Tissue factor pathway inhibitor (TFPI) is a multivalent Kunitz-type proteinase inhibitor that directly inhibits factor Xa and, in a factor Xa–dependent fashion, produces feedback inhibition of the factor VIIa/TF catalytic complex responsible for the initiation of coagulation. To further define the physiologic role of TFPI, gene-targeting techniques were used to disrupt exon 4 of the TFPI gene in mice. This exon encodes Kunitz domain-1 of TFPI, which is required for factor VIIa/TF inhibition. In mice heterozygous for TFPI gene-disruption, TFPIK1(+/−), an altered form of TFPI lacking Kunitz domain-1, circulates in plasma at a concentration ∼40% that of wild-type TFPI. TFPIK1(+/−) animals have plasma TFPI activity ∼50% that of wild-type mice, based on a functional assay that measures factor VIIa/TF inhibition, and have a normal phenotype. Sixty percent of TFPIK1(−/−) mice die between embryonic days E9.5 and E11.5 with signs of yolk sac hemorrhage. The extent of structural abnormalities within the yolk sac vascular system appears to mirror the condition of the embryo, suggesting that the embryonic and extra-embryonic tissues are both responding to same insult, presumably circulatory insufficiency. Organogenesis is normal in TFPIK1 null animals that progress beyond E11.5, but hemorrhage, particularly in the central nervous system and tail, is evident during later gestation and none of the TFPIK1(−/−) mice survive to the neonatal period. The presence of immunoreactive fibrin(ogen) in the liver and intravascular thrombi is consistent with the notion that unregulated factor VIIa/TF action and a consequent consumptive coagulopathy underlies the bleeding diathesis in these older embryos. Human TFPI-deficient embryos may suffer a similar fate because an individual with TFPI deficiency has not been identified.
Tissue factor pathway inhibitor (TFPI) is a primary regulator of the initiation of blood coagulation. TFPI is internalized and degraded by HepG2 cells through the low-density-lipoprotein receptor-related protein (LRP) but also binds another molecule present on the cell surface at approx. 10-fold the abundance of LRP [Warshawsky, Broze and Schwartz (1994) Proc. Natl. Acad. Sci. U.S.A. 91, 6664-6668]. When HepG2 cells are washed with heparin or dextran sulphate, a substance that binds TFPI is removed from the cell surface and can be detected in a slot-blot assay. Preincubation with trypsin destroys the reactivity of the TFPI-binding component in the slot-blot assay, suggesting that it is a protein. In addition, when the sulphation of glycosaminoglycans (GAGs) is prevented by growing the HepG2 cells in the presence of 30 mM sodium chlorate, TFPI binding is unaffected, whereas the binding of bovine lipoprotein lipase, a protein known to associate with cell-surface GAGs, falls to 50% of control levels. Dextran sulphate washes of HepG2 cells grown in sodium chlorate have an equal reactivity in slot-blot experiments to that of non-treated cells, suggesting that GAGs are not totally responsible for the binding activity observed. By using the slot blot to follow binding activity and conventional protein purification techniques, a protein species that migrates at 40 kDa after reduction was identified in the HepG2 cell wash. The binding of this protein to TFPI was confirmed with immobilized TFPI. Amino acid sequence analysis identified this protein species as a proteolytic fragment of glypican-3 (also called OCI-5), a member of the glypican family of glycosylphosphatidylinositol-anchored proteoglycans.
BackgroundThe supercapsular percutaneously-assisted total hip arthroplasty (SuperPath) was proposed to be minimally invasive and tissue sparing with possible superior postoperative outcomes to traditional approaches of total hip arthroplasty (THA). Here, we compared the short-term outcomes of staged THA with the SuperPath or through posterolateral approach (PLA) for bilateral osteonecrosis of the femoral head (ONFH).MethodsPatients with bilateral late-stage ONFH were prospectively recruited from our department from March 2017 to March 2018. Staged bilateral THAs with one side SuperPath and the other side PLA were performed consecutively in the same patients with right and left hips alternating within approaches. The average time interval between the staged THAs was 3 months. Perioperative status (operation time, incision length, intraoperative blood loss, soft tissue damage, and length of hospital stay) and postoperative function (range of motion, pain, and hip function) were recorded and compared between the SuperPath and PLA approaches within 12-month postoperatively.ResultsFour male patients (age, 51.00 ± 4.54; BMI, 21.49 ± 1.73) with bilateral alcohol-induced ONFH (Ficat III/IV) were followed up over 12 months postoperatively. Compared with the PLA, the SuperPath yielded shorter incision length (7.62 vs. 11.12 cm), longer operation time (103.25 vs. 66.50 min), more blood loss (1108.50 vs. 843.50 ml), deficient abduction angle of the acetabular cup (38.75° vs. 44.50°), and inferior early-term hip function (Harris hip score, 72.50 vs. 83.25) at 12-month postoperatively. Soft tissue damage, length of hospital stay, postoperative pain, postoperative range of motion, and 12-month patient satisfaction were comparable between both approaches.ConclusionThe SuperPath may be a minimally invasive technique but the present study shows less favorable short-term outcomes than PLA for total hip arthroplasty in osteonecrosis of the femoral head. More investigations are required to provide convincing favorable evidences of the SuperPath over other traditional THA approaches.Trial registration informationThe trial was retrospectively registered in https://www.researchregistry.com (No. Researchregistry4993) on July 04, 2019. The first participant was enrolled on March 13, 2017.
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