From OMIMHemophilia B (HEMB), which results from factor IX deficiency, is phenotypically indistinguishable from hemophilia A (306700), which results from coagulation factor VIII (F8; 300841) deficiency. The classic laboratory findings in hemophilia B include a prolonged activated partial thromboplastin time (aPTT) and a normal prothrombin time (PT) (Lefkowitz et al., 1993).
Early studies made a distinction between cross-reactive-material (CRM)-negative and CRM-positive hemophilia B mutants. This classification referred to detection of the F9 antigen in plasma, even in the presence of decreased F9 activity. Detection of the antigen indicated the presence of a dysfunctional F9 protein. Roberts et al. (1968) found that about 90% of patients with hemophilia B were CRM-negative, whereas about 10% were CRM-positive. However, Bertina and Veltkamp (1978) found that a rather large proportion of the hemophilia B patients could be characterized as hemophilia B CRM+. They identified 14 cases of hemophilia B CRM+ from 11 families among a group of 33 patients. After immunologic and activity comparisons, they found at least 7 different factor IX variants. Bertina and Veltkamp (1978) noted the high heterogeneity within this group. In an editorial on variants of vitamin K-dependent coagulation factors, Bertina et al. (1979) stated that 9 defective variants of factor II, 5 variants of factor X, and many variants (about 180 pedigrees) of factor IX had been identified. At least one variant of factor VII (Padua) was also known.
http://www.omim.org/entry/306900 From MedlinePlus GeneticsHemophilia is a bleeding disorder that slows the blood clotting process. People with this condition experience prolonged bleeding or oozing following an injury, surgery, or having a tooth pulled. In severe cases of hemophilia, continuous bleeding occurs after minor trauma or even when there is no obvious injury (sometimes called spontaneous bleeding). Serious complications can result from bleeding into the joints, muscles, brain, or other internal organs. Milder forms of hemophilia do not necessarily involve spontaneous bleeding, and the condition may not become apparent until abnormal bleeding occurs following surgery or a serious injury.
The major types of this condition are hemophilia A (also known as classic hemophilia or factor VIII deficiency) and hemophilia B (also known as Christmas disease or factor IX deficiency). Although the two types have very similar signs and symptoms, they are caused by variants (also known as mutations) in different genes. People with an unusual form of hemophilia B, known as hemophilia B Leyden, experience episodes of excessive bleeding in childhood but have few bleeding problems after puberty.
https://medlineplus.gov/genetics/condition/hemophilia