Dr Mercola Interviews Dr Villeponteau the Formulator of Stem Cell 100

Dr Bryant Villeponteau the formulator of Stem Cell 100 and other Life Code nutraceuticals was recently interviewed by Dr Mercola who owns the largest health web site on the internet. Dr. Villeponteau is also the author of Decoding Longevity a new book which will be released during December. He is a leading researcher in novel anti-aging therapies involving stem cells an area in which he has been a pioneer for over three decades.

Stem cell technology could have a dramatic influence on our ability to live longer and replace some of our failing parts, which is the inevitable result of the aging process. With an interest in aging and longevity, Dr. Villeponteau started out by studying developmental biology. If we could understand development, we could understand aging, he says. Later, his interest turned more toward the gene regulation aspects. While working as a professor at the University of Michigan at the Institute of Gerontology, he received, and accepted, a job offer from Geron Corporation a Bay Area startup, in the early 90s.

They were working on telomerase, which I was pretty excited about at the time. I joined them when they first started, he says. We had an all-out engagement there to clone human telomerase. It had been cloned in other animals but not in humans or mammals.

If you were to unravel the tip of the chromosome, a telomere is about 15,000 bases long at the moment of conception in the womb. Immediately after conception, your cells begin to divide, and your telomeres begin to shorten each time the cell divides. Once your telomeres have been reduced to about 5,000 bases, you essentially die of old age.

What you have to know about telomerase is that it’s only on in embryonic cells. In adult cells, it’s totally, for the most part, turned off, with the exception of adult stem cells, Dr. Villeponteau explains. Adult stem cells have some telomerase not full and not like the embryonic stem cells, but they do have some telomerase activity.

Most of the research currently being done, both in academia and industrial labs, revolves around either embryonic stem cells, or a second type called induced pluripotent stem cells (iPS). Dr. Villeponteau, on the other hand, believes adult stem cells are the easiest and most efficient way to achieve results.

That said, adult stem cells do have their drawbacks. While they’re your own cells, which eliminates the problem of immune-related issues, there’s just not enough of them. Especially as you get older, there are fewer and fewer adult stem cells, and they tend to become increasingly dysfunctional too. Yet another hurdle is that they don’t form the tissues that they need to form…

To solve such issues, Dr. Villeponteau has created a company with the technology and expertise to amplify your adult stem cells a million-fold or more, while still maintaining their ability to differentiate all the different cell types, and without causing the cells to age. Again, it is the adult stem cells ability to potentially cure, or at least ameliorate, many of our age-related diseases by regenerating tissue that makes this field so exciting.

Dr Villeponteau believes you can add many years, likely decades, to your life simply by eating right, exercising (which promotes the production of muscle stem cells, by the way) and living an otherwise clean and healthy lifestyle. Extreme life extension, on the other hand, is a different matter.

His book, Decoding Longevity, covers preventive strategies to prolong your life, mainly diet, exercise, and supplements. A portion of the book also covers future developments in the area of more radical life extension, such as stem cell technology.

If you would like to read the entire interview here is a link to the text version:

Click here for more information about Stem Cell 100

Transcript of Interview With Dr. Bryant Villeponteau by Dr. Joseph Mercola

Aging Reversed / ABC News

Now researchers have found a way not just to stop, but, reverse the aging process. The key is something called a telomere. We all have them. They are the tips or caps of your chromosomes. They are long and stable in young adults, but, as we age they become shorter, damaged and frayed. When they stop working we start aging and experience things like hearing and memory loss.

In a recent study published in the peer reviewed journal Nature scientists took mice that were prematurely aged to the equivalent of 80-year-old humans, added an enzyme and essentially turned their telomeres back on. After the treatment they were the physiological equivalent of young adults. You can see the before and after pictures in the videos above. Brain function improved, their fertility was restored it was a remarkable reversal of the aging process. In the top video the untreated mouse shows bad skin, gray hair and it is balding. The mouse with it’s telomeres switched back on has a dark coat color, the hair is restored and the coat has a nice healthy sheen to it. Even more dramatic is the change in brain size. Before treatment the aged mice had 75% of a normal size brain like a patient with severe Alzheimers. After the telomeres were reactivated the brain returned to normal size. As for humans while it is just one factor scientists say the longer the telomeres the better the chances for a more graceful aging.

The formal study Telomere dysfunction induces metabolic and mitochondrial compromise was published in Nature.

Additional information published by Harvard can be found in the following articles.

Scientists Find Root Molecular Cause of Declining Health in the Old

Decoding Immortality – Smithsonian Channel Video about the Discovery of Telomerase

While scientists are not yet able to accomplish the same results in humans we believe we have developed a nutraceutical to help prolong youth and possibly extend life until age reversal therapy for humans becomes available.

Stem Cells Secret’s of 115 Year Old Woman

New evidence that adult stem cells are critical to human aging has recently been published on a study done on a super-centenarian woman that lived to be 115 years. At death, her circulating stem cell pool had declined to just two active stem cells from stem cell counts that are typically more than a thousand in younger adults. Super-centenarians have survived all the normal diseases that kill 99.9% of us before 100 years of age, so it has been a mystery as to what actually kills these hardy individuals. This recent data suggest that stem cell decline may be the main contributor to aging. If so, stabilizing stem cells may be the best thing one can do to slow your rate of aging.

There are many theories of aging that have been proposed. For example, damage to cells and tissues from oxidative stress has been one of the most popular fundamental theories of aging for more than half a century. Yet antioxidant substances or genes that code antioxidant enzymes have proven largely ineffective in slowing aging when tested in model animals. Thus, interest by scientists has shifted to other hypotheses that might provide a better explanation for the slow declines in function with age.

Stem cells provide one such promising mechanism of aging. Of course, we all know that babies are young and vigorous, independent of the age of their parents. This is because adults have embryonic stem cells that can generate young new cells needed to form a complete young baby. Indeed, these embryonic stem cells are the product of continuously evolving stem cell populations that go back to the beginning of life on earth over 3.5 billion years ago!

In adults, the mostly immortal embryonic stem cells give rise to mortal adult stem cells in all the tissues of the body. These adult stem cells can regenerate your cells and tissues as they wear out and need replacement. Unfortunate, adult stem cells also age, which leads to fewer cells and/or loss of function in cell replacement. As functional stem cells decline, skin and organs decline with age.

Blood from world’s oldest woman suggests life limit

Time Magazine: Long-Life Secrets From The 115-Year-Old Woman

Somatic mutations found in the healthy blood compartment of a 115-yr-old woman demonstrate oligoclonal hematopoiesis

The somatic mutation burden in healthy white blood cells (WBCs) is not well known. Based on deep whole-genome sequencing, we estimate that approximately 450 somatic mutations accumulated in the nonrepetitive genome within the healthy blood compartment of a 115-yr-old woman. The detected mutations appear to have been harmless passenger mutations: They were enriched in noncoding, AT-rich regions that are not evolutionarily conserved, and they were depleted for genomic elements where mutations might have favorable or adverse effects on cellular fitness, such as regions with actively transcribed genes. The distribution of variant allele frequencies of these mutations suggests that the majority of the peripheral white blood cells were offspring of two related hematopoietic stem cell (HSC) clones. Moreover, telomere lengths of the WBCs were significantly shorter than telomere lengths from other tissues. Together, this suggests that the finite lifespan of HSCs, rather than somatic mutation effects, may lead to hematopoietic clonal evolution at extreme ages.

Omega 3 Fatty Acids, Seafood and Healthy Aging!

A study which involved 2,622 adults participating in the U.S. Cardiovascular Health study from 1992 to 2015, has found that higher blood levels of omega 3 fatty acids found in seafood are linked to a higher likelihood of healthy aging in older adults. With populations around the world living longer, there is a significant and growing focus on aging in a healthy manner. This means a meaningful lifespan free of major chronic diseases and with good mental and physical function.

Prior studies have suggested that omega 3 polyunsaturated fatty acids that come from seafood and plants may produce beneficial effects on the body which could promote healthy aging. However, results have been inconsistent.

The recent research team set out to study the association between circulating blood levels of the fatty acids and healthy aging in older adults.

The study included 2,622 adults with the average age at the beginning of the study 74 years. 11% of the participants were from non white groups and 63% were women. Blood levels of the fatty acids were measured at baseline, 6 years and then 13 years. The fatty acids included EPA, DHA, DPA, and ALA. The primary dietary source of EPA, DHA and DPA came from seafood and the primary sources of ALA were mainly in plants such as nuts, leafy greens and seeds.

Based on the measurements, the participants were placed into five groups of circulating blood fatty acid levels from lowest to highest.

Through a review of diagnostic test and medical records, the team discovered that 89% of the participants experienced unhealthy aging throughout the study period. 11% experienced health aging which was defined as survival free of major chronic diseases and without physical or mental dysfunction.

After taking into account a range of economic, social and lifestyle factors, the team found that levels of the seafood derived EPA in the highest group was associated with a 24% lower risk of unhealthy aging compared to levels in the lowest group.

For levels of DPA, the top 3 groups were associated with an 18 to 21% reduction in the risk of unhealthy aging. However, the seafood derived DHA and the plant derived ALA were not associated with healthy aging. A possible explanation for this could be that fatty acids help to regulate heart rate, blood pressure and inflammation.

No firm conclusions can be made about cause and effect as this was an observational study, and they could not rule out the possibility that some of the risk could be due to other unmeasured factors.

The study had a follow up period of up to 22 years with results remaining largely unchanged after further analyses. As such, they team says that among older adults, higher levels of circulating omega 3 fatty acids from seafood were associated with a lower risk of unhealthy aging.

The findings certainly encourage the need for further studies into plausible biological interventions and mechanisms related to omega 3 fatty acids to support healthy aging and also support guidelines for increased dietary consumption of seafood among the older adult populations.

To view the original scientific study click below

Serial circulating omega 3 polyunsaturated fatty acids and healthy ageing among older adults in the Cardiovascular Health Study: prospective cohort study.

Any Amount of Running Can Lower Risk of Early Death

A pool analysis of a variety of studies and other available evidence by a group of researchers, has found that any amount of running is linked to a lower risk of early death from any cause. The researchers believe that by more people taking up running which doesn’t have to be far or fast, there would likely be remarkable improvements in population longevity and health.

It isn’t exactly clear how running is lowering the risk of early death from any cause and particularly from cancer and cardiovascular disease. And it isn’t clear how much running a person would need to do to reap those benefits nor whether upping the duration, pace and frequency might be even more advantageous.

To try and discover how running may be linked to the lower risk of early death, the researchers systematically reviewed relevant conference presentations, published research, and doctoral dissertations and theses throughout a broad range of academic databases.

The team looked for studies in regards to the association between jogging/running and the risk of death from all causes. They found 14 suitable studies which involved 232,149 people whose health was tracked between 5.5 and 35 years. During the course, 29,951 study participants had died.

When all study data was pooled, any amount of running was found to be associated with a 27% lower risk of death from all causes for both men and women when compared to no running. And it was also found that the running was associated with a 23% lower risk of death from cancer and a 30% lower risk of death from cardiovascular disease.

Even small doses of running, for example once weekly or less which lasted less than 50 minutes each time and at a speed below 6 miles an hour, still was seen to be associated with significant longevity and health benefits.

Running for 25 minutes less than the recommended weekly duration of vigorous physical activity could possibly reduce the risk of early death. This shows that running could potentially be a good option for people whose main obstacle to doing enough exercise is due to lack of time.

The team could not find any association with further lowering the risk of early death from any cause due to upping the dose through pace, frequency or duration. And the team does caution that the small number of studies used and the methods varied considerably, might have influenced the results.

Although this is an observational study and can’t establish cause, the researchers suggest that any amount of running is beneficial than no running.

To view the original scientific study click below

Is running associated with a lower risk of all-cause, cardiovascular and cancer mortality, and is the more the better? A systematic review and meta-analysis.

Danger of Nanoparticles in Air Pollution

Automobiles and many other sources of air pollution produce nanoparticles. The size of these particles is less than a micron which is one millionth of a meter. Unlike larger particles nanoparticles are so small that some can pass through your lungs into your bloodstream. New findings have found that they build up in diseased areas in our arteries. That may explain why air pollution increases the risk of strokes and heart disease. They also suggest that current efforts and laws to regulate air pollution might be focusing too much on the larger particles which are less dangerous.

Many studies have shown that air pollution results in millions of premature deaths globally each year. The World Health Organization estimates outdoor air pollution in both rural areas and cities caused 3 million deaths worldwide in 2012. Even in European countries where the air is relatively clean, air pollution is to blame for 400,000 premature deaths every year.

Most of these deaths are due to the increased risk of cardiovascular disease. Just being exposed to high air pollution for even short periods can trigger strokes and heart attacks. Long term exposure to air pollution causes vascular damage and the question is why?

It has been suspected that nanoparticles in the air we breathe enter the bloodstream and are then carried to various parts of the body including the heart, blood vessels and arteries. These nanoparticles are made up of mostly carbon compounds so finding them inside carbon based lifeforms like humans is particularly difficult.

The research team at the University of Edinburgh, UK, had volunteers breathe air contained with harmless gold nanoparticles. After 15 minutes these nanoparticles began to show up in the volunteer’s blood and they could still be found in their urine and blood three months later. While the gold nanoparticles are inert, reactive compounds found in air pollution can have a variety of harmful effects.

The team also analyzed surgically removed plaques from people who were at a high risk of stroke. They discovered that the nanoparticles tended to accumulate in fatty plaques which grow inside blood vessels and lead to strokes and heart attacks.

Air quality laws in various parts of the world set limits on particulate matter smaller than 2.5 micrometers which is called PM2.5. This limit is on the total mass of the particles in a cubic meter of air rather than the total number.

Thousands of ultra fine particles can weight much less in total than a few relatively large ones. PM2.5 per cubic meter has fallen in most wealthy countries over the past decade which suggests air quality is improving. However, due to the increased numbers of diesel vehicles, the number of ultra fine particles has risen.

The problem is that measuring the number of ultra fine particles is extremely difficult and cannot be accomplished using roadside devices which are widely used to monitor air pollution.

Further studies by the UK team will focus on whether gold nanoparticles can enter the brain. Air pollution does seem to increase the risk of brain disorders such as Alzheimer’s, Parkinson’s and dementia. A recent study discovered tiny iron particles in the people’s brains which may have come from vehicle exhaust.

What can you do about nanoparticles in the air in your home? One possiblity is to purchase a high end air purifier such as the Air IQ. It can remove particles down to 3 nanometers in size which is 100 times smaller than other air purifiers. The purifier is expensive both to purchase and maintain, however it goes far beyond other solutions. Life Code is not associated with the Air IQ company or sales of the product.

To view the original scientific study click below

Inhaled Nanoparticles Accumulate at Sites of Vascular Disease.

Rewiring the Anxious Brain

If you are stressed to the max you will be glad to know that researchers have discovered the type of sleep that is most apt to not only calm but also reset the anxious brain. It is deep sleep known as non rapid eye movement or NREM. This slow wave sleep allows neural oscillations to become highly synchronized which lead to drops in heart rates and blood pressure.

Researchers at UC Berkeley have identified this new function of deep sleep which is one that decreases anxiety overnight through reorganizing brain connections. This deep sleep appears to be a natural anxiety inhibitor as long as a person gets it each and every night.

The findings demonstrate one of the strongest neural links between anxiety and sleep to date. The team points out that sleep is a natural and non pharmaceutical remedy for a variety of anxiety disorders which have been diagnosed in 40 million American adults and the numbers are rising among teens and children. The research suggests that lack of sleep amplifies anxiety levels and conversely deep sleep helps reduce the stress.

Through a series of experiments utilizing MRI and polysomnography along with other measures, the team scanned the brains of 18 young adults while they viewed emotionally stirring video clips following a full night’s sleep and then again following a sleepless night. The levels of anxiety were measured after each session through a questionnaire which is known as the state trait anxiety inventory.

Following a night of no sleep, the brain scans indicated a shutdown of the medial prefrontal cortex, the part of the brain that helps us keep anxiety in check while the deeper emotional centers of the brain were overactive. The team believes that without sufficient sleep, the brain works overtime on the emotional accelerator pedal without sufficient braking.

Following a full night’s sleep when the participant’s brain waves were measured by electrodes placed on their heads, the results indicated their levels of anxiety declined significantly. This was especially true for those participants who had experienced more slow wave NREM sleep.

It appeared deep sleep or NREM sleep had restored the prefrontal mechanism of the brain which regulates our emotions thus lowering physiological and emotional reactivity thus preventing an escalation of anxiety.

The team also replicated the results in another study with 30 participants. Across all participants, the results once again showed that the participants who got more deep sleep experienced the lowest levels of anxiety the following day.

In addition to the lab experiments, the team conducted a study online in which they tracked 280 people of all ages on how both their anxiety levels and sleep changed over the course of four consecutive days. These results indicated that the quality and amount of sleep they got from one night to the next predicted how anxious they would feel the next day. Even very subtle nightly changes in their sleep affected their anxiety levels.

People who suffer from anxiety disorders routinely report experiencing disturbed sleep. However, very rarely is improvement in sleep considered as a clinical recommendation for reducing anxiety. The study shows not only a casual connection between anxiety and sleep, but it also defines the kind of NREM deep sleep a person needs to calm down the overanxious brain.

To view the original scientific study click below

Overanxious and underslept.

Hyper Palatable Foods that People Can’t Stop Eating

Hyper-palatable foods are those made with a mix of ingredients that light up people’s brain-reward neural circuitry and overpower mechanisms that are supposed to signal when we’ve had enough to eat. Because these foods essentially enhance their consumption, overweight and obesity can be the result.

This class of foods which are often processed foods or sweets containing alluring combinations of sugar, fat, sodium and carbohydrates, have been found to be some of the most highly consumed foods in the United States. Food companies have devised formulas for these foods to make them highly palatable and thus enhance their consumption.

While there is no standardized definition for hyper palatable foods, typically descriptive definitions such as “desserts”, “fast foods” and “sweets” will identify these types of foods. However, those words aren’t specific to the actual mechanisms through which the ingredients in a particular food lead to their enhanced palatability. Defining these types of foods has been a substantial limitation.

A team sought to define the criteria for hyper palatable foods through conducting a literature review and then employing nutrition software and applying their definition to over 7,700 food items. They essentially took all the descriptive definitions of these foods from the literature and one by one entered them into the nutrition program to see how it quantifies a food’s ingredients. The software provides in fine grained detail a data set which specifies how many calories, fat, sodium, sugar, carbohydrates and fiber are in the foods.

They looked for items that met the criteria established by the literature review as enhancing palatability and specifically when the synergy between key ingredients in a certain food creates an artificially palatable experience which is larger than any key ingredient would produce by itself.

They identified these particular synergies with specific values which were applied to three clusters – combinations of sodium and fat (such as bacon and hot dogs), combinations of simple sugars and fats (such as ice cream, cookies, and cake), and combinations of sodium and carbohydrates (such as pretzels, chips and popcorn).

Essentially the team wanted to be able to identify foods that seem to cluster together which what seemed like similar levels of at least two ingredients. That is the theoretical basis for producing the synergistic palatability effect. Through a process using visualization, they were able to see there were essentially three food types that appear to cluster together in relation to their ingredients.

Once the team was able to quantify characteristics of hyper palatability, they were able to apply their definition to foods that are cataloged in the U. S. Department of Agriculture’s FNDDS (Food and Nutrient Database for Dietary Studies). The hope was to discover just how prevalent these types of foods are in the American diet.

The team discovered that 62% of foods in the FNDDS met the criteria for at least one of the three clusters they had identified. Most of those foods (70%) were high in sodium and fat (such as egg or meat dishes and milk based foods like cheese dips). 25% of the hyper palatable foods were high in sugar and fat and 16% of those foods were also high in sodium and carbohydrates. Less than 10% qualified in more than one cluster.

The most shocking discovery were items labeled as reduced or no fat, salt, sugar or calories represented 5% of hyper palatable foods. Additionally, of all the items that were labeled as low/reduced/no fat, sugar, sodium and/or sugar in the FNDDS, 49% met the criteria as a being a hyper palatable food.

More evidence is needed, however if research starts to support that these hyper palatable foods may be problematic for society, it might warrant food labels saying “this is hyper palatable”. And it might also lead to restriction of certain foods that are available in particular places such as elementary school cafeterias that serve kids whose brains are still developing and might be impacted by these kinds of foods.

The plan is to build on the current work by analyzing how the ubiquity of these hyper palatable foods in the U.S. diet compares to foods in other countries. A grant was recently received by the team to research foods consumed in Italy where the Mediterranean diet is prevalent.

To view the original scientific study click below

Hyper Palatable Foods: Development of a Quantitative Definition and Application to the US Food System Database..

Blue Light can Accelerate Aging Even if it Doesn’t Reach Your Eyes

Although blue light may not be shining in someones eyes, it can still affect a person’s longevity. A new study has suggested that the blue wavelengths which are produced by light emitting diodes from phones, household fixtures and computers damage cells in the brain and in the retinas.

The research conducted at Oregon State University utilized the common fruit fly in its study as it is an important model organism due to its developmental and cellular mechanisms which it shares with other animals and also humans.

The team examined how fruit flies respond to daily 12 hour exposure periods to blue LED light. This is light that is similar to the blue wavelengths in devices such as tablets and phones. They found that the blue accelerated aging in the fruit flies.

Flies that were subjected to the daily 12 hours in light and then 12 hours in darkness had shorter lives when compared to flies that were kept in total darkness or those that had been kept in light with the blue wavelengths filtered out. The fruit flies that had been exposed to blue light showed damage to their brain neurons and retinal cells and also had impaired locomotion. Their ability to climb the walls in their enclosures which is a common behavior, was diminished.

Some of the flies used in the study were mutants that do not develop eyes and those eyeless flies also experienced locomotion impairments and brain damage. This suggests that flies don’t have to see the blue light to become harmed by it.

The team was initially surprised that the blue light accelerated the aging process in the flies. They measured expression of genes in the older flies and discovered that stress response, protective genes were expressed when the flies were kept in the light. They hypothesized that light was regulating the genes. They then wondered if it is the light that is harmful so they looked at the spectrum of light. It was quite clear that although light without the blue light slightly shortened the flies lifespan, blue light alone shortened their lifespan quite dramatically.

Natural light is critical for the body’s circadian rhythm which is the 24 hour cycle of physiological processes such as hormone production, brain wave activity, and cell regeneration which are important to sleeping and feeding patterns. There is evidence that suggests that increased exposure to artificial light is a risk factor for circadian and sleep disorders. With the widespread use of LED device displays and lighting, people are exposed to increasing amountsof light in the blue spectrum. Commonly used LEDs emit a high fraction of blue light. However, LED lighting has not been used for a long enough period to know its effects across the lifespan of humans.

Flies when given a choice avoid blue light. The team is going to test to see if the same signaling that causes them to escape blue light in involved in longevity. Advances in medicine and technology could work together to address the damaging effects of blue light if the research in flies proves applicable to humans.

As science looks for a variety of ways to help people stay healthy as they live longer, creating a healthier spectrum of light may be a possibility, not only in terms of better sleep, but in terms of overall health.

There are a few things people can do to protect themselves that do not involve being in darkness for hours. Eyeglasses that have amber lenses will filter out blue light and will protect the retinas. Some laptops, phones and other devices can be set to reduce blue emissions. Blue light screen filters can be purchased and cut to size for almost any device including LED televisions. Special light bulbs are available that are filtered to reduce or eliminate blue light. These products can be found on Amazon.com or LowBlueLights.com. In the future there might be phones that auto adjust their display depending on length of usage which the phone perceives. This kind of phone while most likely difficult to create, would have a big impact on health.

To view the original scientific study click below

Daily blue-light exposure shortens lifespan and causes brain neurodegeneration in Drosophila.

Improved Cardiac Regeneration Developed

A novel multi pronged approach for concurrently rejuvenating both the vasculature and cardiac muscle of the heart has been recently developed. The results give hope to developing a new treatment for repairing hearts that have been damaged by myocardial infarction. This new therapy could serve as an alternative to heart transplants

The joint research team consisted of scientists and researchers from City University of Hong Kong along with other organizations, conducted the first study that involved two distinct stem cell effects for cardiac repair. The aim was to concurrently rejuvenate both the vasculatures and heart muscles by using two major stem cell types – bone marrow derived mesenchymal stem cells (hMSCs) and cardiomyocytes which were derived from induced pluripotent stem cells. (hiPSC-CMs).

The hMSCs was used in the study because of their prominent paracrine activity of secreting good proteins which promote the regeneration of blood vessels and endothelial cell survival. The other stem cell type, hiPSC-CMs, was used because of their similarities with human primary CMs in terms of their expressions of structural proteins, cardiac specific genes, ion channels and most importantly their spontaneous contraction.

Earlier studies describe the beneficial effects of either hMSCs or hiPSC-CMs on a myocardial infarction (MI) separately. The recent study was the first to simultaneously study the effects of these two distinct stem cells for cardiac repair. The team used a dual approach in which the hiPSC-CMs and hMSCs were delivered by two distinct routes. The hiPSC-CMs were injected intramyocardially directly into a border zone of a rat’s heart. The hMSCs loaded patch was implanted on top of the infarct area similar to a bandage.

The results of the study indicate that this dual approach showed a significant improvement in cardiac function and enhancement of vessel formation on a MI heart. The hMSC loaded patch not only provided a micro environment which enhanced vascular regeneration which was expected, but in addition showed improvement in the retention of hiPSC-CMs. Ultimately this augmented heart function and also restored the injured myocardium.

In addition, histological analysis demonstrated that the implanted hMSC loaded patch promoted the functional maturation of injected hiPSC-CMs. They became more rectangular and elongated in cell shape and appeared to be more organized in order which are typical morphological characteristics of mature adult CMs. Functional maturation of intramyocardially hiPSC-CMs is very important because it can reduce the potential risk of arrhythmia’s which are a major cause of sudden cardiac death.

The team believe the novel dual approach could potentially provide clinical and translational benefits to the field of cardiac regeneration. Using the same principle, the protocol could be utilized in repair of other organs including the liver, pancreas and brain where multiple types of stem cells co exist.

The team is now working on additional studies using larger animals such as pigs and they have applied for a patent.

To view the original scientific study click below

Dual stem cell therapy synergistically improves cardiac function and vascular regeneration following myocardial infarction.