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Reference: De Wert G, Liebaers I, Van de Velde H. The
Future (R) evolution of Preimplantation Genetic Diagnosis/Human Leukocyte
Antigen Testing: Ethical Reflections. Stem Cells 2007;
25:2167-2172.
Summarized by: Aysha Mirza and Rasha R. Nayal
Preimplantation genetic diagnosis (PGD) with HLA (human leukocyte antigen)
testing has increasingly become a topic for study as it may prove useful in
identifying potentially life-saving properties of umbilical cord blood cells.
The ethical issues in conjunction with this type of testing abound, as parents
have more reason to conceive another child in order to treat diseased offspring.
The method by which parents choose to attain the ends of treating an ill child
can vary with regards to PGD/HLA testing, as will be illustrated further in this
review.
Parents have currently used PGD/HLA testing type 1 in order to verify, in
utero, whether or not a child is a compatible match for a sibling's stem cell
therapy. The PGD/HLA testing in type 1 allows for parents to make a decision to
abort a non-compatible donor fetus.
PGD/HLA type 1 testing is done to find a compatible embryo for
transplantation with the possible loss of healthy embryos similar to IVF (in
vitro fertilization). This can also bring objections against the destruction of
healthy embryos.
HLA testing causes a decrease in morbidity-related hematopoietic stem
cell (HSC) transplantation. The notion of someone conceiving a child for the
purpose of treating another child raises ethical concerns. The major issue is on
behalf of the child (who is assumed to be healthy), the mother, and the diseased
sibling. Does the child, as an embryo, have any ability to make a choice of
whether or not to be a donor? Does the child even want to help his or her
sibling? If he or she is able to help his or her sibling, will the child be
loved for him or herself, or viewed solely as an HSC transplantation source? Can
the family afford another child?
The acquirement of UCB (umbilical cord blood) from a child is
noninvasive. However, clinical studies suggest that the timing at which the
umbilical cord is clamped may have an impact on both the child and the efficacy
of treatment for the diseased sibling. If clamped later, there may be additional
protection for a child, such as complications associated with hemorrhage and
sepsis. Regardless of the time of clamping, the quantity of HSCs may not be
sufficient to treat the diseased sibling. If this is the case, a BM (bone
marrow) transplant can be done to obtain HSCs. Some ethicists do state that
there should be an emotional bond between the recipient and donor in order for
there to be a psychological benefit to the donor. This brings up yet another
ethical boundary: could the donor child place all blame on him or herself if his
or her sibling still does not survive after the transplant?
Another potentially murky aspect of PGD/HLA type 1 testing is that even
if the mother becomes pregnant immediately and the fetus is found to be a match,
the sick child may not survive in time for treatment. Labor may be induced early
in order to help the sibling quicker although it may seriously harm the fetus.
PGD/HLA testing type 1 is discouraged if the child suffers from a
non-hereditary condition, if a parent is in need of HSC (parental objective
reasoning is compromised) and if HLA type matching could substantially increase
the health risks of the child.
PGD/HLA testing type 2 is the process of taking matched embryos for the
potential ESC (embryonic stem cell) therapy for a diseased sibling. Parents who
feel that their family is complete and/or may not be able to afford another
child are in a better ethical position with which to pursue PGD/HLA testing type
2. As mentioned above, a diseased sibling may die before the 9 months necessary
to bring a child to term in PGD/HLA testing type 1. PGD/HLA testing type 2 may
prove to be a better alternative.
The use of embryos as a means to an end is prohibited in many countries.
However, the usage of IVF or IVF/PGD extra embryos is accepted. The difference
between these two situations lies within the intentions during fertilization. In
the case of IVF, although each embryo is created as a goal in itself, it is
foreseen that some embryos will go to waste (In PGD/HLA testing type 1, the
amount of abandoned embryos is at best 25% less compared to IVF and testing type
2). The fate of the discarded embryos is up to the parents. A possible solution
to avoiding creating embryos for instrumental use is the creation of a cell bank
with the aforementioned discarded embryos; however, not all patients can
presently anticipate finding an exact match.
The child-related ethical concerns are close to negligible with PGD/HLA
testing type 2, as a child would not be subjected to potential harm with stem
cell collection methods as a donor. Future implications of health complications
due to HLA types would no longer be an issue as the child would not be coming to
term. PGD/HLA testing Type 2 also avoids the possibility of psychological
effects on the donor: there would no longer be a concern as to whether or not
the child was loved the same as other children and treated in the same manner,
or if the child were to take responsibility for the health or passing of his
sibling.
Although the fetalist viewpoint is normally focused on in ethical
debates, the feminist perspective should not be overlooked. The female oocyte
donor has medical concerns regarding the hormonal therapy for increased
ovulation; however, PGD/HLA testing type 2 can be an appealing alternative for
women who opt not to have another pregnancy or child.
The authors suggest that further research with respect to the safety and
viability of PGD/HLA testing type 2 is called for, as well as determining
procedures with which to expand cells ex vivo before transplantation. With
regards to this review, PGD/HLA testing type 2 is seen to be a suitable
alternative to PGD/HLA testing type 1 for families that believe their families
to be complete or are unable to afford the costs of an addition to their family.
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