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Reducing inflammation by diet and exercise alone is absolutely possible, but it requires a great deal of discipline and commitment. The rules are very simple, but following them consistently can be quite a challenge.
Daily cardio exercise is extremely valuable in reducing inflammation. Research shows that 40 minutes of elevated heart rate (aerobic) exercise every day not only reduces inflammatory markers (like HSCRP and Lp-PLA2), it also reduces your risk of both heart attack and stroke.
Carbohydrates are pro-inflammatory compounds, so limiting your exposure to them through a low carb diet can significantly reduce inflammation as well as decreasing your risk of heart attack, stroke, and some types of cancer. It can also prevent, manage, or even reverse diabetes. While there are many low carb diets to choose from, this option seems to be the most user friendly. Restrict your carbohydrate intake to no more than 25 carbs every 4 hours. You can have 25 carbs for breakfast, (use them or lose them, but you can’t save them for later). You can have 25 more for lunch, 25 for dinner, 25 for a late night snack, and so on. That’s up to 150 carbs in a 24 hour period, but no more than 25 at any one time. The goal is to limit yourself to a small enough number of carbs that your pancreas can process them over a 4 hour period without recruiting help from other organs. If you can consistently follow this diet, you can reduce inflammation, lose weight, and even reverse type 2 diabetes.
Whether you prefer traditional, nutritional, or cutting edge therapies, there are many great treatments available. Choose between them based on your needs, your budget, or your beliefs. Or you can decide to take them all if you like. Print the summaries to discuss with your physician, or just review this site on your phone during your next office visit. Either way, Touchstone makes it easy to understand and share treatment options so you can make informed decisions about your own care.
In the 1960’s researchers discovered a unique bacteria living in the soil of Easter Island. This “good bacteria”, (Streptomyces hygroscopicus), produces a remarkable compound with many beneficial effects. Named Rapamycin in honor of its place of origin “Rapa Nui” (the indigenous name for Easter Island), the substance has anti-inflammatory, anti-tumor (antitumorigenic), antifungal, and immunomodulatory effects on the human body. Originally approved for use as a transplant anti-rejection drug, Rapamycin has since become one of the most promising longevity and anti-aging treatments available. Just since 2009 more than a dozen scientific studies have been conducted evaluating Rapamycin’s effect on aging with very encouraging results.
Astaxanthin is a natural red pigment found in salmon, shrimp, lobster, and red algae. It is a natural anti-inflammatory and a potent antioxidant with some research indicating it may be 6,000 times stronger than Vitamin C. It is helpful in protecting your tissue from free radical damage resulting in healthier skin, eyes, muscles, and improved cognitive function.
Urolithin A is produced by the digestion of dietary polyphenols. These compounds are found in foods like pomegranates, cocoa powder, dark chocolate, chokeberry, wild berries, (blueberries, blackberries, raspberries, and strawberries), hazelnuts, and pecans. Urolithin A is a powerful anti-inflammatory that also helps reverse cellular aging by clearing dysfunctional mitochondria and promoting the growth of new healthy ones. Clinical studies also suggest that it can enhance immunity and improve muscle strength and endurance in older adults.
Discovered in the 1990s by researchers at the University of Zagreb in Croatia, the BCP-157 peptide, (Body Protection Compound – 157) was first isolated from human gastric juice. It was found to have anti-inflammatory properties, (especially beneficial for inflammation in the digestive tract), it accelerated the healing of tendons, ligaments, and muscles, and demonstrated an ability to promote the growth of new blood vessels, (angiogenesis).
A staple of the Aztec culture for ages, spirulina was introduced to Europeans when Hernando Cortez and his Spanish Conquistadors first made contact with them in 1519. This “blue-green microalgae” (technically cyanobacteria) was rediscovered by natural foods pioneer Christopher Hills in the mid 20th century and the United Nations even declared it “the best food for the future” in 1974. Spirulina is known for its high protein content, immune system support, antioxidant, and anti-inflammatory effects. It has been shown to decrease inflammatory markers like C-Reactive Protein (CRP) and dilate your blood vessels thereby lowering blood pressure. It also helps to reduce allergic reactions to common allergens such as dust, pet dander, and mold.
Used for over 2,000 years in traditional Chinese medicine, it is known as an anti-inflammatory, antioxidant, and immune system supporter. Studies indicate it also provides some kidney protection by decreasing the amount of protein excreted in the urine (proteinuria), and reducing blood pressure. More recent research suggests it may increase telomerase activity, an enzyme that repairs and builds telomeres. If proven, it would mean Astragalus helps to reverse cellular aging.
Simply put, exosomes are a high tech way to change the conversation your cells are having with each other. All your cells are constantly communicating with one another through chemical messages packed into tiny bubbles called exosomes. One cell releases a handful of exosomes that get picked up by neighboring cells which in turn release their own, like a bunch of people at a cocktail party chatting away about the news of the day. Understanding this type of cellular communication is not new to us, but having the ability to change the topic of conversation is a game changer. Imagine five elderly people sitting around a lunch table at the nursing home discussing their bowel problems. Each one is contributing to the overall tone of the meeting, which could safely be described as old, tired, and boring. Now imagine that one of their grandchildren stopped by to visit and excitedly told “grandma” and her friends about a new song and dance they learned at camp, eventually convincing everyone at the table to do it with them. By changing the conversation, the child got a group of elderly people to start acting like kids again. That’s the idea behind exosomes. Although exosomes can be harvested from any tissue, younger conversations tend to come from younger tissue so they are most often derived from donated placental tissue. Unlike stem cells, the “foreign” tissue cells are not injected into the patient. Only the “conversations” (chemical messages) are used, so there is no risk of rejection, cancer, or allergic reaction, and there are no ethical or religious concerns about how they are sourced.
