Myelodysplastic Syndrome (MDS) Clinical Trial
Official title:
Serial Analysis of Chimerism in Patients With Refractory Cytopenia (RC) Transplanted With Reduced Intensity Conditioning (RIC) EWOG MDS SCT RC RIC-06
This is a prospective, non-randomized multi-center multi-national study to evaluate the
chimerism measured by STR and SNP in patients with hypoplastic RC and normal karyotype
transplanted with a preparative regimen of reduced intensity.
Primary objectives:
- To study hematopoietic chimerism in whole blood and different cell population (CD14,
CD15, CD 56, CD3, CD19) as well as in dendritic cells and regulatory T-cells after SCT
with RIC in patients with RC
- To compare the results of chimerism obtained with standard STR PCR (sensitivity 1%)
with those obtained with SNP PCR (sensitivity 0.1- 0.01%)
Secondary objectives:
- To evaluate the relationship between mixed chimerism and hematological engraftment, OS
and EFS
- To study the impact of mixed chimerism in plasmacytoid dendritic and regulatory T-cells
on the incidence of acute and chronic GVHD
Research Question 3.1.1 Chimerism and post transplant outcome During the past 3 decades, SCT
has become a well established treatment procedure for many malignant and hematopoietic
disorders in children and adults.1-8 After transplantation, it has been of central interest
whether the newly developed hematopoietic system is of recipient or donor origin. The
investigations of the genotypic origin of post transplant hematopoiesis are called chimerism
analysis. Originally, it was believed that complete donor hematopoiesis is essential to
maintain engraftment after allogeneic SCT in humans.9 In the last decades, however, it
became evident that donor and recipient hematopoiesis could coexist after allo-SCT in the
recipient. This state of coexistence of hematopoietic cells is called mixed chimerism which
might end in an "autologous recovery". In patients with refractory cytopenia SCT after
myeloablative conditioning regimen allowed prompt and sustained engraftment in virtually all
patients. In this disease relapse has become a very rare event. Consequently, transplant
related mortality and long term squeals have become major obstacles yet to be overcome to
improve the children's well being and the prognosis of the disease. In SCT with RIC, the
reduction of early and late toxicity may be counterbalanced by delayed engraftment, graft
rejection, mixed chimerism and GVHD.
Graft rejection It is well known that less myeloablative conditioning regimens predispose
for a higher rate of mixed chimerism. Consequently, graft rejection or non engraftment is a
major cause of treatment failure.
Sensitization to minor histocompatibility antigens by prior transfusions of blood products
can increase this risk. The rapid development of complete chimerism in NK-cells and T-cells
seems to play an important role to achieve sustained engraftment specifically in patients
transplanted with a dose reduced preparative regimen. Therefore, it is important to
elucidate the development of post transplant chimerism in different cell subpopulations.
This will allow following and documenting proper engraftment, and will detect early hints of
ongoing graft rejection.
Graft versus host disease The occurrence of GVHD is influenced by many well known factors.
Although the use of nonmyeloablative SCT can reduce the severity of GVHD, GVHD remains a
major complication. In our pilot study using the reduced intensity preparative regimen in
RC, the probability for developing GVHD grade IIIV was 0.48. It is accepted that in
comparison to myeloablative SCT, in reduced intensity preparative regimens higher
proportions of host immune hematopoietic cells may persist. While donor-derived alloreactive
lymphocytes are being infused, these autologous cells might possibly serve as host antigen
presentation for continuous stimulation of donor T-cells. Consequently, it was speculated by
the group Shapira and Slavin10 that GVHD may be similarly amplified by reduced conditioning
followed by intentional administration of host cells. This hypothesis was tested in a
preclinical animal model. Increased incidence of GVHD, higher mortality and increased levels
of chimerism were observed in recipients reconstituted with additional host cells,
particularly with non-irradiated spleen cells. Graft-versus-Leukaemia (GVL) effect was not
impaired by post transplant cell administration. These results suggested that GVHD may be
amplified by recipient cell infusion using either irradiated or viable stimulatory host
cells. This could possibly explain the higher than anticipated incidence of GVHD and
consequently the rapid displacement of host cells with conversion to 100% donor type cells
in reduced intensity SCT. The present study will therefore investigate whether autologous
antigen presenting cells (Auto-APC) do survive the conditioning regimen and favour to
occurrence of GVHD.
;
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