Is Dark Chocolate Healthy? No, but Cocoa Flavanols Are!

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This post is sponsored by CocoaVia® Brand. chocolate and cocoa flavanols

A dark rich chocolate brownie or smooth, creamy chocolate bar tastes even sweeter when you know it is good for you. After all, chocolate is full of healthy compounds right? Unfortunately, it is not that simple. In its native state, the cocoa bean contains a mixture of compounds that may be beneficial to your health. Processing cocoa beans into cocoa powder or your favorite sweet treat destroys most of these helpful compounds.

Percent Cacao Means Nothing

You can forget choosing dark chocolate based on how bitter or dark it is. The benefits of chocolate come from cocoa flavanols, not from the percent cacao or the darkness of the chocolate. Cocoa flavanols are the beneficial plant-based nutrients (phytonutrients) naturally found in cocoa. No other food on Earth can match cocoa’s unique blend of flavanols. Cocoa flavanols work with your body to maintain healthy levels of nitric oxide. Nitric oxide helps maintain the healthy flow of oxygen and nutrients to all parts of your body. Supporting healthy blood flow is essential to helping you maintain who you are for years to come. In fact, our entire bodies, including our heart, brain, and muscles, depend on healthy blood flow, which helps us feel and perform our best.

How can I Choose Dark Chocolate Rich in Beneficial Compounds?

Don’t look for health benefits from dark chocolate . Most chocolate isn’t nearly as healthy as you may believe. It takes approximately four average dark chocolate bars (more than 700 calories) to get the same amount of cocoa flavanols as you get in a single serving of CocoaVia® cocoa extract supplement. So enjoy chocolate – in moderation, as your sweet treat, but not as your daily source of cocoa flavanols!

CocoaVia Cocoa Flavanols

So if chocolate isn’t a reliable source of flavanols, how about cocoa powder? Unfortunately, most cocoa powders aren’t much better. With no added sugars, less fat, and more fiber than typical chocolate, cocoa powder can be a better option for getting a chocolatey experience. However, cocoa powder might not be a reliable way to get your flavanols. Cocoa flavanols are typically destroyed when cocoa is processed. Any cocoa powder that is Dutched or alkalized contains significantly fewer cocoa flavanols.

Taste Plus Health Benefits

To take the guess work out, you can try CocoaVia®. CocoaVia® cocoa extra supplement delivers the highest concentration of cocoa flavanols in a cocoa extract supplement today – 375mg per serving – . and numerous scientific studies have demonstrated these flavanols promote healthy blood flow from head to toe.

It’s easy to start your day with CocoaVia® supplement. Add one delicious powdered stick pack to the beverage or food of your choice. For more information on CocoaVia® supplement, which is supported by more than two decades of scientific research, visit www.CocoaVia.com. I often start my day with a peanut butter chocolate shake. I mix one stick pack of CocoaVia® Unsweetened Dark Chocolate supplement into my morning smoothie with peanut powder, ice and milk.

 

†The Food and Drug Administration has not evaluated this statement. This product is not intended to diagnose, treat, cure, or prevent any disease.

 

The Ketogenic Diet Craze: Fat-Filled Lies, Part 1

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ketogenic diPicture this: a thick, juicy, tender eventeak grilled to perfection with melted butter glazed on top, gently dripping down the sides. Lying next to the steak there’s a side of dark green asparagus sautéed in coconut oil and dusted with a sprinkle of sea salt. Could a diet loaded with fat help you lose diet-resistant body fat that’s been taunting the seams of your dress pants and poking through buttons on your shirt? Will eating fat turn you into an all-star athlete? This is part 1 of a 2 part series on the ketogenic diet.

Here is what I will cover in this blog post:

  • What is the ketogenic diet?
  • Adverse health effects.

Here is what I will cover in tomorrow’s blog on this topic:

  • The issue with ketogenic research studies.
  • Is the ketogenic diet superior for losing fat?
  • How will the ketogenic diet affect muscle?
  • How will the ketogenic diet impact athletic performance?

What is the Ketogenic Diet?

For nearly a century, epileptic patients have used ketogenic diets to control seizures when common medications provide no relief. Scientists aren’t sure why following a ketogenic diet decreases the incidence and severity of seizures but it works.

The ketogenic diet contains – 80-90% of calories from fat, 15% from protein and 5% from carbohydrate (1, 2). Food choices may include heavy cream, bacon, eggs, non-starchy vegetables, mayonnaise and sausage while fruits, starchy vegetables, breads, pasta, cereal and other carbohydrate-rich foods are not allowed.

During the first several days on a ketogenic diet, your body’s limited supply of carbohydrate stored in liver and muscle tissue decreases dramatically. As a result, you will feel like you have mono – exhausted, with headaches and easy exercise will feel like you’re climbing Mount Everest (3). Once your stored carbohydrate has dwindled, ketones, formed from the breakdown of dietary fat, become the primary source of energy for brain and body. Ketogenic means “ketone forming.” It takes at least seven days to reach nutritional ketosis and several weeks to fully adapt to the diet (12). If you aren’t in nutritional ketosis (as measured by blood, urine or breath ketones; ketone levels > 0.5 mmol/L), then you aren’t following a ketogenic diet, you are on a low carbohydrate diet.

Adverse Health Effects from the Ketogenic Diet

Much of the research on adverse effects comes from studies in epileptic children since they have been on the diet for long periods of time. These studies show soon after starting a ketogenic diet, blood cholesterol levels and artery stiffness increase (4, 5). High total and LDL cholesterol are risk factors for cardiovascular disease (diseases of the heart and blood vessels). When arteries are stiff, they cannot expand as well in response to changes in blood pressure. Think of this like a garden hose when you turn up the water pressure, your hose either expands or the water bursts out of the space between the faucet and the hose. When arteries cannot open widely to accommodate increases in blood flow, blood pressure increases leading to microscopic tears on artery walls, development of scar tissue and the perfect surface for plaque buildup (6). Blood cholesterol levels returned to normal in patients who went off the diet and in those who stayed on it, they returned to normal after 6 to 12 months. Artery stiffness returned to normal after 24 months on a ketogenic diet.5 Studies in obese patients suggest ketogenic diets improve blood sugar and blood cholesterol levels over time, either due to the diet, weight loss from the diet, a combination of the two or carbohydrate restriction (7, 8). Lose weight, regardless of what you eat and blood cholesterol, blood pressure, inflammation, blood sugar and many other disease risk factors will improve.

Ketogenic diets are typically low in calcium, vitamin D, potassium, magnesium, folic acid and fiber. There are several potential consequences associated with consistently low intake of each of these micronutrients including softening of the bones, decreased bone density, muscle damage, muscle weakness or spasms, and abnormal heart rhythm. However, with careful planning, a fiber supplement, multivitamin and under the guidance of a physician who may prescribe potassium and sodium supplements (blood sodium could drop to dangerously low levels while on this diet), nutrient needs can be met. Also, to prevent constipation when on a ketogenic diet, a fiber supplement may be necessary along with more water / fluid intake then you are used to.

Here are some other potentially bad side effects from following a high fat diet:

  • Harm to your Brain. Studies in mice show a high fat diet, even when followed for as little as two months leads to chronic inflammation, sedentary immune cells in the brain – these cells typically act like janitors picking up trash and infectious compounds but when they become sedentary they stop doing their job, leading to cognitive impairment (9). Does this happen in humans and resolve over time? We don’t know.
  • Mad Bacteria in Your Gut. A diet with no probiotics (healthy bacteria) and low in prebiotics (certain types of fiber that the healthy bacteria much on for food keeping them happy) will likely change the composition of bacteria in your gut so you have more harmful and less beneficial bacteria.
  • Leaky Gut. High saturated fat meals increase bacterial toxins (endotoxins) in the intestines and intestinal permeability. In other words: leaky gut (10, 11). If you are on this diet, consider opting for foods lower in saturated fat and higher in unsaturated fats (liquid oils, avocado, nuts, seeds, olives).
  • Free radicals in overdrive? If you can’t eat a number of colorful foods including blueberries, beets, corn, oranges, and more, chances are you won’t get a wide array of antioxidant compounds to quench free radicals (compounds that are important for good health but can wreck your body when they aren’t tamed by antioxidants) as well as other plant-based compounds that keep your arteries, muscles and other parts of your body healthy. Will your body adapt? We don’t know at this time.

Are the side effects and potential negative side effects worth it if you can lose weight on this diet? Stay tuned for tomorrow’s post on how the ketogenic diet impacts body fat and athletic performance.

References

1 Freeman JM, Freeman JB, Kelly MT. The ketogenic diet: a treatment for epilepsy. 3rd ed. New York, NY: Demos Health; 2000.

2 Paoli A, Bianco A, Damiani E, Bosco G. Ketogenic Diet in Neuromuscular and Neurodegenerative Diseases. BioMed Research International 2014, Article ID 474296, 10 pages, 2014.

3 White AM, Johnston CS, Swan PD et al. Blood ketones are directly related to fatigue and perceived effort during exercise in overweight adults adhering to low-carbohydrate diets for weight loss: a pilot study. J Am Diet Assoc 2007;107(10):1792-6.

4 Tanakis M, Liuba P, Odermarsky M, Lundgren J, Hallböök T. Effects of ketogenic diet on vascular function. Eur J Paediatr Neurol 2014;18(4):489-94.

5 Coppola G, Natale F, Torino A et al. The impact of the ketogenic diet on arterial morphology and endothelial function in children and young adults with epilepsy: a case-control study. Seizure 2014;23(4):260-5.

6 Cecelja M, Chowienczyk P. Role of arterial stiffness in cardiovascular disease. JRSM Cardiovascular Disease 2012;1(4):1-10.

7 Dashti HM, Mathew TC, Hussein T, Asfar SK, Behbahani A, Khoursheed MA, Al-Sayer HM, Bo-Abbas YY, Al-Zaid NS. Long-term effects of a ketogenic diet in obese patients. Exp Clin Cardiol 2004; 9(3): 200–205.

8 Volek JS, Feinman RD. Carbohydrate restriction improves the features of Metabolic Syndrome. Metabolic Syndrome may be defined by the response to carbohydrate restriction. Nutr Metab (Lond) 2005;2:31.

9 Hao S, Dey A, Yu X, Stranahan AM. Dietary obesity reversibly induces synaptic stripping by microglia and impairs hippocampal plasticity. Brain Behav Immun 2016 Jan;51:230-9.

10 Mani V, Hollis JH, Gabler NK. Dietary oil composition differentially modulates intestinal endotoxin transport and postprandial endotoxemia. Nutr Metab (Lond) 2013; 10: 6.

11 Lam YY, Ha CW, Campbell CR, Mitchell AJ, Dinudom A, Oscarsson J, Cook DI, Hunt NH, Caterson ID, Holmes AJ, Storlien LH. Increased gut permeability and microbiota change associate with mesenteric fat inflammation and metabolic dysfunction in diet-induced obese mice. PLoS One 2012;7(3):e34233.

12 Paoli, A, Grimaldi K, D’Agostino D, Cenci L, Moro T, Bianco A, Palma A. Ketogenic diet does not affect strength performance in elite artistic gymnasts. J Int Soc Sports Nutr 2012;9:34.

Tackling Concussions Head-On: How Nutrition Can Improve Outcomes

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football

I sat on the floor hunched over and crying. My elbows were raised – close to my eyes as my arms hugged my head, hands clenched at the base of my neck. My brain felt like a percussion instrument shaking inside my skull. As the pounding grew more intense the pain became unbearable. I had a concussion, my second in two years, which earned me a night in the ER.

Concussions are common in sports and recreation. Though considered a mild type of traumatic brain injury because they are usually not life-threatening, all concussions should be taken seriously. A single blow to the head can result in short-term loss of brain functioning or long-term changes in thinking, language, emotions and sensations including taste, touch and smell (1). Repeated concussions can be very dangerous and may lead to permanent changes in brain functioning or in extreme cases, death (2). Though widely recognized in football players, concussions happen in all sports – even in everyday activities – and they are occurring at younger ages. Athletes who have had one concussion have a greater risk (2 – 5.8 times higher) of experiencing another concussion (3). Multiple blows to the head could lead to chronic traumatic encephalopathy (CTE), a progressive neurodegenerative disease associated with poor memory, changes in personality, behavior, speech and gait (4). Posthumous examination of some former NFL players in addition to a few college football players who committed suicide revealed CTE. In March 2016, the NFL acknowledged the link between traumatic brain injury and CTE. The movie ‘Concussion,’ set for release in late December, 2015 highlights concussions in former NFL players though the league has gone to great lengths to make today’s game safer.

Decreasing the Damaging Effects from Concussions

Anyone who experiences a blow to their head or body (a forceful blow to the body can cause the brain to shake inside the skull) should be immediately examined by a physician with experience in the evaluation and management of concussions. Though the person may say they feel fine and can continue with regular activities, symptoms of concussion do not always appear immediately and may instead be delayed for several hours. Continuing to play or perform mental tasks like studying can increase severity or symptoms and cause complications including the possibility of developing permanent brain damage.

Symptoms of Concussion may include:

  • Confusion
  • Headache
  • Vision changes
  • Memory loss
  • Difficulty with coordination, clumsiness or stumbling
  • Dizziness
  • Irritability
  • Personality changes
  • Slurred speech
  • Delayed response to questions
  • Nausea or vomiting
  • Sensitivity to light and noise
  • Problems sleeping
  • Seizures
  • Loss of consciousness

In addition to the symptoms that occur soon after a concussion, some people experience Post-Concussion Syndrome (PCS) days or weeks later. PCS can cause many of the same symptoms experienced after a concussion as well as trouble concentrating, apathy, depression and anxiety. Symptoms may last a few weeks. If you suspect PCS, have the patient evaluated by a psychiatrist (5).

Nutrition Management

In addition to rest, following a graduated return-to-play and school protocol, and other steps you should take to treat concussions, emerging research suggests nutrition may play an important role. Certain nutrients seem to help reduce some of the damaging effects from concussions:

Protein: 1 – 1.5 grams of protein per kg body weight per day is recommended along with sufficient calories to reduce the inflammatory response (6).

EPA and DHA Omega-3 Fatty Acids: EPA and DHA, omega-3 fatty acids found in fish and algae, increase fluidity of cell membranes, reduce inflammation and enhance cerebral blood flow (which is reduced for up to a month or longer in athletes that recover slowly) (7). Cell membranes are like gateways allowing substances to enter cells or blocking their entry. When cell membranes are more fluid (and therefore less rigid), they perform better, opening the gate for nutrients to come in. DHA, in particular, makes up 97% of the omega-3 fatty acids in the brain and is essential for normal brain functioning (8). Several animal studies show EPA and DHA supplementation before or after a traumatic brain injury helps limit structural damage and decline in brain functioning (9, 10, 11, 12, 13, 14, 15).

There is no clear consensus regarding optimal intake of EPA and DHA prior to or after a concussion. Given that many Americans do not eat enough fish and an estimated 75% of American diets are too low in EPA and DHA, it makes sense to start by meeting the general guidelines for recommended intake of EPA and DHA by:

  • Consuming fatty fish varieties that contain high levels of omega-3s, including salmon, tuna, mackerel and herring at least twice per week;
  • Take an omega-3 supplement providing EPA+DHA daily (be sure to look for high-quality fish oil, algal oil or krill oil supplements in your local grocery or health store);
  • Eat and drink DHA omega-3-fortified foods and beverages, including milk, 100% juice, and yogurt.

Research has yet to identify exactly how much EPA + DHA may be helpful after a concussion. However, according to the Food & Drug Administration (FDA), doses of EPA + DHA up to 3 grams per day are considered safe.

Zinc is necessary for optimal brain functioning while a deficiency of this mineral may compound oxidative damage from concussions. Though zinc supplementation may be an effective treatment modality, additional research needs to determine if zinc supplementation is safe after concussions. The Upper Limit for zinc is 40 mg per day.

Animal and human studies suggest creatine helps prevent secondary brain injury after traumatic brain injury. However, animal studies show long-term creatine intake may decrease its beneficial effects on the brain after injury. Future research needs to better elucidate the relationship between creatine pre-TBI and creatine post-TBI and outcomes.

Other potential approaches to addressing concussions through nutrition include ketogenic diets which are very high-fat, minimal-carbohydrate diets that are effectively used to decrease both the incidence and severity of seizures in children with epilepsy. Ketogenic diets provide an alternate energy source for brain functioning – ketones derived from the breakdown of fat. This may be important since available glucose, the primary energy source for brain functioning, may be decreased after a concussion.

Current research supports the integration of a dietitian into the team of health professionals treating concussions. Though nutrition interventions are considered preliminary at this time, consideration should be given to nutrition strategies that may reduce long-term effects while causing no further harm.

Disclosure: I am a GOED/Omega-3 Science Advisory Council Member supporting the research behind omega-3 EPA and DHA for a healthy brain, heart and eyes.

References

1 What are the Potential Effects of TBI? Injury Prevention & Control: Traumatic Brain Injury. CDC. http://www.cdc.gov/TraumaticBrainInjury/outcomes.html

Concussion (Traumatic Brain Injury). Pubmed Health.

3  Harmon KG, et al. American Medical Society for Sports Medicine position statement: concussion in sport. Br J Sports Med 2013;47:15-26. http://www.amssm.org/Content/pdf%20files/2012_ConcussionPositionStmt.pdf

4  McKee AC, Cantu RC, Nowinski CJ, Hedley-Whyte T, Gavett BE, Budson AE, Santini VE, Lee H, Kubilus CA, Stern RA. Chronic Traumatic Encephalopathy in Athletes: Progressive Tauopathy following Repetitive Head Injury. J Neuropathol Exp Neurol 2009; 68(7): 709–735.

Post-Concussion Syndrome. PubMed Health 

6 Nutrition and Traumatic Brain Injury: Improving Acute and Subacute Health Outcomes in Military Personnel. The National Academies Press. 2011. http://www.nap.edu/catalog/13121/nutrition-and-traumatic-brain-injury-improving-acute-and-subacute-health

7  Meier TB, Bellgowan PS, Singh R, Kuplicki R, Polanski DW, Mayer AR. Recovery of cerebral blood flow following sports-related concussion. JAMA Neurol 2015;72(5):530-8.

8 Salem N Jr, Litman B, Kim HY, Gawrisch K. Mechanisms of action of docosahexaenoic acid in the nervous system. Lipids 2001; 36(9):945-59.

9 Mills JD, Hadley K, Bailes J. Dietary supplementation with the omega-3 fatty acid docosahexaenoic acid in traumatic brain injury? Neurosurgery 2011;68:474–81

10 Wu A, Ying Z, Gomez-Pinilla F. Omega-3 fatty acid supplementation restores mechanisms that maintain brain homeostasis in traumatic brain injury. J Neurotrauma 2007;24:1587–95

11 Wu A, Ying Z, Gomez-Pinilla F. Dietary omega-3 fatty acids normalize BDNF levels, reduce oxidative damage, and counteract learning disability after traumatic brain injury in rats. J Neurotrauma 2004;21:1457–67

12 Wang T, Van K, Gavitt B, Grayson J, Lu T, Lyeth B, Pichakron K. Effect of fish oil supplementation in a rat model of multiple mild traumatic brain injuries. Restor Neurol Neurosci 2013;31:647–59

13 Mills JD, Bailes J, Sedney C, Hutchins H, Sears B. Omega-3 fatty acid supplementation and reduction of traumatic axonal injury in a rodent head injury model. J Neurosurg 2011;114:77–84

14 Wu A, Ying Z, Gomez-Pinilla F. The salutary effects of DHA dietary supplementation on cognition, neuroplasticity, and membrane homeostasis after brain trauma. J Neurotrauma 2011;28:2113–22

15  Wu A, Ying Z, Gomez-Pinilla F. Exercise facilitates the action of dietary DHA on functional recovery after brain trauma. Neuroscience 2013;248:655–63