The professionalisation of midwifery through education or politics?

The midwifery profession is redefining itself, with a national initiative to separate from nursing using several strategies at political, legal, educational and professional levels. These include lobbying for a Midwives' Act, a national approach to co-ordinate the education of student midwives, the introduction by the ACMI of competency based practice, the initiation of various models of practice and a three-year Bachelor of Midwifery. This paper argues that the educational strategy employed by midwifery is similar to that used by nursing. This strategy was overtaken by political and economic reforms within the health care sector. We argue that achieving professional dominance is not achieved simply through education but is fundamentally a political process.

Characterization of recombinant human coagulation factor XFriuli.

Naturally occurring plasma factor XFriuli (pFXFr) is marginally activated by both the extrinsic and intrinsic coagulation pathways and has impaired catalytic potential. These studies were initiated to obtain confirmation that this molecule is multi-functionally defective due to the substitution of Ser for Pro at position 343 in the catalytic domain. By the Nelson-Long site-directed mutagenesis procedure a construct of cDNA in pRc/CMV was derived for recombinant factor XFriuli (rFXFr) produced in human embryonic (293) kidney cells. The rFXFr was purified and shown to have a molecular size identical to that of normal plasma factor X (pFX) by gel electrophoretic, and amino-terminal sequencing revealed normal processing cleavages. Using recombinant normal plasma factor X (rFXN) as a reference, the post-translational gamma-carboxy-glutamic acid (Gla) and beta-hydroxy aspartic acid (beta-OH-Asp) content of rFXFr was over 85% and close to 100%, respectively, of expected levels. The specific activities of rFXFr in activation and catalytic assays were the same as those of pFXFr. Molecular modeling suggested the involvement of a new H-bond between the side-chains of Ser-343 and Thr-318 as they occur in anti-parallel beta-pleated sheets near the substrate-binding pocket of pFXFr. These results support the conclusion that the observed mutation in pFXFr is responsible for its dysfunctional activation and catalytic potentials, and that it accounts for the moderate bleeding tendency in the homozygous individuals who possess this variant procoagulant.