Clot retraction, measured by serum expression, is absent in some cases of multiple myeloma. Decreased clot retraction has been attributed to platelet dysfunction. A new instrument allows simultaneous measurement of platelet-mediated force development during clot retraction and of clot elastic modulus. We report 10 patients with immunoglobulin (Ig) G myeloma in whom the abnormalities of fibrin structure were quantitatively defined and platelet-fibrin interactions were assessed. Fiber mass-to-length ratios were calculated from gel turbidity. Platelet force development and clot elastic modula were measured in platelet-rich plasma gels. Fiber mass-to-length ratios for IgG myeloma patients were smaller (means +/- SE) (0.98 +/- 0.19 x 10(13) Da/cm) than for normal controls (1.36 +/- 0.06 x 10(13) Da/cm), indicating thinner fiber formation. Elastic modula of myeloma clots (51,013 +/- 14,660 dyn/cm2) were strikingly larger than modula for normal controls (23,355 +/- 1,887 dyn/cm2), indicating that such clots are mechanically less flexible. Platelet force development 1,200 s after thrombin addition was not diminished in myeloma patients (8,315 +/- 1,155 dyn) vs. controls (6,906 +/- 606 dyn). Abnormal clot retraction in myeloma appears to be primarily due to altered clot structure rather than platelet dysfunction.
Protein S circulates either free or bound to C4b-binding protein (C4b-BP). Only free protein S possesses cofactor activity for protein C, a physiologic anticoagulant. Deficiencies of either protein C or protein S are associated with increased thrombotic risk. Over a 23-month period, 40 patients with low free protein S were identified. Eight of these patients were found to have suffered a stroke. This study examined the relationship between total S, free S, and C4b-BP in 15 healthy adult volunteers, in 20 patients with normal protein S levels, in 40 patients with decreased free protein S levels, and in 8 patients with combined low free S levels and stroke. Total and free protein S and C4b-BP levels were determined using the method of Laurell. In healthy adults, free protein S increased with increasing total protein S (r = 0.60). In patients with normal free S, the total S level increased as C4b-BP increased (r = 0.74), and the free S level remained constant. In patients with low free S, total S did not increase with increasing C4b-BP. In stroke patients, the correlation between free S and total S was actually negative (r = -0.449). Evaluation of dissociation constants for the protein S-C4b-BP complex revealed enhanced binding in patients with low levels of free protein S. A non-C4b-BP protein S binding protein, a previously undescribed regulatory factor which modulates S binding to C4b-BP, or shifts in the amount of non-protein S binding C4b-BP are possible explanations of these results.
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