Douglas M. Tollefsen scite author profile

The investigation of many hemostatic defects in the newborn is limited by the lack of normal reference values. This study was designed to determine the postnatal development of the human coagulation system in the healthy full-term infant. Consecutive mothers of healthy full-term infants born at St JosePh′s Hospital in the city of Hamilton were approached for consent. One hundred eighteen full-term infants (37 to 42 week's gestational age) were entered into the study. Demographic information and a 2-mL blood sample were obtained in the postnatal period on days 1, 5, 30, 90, and 180. Between 40 and 79 full-term infants were studied on each day for each of the coagulation tests. Plasma was fractionated and stored at -70 degrees C for batch assaying of the following tests: prothrombin time, activated partial thromboplastin time, thrombin clotting time, and factor assays (biologic): fibrinogen, II, V, VII, VIII, IX, X, XI, XII, and high- molecular weight kininogen. Factor XIII subunits A and S, von Willebrand factor, and the inhibitors antithrombin III, alpha 2- antiplasmin, alpha 2-macroglobulin, alpha 1-antitrypsin, C1 esterase inhibitor, protein C, and protein S were measured immunologically. Plasminogen, prekallikrein, and heparin cofactor II were measured by using chromogenic substrates. The large number of infants studied at each time point allowed us to determine the following: the range of normal for each test at five time points in the postnatal period; that coagulation tests vary with the postnatal age of the infant; that different coagulation factors show different postnatal patterns of maturation; and that near-adult values are achieved for most components by 6 months of life. In summary, this large cohort of infants studied consecutively in the postnatal period allowed us to determine the normal development of the human coagulation system in the full-term infant.

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Detection of a new heparin-dependent inhibitor of thrombin in human plasma.

Tollefsen¹,

Blank²

1981

J. Clin. Invest.

255

192

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A B S T R A C T We have demonstrated that human plasma contains a heparin-dependent inhibitor of thrombin that is distinguishable from antithrombin III (AT III). When a 1:50 dilution of plasma was incubated with .0.01 U/ml heparin and 1 U/ml 1251-thrombin, the labeled thrombin B-chains became incorporated into two complexes ofMr-96,000 and M,-85,000 that were separated by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate and f3-mercaptoethanol. Neither complex was detectable at heparin concentrations <0.01 U/ml. When a limiting amount of 1251-thrombin was present, the proportion of radioactivity incorporated into each of the two complexes varied with the heparin concentration. Thus, the Mr-85,000 complex predominated at 0.01-5 U/ml heparin, whereas the Mr96,000 complex predominated at 5-100 U/ml heparin. The Mr, 85,000 complex reacted with antibodies to human AT III and comigrated with the purified thrombin-AT III complex. The Mr-96,000 complex did not react with antibodies to AT III or to al-antitrypsin, and it was detected in normal quantities after incubating 1251-thrombin with plasma immunodepleted of AT III, a2-antiplasmin, a2-macroglobulin, Cl inactivator, al-antichymotrypsin, or inter-a-trypsin inhibitor. The protein that combines with thrombin to form the M,-96,000 complex was estimated to be present at a minimum concentration of 90+26 ,ug/ml (mean±SD) in normal plasma. We conclude that the protein is not identical to any of the known plasma protease inhibitors and that at relatively high heparin concentrations in vitro it reacts with thrombin more rapidly than does AT III.

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Heparin Cofactor II Activation by Dermatan Sulfatea

Tollefsen

Maimone

McGuire

et al. 1989

Annals of the New York Academy of Sciences

133

159

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Structure and Anticoagulant Activity of a Fucosylated Chondroitin Sulfate from Echinoderm

Mourāo¹,

Pereira²,

Pavão³

et al. 1996

Journal of Biological Chemistry

286

131

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A polysaccharide isolated from the body wall of the sea cucumber Ludwigothurea grisea has a backbone like that of mammalian chondroitin sulfate: [4-beta-D-GlcA-1-->3-beta-D-GalNAc-1]n but substituted at the 3-position of the beta--glucuronic acid residues with sulfated alpha--fucopyranosyl branches (Vieira, R. P., Mulloy, B., and Mourão, P. A. S. (1991) J. Biol. Chem. 266, 13530-13536). Mild acid hydrolysis removes the sulfated alpha--fucose branches, and cleaved residues have been characterized by 1H NMR spectroscopy; the most abundant species is fucose 4-O-monosulfate, but 2,4- and 3, 4-di-O-sulfated residues are also present. Degradation of the remaining polysaccharide with chondroitin ABC lyase shows that the sulfated alpha-L-fucose residues released by mild acid hydrolysis are concentrated toward the non-reducing end of the polysaccharide chains; enzyme-resistant polysaccharide material includes the reducing terminal and carries acid-resistant -fucose substitution. The sulfated alpha-L-fucose branches confer anticoagulant activity on the polysaccharide. The specific activity of fucosylated chondroitin sulfate in the activated partial thromboplastin time assay is greater than that of a linear homopolymeric alpha-L-fucan with about the same level of sulfation; this activity is lost on defucosylation or desulfation but not on carboxyl-reduction of the polymer. Assays with purified reagents show that the fucosylated chondroitin sulfate can potentiate the thrombin inhibition activity of both antithrombin and heparin cofactor II.

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Thrombin‐inhibiting perfluorocarbon nanoparticles provide a novel strategy for the treatment and magnetic resonance imaging of acute thrombosis

Myerson

Lanza

et al. 2011

Journal of Thrombosis and Haemostasis

102

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Background As a regulator of the penultimate step in the coagulation cascade, thrombin represents a principal target of direct and specific anticoagulants. Objective A potent thrombin inhibitor complexed with a colloidal nanoparticle was devised as a first-in-class anticoagulant with prolonged and highly localized therapeutic impact conferred by its multivalent thrombin-absorbing particle surface. Methods PPACK (Phe(D)-Pro-Arg-Chloromethylketone) was secured covalently to the surface of perfluorocarbon-core nanoparticle structures. PPACK and PPACK nanoparticle inhibition of thrombin were assessed in vitro via thrombin activity against a chromogenic substrate. In vivo antithrombotic activity of PPACK, heparin, non-functionalized nanoparticles, and PPACK nanoparticles was assessed through IV administration prior to acute photochemical injury of the common carotid artery. Perfluorocarbon particle retention in extracted carotid arteries from injured mice was assessed via 19F magnetic resonance spectroscopy (MRS) and imaging (MRI) at 11.7 T. APTT measurements determined the systemic effects of the PPACK nanoparticles at various times after injection. Results Optical assay verified that PPACK nanoparticles exceeded PPACK’s intrinsic activity against thrombin. Application of the an in vivo acute arterial thrombosis model demonstrated that PPACK nanoparticles outperformed both heparin (p=.001) and uncomplexed PPACK (p=.0006) in inhibiting thrombosis. 19F MRS confirmed that PPACK nanoparticles specifically bound to sites of acute thrombotic injury. APTT normalized within twenty minutes of PPACK nanoparticles injection. Conclusions PPACK nanoparticles present thrombin-inhibiting surfaces at sites of acutely forming thrombi that continue to manifest local clot inhibition even as systemic effects rapidly diminish and thus represent a new platform for localized control of acute thrombosis.

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