Beyond Calcium and Vitamin D—How to Really Build Strong Bones

By Dr. Mercola

One of the important strategies for healthy bones is to eat the right kind of foods. A diet full of processed foods will produce biochemical and metabolic conditions in your body that will decrease your bone density, so avoiding processed foods is definitely the first step in the right direction.

Eating high-quality, organic, biodynamic, locally-grown food will naturally increase your bone density and decrease your risk of developing osteoporosis. Along with your foods, your omega-3 fat content also has a major role in building healthy bone. I recommend krill oil, as I believe it’s a superior source of omega-3s.

Other nutrients, including calcium, vitamin D and K2, and magnesium, are also critical for strong bones—as is exercise, especially weight-bearing exercises.

Recent research presented at The Endocrine Society's 95th Annual Meeting in San Francisco suggests that the timing of calcium and vitamin D supplementation may actually influence how your bones adapt to exercise, and help decrease exercise-induced calcium loss.

As reported by Medical News Today:1

"The timing of calcium supplementation, and not just the amount of supplementation, may be an important factor in how your skeleton adapts to exercise training... Previous research has shown that a year of intense training is associated with substantial decreases in bone mineral density...

Experts believe that this kind of exercise-induced bone loss could be related to the loss of calcium during exercise. As blood calcium levels drop, the parathyroid gland produces excess parathyroid hormone, which can mobilize calcium from your skeleton."

How Bone Adapts to Exercise May Be Affected by Timing of Supplementation

The featured research study indicated that taking calcium prior to hitting the gym may help keep your blood levels of calcium more stable, compared to taking calcium after your workout. However, the study did not assess the long-term effects this might have on your bone density, and this, of course, is of utmost importance for anyone interested in building healthy bones.

According to the featured article:

“[E]xercise-induced decrease in blood calcium occurred whether calcium supplements were taken before or after exercising. Pre-exercise supplementation, however, resulted in less of a decrease.

Although not statistically significant, parathyroid hormone levels increased slightly less among cyclists who took calcium before exercising... The timing of calcium supplementation did not cause a difference in blood levels of a compound that is a biological indicator of bone loss. Both the before- and after-exercise groups exhibited 50 percent increases in the level of this compound, called CTX...”

The Critical Role of Vitamin K2 for Bone Health

There’s plenty of controversy on the issue of using calcium supplementation to ensure strong healthy bones. It’s important to realize that calcium works synergistically with vitamins D and K2, so taking calcium supplements alone may actually end up doing more harm than good. Dr. Kate Rheaume-Bleue has authored a comprehensive book on this topic titled: Vitamin K2 and the Calcium Paradox: How a Little Known Vitamin Could Save Your Life.

Dr. Robert Thompson M.D. also addressed this important issue in his book, The Calcium Lie. One of the tenets of his book is that bone is composed of at least a dozen minerals, and if you focus exclusively on calcium supplementation you are likely going to worsen your bone density.

Additionally you will actually increase your risk of osteoporosis. Interestingly, he proposes that one of the best practical alternatives is the use of natural, unprocessed salts, such as Himalayan salt, as they are one of the best sources of a wide variety of trace minerals.

So, while the featured research is interesting, I believe it falls far short in terms of making a health recommendation that will result in improved bone health. And while the researchers argue that timing, and not just dosage may play a significant role in bone adaptation to exercise, I would add that nutrient ratios and combinations may be even more important...

The researchers did combine calcium with vitamin D, which is important, but they did not address vitamin K2, which is critical. I say critical because the biological role of vitamin K2 is to help move calcium into the proper areas in your body, such as your bones and teeth. It also helps remove calcium from areas where it shouldn’t be, such as in your arteries and soft tissues.

Furthermore, if you take supplemental vitamin D, you also need to increase your intake of vitamin K2, because when you take vitamin D, your body creates more vitamin K2-dependent proteins—the proteins that help move the calcium around in your body. But you need vitamin K2 to activate those proteins. If they're not activated, the calcium in your body will not be properly distributed and can lead to weaker bones and hardened arteries. In fact, vitamin K2 deficiency is actually what produces the symptoms of vitamin D toxicity, which includes inappropriate calcification that can lead to hardening of your arteries.

In a nutshell, it’s important to maintain the proper balance between all three of these nutrients: calcium, vitamin D and K2, as well as magnesium. Lack of balance between these four nutrients is why calcium supplements have become associated with increased risk of heart attack and stroke...

The optimal amounts of vitamin K2 are still under investigation, but it seems likely that 180 to 200 micrograms of vitamin K2 daily should be enough to activate your body's K2-dependent proteins to shuttle the calcium to and from the appropriate areas. Most Americans get nowhere near this amount though. In fact, an estimated 80 percent of Americans do not get enough vitamin K2 in their diet to activate their K2 proteins, which is similar to the deficiency rate of vitamin D.

How Can You Tell if You're Lacking in Vitamin K2?

There is no test for vitamin K2 deficiency, but you can get an idea of whether or not you may be lacking in this critical nutrient simply by assessing your diet and lifestyle. If you have osteoporosis, heart disease or diabetes, then you're likely deficient in vitamin K2 as these conditions are all associated with K2 deficiency. If you do not have any of those health conditions, but do NOT regularly eat high amounts of the following foods, then your likelihood of being vitamin K2 deficient is still very high:

• Grass-fed organic animal products (i.e. eggs, butter, dairy)
• Certain fermented foods such as natto, or vegetables fermented using a starter culture of vitamin K2-producing bacteria. Please note that most fermented vegetables are not really high in vitamin K2 and come in at about 50 mcg per serving. However, if specific starter cultures are used they can have ten times as much, or 500 mcg per serving.
• Goose liver pâté
• Certain cheeses such as Brie and Gouda (these two are particularly high in K2, containing about 75 mcg per ounce). While cheese from grass-fed milk would be an added boon, it’s not necessary for the cheese to be grass-fed because the K2 is not derived from the milk itself; it’s derived from the bacteria in the cheese. So what’s important is how the cheese was made.

Fermented vegetables, which supply beneficial bacteria to your gut, can also be a great source of vitamin K if you ferment your own using the proper starter culture. We recently had samples of high-quality fermented organic vegetables made with our specific starter culture tested, and were shocked to discover that not only does a typical serving of about two to three ounces contain about 10 trillion beneficial bacteria, but it also contained 500 mcg of vitamin K2.

Note that not every strain of bacteria makes K2. For example, most yoghurt has almost no vitamin K2. Certain types of cheeses are very high in K2, and others are not. It really depends on the specific bacteria. You can't assume that any fermented food will be high in K2, but some fermented foods are very high in K2, such as natto. Others, such as miso and tempeh, are not.

Mind Your Sodium-Potassium Levels as Well

Two additional nutrients that play an important role are sodium and potassium—you want the optimal ratio between these two in order to maintain your bone mass. If you eat a diet loaded with processed foods, there's a good chance your potassium to sodium ratio is far from optimal, which is typically done by consuming a diet of processed foods, which are notoriously low in potassium while high in sodium.

An imbalanced sodium to potassium ratio can contribute to a number of diseases, including osteoporosis. To ensure you get these two important nutrients in more appropriate ratios, simply ditch processed foods, which are very high in processed salt and low in potassium and other essential nutrients. Instead, eat a diet of whole, unprocessed foods, ideally organically grown to ensure optimal nutrient content. This type of diet will naturally provide much larger amounts of potassium in relation to sodium, which is optimal for your bone health, and your overall health. If you find it difficult to eat the recommended amount of vegetables, give vegetable juicing a try.

Exercise Also Builds Strong Bones

The other component you can’t ignore if you want strong, healthy bones is weight bearing exercises like strength training. Bone-building is a dynamic process, so you want to make sure you exert enough force on your bones to stimulate the osteoblasts to build new bone. Further, bone is living tissue that requires regular physical activity in order to renew and rebuild itself, so you should make exercise a lifelong commitment.

Peak bone mass is achieved in adulthood and then begins a slow decline, but exercise can help you to maintain healthy bone mass as you get older, without having to resort to dangerous bisphosphonate drugs.

Weight-bearing exercise is actually one of the most effective remedies against osteoporosis, because as you put more tension on your muscles it puts more pressure on your bones, which then respond by continuously creating fresh, new bone. In addition, as you build more muscle, and make the muscle that you already have stronger, you also put more constant pressure on your bones. A good weight-bearing exercise to incorporate into your routine (depending on your current level of fitness, of course) is a walking lunge, as it helps build bone density in your hips, even without any additional weights.

Ideally, though, your fitness program should be comprehensive, providing the necessary weight-bearing activities for bone health while also improving your cardiovascular fitness and fat-burning capabilities with high-intensity exercises. For a more complete, in-depth explanation of my Peak Fitness regimen, please review my previous article, The Major Exercise Mistake I Made for Over 30 Years. Implementing Peak Fitness -- with its array of weight-bearing exercises for bone health and Peak Exercises for disease prevention, fat loss and more -- may be one of the best lifestyle changes you could ever make.

The Power Plate—A Valuable Exercise Tool for Prevention and Treatment of Brittle Bones

Acceleration Training, a.k.a. Whole Body Vibrational Training (WBVT) using a Power Plate has also been shown to be a safe, natural way to ward off osteoporosis, and it’s gentle enough even for the disabled and elderly. For example, in one six-month long study, WBVT was found to produce a significant increase in hip area bone density in postmenopausal women, while conventional training was only able to slow the rate of deterioration.2 A total of 90 women, aged 58 to 70 years old, were divided into three groups:

1. The first group did up to 30 minutes of WBVT three times a week. Static and dynamic exercises for the upper leg and hip area included squats and lunges.
2. The second group did 60 minutes of conventional weight training three times per week.
3. The control group did not exercise at all.

The researchers concluded that Acceleration Training might be a solution for reversing bone loss and eliminating osteoporosis, stating that:

"The whole body vibration group got positive results: strength increased as much as 16 percent in upper leg muscles, while bone density at the hip increased by 1.5 percent. In addition, the whole body vibration group showed an improvement in postural control and balance, increased muscle strength and lean mass while losing body fat and fat mass. The conventionally trained subjects were able to slow the rate of bone loss, which is consistent with previous published studies on weight training and bone loss. The control group subjects continued to lose bone mineral density at the average rate."

NASA has also tested vibration platforms to help prevent the bone loss that occurs during space travel. According to a 2001 article in NASA Science:3

"...NASA-funded scientists suggest that astronauts might prevent bone loss by standing on a lightly vibrating plate for 10 to 20 minutes each day... The same therapy, they say, might eventually be used to treat some of the millions of people who suffer from bone loss, called osteoporosis here on Earth.

...Although the vibrations are subtle they have had a profound effect on bone loss in laboratory animals such as turkeys, sheep, and rats. In one study (published in the October 2001 issue of The FASEB Journal), only 10 minutes per day of vibration therapy promoted near-normal rates of bone formation in rats that were prevented from bearing weight on their hind limbs during the rest of the day."

Build Strong, Healthy Bones the Natural Way

To recap, your bones are actually composed of several different minerals, and if you focus on calcium alone, you will likelyweaken your bones and increase your risk of osteoporosis as Dr. Robert Thompson explains in his book, The Calcium Lie. Remember, calcium, vitamins D and K2, and magnesium work synergistically together to promote strong, healthy bones, and your sodium to potassium ratio also play an important role in maintaining your bone mass. Ideally, you’d get all or most of these nutrients from your diet (with the exception of vitamin D). This includes:

• Plant-derived calcium: raw milk from pasture-raised cows (who eat the plants), leafy green vegetables, the pith of citrus fruits, carob, and sesame seeds
• Magnesium: raw organic cacao and supplemental magnesium threonate if need be
• Vitamin K2: Grass-fed organic animal products (i.e. eggs, butter, dairy), certain fermented foods such as natto, or vegetables fermented using a starter culture of vitamin K2-producing bacteria. Goose liver pâté, and certain cheeses such as Brie and Gouda
• Trace minerals: Himalayan Crystal Salt, which contains all 84 elements found in your body, or other natural, unprocessed salt (NOT regular table salt!)
• Vitamin D: Ideally from appropriate sun exposure (or a safe tanning bed), as it’s virtually impossible to get sufficient amounts from food. As a last resort, you could use a supplement, but if you do, you may also need to supplement with vitamin K2 to maintain ideal ratios

The bottom line?

One of the best ways to achieve healthy bones is a diet rich in fresh, raw whole foods that maximizes natural minerals so that your body has the raw materials it needs to do what it was designed to do. In addition, you need healthy sun exposure along with regular, weight-bearing exercise.

How to use ScolioTrack and Scoliometer App on iPhone and Android

https://play.google.com/store/apps/details?id=com.uc.scoliometer

Scoliometer - Health In Your Hands Pte Ltd

Scoliotrack is a Safe and Innovative Way to Track One's Scoliosis Condition: Now Available for Android and 17 Languages!

Singapore

23 May 2013

www.ScolioTrack.com

FEATURES VIDEO: http://www.youtube.com/watch?v=xkmn8Edu3yc

Announcing to a global audience, innovation, technology, and clinically proven method of tracking your Scoliosis condition.  Scoliotrack who’s technology and innovation was recognized and invited to the Wall Street Journal 2011 Asia Innovative Awards, is now in the hands of those that need it.  By consumer demand, easy, affordability, and designed for patients, Scoliotrack has now been released as an App.  

An Alternative Scoliosis Treatment Seem too Good to be True are Often Scams

Alternative scoliosis treatment options vary greatly and can offer promising results but buyers beware. Websites that offer exciting new methods of treating scoliosis demonstrating results that seem too good to be true are often scams. The best way to discover whether or not a website offering alternative scoliosis treatment which is defined as treatment other than a medical standard of care such as rigid bracing or surgery is to conduct further research. A great place to start is to determine who is selling the treatment. If the treatment is not provided by a licensed healthcare professional such as a medical doctor, chiropractor, or physical therapist then quickly move on your child's health is not worth the risk. The next step is to do a personal Google search of the provider of these scoliosis treatment methods to see what their background is and what kind of training or education is involved. In addition search any publications by the provider and read their material which is an excellent way to familiarize you with their approach. The last step is to forward your clinical information directly to the provider and ask for a phone consultation to determine whether or not you feel confident in choosing this person to care for you or your child. In some instances you may even request to speak with others who have received scoliosis treatment and see if they had a good experience and outcome.

The interesting thing about healthcare is that when it comes to procedures and not just prescribing a medication, there is a significant difference in results based on skill level and knowledge of the clinician. This couldn't be truer when choosing an alternative scoliosis treatment provider for your child. The majority of alternative therapies are performed outside the medical profession by chiropractors and physical therapists. So digging pretty deep and trying to find the most experienced leader of the pack is worth the extra time rather than just settling for the clinic next door that may provide that treatment method. Practitioners who have leadership and teaching roles are more likely to be up to speed on the latest advances in procedures and have more experience in general.

When choosing an alternative technique check to see if case studies are available, some methods may not have published research based on many obstacles like funding and length of time data has been collected. The fact that they are not published in a journal doesn't necessarily mean the program of care is not valid. Look for doctors and therapists that have innovated new procedures or equipment relative to scoliosis, again this sets them above the general pack that may have just gotten the certificate for completing the required courses and aren't as invested in their name remaining reputable, especially nationally. Clinics that have clients from outside their region are also a good indicator that they may know more than other centers closer to you and may be well worth the drive or flight.

Researchers identify link between GPR126 gene and adolescent idiopathic scoliosis

Researchers from the RIKEN Center for Integrative Medical Sciences in Japan have identified the first gene to be associated with adolescent idiopathic scoliosis (also called AIS) across Asian and Caucasian populations. The gene is involved in the growth and development of the spine during childhood.

Their study is published today in the journal Nature Genetics.

AIS is the most common pediatric skeletal disease, affecting approximately 2% of school-age children. The causes of scoliosis remain largely unknown and brace treatment and surgery are the only treatment options. However, many clinical and genetic studies suggest a contribution of genetic factors.

To understand the causes and development of scoliosis, Dr Ikuyo Kou, Dr Shiro Ikegawa and their team have tried to identify genes that are associated with a susceptibility to develop the condition.

By studying the genome of 1,819 Japanese individuals suffering from scoliosis and comparing it to 25,939 Japanese individuals, the team identified a gene associated with a susceptibility to develop scoliosis on chromosome 6. The association was replicated in Han Chinese and Caucasian populations.

The researchers show that the susceptibility gene, GPR126, is highly expressed incartilage and that suppression of this gene leads to delayed growth and bone tissue formation in the developing spine. GPR126 is also known to play a role in human height and trunk length.

"Our finding suggest the interesting possibility that GPR126 may affect both AIS susceptibility and height through abnormal spinal development and growth," explain the authors.

"Further functional studies are necessary to elucidate how alterations in GPR126 increase the risk of AIS in humans," they conclude.

Source: RIKEN

Is There a Orthopedic Conflict of Interest?

Do orthopedists fail to suggest early-intervention or alternative scoliosis treatments because of a conflict of interest?

Why do orthopedists discourage alternative scoliosis treatments even if patients show improvement from them?

The medical approach to scoliosis treatment is to watch and wait, brace and then operate. During the “wait and see” period Orthopedists generally do not advise patients of alternative treatment options and some even laugh or scoff at the slightest suggestion. Patients are made to feel absurd if they want to pursue proactive or preventative treatments during this pre-brace/pre-surgery period and instead are advised to just sit idly while their curves progress until bracing or surgery become “necessary”. Some parents choose to research treatment and opt to try alternative treatments anyway and upon re-evaluation by their doctor are told they are wasting their time! Parents are belittled and made to feel negligent and are even harassed by their orthopedist.
If there are far less risks involved with alternative treatments, they are received while patients are in the “wait & see” period, and if these treatments show improvement to the patient’s scoliosis, then why is the medically community so against them?
In Scoliosis and the Human Spine, a book written by Martha C. Hawes, Ph.D, Dr. Hawes (a research scientist  who herself has a large scoliosis) outlines what appears to be a “conflict of interest”. The conflict of interests center around the medical community’s lack of regard for an exercise based program of scoliosis care and correction.
Martha C. Hawes, Ph.D, author and patient. 

Straightening Out the Problem: King Richard III Went Through Traction Torture Treatments to Fix Hunchback

Let's set the record straight: King Richard III may not have been a hunchback, as commonly portrayed by Shakespeare. However, scientists believe that he did suffer from scoliosis, a spine-curving condition that can cause complications standing or sitting for long periods of time. Scientists now think that he may have undergone painful medical treatments to straighten out this health problem.

In February, archaeologists excavated bones from underneath a parking lot in Leicester, England, that belonged to the medieval king. Since his confirmation, examiners have continued to look for bones and historical records.

Previous work showed King Richard III likely developed severe scoliosis, a painful condition, in his teen years. [Image Gallery: Photos Reveal the Discovery of Richard III]

Randomized controlled trial: Vitamin D and gene expression

Posted on April 6, 2013 by John Cannell, MD

We know that vitamin D controls from anywhere between 0. 5% of the human genome to up to 5%, depending on what review one reads. New genes are being discovered every day that vitamin D either upregulates or down regulates. That is, vitamin D either increases or decreases the protein that gene transcribes.

However, no one has ever done a gene microarray analysis (a way of looking at a large number of genes) of patients before and after vitamin D administration. That is, no one had ever done it until Professor Michael Holick’s lab reported such a study recently in the Plos Onejournal.

Hossein-Nezhad A, Spira A, Holick MF.  Influence of vitamin D status and vitamin D3 supplementation on genome wide expression of white blood cells: a randomized double-blind clinical trial. PLoS One. 2013;8(3):e58725.

Physical capacity of girls with moderate scoliosis is considerably lower than girls without scoliosis

Thursday, 01 Dec 2011 11:29 
A new study in the European Spine Journal, published ahead of print, shows that girls aged 10–18 years with moderate scoliosis have considerably lower physical capacity scores than girls of the same age without scoliosis. However, girls with mild scoliosis do not appear to have lower physical capacity scores. 

The purpose of the new study was to assess the impact of curvature angle value, the number of vertebrae in curvatures, and the number of curvatures on the physical capacity (by measuring maximum oxygen input and output during the PWC170 test) of girls aged 10–18 with mild or moderate idiopathic scoliosis. This is because, at present, while studies have shown that untreated severe thoracic scoliosis is associated with increased mortality (related to right heart failure due to congestive lung disease), the effect that the earlier stages of scoliosis have on respiratory function is not fully understood.

Pregnancy and Scoliosis

Since idiopathic scoliosis is common in girls there are concerns about the effects it may have on pregnancy or becoming pregnant. Over the past 40 years, several studies have been conducted with hundreds of women that showed no difference in pregnancy, labor, delivery and fetal complications for women with scoliosis compared to women without. In most cases there are very few risks to becoming pregnant with scoliosis. There is no evidence that scoliosis damages fertility or leads to an increased number of miscarriages, stillbirths or congenital malformations. It does not provide any adverse effects on the pregnancy nor ability to deliver children.

Another major concern is increased risk of progression of the scoliosis. Some studies have shown that patients lost 2, 6, and 18 degrees of correction during their first pregnancies, but curves stayed the same or improved with later pregnancies. Generally, scoliosis does not increase during pregnancy. Pregnancy hormones decrease the activity of the immune system and scoliosis is often stabilized during pregnancy. As long as the curve is not still progressing, the weight gained during pregnancy does not increase the curvature.

Aside from a mild degree of restricted lung capacity, individuals with idiopathic scoliosis rarely experience breathing problems during pregnancy. Breathlessness on exertion is common in the early months of pregnancy for all women, to some extent. Shortness of breath is partly caused by the rise in progesterone, which stimulates breathing by increasing respiratory rate and the depth of each breath. Blood volume also increases. These normal physiological changes are well tolerated and only likely to prove a problem if the vital capacity is low or heart function is compromised. Scoliosis that occurs in the thoracic (middle) spine may affect breathing. Bladder and bowel problems may be an issue for women with scoliosis who already have urinary or bowel dysfunction