Asherman Syndrome Clinical Trial
Official title:
Biomedical Study of Toxicity, Biodistribution, Expression and Cellular Characterization of Autologous CD133+ Stem Cells From Donors of Hematopoietic Progenitors (IGX1) in Murine Model With Asherman-induced Syndrome.
The endometrium is a tissue with high capacity of renewal ("self-renewal"). This process is
regulated by stem cells. Recent studies have shown that bone marrow-derived stem cells
(BMDSCs) contribute to tissues and organs regeneration, including the murine and human
endometrium. Additionally, BMDSCs have the ability to differentiate into functional
endometrial and stromal epithelial cells.
Asherman's Syndrome (AS) also referred to as intrauterine adhesions (AIU), is an acquired
uterine condition characterized by the formation of adhesions inside the uterus. In many
cases the front and back walls of the uterus stick to one another. Most patients with AS have
menstrual abnormalities, pelvic pain, recurrent miscarriage, and infertility, and
psychological disorders. Currently, hysteroscopy is considered the gold standard of methods
for the diagnosis of intrauterine adhesions. However, it has a limited capacity for
treatment, especially in moderate or severe cases in which permanent infertility can occur.
For the first time, our investigation group demonstrated the possibility of regenerating
endometrial tissue through bone marrow-derived stem cells (Santamaria et al., 2016).
This project aims to determine the safety, tolerability and biodistribution of IGX1 (CD133+
cells selected after mobilization and collection of peripheral blood progenitor cells - CPSP)
afte rthe intraarterial injection in rats with induced Asherman's Syndrome.
Therefore, the focus of this project is to satisfy the preclinical requirements set out by
the the AEMPS (Agencia Española de Medicamentos y Productos Sanitarios) in relation to the
Phase I/II clinical trial "Phase I-II clinical trial of advanced, prospective, open,
non-randomized, uncontrolled (before-after study), explanatory, multicentre cell therapy ,
national, intervention with a single treatment group in patients of reproductive age with
gestational desire diagnosed with Asherman's Syndrome grade II, III or IV, treated by
autologous non-expanded bone marrow stem/progenitor cells selected (IGX1)"
(IGX1-ENT-XS-16-01)
The endometrium is the tissue that lines the inside of the uterine cavity and whose function
is to enable implantation of the embryo at the right moment. When implantation of the embryo
does not occur, the endometrium is partially destroyed and menstruation takes place,
producing a new generation of tissue in the next menstrual cycle. It is therefore a high
dynamic tissue undergoing changes of growth, differentiation and shedding every 28 days
during 400-500 cycles during a woman's reproductive lifetime. This level of tissue
regeneration is comparable to other tissues with high cellular turnover, such as epidermis,
gut epithelium and bone marrow. This highly regenerative self-renewal capacity of the
endometrium seems to be regulated by stem cells. An increased number of studies about
endometrium-derived stem cells have been published in the last years. Furthermore, bone
marrow-derived stem cells (BMDSCs) have been shown to contribute to the repair and
regeneration of tissues and organs, including human and murine endometrium.
Asherman's Syndrome (AS) is characterized by intrauterine adhesions and is associated with
infertility due to loss of normal endometrium. Hysteroscopy is the gold standard of methods
for diagnosis of these intrauterine adhesions. However, it has certain potential
complications such as uterine perforation and the possibility of adhesion recurrence in
moderate and severe cases.
Therefore, stem cell therapy targeting the endometrium with the aim of replacing the damaged
tissue, offers a promising approach for treating AS and Endometrial atrophy (EA). In a pilot
trial, our research group demonstrated, for the first time, that CD133+ BMDSC autologous cell
therapy may be useful in treating patients with AS and EA and a wish to conceive. These cells
are capable of inducing proliferation of the neighbouring endometrial cells in the damaged
endometrium. Given these results, the European Medicines Agency (EMA) approved the
designation of orphan drug (ODD) to the investigational product IGX1 (treatment with
autologous CD133+ stem cells) for the experimental treatment of Asherman's Syndrome
(EMA/OD/313/16).
Based on these previous facts, a phase I/II clinical trial "ENTIRE" (code IGX1-ENT-XS-16-01
and European Union Drug Regulating Authorities Clinical Trials -EudraCT- number
2016-003975-23) was designed.
In order to study relevant effects of stem cell therapy in AS and respond to the
clarifications requested by the AEMPs (Agencia Española de Medicamentos y Productos
Sanitarios), the main objective of the present study is to evaluate the safety, tolerability,
as well as the biodistribution, expression and cellular characterization of IGX1 (CD133+
cells selected after mobilization and collection of peripheral blood progenitor cells - CPSP)
in a murine model with Asherman-induced Syndrome (preclinical study). In addition, other
possible endothelial and blood markers of this cellular subpopulation will be characterized
by flow cytometry, as well as the viability and potency of these cells.
;
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