Umbilical Cord Blood Clinical Trial
Official title:
Umbilical Cord Blood Treatment for Refractory Immune Cytopenia: a Single-arm Prospective Study
Immune-related hematocytopenia is a type of immunity Inflammatory cytopenia-mediated diseases, hormones and immunosuppressants are its first-line treatment. However, conventional immunosuppressants are ineffective or have a high recurrence rate. And some patients are not effective for these treatments, due to infection of blood cells, bleeding, decreased quality of life, and even severe death. There is currently no effective method for such patients. This study intends to recruit IRIC patients, give cord blood infusion, observe its efficacy and safety, and detect changes in inflammation-related indicators before and after treatment. There are no relevant reports at China and abroad. This study can provide new treatment options for patients with IRIC.
Immune-related hematocytopenia (IRC- autoimmune hemolytic anemia (AIHA), Evans syndrome,
acquired acquired pure red aplastic anemia (PRCA), autoimmune disease with cytopenia, etc.)
is a type of immunity Inflammatory cytopenia-mediated diseases, hormones and
immunosuppressants are its first-line treatment. However, conventional immunosuppressants are
ineffective or have a high recurrence rate, known as refractory immune-related cytopenia
(IRIC). Subsequent other second-line treatments such as other immunosuppressive agents, CD20
monoclonal antibodies, anti-human lymphocyte immunoglobulin (ATG ), And even splenectomy have
problems such as high side effects, high price, slow onset of effect, and low efficiency. And
some patients are not effective for these treatments, due to infection of blood cells,
bleeding, decreased quality of life, and even severe death. There is currently no effective
method for such patients.
Studies have shown that certain factors induce the loss of autoimmune tolerance in IRC
patients, and the autoantigens of bone marrow hematopoietic cells are presented by dendritic
cells, stimulating T cells, resulting in B cell activation and hyperfunction to produce
specific autoantibodies; among them, helper T cells ( Th) Abnormal activation of 17 and
follicular helper T cells (Tfh), the negative regulatory function of regulatory T cells and
regulatory B cells weakens, and also promotes the production of autoantibodies. However, the
bone marrow hematopoietic function caused by autoantibodies destroying or inhibiting
hematopoietic cells is low or ineffective. Studies have pointed out that hematopoietic
therapy is the key to curative treatment. At present, the safety and effectiveness of
umbilical cord blood in the treatment of malignant / non-malignant hematological diseases
have been confirmed and are widely used. In non-myeloablative therapy, the common adverse
reactions of umbilical cord blood transfusion are increased body temperature, hemoglobinuria
and DMSO side effects, and these adverse reactions can be adjusted by themselves and can be
eliminated within 48 hours. Umbilical cord blood is rich in hematopoietic stem / progenitor
cells, NK, regulatory T cells, and MSC can all have therapeutic effects on IRC to varying
degrees, and the immune cells in cord blood are mostly naive, immature immune cells,
Therefore, the incidence and severity of graft-versus-host disease (GVHD) after clinical
application of unrelated umbilical cord blood are low, avoiding a series of complications and
high costs caused by complex GVHD prevention and treatment technology. At the same time,
regulatory T cells (Treg) in umbilical cord blood account for about 10% of all lymphocytes.
They are a group of lymphocytes with negative regulatory immune responses. They usually play
an important role in maintaining self-tolerance and avoiding excessive immune responses to
damage the body. Function, its infusion can directly treat IRC. The number of NK cells in IRC
patients is reduced, the immune monitoring effect is weakened, the homeostasis of the immune
system cannot be maintained, and the immune cell function is hyperactive, leading to
morbidity. However, CD16 + CD56 + NK cells are abundant in cord blood, and the amount of CD3
+ T cells is the same as that in bone marrow. Most researchers believe that NK cells play an
important role in immune surveillance in the body's immune system. They can regulate
downstream immune cells by secreting cytokines or cytotoxicity, and thus play a protective
role in autoimmune diseases. In addition, mesenchymal stem cells (MSC) contained in cord
blood are another type of stem cells with high self-renewal and multi-directional
differentiation potential, which can differentiate into a variety of tissue cells other than
hematopoietic cells and have hematopoietic support , Immunomodulation, tissue repair and
other functions are conducive to the restoration of bone marrow function in patients with
hematopoietic disorders; at the same time, MSCs also have immunomodulatory, anti-inflammatory
and tissue repair functions, which can reduce graft-versus-host disease (GVHD) and other
transplant-related complications. Umbilical cord blood has the advantages of quick access,
convenient source, no harm to donors, low HLA matching requirements, low incidence of
graft-versus-host disease (GVHD) and low degree, making the clinical application of cord
blood more and more widely , Its clinical treatment advantages have become increasingly
prominent.
On May 1, 2009, the General Office of the Ministry of Health issued a notice on the first
batch of the third category of medical technology that allows clinical application,
clarifying that umbilical cord blood hematopoietic stem cell therapy technology is approved
for clinical application as a third category of medical technology. In addition, the
Technical Specification for Hematopoietic Stem Cell Transplantation clearly states that cord
blood hematopoietic stem cells for clinical application should be provided by the cord blood
hematopoietic stem cell bank approved by the National Health and Family Planning Commission.
On July 4, 2019, the National Health and Welfare Commission issued a document that clearly
stated that there are currently 7 cord blood hematopoietic stem cell banks that have passed
the national acceptance practice, namely Shandong Bank, Beijing Bank, Tianjin Bank, Shanghai
Bank, Zhejiang Bank, Guangdong Bank and Sichuan library.
This study intends to recruit IRIC patients, give cord blood infusion, observe its efficacy
and safety, and detect changes in inflammation-related indicators before and after treatment.
There are no relevant reports at China and abroad. This study can provide new treatment
options for patients with IRIC. If it proves effective, it may rewrite the treatment
guidelines for such diseases; in addition, this study may also provide a theoretical basis
for expanding the application of cord blood in the future.
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