The syndrome of hereditary thrombocytopenia, deafness, and renal disease was manifest in at least eight members in three generations of a family. They had a lifelong history of bleeding, usually as epistaxis, bilateral sensorineural deafness starting in late childhood or the teenage years, and persistent proteinuria with varying degrees of renal dysfunction. Two members died at a young age, one from central nervous system hemorrhage, the other from chronic renal failure. Splenectomy and steroid therapy have been of transient benefit. There was dominant inheritance of the syndrome. Hematologic studies showed thrombocytopenia, large platelets, and megakaryocytic hyperplasia of the bone marrow. In contrast to a previous report, our studies showed that affected members had normal in-vitro platelet function and normal ultrastructural platelet morphology. At autopsy, histologic changes in the kidney of one affected family member were indistinguishable from those reported in classic hereditary nephritis with nerve deafness (Alport's syndrome).
Two teenage brothers with recurrent thromboembolic disease were found to have antithrombin III deficiency. A family study spanning four generations revealed a total of 10 members with antithrombin III deficiency. Five of the 10 affected family members have had thrombotic problems. Antithrombin III deficiency was documented by coagulation assays measuring heparin cofactor, anti-Factor Xa, and progressive antithrombin activity; the level of antithrombin III antigenic material measured by immunoelectrophoresis was low in subjects with abnormal coagulation assays. The clinical features which may lead one to suspect the hereditary hypercoagulable condition of antithrombin III deficiency are reviewed.
The effect of platelet concentrate storage temperature (4 degrees C versus 22 degrees C) on platelet adenine nucleotide metabolism was studied. In general, levels of platelet ATP and ADP, the release reaction, and the metabolis nucleotide pool were best preserved for 72 hr by storage of concentrates at 4 degrees C. Storage of concentrates for 72 hr at 22 degrees C was occasionally associated with a pH decrease to less than 6.0, which is incompatible with platelet viability. When the pH fell below 6.0, there was a marked deterioration of platelet adenine nucleotide levels and the release reaction. The results for concentrates stored at 22 degrees C, with a final pH above 6.0, were not inferior to the results for those stored at 4 degrees C. The pH remained above 7.0 in all concentrates stored at 4 degrees C. The pH changes of platelet concentrates stored at 22 degrees C could not solely be attributed to platelet count, red cell count, or bacterial contamination. Storage at both temperatures was associated with conversion of ATP in the metabolic adenine nucleotide pool to hypoxanthine.
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