Stem Cell Regenerative Medicine
Stem Cell Therapy
Studies continue to show amazing results for Autism, Joint Repair and many other debilitating Health Conditions!...
What is Stem Cell Treatment For Autism
Stem cells are powerful tools in medical treatment due to their ability to develop into various specialized cell types. This potential makes them promising for treating many health conditions, including autism spectrum disorder (ASD).
ASD is a complex neurodevelopmental disorder characterized by social communication challenges, repetitive behaviors, and restricted interests. While the exact causes of ASD are not fully understood, research is exploring the potential of stem cell treatment to alleviate some of its symptoms.
Stem cells can transform into different cell types, playing a crucial role in the body's growth, repair, and maintenance. They can replace damaged or dysfunctional cells, offering hope for tissue regeneration. There are different types of stem cells, including embryonic stem cells, adult stem cells, and induced pluripotent stem cells (iPSCs), each with unique capabilities.
For autism treatment, stem cells may help by modulating immune responses and reducing inflammation, which are factors in the neurodevelopmental processes of ASD. They might also aid in neural repair, potentially restoring disrupted neural networks in individuals with ASD. Some studies suggest that stem cells could release neuroprotective and anti-inflammatory factors, creating a more favourable environment for neural growth and connectivity.
For more information on the benefits of holistic and mainstream medicines working together, join the FB Group
Dr José Fermín Celma Simón MD
Dr José Fermín Celma Simón, MD, FRCS MX, board-certified as a General Medical Surgeon and Holistic Practitioner who offers; Umbilical Cord Stem Cell Therapy, Ozone, Magnetic Therapy, I.V Vit C, GcMAF,
I.V NAD, Light Focusing Therapy as well as other therapies and formulated I.V treatment from his private practice in Puebla Mexico.
Dr José Fermín Celma Simón also works from 50 Doctors Hospital in Puebla, Mexico.
He believes that with the best of holistic and modern medicine working together, the medical profession owes it to the parents and the patients affected by Autism, to make available ALL effective treatment options.
"As a Medical Doctor, I have trained at many hospitals and was given a formal medical education. But it took a very personal loss to make me look for other answers and to continue my research from a wider perspective. Times are changing and a shift is occurring, as information has become so much more easily available, so the evidence of the good that many alternative therapies can offer is emerging."
50 Doctors Hospital
Stem Cell Therapy
Stem cells can transform into different cell types, playing a crucial role in the body's growth, repair, and maintenance. They can replace damaged or dysfunctional cells, offering hope for tissue regeneration. There are different types of stem cells, including embryonic stem cells, adult stem cells, and induced pluripotent stem cells (iPSCs), each with unique capabilities.
Treatments and Therapies
What Are Stem Cells?
Stem cells are essential in regenerative medicine due to their ability to transform and rejuvenate. They can develop into various specialized cell types, playing a crucial role in the body's growth, repair, and maintenance. This ability allows them to replace damaged or dysfunctional cells, offering hope for tissue regeneration in many health conditions.
There are different types of stem cells, each with unique capabilities and applications. Embryonic stem cells, derived from early-stage embryos, can become almost any cell type in the body. Adult stem cells, found in specific tissues and organs, help maintain normal tissue function and repair throughout life. Induced pluripotent stem cells (iPSCs) are adult cells reprogrammed to have embryonic-like properties, promising personalized regenerative therapies without the ethical concerns of using embryonic stem cells.
The potential of stem cells for treating autism lies in their ability to address various biological mechanisms. Stem cells may help modulate immune responses and reduce inflammation, which are factors in the neurodevelopmental processes of autism. They might also aid in neural repair, potentially restoring disrupted neural networks in individuals with autism. Preliminary studies suggest that stem cells could release neuroprotective and anti-inflammatory factors, creating a more favorable environment for neural growth and connectivity. The idea of using stem cells to regulate the immune system has gained interest, as immune system dysregulation is observed in individuals with autism.
Stem cells can turn into nerve, brain, and muscle cells, making them suitable for autism treatment. The transplanted stem cells do not carry the disorder, replacing damaged cells and potentially slowing, stopping, or reversing the disease's progression. Treatment protocols are tailored to each patient's condition, and different protocols are applied as needed.
Administration of Stem Cells
The administration of stem cells typically takes about 2 to 3 hours. When used to treat autism, stem cell therapy can prevent the progression of the condition and improve the patient's current state. Benefits observed after treatment include cognitive development, increased learning capacity, better information retention, improved environmental compliance, enhanced digestive function, and a stronger immune system.
• Stem cells can turn into nerve, brain, and muscle cells, making them useful for treating autism. The transplanted stem cells do not carry the disorder, so they replace damaged cells and may slow, stop, or reverse the disease's progression.
• Treatment protocols are tailored to each patient's condition, with different protocols for each individual.
• Stem cell therapy has shown very positive results in autism patients, preventing disease progression in 85% of cases and helping to resolve existing conditions. The type of stem cells used is CB-MNC.
• Patients respond at different rates. The amount of stem cells required depends on where the patient is on the spectrum. Stem cells multiply, so full effects are seen after 3 months.
• For example, the first administration might involve 35 million stem cells, with each vial containing 7 million stem cells. Five vials are administered via IV, and the cost per patient is around $2500. ($6000 for a 3 session booking)
A second session of stem cells is often recommended 3 months later.
Stem Cell Treament in Mexico
For Patients receiving Stem Cell Therapy for Autism, when arriving in Mexico City can conveniently access the coach station to get to Puebla. The coach station is conveniently located within the airport. Coaches depart hourly, and tickets can be purchased upon arrival. The fare for a coach ticket is $25 USD per person one way ( $50 USD per person return from Mexico City to the hotel, which is situated just 5 minutes from the hospital. The coach journey takes approximately 2 hours.
Upon arrival at the coach station, a designated driver will collect the patient and caregiver and drive them to the hotel. A driver will also collect them from the hotel within 3 hours of arriving at the hotel for the stem cell therapy and return them to the hotel afterward.
Alternatively, a private driver service is available at a cost of $150 USD each way for up to three passengers from Mexico city to the hotel in Puebla. The hotel offers beautiful accommodations, including a swimming pool, at a rate of no more than $70 USD per night for up to 2 adults and a child. A two-night stay is recommended: one day for the stem cell procedure, which typically takes about three hours, and the following day for a follow-up appointment with the doctor.
Return transfers from the coach station in Puebla and transport from the hotel to the hospital are included in the $2500 USD fee. There are no hidden costs.
Stem Cell Screening, Testing and Use
How cord blood stem cells are analysed to determine if they come from donors who have not received any COVID-19 vaccines involves a few steps: Protocol for the Analysis of Cord Blood Stem Cells and process:
1st stage. Donor Screening and Documentation: The first method used is to rely on thorough donor screening and documentation. Donors are asked about their vaccination status, and this information is recorded and verified through medical records.
2nd stage is Flow Cytometry: This technique is used to analyse specific markers on the surface of stem cells. While flow cytometry is typically used to assess cell viability and count specific cell types, it's adapted to detect markers or changes associated with Covid 19 variant vaccinations.
3rd stage. Genetic and Epigenetic Analysis: Advanced epigenetic analysis helps them reveal changes in gene expression or other markers that also indicates a history of COVID-19 vaccination.
4th stage Serological Testing: Testing for the presence of antibodies specific to COVID-19 vaccines in the donor's blood which is a strong indicator whether they have been vaccinated against COVID-19.
5th stage: Cell Culture and Functional Assays: Culturing the stem cells and performing functional assays reveal differences in cell behaviour or response to stimuli that are linked to COVID-19 vaccination status
All cord blood stem cells derive from healthy donors.
All cord blood stem cells derive from healthy donors.
Other analysis to include:
Sterility Testing: Cord blood samples are tested for microbial contamination to ensure they are free from harmful bacteria, viruses, and fungi. This is crucial to prevent infections in recipients.
Infectious Disease Screening: The blood is tested for all infectious diseases such as HIV, hepatitis, and syphilis to ensure that the cells are safe for administration.
Genetic Testing: While cord blood stem cells do not require a perfect blood match, genetic testing is still performed to ensure they are suitable for administration and to identify any potential genetic disorders.
Quality Control: Throughout the processing and storage of cord blood, strict quality control measures are in place to maintain the integrity and viability of the stem cells. This includes monitoring the cells during cryopreservation (freezing) and ensuring proper handling and storage conditions.
Volume Reduction: The cord blood is processed to remove excess red blood cells and plasma, leaving behind a concentrated sample of stem cells.
The cost of CB stem cells is $6,000 for a three-session booking. Each session comprises 34 million CB stem cells.