As I have written about previously, I am currently in a clinical trial at the Benson-Henry Institute for Mind Body Medicine at the Massachusetts General Hospital in Boston. The study is measuring the genomic and psychosocial affects of their mind/body program on patients with MGUS and SMM. I receive daily emails from Dr. Mercola (who I have mixed feelings about ;)), and today there was an article written by Dr. Kelly Brogan explaining the science of meditation: how meditation affects your mind, and how meditation alters genetic expression.
Here is the link to the article, which also includes a very interesting Ted Talk: “How Meditation Can Reshape Our Brains”. I copied the two sections from this article, “The Science of Meditation” and “Meditation Alters Your Genetic Expression” below the link:
How Meditation Affects Your Health and Wellbeing
The Science of Meditation
Since we have come to appreciate the power of genetic expression as more than simply the 20,000 genes you’re born with, we can now harness tools that optimize the “good” and suppress the “bad.”
It turns out that our in-born DNA interfaces with an “exposome” or elements in our environment, and our conscious behavior, dictating exactly how the book of you will actually be written. With one fell swoop, things like spices, exercise, and relaxation can accomplish what pharmaceuticals could only fantasize about.
Some diligent researchers out of the Benson-Henry Institute for Mind Body Medicine1
in Massachusetts have begun to illuminate the mechanisms of meditation’s effects, specifically the relaxation response
which can be achieved through various forms of meditation, repetitive prayer, yoga, tai chi, breathing exercises, progressive muscle relaxation, biofeedback, guided imagery, and Qi Gong.
According to Dr. Benson, the relaxation response is, “a physical state of deep rest that changes the physical and emotional responses to stress (e.g., decreases in heart rate, blood pressure, rate of breathing, and muscle tension)” and is characterized by:
- Metabolism decreases
- Heart beats slow and muscles relax
- Breathing slows
- Blood pressure decreases
- Levels of nitric oxide increase
Meditation Alters Your Genetic Expression
Forty years of research support these claims. Only recently have the tools to assess gene-based changes been available. Far from summoning their inner monks, subjects in the Institute’s studies simply pop in some ear buds and listen to a 20-minute guided meditation, passively. The Benson-Henry Institute has sought to quantify the benefits of the relaxation response by assessing gene expression before, after 20 minutes, after eight weeks of practice, and after long-term meditation routines.
In a series of papers, they walk us through the anti-inflammatory effects of this intervention. Genetic study2
of eight-week and long-term meditators demonstrated evidence of changes to gene expression – specifically antioxidant production, telomerase activity, and oxidative stress – as a result of the relaxation response.
They theorize that NF-kappa B
gene sets may be the messenger between psychological and physical stress wherein the body translates worry into inflammation. It appears that the relationship between gene expression optimization and relaxation response is dose-related, so that increasing amounts confer increasing benefit. Even after one session, changes were noted, characterized by:3
“Upregulating ATP synthase —with its central role in mitochondrial energy mechanics, oxidative phosphorylation and cell aging — RR may act to buffer against cellular overactivation with overexpenditure of mitochondrial energy that results in excess reactive oxygen species production. We thus postulate that upregulation of the ATP synthase pathway may play an important role in translating the beneficial effects of the RR.”
These changes represent an orchestra of base and high notes that synergize into a body-balancing harmony. The experience of the relaxation response also appears to change brain plasticity or cellular connections in areas of the brain associated with stress response.
These changes occur based on internal recalibration of the nervous system – with no manipulation of circumstantial conditions, meaning stressors remain the same. According to neuroscientist, Dr. Lazar,4
long-term meditation practice appears to be associated with preferential cortical thickening:
“…brain regions associated with attention, interoception and sensory processing were thicker in meditation participants than matched controls, including the prefrontal cortex and right anterior insula” and that these findings were further validated by an eight-week intervention trial.5
Clinically, mindfulness-based meditation practice has been demonstrated in randomized trials6
to improve depressive symptoms in fibromyalgia and to have lasting anti-anxiety effects after only eight weeks of group practice.7
There was also a recent article on meditation and managing stress from the ASCO Post:
Stress and Tumor Biology: Insights Into Managing Stress to Help Improve Cancer Care
This part of the article really stood out to me:
“The health-damaging effects of chronic stress are well documented in the medical literature, and research indicates that chronic stress affects almost every biologic system. With regard to cancer, there is little convincing evidence that chronic stress affects cancer initiation. However, there is extensive evidence that chronic stress can promote cancer growth and progression.”
When I was first reclassified as smoldering myeloma, after being diagnosed with MGUS about 3 years prior, Dr. R stressed to me the importance of reducing stress. He told me that he had “seen” in other patients what stress can do as far as causing progression from the precursor states to full blown myeloma. He encouraged me to do yoga twice a day, go to mass every morning…do WHATEVER I had to do to reduce and manage stress. Well, I’m proud to say I’m working on that as we speak!