Inflammation: Coping Strategies for a Healthier Life. Rupa Health. https://www.rupahealth.com/post/the-impact-of-stress-on-inflammation-coping-strategies-for-a-healthier-life

Yaribeygi, H., Maleki, M., Butler, A. E., Jamialahmadi, T., & Sahebkar, A. (2022). Molecular mechanisms linking stress and insulin resistance. EXCLI Journal, 21, 317–334. https://doi.org/10.17179/excli2021-4382

Yaribeygi, H., Panahi, Y., Sahraei, H., Johnston, T. P., & Sahebkar, A. (2017). The impact of stress on body function: A review. EXCLI Journal, 16(1), 1057–1072. https://doi.org/10.17179/excli2017-480

Yoshimura, H. (2023a, November 7). The remarkable power of exercise on our health: A comprehensive overview. Rupa Health. https://www.rupahealth.com/post/the-remarkable-power-of-exercise-on-our-health-a-comprehensive-overview

Yoshimura, H. (2023b, December 26). Breathing Techniques and Lung Health: A Functional Medicine Approach. Rupa Health. https://www.rupahealth.com/post/breathing-techniques-and-lung-health-a-functional-medicine-approach

Order from 30+ labs in 20 seconds (DUTCH, Mosaic, Genova & More!)
We make ordering quick and painless β€” and best of all, it's free for practitioners.

Latest Articles

View more on Metabolic Management
Subscribe to the magazine for expert-written articles straight to your inbox
Join the thousands of savvy readers who get root cause medicine articles written by doctors in their inbox every week!
Thanks for subscribing!
Oops! Something went wrong while submitting the form.
Are you a healthcare practitioner?
Thanks for subscribing!
Oops! Something went wrong while submitting the form.
Subscribe to the Magazine for free to keep reading!
Subscribe for free to keep reading, If you are already subscribed, enter your email address to log back in.
Thanks for subscribing!
Oops! Something went wrong while submitting the form.
Are you a healthcare practitioner?
Thanks for subscribing!
Oops! Something went wrong while submitting the form.
Trusted Source
Rupa Health
Medical Education Platform
Visit Source
Visit Source
American Cancer Society
Foundation for Cancer Research
Visit Source
Visit Source
National Library of Medicine
Government Authority
Visit Source
Visit Source
Journal of The American College of Radiology
Peer Reviewed Journal
Visit Source
Visit Source
National Cancer Institute
Government Authority
Visit Source
Visit Source
World Health Organization (WHO)
Government Authority
Visit Source
Visit Source
The Journal of Pediatrics
Peer Reviewed Journal
Visit Source
Visit Source
CDC
Government Authority
Visit Source
Visit Source
Office of Dietary Supplements
Government Authority
Visit Source
Visit Source
National Heart Lung and Blood Institute
Government Authority
Visit Source
Visit Source
National Institutes of Health
Government Authority
Visit Source
Visit Source
Clinical Infectious Diseases
Peer Reviewed Journal
Visit Source
Visit Source
Brain
Peer Reviewed Journal
Visit Source
Visit Source
The Journal of Rheumatology
Peer Reviewed Journal
Visit Source
Visit Source
Journal of the National Cancer Institute (JNCI)
Peer Reviewed Journal
Visit Source
Visit Source
Journal of Cardiovascular Magnetic Resonance
Peer Reviewed Journal
Visit Source
Visit Source
Hepatology
Peer Reviewed Journal
Visit Source
Visit Source
The American Journal of Clinical Nutrition
Peer Reviewed Journal
Visit Source
Visit Source
The Journal of Bone and Joint Surgery
Peer Reviewed Journal
Visit Source
Visit Source
Kidney International
Peer Reviewed Journal
Visit Source
Visit Source
The Journal of Allergy and Clinical Immunology
Peer Reviewed Journal
Visit Source
Visit Source
Annals of Surgery
Peer Reviewed Journal
Visit Source
Visit Source
Chest
Peer Reviewed Journal
Visit Source
Visit Source
The Journal of Neurology, Neurosurgery & Psychiatry
Peer Reviewed Journal
Visit Source
Visit Source
Blood
Peer Reviewed Journal
Visit Source
Visit Source
Gastroenterology
Peer Reviewed Journal
Visit Source
Visit Source
The American Journal of Respiratory and Critical Care Medicine
Peer Reviewed Journal
Visit Source
Visit Source
The American Journal of Psychiatry
Peer Reviewed Journal
Visit Source
Visit Source
Diabetes Care
Peer Reviewed Journal
Visit Source
Visit Source
The Journal of the American College of Cardiology (JACC)
Peer Reviewed Journal
Visit Source
Visit Source
The Journal of Clinical Oncology (JCO)
Peer Reviewed Journal
Visit Source
Visit Source
Journal of Clinical Investigation (JCI)
Peer Reviewed Journal
Visit Source
Visit Source
Circulation
Peer Reviewed Journal
Visit Source
Visit Source
JAMA Internal Medicine
Peer Reviewed Journal
Visit Source
Visit Source
PLOS Medicine
Peer Reviewed Journal
Visit Source
Visit Source
Annals of Internal Medicine
Peer Reviewed Journal
Visit Source
Visit Source
Nature Medicine
Peer Reviewed Journal
Visit Source
Visit Source
The BMJ (British Medical Journal)
Peer Reviewed Journal
Visit Source
Visit Source
The Lancet
Peer Reviewed Journal
Visit Source
Visit Source
Journal of the American Medical Association (JAMA)
Peer Reviewed Journal
Visit Source
Visit Source
Pubmed
Comprehensive biomedical database
Visit Source
Visit Source
Harvard
Educational/Medical Institution
Visit Source
Visit Source
Cleveland Clinic
Educational/Medical Institution
Visit Source
Visit Source
Mayo Clinic
Educational/Medical Institution
Visit Source
Visit Source
The New England Journal of Medicine (NEJM)
Peer Reviewed Journal
Visit Source
Visit Source
Johns Hopkins
Educational/Medical Institution
Visit Source
Visit Source

Hey practitioners! πŸ‘‹ Join Dr. Chris Magryta and Dr. Erik Lundquist for a comprehensive 6-week course on evaluating functional medicine labs from two perspectives: adult and pediatric. In this course, you’ll explore the convergence of lab results across different diseases and age groups, understanding how human lab values vary on a continuum influenced by age, genetics, and time. Register Here! Register Here.

Hey practitioners! πŸ‘‹ Join Dr. Terry Wahls for a 3-week bootcamp on integrating functional medicine into conventional practice, focusing on complex cases like Multiple Sclerosis. Learn to analyze labs through a functional lens, perform nutrition-focused physical exams, and develop personalized care strategies. Register Here.