Living Organ Donation by Minors: An Analysis of the Regulations in European Union Member States.

Living organ donation (LD) is an increasingly established practice. Whereas in the United States and Canada LD by minors has occasionally been reported, LD by minors seems to be largely absent in the European Union (EU). It is currently unclear whether this is the result of a different legal approach. This study is the first to systematically analyze the regulations of EU member states, Norway, and Iceland toward LD by minors. Relevant regulations were identified by searching government websites, translated, compared, and sent for verification to national legal experts. We identified five countries where LD by minors is allowed. In two of these (Belgium and the United Kingdom), some minors may be deemed sufficiently mature to make an autonomous decision regarding LD. In contrast, in the three other countries (Luxembourg, Norway, and Sweden), LD by minors is only allowed subject to parental permission and the assent (or absence of objection) of the donor. Where allowed, regulations differ significantly with regard to the substantive and procedural safeguards in place. In view of the controversial nature of the procedure, as illustrated by recent reports and surveys, we argue for a very cautious approach and greater harmonization in countries where LD by minors is allowed.

Homeobox gene expression profile in human hematopoietic multipotent stem cells and T-cell progenitors: implications for human T-cell development.

Class I homeobox (HOX) genes comprise a large family of transcription factors that have been implicated in normal and malignant hematopoiesis. However, data on their expression or function during T-cell development is limited. Using degenerated RT-PCR and Affymetrix microarray analysis, we analyzed the expression pattern of this gene family in human multipotent stem cells from fetal liver (FL) and adult bone marrow (ABM), and in T-cell progenitors from child thymus. We show that FL and ABM stem cells are similar in terms of HOX gene expression, but significant differences were observed between these two cell types and child thymocytes. As the most immature thymocytes are derived from immigrated FL and ABM stem cells, this indicates a drastic change in HOX gene expression upon entry into the thymus. Further analysis of HOX-A7, HOX-A9, HOX-A10, and HOX-A11 expression with specific RT-PCR in all thymocyte differentiation stages showed a sequential loss of 3' region HOX-A cluster genes during intrathymic T-cell development and an unexpected expression of HOX-A11, previously not recognized to play a role in hematopoiesis. Also HOX-B3 and HOX-C4 were expressed throughout thymocyte development. Overall, these data provide novel evidence for an important role of certain HOX genes in human T-cell development.