Intrathecal Stem Cell Injection Treatment For Brain Optimization

The Intrathecal Stem Cell Treatment For Brain Optimization Consists of the Following:

  • 50 Million Stem Cells via Intrathecal Injection 

 

PRICE: $3,300 USD

We require patients to be in town for at least 5 days. Below is what a typical schedule looks like, but exact details are subject to change depending on availability and schedule
  • Day 1 – Arrive and rest
  • Day 2 – Bloodwork & Payment
  • Day 3 – Treatment
  • Day 4 – Rest 
  • Day 5 – Fly home
  • If you are in town for more than 5 days then the itinerary may not be all consecutive days

The intrathecal treatment cannot be done if the patient is on blood thinners. Call for guidance if the patient is taking a blood thinner for alternative recommendations.

Our anesthesiologists will be out of town from August 2 until August 9th and we will not be able to perform intrathecal treatments these days.

The Intrathecal Stem Cell Treatment For Brain Optimization

Are you looking for a safe and effective way to boost your brain function and optimize your cognitive performance? Look no further than Dreambody Clinic’s intrathecal stem cell injection treatment for brain optimization.

Our cutting-edge treatment utilizes mesenchymal stem cells (MSCs), which are known for their ability to promote neuroregeneration and improve brain function. By administering MSCs directly into the cerebrospinal fluid, our treatment allows these powerful cells to migrate to damaged or inflamed areas of the central nervous system, where they can help repair damaged neurons, promote the growth of new blood vessels, and reduce inflammation.

Not only does our intrathecal stem cell injection treatment have the potential to help those with cognitive impairment, brain injury, or neurodegenerative disorders such as Alzheimer’s or Parkinson’s, but it can also offer benefits to healthy individuals looking to improve their mental performance. Whether you’re an athlete looking to enhance your reaction time and decision-making abilities, or a busy professional seeking to optimize your productivity and creativity, our treatment can help.

At Dreambody Clinic, we pride ourselves on offering safe, personalized, and affordable stem cell treatments that prioritize patient safety and comfort. Our expert medical team will work with you to develop a treatment plan tailored to your specific needs, ensuring that you receive the highest quality care and support throughout your healing journey.

Don’t settle for suboptimal brain function and limited cognitive abilities – invest in your brain health and experience the transformative benefits of our intrathecal stem cell injection treatment for brain optimization. Contact Dream Body Clinic today to schedule a consultation and take your first step towards a better, brighter future.

Call for a Free Consultation at (833) 445-9089 or email us at info@dreambodyclinic.net

How do Mesenchymal Stem Cells Help with Brain Optimization?

Mesenchymal stem cells (MSCs) have been shown to have a neuroprotective and regenerative effect in brain optimization and severe medical conditions such as stroke recovery, MS, TBI, early onset Alzheimer’s and more. The mechanisms by which MSCs exert their therapeutic effects include:

  1. Anti-inflammatory actions: MSCs have been shown to suppress inflammation, thereby reducing the release of inflammatory cytokines and promoting tissue repair.

  2. Neurotrophic effects: MSCs secrete various growth factors, such as brain-derived neurotrophic factor (BDNF), that promote the survival and regeneration of neurons

  3. Migration and homing: MSCs can migrate to the site of injury and guide differentiation and regeneration of various cell types that form the structural and functional components of the brain, including neurons, astrocytes, and oligodendrocytes.

  4. Angiogenesis: MSCs promote the formation of new blood vessels, leading to improved blood flow and oxygen delivery to the injured area.

Overall, the use of MSCs in brain optimization is a highly effective approach for improving neurological function and brain function.

Intrathecal Injection of Mesenchymal Stem Cells for Brain Optimization

Intrathecal injection of mesenchymal stem cells (MSCs) has emerged as a miraculous therapy for brain optimization and the treatment of brain related issues. This method involves the injection of MSCs into the cerebrospinal fluid surrounding the spinal cord. This sounds like a very painful place to be injected, but the injection itself does not hurt much. This is because our trained anesthesiologists that apply the injection use a 30 gauge syringe. This syringe is as small in diameter as an insulin syringe. This small size allows it to get into the spinal cord area without risking damage to the spinal cord.

The intrathecal injection of MSCs is based on the idea that the cells can migrate to the site of injury in the brain and promote tissue repair and regeneration. Once injected, MSCs don’t have to cross the blood-brain barrier and travel through the cerebral spinal fluid directly to the brain, where they can exert their therapeutic effects.

The mechanisms of action of intrathecal MSCs injection include:

  1. Promoting neurogenesis: Studies indicate that MSCs have the ability to guide differentiation and regeneration of neurons. They promote neurogenesis, helping to restore damaged neural networks.

  2. Modulating inflammation: MSCs release anti-inflammatory cytokines which attenuate inflammation in the brain and help to prevent additional neuronal damage.

  3. Stimulating Angiogenesis: MSCs promote the growth of new blood vessels in the brain, which helps improve cerebral perfusion and oxygen supply.

  4. Secreting trophic factors: Injection of MSCs promotes the secretion of various trophic factors, such as brain-derived neurotrophic factor (BDNF), vascular endothelial growth factor (VEGF), and insulin-like growth factor 1 (IGF-1), which exert protective and regenerative effects on neurons.

Overall, intrathecal injection of MSCs for brain optimization is designed to improve functional cognition.

Intrathecal Stem Cell Application

Dr. Giovanna Dr. Oscar Intrathecal Stem Cells

Dr. GIOVANNA AGUILAR GRIMALDO & Dr. OSCAR JAVIER MEZA ORTIZ

Dr. Giovanna and Dr. Oscar are both licensed anesthesiologists. The country of Mexico, where Dream Body Clinic is located, an intrathecal injection can only be done by an anesthesiologist or neurosurgeon. This is because of the specialized training needed to know the correct location of an intrathecal injection and technique. The intrathecal injection sounds painful and dangerous, but it is actually a very easy and minimally invasive procedure. It is the most studied and most highly recommended application point for brain issues.

How MSCs Help The Specialized Immune System of the Brain

Mesenchymal Stem Cells (MSCs). Once the MSCs get to the brain they get to work targeting inflammation. The neuropathological hallmarks of many neurological issues are often accompanied by neuroinflammation, which is intended to protect the body, but also can contribute to aggravation of damage when it becomes excessive. This is why the ability of MSCs to reduce the brain inflammation is so important.

Mesenchymal Stem Cells have a profound effect on macrophages and in the brain these are microglia. The microglia account for 10% to 15% of the cells in the brain. They are very important, so if they are not working properly then brain health will be off balance. Mesenchymal stem cells do a great job of helping the microglia function properly and proliferate. The microglia are resident macrophage cells, they act as the first and main form of active immune defense in the central nervous system (CNS). The microglia are responsible for removing damaged brain cells, dead blood cells, damaged or unnecessary neurons or synapses, and infectious agents. So having plenty of healthy microglia is extremely important to brain health. The MSCs have been shown in multiple studies to increase the number of microglia.

The MSCs also help regulate Astrocytes. Astrocytes perform many functions such as biochemical support of endothelial cells that form the blood–brain barrier, provision of nutrients to the nervous tissue, maintenance of extracellular ion balance and a role in the repair and scarring process of the brain and spinal cord following traumatic injuries. The brain repair role is very important for brain recovery and optimization. Making sure that your specialized immune system in the brain is working perfectly is a huge for brain optimization.

MSCs also release neurotrophic factors that guide neural regeneration. Neuronal loss is the opposite of brain optimization. So by guiding neural regeneration we can improve cognition and mental performance.

How do the induced Tregs from Mesenchymal Stem Cells help Brain Related Conditions?

Mesenchymal stem cells (MSCs) have the ability to induce the formation of regulatory T cells (Tregs) as a part of their immunomodulatory response to brain regeneration & recovery. Tregs are a type of immune cell that plays a crucial role in regulating the immune system and suppressing autoimmune responses in the body. Here are some ways in which Tregs induced by MSCs can help Brain Regeneration and Optimization:

  1. Suppressing inflammation: Tregs can suppress inflammation by inhibiting the activity of pro-inflammatory T cells such as T-helper 1 (Th1) and T-helper 17 (Th17) cells, thus helping to reduce inflammation in the nervous system and prevent damage to the myelin sheath.

  2. Regulatory function: Tregs can regulate the immune system and restore self-tolerance by inhibiting the activation of dendritic cells and other immune cells that may initiate or maintain an autoimmune response.

  3. Reducing immune-mediated damage: Tregs can reduce immune-mediated damage to the nervous system by suppressing the activity of T cells that attack myelin and other neural tissues.

  4. Promoting neuroprotection: Tregs can stimulate the production of neuroprotective factors, such as nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF), which can protect the cells in the nervous system and promote their growth and regeneration.

  5. Inhibiting tissue destruction: Tregs can also inhibit tissue destruction and nerve cell death in MS patients by inhibiting the release of pro-inflammatory cytokines such as interferon-gamma (IFN-γ).

Overall, Tregs induced by MSCs can help to restore immune balance, reduce inflammation, and protect and regenerate the nerves in the nervous system. The ability of MSCs to induce the formation of Tregs is an amazing therapeutic approach for brain regeneration and optimization.

How do intrathecal injected MSCs help oligodendrocytes?

Intrathecal injected mesenchymal stem cells (MSCs) may help oligodendrocytes, which are specialized cells in the central nervous system (CNS) responsible for producing myelin, the insulating material that surrounds and protects nerve fibers.

Several studies suggest that MSCs can promote the differentiation and maturation of oligodendrocyte progenitor cells, which are precursor cells that can develop into mature oligodendrocytes. MSCs secrete various growth factors, cytokines, and extracellular matrix molecules that can stimulate the growth and differentiation of oligodendrocyte progenitor cells.

In addition, MSCs have been shown to produce exosomes, which are small vesicles that carry various proteins, RNA, and microRNA. These exosomes can transfer genetic material to neighboring cells, including oligodendrocytes, and promote their growth and differentiation.

Moreover, MSCs can also provide a supportive microenvironment for oligodendrocytes by producing cytokines and other factors that can promote cell survival and prevent cell death. MSCs can also reduce inflammation in the CNS, which is known to damage oligodendrocytes and impair myelin production.

Overall, MSCs delivered via intrathecal injection can promote oligodendrocyte survival, differentiation, and myelin production, which can potentially help in the treatment of demyelinating disorders such as multiple sclerosis.

Intrathecal Stem Cell Treatment for Brain Optimization and Chemotaxis​

Chemotaxis is the process by which cells are attracted or repelled by specific chemicals in their surrounding environment. The chemicals that act as the attractants or repellents are called chemotactic agents, or chemotaxis. Chemotaxis is an essential process for many biological functions, such as immune responses, wound healing, embryonic development, and bacterial movement.

In the context of regenerative medicine, MSCs are often used to repair or replace damaged tissues. Chemotaxis plays an essential role in the migration of MSCs to the site of tissue damage. When an injury occurs, cells in the damaged tissue release chemotactic agents that attract MSCs to the site of the injury. Once MSCs reach the damaged tissue, they can guide differentiation and regeneration of various cell types to help repair the damaged tissue.

Chemotaxis is regulated by several signaling pathways, including the phosphoinositide 3-kinase (PI3K)/Akt and mitogen-activated protein kinase (MAPK) pathways. These pathways help to regulate the migration and differentiation of MSCs by controlling the expression of various genes and proteins.

Chemotaxis is also an important process in immune responses, as immune cells must be able to migrate to sites of infection or injury to fight off pathogens and repair damaged tissues. In this context, chemotaxis is regulated by various cytokines and chemokines that are produced by the tissue.

Thus, chemotaxis is a fundamental biological process that plays a crucial role in tissue repair, immune responses, and many other physiological processes. This process is crucial for Brain Optimization.

Do the Intrathecal Stem Cells Have Nootropic Effects or Improve Memory?

Nootropic effects are typically defined as the enhancement of cognitive function, memory, and learning ability. While mesenchymal stem cells (MSCs) have been shown to have neuroprotective and neuroregenerative effects, there is limited evidence to suggest that intrathecal injection of MSCs has direct nootropic effects on cognition or memory. This is because studies on this are just starting. We have seen many patients report back nootropic like benefits to cognition and memory.

Most research on MSCs has focused on their potential therapeutic benefits for various neurological and autoimmune disorders, such as multiple sclerosis, spinal cord injury, and stroke. Studies have shown that MSCs can reduce inflammation, promote tissue repair, and stimulate the growth and differentiation of various types of cells in the central nervous system (CNS), such as neurons and oligodendrocytes.

However, there is limited research on the direct effects of MSCs on cognitive function. One study published in the Journal of Neuroimmunology in 2018 reported that the intracerebroventricular injection of MSCs in rats led to improved cognitive function in a Morris water maze test, which is used to assess spatial learning and memory.

Another study published in Stem Cells Translational Medicine in 2017 reported that MSCs implanted into the hippocampus of rats improved cognitive function in a Morris water maze test and increased the number of synaptic connections in the brain.

Overall, while there is some limited evidence to suggest that MSCs may have indirect effects on cognitive function by promoting neuroregeneration and reducing inflammation, further research is needed to fully understand their potential nootropic effects.

Intrathecal Stem Cell Treatment Studies

Brain Lesion Repair Stem Cells Testimonial

Side Effects or Risks

The only side effects that have been documented are the following:

  • Approximately 1 in 20 patients will experience a slight fever and/or headache for a few hours after treatment or the next day. We have found that 500mg of Tylenol easily resolves this issue.
  • Any treatment involving an injection such as an IV runs a risk of infection. We have never had a patient experience an infection due to our sterility protocols,.
  • Approximately 1 in about 10 patients will experience some intense lower back pain near the intrathecal injection site that can radiate up and down the spine. It typically lasts a few hours to a few days before fully dissipating. We provide tramacet to all patients as a way to deal with this if it occurs. 
  • Approximately 1 in about 10 patients will experience a migraine like headache and sometimes nausea with it from the intrathecal treatment. This is called a postdural puncture headache and is caused by a change in the cerebrospinal fluid pressure. In most cases taking 1 tramacet will relieve these side effects. In some cases the headache can last a few hours to a few days. We provide tramacet to all patients just in case to deal with this.
  • Dizziness and vomiting are potential side effects that affect a small percentage of patients post intrathecal treatment. The dizziness and desire to vomit can last for a few hours to a few days with most cases resolving naturally within a week.
  • A very small percentage of patients for this treatment will be non-responders. As with any medication or treatment there is always a chance of no change. Tylenol does not always fix a headache as an example.
  • We do not treat patients that have had cancer within the past 5 years. There is still no conclusive evidence linking stem cells to make cancer worse, but we prefer to stay on the side of safety until more information is available.

Our lab has over 8 years of experience cultivating mesenchymal stem cells with perfect safety and efficacy. See Stem Cell Certification by Clicking Here

How long do the Intrathecal Stem Cell Treatment Results Last?

The results from the the Intrathecal stem cell treatment can last for years or even indefinitely. This is because the stem cells are creating real neurogenesis which means new neurons. They are repairing the brain and that new tissue and neural connections will last. They are also reprogramming your immune system to work the way it was designed to work. Once the immune cells are reprogrammed and any damage is repaired at the spinal cord or brain then things will work the way they should. This will last because it is real regeneration and not just a pill to cover up symptoms. 

The mesenchymal stem cells will stay in the system for 8 months to a year. During that time they will interact with immune cells and seek out inflammation where they will guide cellular regeneration. After 8 to 12 months any MSCs that are free bound in your system will differentiate into an osteoblast (bone cell), adipocyte (fat cell) or chondrocyte (cartilage cell). They will then contain the donors HLA markers and your immune system will destroy and remove them. This is an easy process for your immune system and there is no negative reaction in your body from it. Some of the MSCs that were free bound from the IV will find capillaries to call home. They will attach and be considered a pericyte. When they do this they can live in your system indefinitely in a beneficial way to your system.

The Intrathecal Stem Cell Treatment is allowing your body to heal like it did when you were a little kid. There are a lot of other benefits outside of just fixing your brain damage such as anti-aging. Click Here for An in depth look at how the stem cell IV works for Anti-Aging

How to get the Intrathecal Stem Cell Treatment

In conclusion, the intrathecal stem cell treatment could be a promising solution for individuals who are looking to optimize their brain function. The Dream Body Clinic provides personalized treatment plans using stem cells to repair and regenerate damage to the brain and spinal cord which may lead to improved cognition and memory. While this treatment is not yet widely available, ongoing research suggests that it is a viable alternative to traditional brain optimization management methods. If you are interested in learning more about this treatment, we recommend calling us for a free consultation at (833) 445-9089. If you are ready to get the Brain Optimization Stem Cell Treatment then click the image below for details on how to book.

How to Book Brain Optimization Stem Cell Treatment