
Stem cells in the treatment of Rheumatoid arthritis (RA)
Cord blood stem cells have shown good results in the treatment of Rheumatoid arthritis (RA), a chronic inflammatory disorder affecting joints. These stem cells possess unique properties that can help in managing and alleviating the symptoms of RA.
Cord blood stem cells have regenerative capabilities..
One of the primary benefits of cord blood stem cells is their ability to modulate the immune system. In RA, the immune system mistakenly attacks the body's own tissues, causing inflammation and joint damage. Cord blood stem cells can help regulate the immune response, reducing inflammation and preventing further damage to the joints.
Additionally, cord blood stem cells have regenerative capabilities. They can promote the repair and regeneration of damaged tissues, including cartilage and synovial membrane, which are commonly affected in RA. This regeneration can lead to improved joint function and reduced pain for patients.
Furthermore, cord blood stem cells are known for their anti-inflammatory properties. By secreting anti-inflammatory cytokines, these cells can help mitigate the inflammatory processes underlying RA, leading to a decrease in pain and swelling in the affected joints.
Patients who receive cord blood stem cell therapy for RA report significant improvements in their condition. They experience reduced pain, increased mobility, and an overall better quality of life. This procedure offers a promising alternative to traditional treatments, providing long-term relief and potentially slowing the progression of the disease.
In summary, cord blood stem cells offer multiple benefits for the treatment of Rheumatoid arthritis, including immune modulation, tissue regeneration, and anti-inflammatory effects. These advantages make them a valuable option for patients seeking relief from this debilitating condition.
We primarily use umbilical cord blood and cord tissue-derived stem cells, which are highly effective and do not require a blood match for transplantation. These cells are thoroughly screened to ensure their safety and efficacy.
The stem cell procedure itself is minimally invasive and performed in a hospital setting (address below). It is typically a short procedure, and while some slight discomfort may be experienced, it is generally not painful.
All cord blood stem cells are derived from healthy donors.
Further Information regarding the stem cells used:
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
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.
