Neurological Conditions - Archive - NSI Stem Cell

Stem Cells Help Neurological Disorders

The body’s nervous system is very involved system and is one of the most complex seen in the entire human body. It is comprised of the Central Nervous System (CNS), and the Peripheral Nervous System (PNS). The CNS is made up of the brain and spinal cord and works like the main central processing unit of the body. The PNS is all the branching nerves that run throughout the body to send and receive messages from the body and the brain. Together, the CNS and PNS control everything from your breathing, digestion, and heartbeat to walking, talking, and memory.

Continue reading “Stem Cells Help Neurological Disorders”

5 Things That Are Changing Stroke Outlook

Stroke Can Be Debilitating And Deadly. But 5 Breakthroughs In Modern Medicine May Change Outcomes

Stroke is one of the most serious medical emergencies anyone can experience. Regardless of what type of stroke occurs, the basics of the harm are the same: stroke cuts the flow of blood to the brain. The primary reason that stroke is so potentially devastating its swift attack. In an hour or less brain damage can be severe, leading to permanent disability or death.

Happily, both the medical community and the public at large have learned much about this grim condition over the decades. Today more people are aware of the warning signs for stroke, meaning that those who suffer stroke are receiving treatment more quickly.

New tools in modern medicine may pave the way for dramatically reducing or even eliminating the lingering effects of stroke.

But, once the patient has survived those first critical hours, what then? Many strides have been made, but are there new tools in modern medicine that can even more dramatically reduce or even eliminate the lingering effects of stroke?

The answer is yes! Two exciting discoveries have been made that involve naturally occurring growth factors in the brain and body that may hold the key to even more effective emergency room treatment in the future. But that’s not all. The National Stem Cell Institute (NSI), a leading regenerative medicine facility in the U.S., reports that a medical technique presently in wide use across the United States and the world is already being used as an auxiliary aid in improving the results of rehabilitation.

 

how to prevent a stroke

3 Medical Breakthroughs In The Future Of Stroke Treatment

  1. GDF10

A stroke happens when a blood vessel either bursts or is blocked significantly enough to prevent effective blood flow. Without proper blood flow brain tissue is starved of oxygen and nutrients, and the tissue begins to die. The brain does have repair mechanisms in place for when this occurs, including something called axonal sprouting.

STROKE OUTLOOK BLOOD VESSELS

Axons are the long threadlike parts of a nerve cell that carry electrical impulses. Axonal sprouting is the process in which new axons “sprout” from the intact axons in order to re-establish functions such as muscle control. However, the natural occurrence of axonal sprouting after stroke rarely results in full recovery. And, before very recent studies, the element that triggered axonal sprouting was unknown.

Researchers at the University of California, Los Angeles (UCLA) have discovered that a molecule within the brain is crucial in signaling brain tissue to generate new connections after a stroke. These freshly formed connections circumvent damaged tissue, stimulating the brain into make repairs. The findings could potentially pave the way for a new treatment that promotes cerebral restoration and recovery of function after stroke. This is big news in the fight to prevent serious long-term disability in people who have suffered a stroke. The animal model study, over the span of five years, became the first to discover that the molecule known as Growth Differentiation Factor 10 (GDF10) played such an important role in the adult brain.

Should the chemical signals that stimulate limited recovery be identified and developed, it just may be possible to increase brain tissue repair.

Our brains have only a limited ability to recover after stroke. While it is true that the majority of stroke patients now improve afterward, very few make a 100% recovery. But should the chemical signals that stimulate limited recovery be identified and developed as a treatment, it just may be possible to increase brain tissue repair.

STROKE OUTLOOK CHEMICAL SIGNALS

The study demonstrated that GDF10 is, indeed, released after a stroke in humans as well as several species of animals. And, in an earlier study, researchers were able to determine which molecules were more prevalent within the brain once the recovery phase that followed stroke had begun.

Armed with this information, the researchers in the UCLA study followed evidence that one of the listed molecules might be a signal instructing the brain to repair itself. So they began testing the molecules that increased the most within the brain after a stroke occurred. The researchers discovered that GDF10 advanced the ability of brain cells to form new connections.

They were also able to identify the signaling systems that were controlling the process. In doing so, they established that GDF10 stimulates the creation of new neural connections after stroke, enabling recovery of a patient’s capacity for controlling body movement.

Identifying all the molecules controlled by GDF10.

The researchers were able to identify every molecule type that is switched on off by GDF10 in brain cells as a reaction to stroke. They studied how the RNA of these brain cells compares to the RNA of comparable brain cells during typical brain development and standard learning, as well as the RNA in brain cells of patients with other illnesses.

STROKE OUTLOOK MOLECULES

They discovered that GDF10 controls a distinct set of molecules that advance recovery after stroke. This finding implies that the regeneration of brain tissue following a stroke is a uniquely deliberate process, not simply the reactivation of the molecules that are switched on during standard brain development.

The team also injected GDF10 into laboratory animals that had suffered strokes, then were able to map the connections within the brain that are related to bodily movements. They compared these connections to several lab animal groups: those that had experienced stroke, but were not administered GDF10; those who had healthy brains, and those that had suffered stroke but exhibited a reduced level of GDF10.

When GDF10 was delivered, connections were noticeably enhanced.

The results indicate that Growth Differentiation Factor 10 is typically accountable for the obvious but limited formation of new neural connections following a stroke. When more GDF10 was delivered, these connections were noticeably enhanced. Not only that, but the new connection formations were seen primarily in a specific type of brain circuit involved in limb control.

This all points to the exciting potential for a regenerative medicine-type treatment that will activate GDF10’s signaling systems. The development of such a treatment may very well significantly enhance post-stroke recovery.

  1. Neurotrophin 3 (NT3)

Besides GDF10 being largely related to the restoration of motor function after stroke, growth factor growth factor Neurotrophin 3 (NT3) has also been involved with the improvement of brain-to-intramuscular connectivity. The report published in the neurology journal Brain cites how researchers triggered the sprouting of fresh nerve cells by injecting NT3 intramuscularly into laboratory animals.

These results seem to point beyond neuroprotection, and open up the possibility of an exciting field of medical developments for stroke.

Like research into GDF10, the study of Neurotrophin 3 is new and only recently beginning to emerge. So far, under laboratory conditions, NT3 must be administered within twenty-four hours after the onset of a stroke. Perhaps future development will improve this window of possible treatment. But, regardless if NT3 therapy comes into practical use as a 24-hour emergency treatment or one that can be administered after the first critical hours, Neurotrophin 3 continues to show great promise in the future of regenerative medicine.

  1. Brain Repair Using Glial Cells

Another exciting potential glimpse into future stroke treatment is the possibility of creating functioning nerve cells within the brain with glial cells. Glial cells envelop neurons, providing support and insulation. Glial cells are the most plentiful types of cell in the central nervous system.

If this research bears the right fruit, using glial cells to repair areas of the brain that have suffered stroke damage may be a real breakthrough. It could mean that glial cells might simply replace the cells damaged by stroke with fresh, healthy nerve cells. Presently, the studies are still limited to lab animals. But the evidence to date points to exciting future prospects.

  1. Stem Cell Therapy

For many in the public, stem cell therapy still dredges up the controversy that was prominent several decades ago. Today, however, the practical application of this crucial element in regenerative medicine is most commonly done with adult stem cells directly harvested from the patient. And as an auxiliary therapy used in conjunction with modern post-stroke treatments, stem cells show enormous potential for upping the game in recovery for stroke patients.

The two primary sources for stem cell therapy are bone marrow and adipose tissue. Both sources are prized for their stores of mesenchymal stem cells (MSCs). MSCs are multi-potent stem cells. They are basis of all healing and regeneration that happen in the body after we are born. Whether muscle, bone, blood, cartilage, neuron, nerve, skin, organ, or hair, all parts of our bodies depend on stem cells to begin the processes of repairing damage, the re-growth of tissue, the reduction of inflammation, and the regeneration of organs.

When damage is detected, stem cells are “assigned” their duties.

Stem cells circulate within the body throughout life. When damage is detected, whether due to illness or injury, the stem cells are “assigned” their duties. For example, a stem cell is signaled to become a skin cell at the site of a cut. Stem cell therapies use this capability and turn it into powerful and effective treatments of many kinds.

One of the most recent clinical trials examining the use of stem cells for stroke therapy was done at Stanford University. The trial’s main focus was to examine the safety of using stem cells for stroke treatment. But improvement for patients based on several standard measures was so impressive, the auxiliary findings were deemed not just statistically significant, but clinically meaningful.

STROKE OUTLOOK stanford university

The trial centered on eighteen patients whose average age was 61. The majority of the test subjects had suffered their strokes at least a full year prior to the trial. That is a period of time well past when continued recovery might be traditionally hoped for. It was shown that test subjects had significant recovery based on a number of measures. Recovery occurred within a month’s time, and improvement continued for several months thereafter.

The improvements were still evident at six and twelve months after the patients received the therapy. Motor function recovered dramatically, something considered unprecedented prior to the trial. Traditionally, physical recovery six months after stroke is not expected.

The preferred stem cell type for most therapies today is adipose-derived stem cells.

The majority of today’s stem cell therapies in the United States are done with adipose-derived stem cells. Adipose tissue is the fatty layer that lies just beneath the skin. It is prized for stem cell therapy because it holds the most abundant source of MSCs, even beyond the stores found in bone marrow. Adipose-stored stem cells are also exceptional in their potency. This source of MSCs is also much more easily accessed than those in bone marrow, making the harvesting of the stem cells considerably less invasive and easier on the patient. The discovery of MSCs in adipose tissue has ushered in an explosion of safe, effective therapies that can now be done on an outpatient basis.

FDA guidelines-compliant stem cell therapy is already in use for a wide variety of illnesses, injuries, and chronic conditions, including:

  • Arthritis
  • Autoimmune Diseases
  • Back Pain/Injury
  • Chronic Obstructive Pulmonary Disease (COPD)
  • Diabetes
  • Erectile Dysfunction (ED)
  • Joint Pain/Injury
  • Kidney Conditions
  • Multiple Sclerosis
  • Neuropathy
  • Parkinson’s Disease
  • Reflex Sympathetic Dystrophy (RSD)
  • Spinal Cord Injury

The news coming out of medical research fields implies that stem cell therapy for stroke may very well be on the horizon. Because of research and trials like the ones noted in this article, we understand that the re-growth of brain cells and the improvement of neurological functions are possible. It is surely only a matter of time before fully developed treatments based on regenerative medicine methods will be the norm in stroke therapy and recovery.

Does this mean that one day the debilitating aftereffects of stroke will be relegated to medical history? It’s beginning to seem more and more likely.

Learn More At The National Stem Cell Institute

The National Stem Cell Institute (NSI) is a leading regenerative medicine facility located in the United States. It is home to physicians, clinicians, and medical professionals that have undergone post-graduate training in regenerative medicine procedures and/or auxiliary practices such as nutritional counseling and functional rehabilitation that aid healing and promote health during and following PRP and stem cell therapies.

NSI’s mission is to advance patient quality of life through the most advanced developments in regenerative medicine technology, in order to reverse illness, whether physical or neurological, and heal tissues while avoiding invasive surgery and potentially risky medications.

Regenerative medicine facilities are popularly known as stem cell clinics. Regardless of what they are called, the National Stem Cell Institute strongly urges patients interested in regenerative medicine to thoroughly research clinics and medical facilities in order to ensure they are under the care of licensed medical professionals that have been trained in regenerative medical methods.

Below, NSI offers information and tips on what to look for in a licensed stem cell clinic. Those who have questions are encouraged to contact NSI.

What to Look for in a Stem Cell Medical Clinic

When searching for a qualified stem cell therapy center it’s important to remember that not all of them are created equal. Stem cells, when used properly, are your body’s most powerful means for healing that can repair everything from ligaments, tendons, and cartilage to organs including your liver, pancreas and lungs and even neurological tissue like your brain, nerves and spinal cord.

Unfortunately, the majority of so-called “regenerative medicine clinics” in the world aren’t trained in the latest, most technologically advanced procedures and will, therefore, provide poor results if any.

The good news is the National Stem Cell Institute (NSI) has established the most advanced stem cell and platelet rich plasma procedures on the planet which has drawn patients from all over the world as well as professional athletes and celebrities because they are recognized as the best in the world at stem cell therapy.

 

What makes NSI Stem Cell the top stem cell clinic in the world is demonstrated in 5 key areas:

1. Highly trained and experienced, board-certified doctors and team members who have performed stem cell procedures on thousands of patients with incredible results.

2. Cutting edge procedures utilizing all that regenerative medicine has to offer for many chronic degenerative conditions.

3. Leading scientific researchers who follow the advanced guidelines to maximize the healing potential of your stem cells and to maintain compliance and ethics

4. Use of only the most potent and viable resource of living, viable stem cells and harvested on the same day. No vial that you can purchase will contain living stem cells. If there is no harvest then there are no stem cells.

5. Post-operative guidance for supporting stem-cell growth including rehabilitation, diet and supplement protocols. NSI is a full-service healthcare center focused on patient outcomes. Stem cell therapy is only one tool used to help improve patients’ lives.

Patients have raved about their experience at NSI Stem Cell Clinics testifying that it was their unique cutting-edge procedures that helped them experience a breakthrough when nothing else worked.

If you want to learn more about NSI Stem Cell Clinics, you can set up a complimentary consultation today to see if you are a candidate. You can contact the National Stem Cell Institute at (877) 278-3623.

Is It Dementia Or Mild Cognitive Impairment?

What Is Mild Cognitive Impairment?

Particularly after we reach a certain age, we have all asked questions like these:

  • “Where did I put my car keys?”
  • “What was it I was saying?”
  • “What was that guy’s name, again?”

In spite of how distressing it may seem, a lapse of memory along these lines is generally normal. So are some changes to general mood. But, for some of us as we get older, forgetfulness and changes in our thought processes is a larger problem. It can be a sign of significant changes taking place in the brain. Between the typical terrain of “brain cramps” and the borderlands of dementia lies a mental landscape known as mild cognitive impairment (MCI).

DEMENTIA

MCI is marked by noticeable changes in mental status that don’t necessarily equate with dementia. It is estimated that as many as 16% to 20% of adults age sixty and older will receive a diagnosis of mild cognitive impairment sooner or later.

MCI sometimes increases a person’s risk for dementia. But are the symptoms of MCI preventable? For those who are already experiencing MCI, can those symptoms be reversed? The Alzheimer’s Association says that among the most active regions of scientific study regarding the possibilities are presently in the value of physical fitness and diet, and the reducing risk through the prevention of cardiovascular factors.

But what does any of this mean, really? The National Stem Cell Institute (NSI) has a vested interest in this question and the study of MCI, because stem cell therapies are being actively considered for chronic memory and cognitive conditions like Alzheimer’s disease. With this in mind, NSI takes a closer look at the mysteries of MCI and what they mean to you.

The Basics Of Mild Cognitive Impairment

Simply put, MCI can happen when mental function declines in some older adults. The Mayo Clinic defines mild cognitive impairment as an intermediate phase that bridges the cognitive decline typical of aging and the onset of dementia. Unlike dementia or other chronic cognitive diseases like Alzheimer’s, MCI generally doesn’t need medical treatment. Neither does it usually get in the way of daily life. Mild cognitive impairment is characterized by shifts in both memory and non-memory cognitive functions. A diagnosis for MCI typically includes the criteria below:

  • The person complains of cognitive problems.
  • There is decline or impairment in cognition in contrast to the patient’s earlier years.
  • Objective confirmation of impaired cognitive function through sources like family or close friends.
  • Functional activity is generally normal in comparison of someone with dementia.

DEMENTIA 2 - BRAIN

Factors In The Risks And Causes Of MCI

So, if you’ve received a diagnosis of mild cognitive impairment does that mean that Alzheimer’s or some other form of dementia is inevitable? Though MCI does increase the risk of developing more serious neurological conditions, that doesn’t mean you will. It’s believed that 20% to 40% of seniors diagnosed with mild cognitive impairment will progress to dementia. That means the majority of MCI patients don’t worsen beyond mild cognitive impairment. In fact, over time, MCI has been known to lessen and improve in about 20% of the cases.

Those in the know believe that a variety of actions and situations contribute to the onset of mild cognitive impairment. Understanding is still growing and discoveries are still being made, so the exact reasons these factors affect the neurological changes associated with MCI has yet to be determined. But, evidence strongly points to several particular elements. These include:

  • A person’s genetics
  • Free radical damage
  • The body’s inability to process glucose effectively
  • Vitamin deficiency
  • Toxins in the environment

It is believed, too, that many of the same kinds of neurological changes that contribute to Alzheimer’s disease or dementia also invite MCI. These changes include:

  • A decrease in the cerebral flow and/or circulation of blood. This is a contributor to frequent, minute strokes so small that they are barely detectable.
  • The brain cells do not absorb glucose properly for adequate energy
  • The hippocampus shrinks. When this happens, the symptoms of mild cognitive impairment are expressed as memory and/or emotional problems, among other function involved with the hippocampus.
  • Enlargement of the brain ventricles. The ventricles of the brain are a communication network of fluid filled cavities. The gradual enlargement of the ventricles puts pressure on the brain, which may promote the symptoms of mild cognitive impairment.
  • Neuronal damage. Whether from a traumatic physical injury or due to disease, damage to the neurons can promote MCI.
  • A decrease in cerebrospinal fluid. Cerebrospinal fluid is the clear, colorless liquid surrounding and protecting the central nervous system (CNS). The CNS is comprised of the brain and the spinal cord. Cerebrospinal fluid immerses the brain and spine in nutrients. It also eliminates waste products.
  • And increase in plaque or protein deposits within the brain. The clumping of plaque and certain proteins are also associated with Alzheimer’s disease and dementia.
  • Small strokes or other factors that affect adequate blood flow to the brain.

Additionally, the risk factors below have been linked to the development of mild cognitive impairment.

  • Aging
  • A family history of Alzheimer’s or dementia
  • Diabetes
  • Cardiovascular disease and/or stroke
  • Metabolic syndromes such as high blood pressure and high cholesterol
  • Tobacco use, drug use, alcoholism
  • Mental health problems, including depression, social anxiety and isolation
  • A sedentary way of life, or insufficient physical exercise
  • An income level that limits adequate health care and/or nutrition
  • The absence of social support and strong relationships for older adults
  • Inadequate sleep and/or sleep-related problems such as sleep apnea

DEMENTIA COGNITIVE

What The Symptoms Of MCI Look Like

The telltale signs of mild cognitive impairment land midway between the typical cognitive aggravations of normal aging and those linked to Alzheimer’s and dementia. MCI symptoms include:

  • Frequent, consistent memory loss. A person who has MCI might become lost, forget names or dates, or miss appointments more frequently.
  • A change in language and speaking, such as “losing one’s train of thought” or repeating oneself often.
  • A change in thought and judgment
  • An increase in one’s concern about his/her own mental performance
  • An increase in impulsivity, impatience, and/or irritability
  • Mood changes, such as an increase in depression, anxiety, or apathy

sypmtoms of mild cognitive impairment

Conventional And Advanced Therapies For MCI

The core situations that cause mild cognitive impairment, Alzheimer’s, and dementia are still mysterious. Presently, symptoms management is the focus of conventional medicine, but advanced medical methods such as the potential of neurological stem cell therapy are causing great excitement.

The National Stem Cell Institute cites the findings of one such study published on website of the National Center for Biotechnology Information. The study was centered on the effects of stem cells harvested from several different areas of the body, including fatty tissue known as “adipose” fat. Adipose-derived stem cells are already known for their notable performance regarding a wide array of illnesses, injuries, and chronic disorders. These stem cells can be are easily harvested from the fatty layer that lies just below the skin. Since the discovery of this potent source of stem cells, there has been an explosion in clinical research as well as the availability of stem cell therapies to the general public.

The success shown in these other areas has launched great interest in how they might be used in neurological diseases like Alzheimer’s and mild cognitive impairment. Adipose-derived stem cells are exceptionally potent stem cells that have the ability to become virtually any type of tissue needed by the body in order to repair, regenerate and boost the performance of other cells; from bone to cartilage to blood to skin and muscle. This includes the impressive potential to repair brain cells, and even grow new ones.

In clinical studies of laboratory mice, the adipose-derived stem cells differentiated into cells very much like neurons and astrocytes (an astrocyte is a type of cell found in the central nervous system). The results showed an improvement in blood vessel formation. This, in turn, caused improvement in overall brain function, including cognitive and motor functions.

What does all this mean for the development of neurological stem cell therapy? It holds great potential to bring fresh, regenerative cells directly to the brain. But it is also believed that neurological stem cell therapy may one day give us the ability to grow fresh, healthy neuron cells to replace those damaged by the ravages of dementia, Alzheimer’s disease, mild cognitive impairment, and other neurological illness and trauma.

5 Natural Ways To Practice MCI Prevention

Meanwhile, there are ways to be pro-active in helping to prevent mild cognitive impairment.

  1. Adopt an Anti-Inflammatory Diet

We’ve all heard the term “whole foods” by now. A whole food is defined as one that has undergone as little processing or refining as possible. Whole foods are also as free as possible from additives and other artificial matter.

Whole foods are high in antioxidants and healthy fats. These are known to support mental health, not just in older adults, but in younger people as well. In particular, certain elements of two established dietary regimens that promote whole food habits as well as other healthy eating routines have been combined to form what’s known as the “MIND diet.”

DEMENTIA DIET

Elements of the Mediterranean Diet and the DASH Diet (an acronym standing for “dietary approaches to stop hypertension”) comprise the MIND Diet (Mediterranean-DASH Intervention for Neurodegenerative Delay). The DASH element of the MIND Diet is a dietary regimen promoted by the National Heart, Lung, and Blood Institute, a part of the National Institutes of Health. It’s designed to prevent and control hypertension.

The Mediterranean Diet is sometimes referred to as “the world’s healthiest diet.” Research indicates that the Mediterranean Diet improves weight loss and the control of blood sugar levels, and reduces risk of depression. It has also been linked to lowered levels of inflammation, stroke, and Alzheimer’s disease.

Experts believe the MIND Diet helps in slowing cognitive decline by increasing nutrient-dense, high-fiber, and antioxidant-rich foods into one’s eating habits. Many MIND Diet foods have been shown to aid in protecting the brain from inflammation. This makes the MIND Diet a potentially strong ally in decreasing the risks of developing mild cognitive impairment.

MIND Diet foods include:

  • Vegetables that are leafy and green (romaine lettuce, spinach, kale), cruciferous (broccoli, cauliflower), or orange and yellow (peppers, carrots, pumpkins, squash)
  • Berries of virtually any kind
  • Fish high in omega-3 fatty acids (salmon, mackerel, and sardines)
  • Oils rich in healthy fats (olive oil, avocado, nuts or seed oils)
  • Lean protein (eggs, legumes, beans, pasture-raised poultry)
  • Grains that are 100% whole
  • Wine and coffee (be mindful! Moderation is key)

It can definitely be worth your while to adopt the MIND Diet for brain health. Studies show that people who ate MIND Diet foods averaged cognitive health maintenance seven and half years longer than those eating the fewest MIND foods.

  1. Exercising and Remaining Active

Are you getting tired of hearing about the benefits of exercise and healthy activity? It may seem like a drum too well beaten, but the beneficial qualities are established medical facts. Exercise promotes blood circulation. It is associated with preventing memory loss and several cognitive elements related to aging. And you don’t have to be an extreme athlete to reap the health rewards.

Simple walking remains one of the best kinds of exercise to maintain, even improve, mental health. Extra benefits happen when you consistently take it outside. But whether on the trail or the treadmill, brisk walking is connected to significant improvement in cognitive health.

Still not a lover of brisk walks? There are plenty of other healthy activity options, including swimming, bicycling, yoga, or the use of an elliptical machine. In any case, your goal should be a routine of at least three to four times weekly for thirty to sixty minutes each time. Exercise briskly enough to raise your heart rate to approximately 65% of your maximum capacity. The Mayo Clinic has guidelines to determine your maximum capacity.

  1. Taking Supplements for Cognitive Health

Consider taking recommended doses of vitamin and mineral supplements to protect your cognitive health. These include:

  • Omega-3 fatty acids
  • Vitamin D3
  • CoQ10
  • Ginkgo Biloba and Ginseng
  • Phosphatidylserine
  • Copper
  • B vitamins
  • Folate
  • Vitamin E
  1. Maintain Social Support

Too often overlooked, there is no longer any doubt that strong, healthy relationships with family, friends, and community improve and maintain cognitive functions. Sometimes older people recede from these. Doing so can hasten a decline in both physical and mental health.

  • Staying socially active can include activities like:
  • Spending quality time with family
  • Joining support groups that address stress
  • Staying physically active through walking or exercising with companions
  • Playing a musical instrument
  • Reading and/or writing groups
  • Becoming a volunteer
  • Joining a religious institution
  • Adopting interesting hobbies, especially those that include friends or family
  • Playing “memory games,” particularly those that include social interaction
  1. Reduce Particular Medicines and Exposure to Toxins Whenever Possible

It has now been established that tobacco use, often in addition to taking certain medicines, increases risk of memory loss and dementia. So, please: stop using tobacco products.

If you are at risk for cognitive impairment, you will also want to speak with your health care provider about the impact of any medications you are taking. Additionally, over-the-counter meds may seem harmless, but you will want to discuss their effects on people who have MCI or are at risk of developing cognitive diseases or disorders. Check with your doctor if you are taking medications such as Benadryl, Dramamine, Advil PM, or Unison. The same goes for the generic equivalents.

Summing Up Mild Cognitive Impairment

Remember, MCI isn’t necessarily a precursor for more serious cognitive disorders. And there are ways to help in the prevention and progression of it. Generally speaking, those who have been diagnosed with mild cognitive impairment can care for themselves without need for 24 hour assistance.

But if the symptoms of MCI progress or worsen, intervention may be needed in order to prevent accidents or emergencies. The only true way to monitor MCI for progression is through regular visits with your health care provider. If you or a loved one is exhibiting increased confusion, becoming lost in familiar areas, or poor judgment, these can be a sign that additional aid and/or treatment is in order.

Ensuring that a loved one with mild cognitive impairment has a structured schedule, a living space that has been safety checked, keeps lists for needed items and “to-do’s,” and receives regular reminders for upcoming events and appointments will go a long way in allowing more independent, happier living.

About The National Stem Cell Institute

The National Stem Cell Institute (NSI) is a leading U.S. medical facility dedicated to the safe, effective advancement of regenerative medicine methods such as stem cell and platelet rich plasma therapies. Certain neurological stem cell therapy practices are already in effect and FDA guidelines-compliant. NSI maintains constant updating on the latest advances in regenerative medicine.

As such, NSI strongly recommends that patients interested in regenerative medicine procedures thoroughly research any clinics that purport to practice legitimate stem cell therapies. Not stem cell clinics are created equal and not all are properly licensed. Below are tips on how to determine if a clinic or facility is licensed and FDA guidelines-compliant.

What to Look for in a Stem Cell Medical Clinic

When searching for a qualified stem cell therapy center it’s important to remember that not all of them are created equal. Stem cells, when used properly, are your body’s most powerful means for healing that can repair everything from ligaments, tendons, and cartilage to organs including your liver, pancreas and lungs and even neurological tissue like your brain, nerves and spinal cord.

Unfortunately, the majority of so-called “regenerative medicine clinics” in the world aren’t trained in the latest, most technologically advanced procedures and will, therefore, provide poor results if any.

The good news is the National Stem Cell Institute (NSI) has established the most advanced stem cell and platelet rich plasma procedures on the planet which has drawn patients from all over the world as well as professional athletes and celebrities because they are recognized as the best in the world at stem cell therapy.

 

What makes NSI Stem Cell the top stem cell clinic in the world is demonstrated in 5 key areas:

1. Highly trained and experienced, board-certified doctors and team members who have performed stem cell procedures on thousands of patients with incredible results.

2. Cutting edge procedures utilizing all that regenerative medicine has to offer for many chronic degenerative conditions.

3. Leading scientific researchers who follow the advanced guidelines to maximize the healing potential of your stem cells and to maintain compliance and ethics

4. Use of only the most potent and viable resource of living, viable stem cells and harvested on the same day. No vial that you can purchase will contain living stem cells. If there is no harvest then there are no stem cells.

5. Post-operative guidance for supporting stem-cell growth including rehabilitation, diet and supplement protocols. NSI is a full-service healthcare center focused on patient outcomes. Stem cell therapy is only one tool used to help improve patients’ lives.

Patients have raved about their experience at NSI Stem Cell Clinics testifying that it was their unique cutting-edge procedures that helped them experience a breakthrough when nothing else worked.

If you want to learn more about NSI Stem Cell Clinics, you can set up a complimentary consultation today to see if you are a candidate. You can contact the National Stem Cell Institute at (877) 278-3623.

5 Real World Stem Cell Therapy Benefits

5 Stem Cell Therapy Types Are Changing Lives Right Now In The U.S.!

There has been no greater medical advance in modern history than that of stem cell therapy. Decades of clinical research has grown exponentially into real world applications that are improving the lives of regular Americans in the here and now. Among the most exciting elements are the advances made with stem cell therapy regarding the relief of chronic pain and its effectiveness in addressing difficult-to-heal injuries: all done with no need for medication or invasive surgery. Continue reading “5 Real World Stem Cell Therapy Benefits”

Reversing Brain Injury: 6 Effective Therapies

These 6 Therapies Are Repairing The Damage Of Brain Injury Right Now!

In May of this year, an expert in neuroscience delivered exciting news to a roomful of medical professionals. It was a watershed moment for one of today’s fastest growing and most challenging neurological dilemmas: traumatic brain injury (TBI). TBI has been brought into public focus because of the devastating effects of NFL brain trauma like chronic traumatic encephalopathy (CTE), the degenerative disease caused by TBI. Continue reading “Reversing Brain Injury: 6 Effective Therapies”

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Stroke Treatment With Stem Cell Therapy

Groundbreaking Stroke Treatment Through Stem Cell Therapy

brain stroke symptomsEvery year about 795,000 Americans become victims of stroke. Of these, approximately 600,000 are first attacks. 185,000 are recurrent. If stroke treatment does not follow quickly, the effects can be catastrophic, leading to severe disability or death. Still called by many in the public as “brain stroke,” there really is no other part of the body where stroke occurs. It is exclusively occurs in the brain. Continue reading “Stroke Treatment With Stem Cell Therapy”

All About Stem Cell Treatment

What You’ve Always Wanted To Know About Stem Cell Treatment, But Didn’t Know How To Ask

what is stem cellWhat is stem cell treatment? What is it for? What does it do? What about all the hype? Have you been asking questions like these? Even with all the news reports and online information, it can be tough to understand this advanced medical technology. NSI Stem Cell Centers in Florida are among the most experienced regenerative medicine clinics in the United States. They know the insides-and-outs of how stem cell treatment is revolutionizing the way numerous injuries, illnesses and chronic conditions on an ever-growing list are being treated. Continue reading “All About Stem Cell Treatment”

Stem Cell Relief In Neurological Disease

How Stem Cell Therapy Is Revolutionizing Neurological Disease Treatment

neurodegenerativeUntil about 50 years ago, it was believed that the regeneration of neurons was impossible. Because of this, every neurological disease was considered incurable. Regardless of the neurodegenerative condition in question -whether Parkinson’s disease, multiple sclerosis, spinal cord injury, or any other- the prognosis rarely offered hope. But this was before the development of regenerative medicine. Continue reading “Stem Cell Relief In Neurological Disease”

The Future Of Treatment For Epilepsy

Why Stem Cell Therapy is On Track to Transform Treatment for Epilepsy

seizuresEpilepsy belongs to the family of neurological conditions. This neuro disorder is hallmarked by abrupt, recurring events of sensory disruption, often accompanied by the sufferer losing consciousness and/or experiencing seizures. The source cause of epilepsy is sudden abnormal electrical activity in the brain. Continue reading “The Future Of Treatment For Epilepsy”

Brain Injuries, Stem Cells And The NFL

How Stem Cell Therapy is Changing the Future Treatment of Brain Injuries

chronic traumatic encephalopathy treatmentFans love to watch football, but they never love seeing hits so massive that they cause severe, or even chronic, spinal or brain injuries. One of the most astounding cases in recent history is that of Ricardo Lockette of the Seattle Seahawks, when the wide receiver lay immobile where he landed during two complete commercial breaks. The injury to his neck, accompanied by concussion, kept him from play for at least the remainder of the 2015/2016 season. Continue reading “Brain Injuries, Stem Cells And The NFL”