Breakthrough in the scientific world: Lab-grown red blood cells used in transfusions
Maybe why they plan on killing off more of us?
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10180808/#:
Asian J Transfus Sci. 2023 Jan-Jun; 17(1): 143–144.
Published online 2023 Mar 1. doi: 10.4103/ajts.ajts_148_22
PMCID: PMC10180808
PMID: 37188019
Breakthrough in the scientific world: Lab-grown red blood cells used in transfusions
Sampreeti Sri Sai Kale, Rohith Kode, Sai Kiran Kuchana, and L. V. Simhachalam Kutikuppala1
Sir,
In a fast-paced world like ours, it is inevitable to expect the advancement of laboratory skills and their involvement in clinical research. One such event which has caught the attention of several clinicians is the RESTORE trial. In this trial, red blood cells that have been grown in a laboratory have been transfused into another person requiring that blood. This technique is a pioneer in transferring lab-grown cells to another person as a part of a blood transfusion.[1]
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About the Trial
The “RESTORE (Recovery and Survival of Stem Cell Originated Red Cells) trial” is an initiative by the “NHS Blood and Transplant, University of Bristol, National Institute for Health and Care Research Cambridge Clinical Facility,” in association with several other universities.[2] In this trial, the longevity of cells generated in the laboratory is compared to red blood cell injections from the same donor.[3]
The produced blood cells were developed from donor-derived stem cells. Then, these cells were transferred to the volunteers as a part of this randomized control trial. The trial will test how long a mini blood transfusion, up to 2 teaspoons or 10 ml of lab-grown red cells will last in the body compared to the same number of standard cells from the same donor.[3]
Adult stem cells from the donor are used to create lab-grown blood; they are cultured for 18–21 days in a nutritional solution. This promotes cell growth and maturation. Red blood cells need 1–2 teaspoons of nutritional solution, which is 24 L. Six months after the first injection of the cells, volunteers’ blood samples can be collected and tested for the presence of these tracer-labeled cells.[4] To support their research, the participants underwent two mini transfusions separated by at least 4 months.[2] The ultimate objective of the study is to produce essential but difficult-to-find blood types.
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Advantages of the Trial
This approach is advantageous as it can address the shortage of donors for those with rare blood types. If these patients suffer from blood disorders such as thalassemia and sickle cell disease, they require regular blood transfusions and can receive these fresh, lab-grown cells to meet their needs.[1] Another advantage to be noted is that lab-grown blood cells are expected to last longer and perform better. Overall, this will reduce the frequency of transfusions and avoid iron overload, which occurs when there is excessive iron accumulation in the body due to repeated transfusions.[2]
This research offers hope to those patients who have been facing difficulty in transfusions due to the development of antibodies against donor blood cells. Individuals from minority communities should be taken as volunteers in the future.
It is true that the majority of the blood will be obtained from normal blood donations, but this trial has the potential to benefit hard-to-transfuse patients significantly. Although further trials are needed before clinical use, this research marks a significant step as a breakthrough when it comes to scientific innovation and collaboration while delivering high-quality care to those who need it the most.[1]
Financial support and sponsorship
Nil.
Conflicts of interest
There are no conflicts of interest.
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https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10180808/#:
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Dear RM Agents and Readers,
Just needed the correct search terms to find it; been looking for years and Hot Dog;)
Many Blessings,
CrystalRiver
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