Congenital FX deficiency combined with other clotting defects or with other abnormalities: a critical evaluation of the literature

Summary.  The presence of more than one congenital clotting defect in a given patient is a rare event but not an exceptional one. Combined defects of factor X (FX) are very rare because congenital isolated FX deficiency is by itself very rare. A perusal of personal files and of the literature has yielded 12 families with FX deficiency in which an association with another clotting factor deficiency was found. The associated defects were factor VII (FVII) or factor VIII (FVIII) or factor XII (FXII) deficiency. By far the most frequently associated was with FVII. Two forms of this association were found. In the first form there is casual association of both FVII and FX deficiency in the proband with independent recessive segregation of the two defects in other family members. The second form is because of abnormalities in chromosome 13 (deletions, translocations and so on) involving both FX and FVII genes. These genes are known to be very close and located on the long arm of chromosome 13 at about 13q34. In this form the hereditary pattern is autosomal dominant. Isolated FX deficiency and, more frequently, combined FX + FVII deficiency appear also associated with coagulation-unrelated abnormalities (carotid body tumours, mitral valve prolapse, atrial septal defect, ventricular septal defect, thrombocytopenia absent radius (TAR) syndrome, mental retardation, microcephaly and cleft palate). Diagnosis of a combined clotting defect could be difficult on the basis of global tests. For example, both isolated FX deficiency and combined FX + FVII deficiency yield a prolongation of basal PTT and PT. Only specific assays could allow one to reach the correct diagnosis. In cases of casual association with other defects, it is also important to study family members, as the two defects should segregate independently.     

Combined congenital dysfibrinogenemia and factor VII deficiency from mutations in the FGB and F7 genes

Dysfibrinogenemia and factor VII (FVII) deficiency are rare congenital coagulopathies. In this report, the authors describe a man with both defects confirmed by molecular genetic tests. The patient was a 51-year-old man referred for prolonged prothrombin time (PT) that had been accidentally detected on preoperative screening. He had no history of bleeding tendency even on occasions of surgery. Routine coagulation studies revealed prolonged PT (1.53 INR) and thrombin time (42.2 s), and decreased fibrinogen level (57 mg/dl) and FVII activity (44%). Direct sequencing analyses were performed on FGA, FGB, and FGG genes to confirm dysfibrinogenemia and on the F7 gene to confirm FVII deficiency. As a result, the patient was shown to be heterozygous for a point mutation in exon 8 of the FGB gene (c.1475A > G, p.*492Trpext*12; Fibrinogen Magdeburg II) and for a missense mutation in exon 6 of the F7 gene (c.466G > A, p.Gly156Ser). To our knowledge, this is the first report on a case of combined dysfibrinogenemia and FVII deficiency confirmed by molecular genetic tests.     

A rare inherited coagulation disorder: combined homozygous factor VII and factor X deficiency

The combined presence in the homozygous state of more than one recessively transmitted coagulation defect may rarely occur in countries with a high rate of consanguinity. In an Iranian family consisting of two parents (second cousins) and two affected siblings, initial phenotypic analysis led to a diagnosis of mild FX deficiency (10-19% FX activity, 42-54% FX:Ag), and genotyping revealed a new homozygous missense mutation in the corresponding gene (Ser3Cys). As both of the sibs had a severe bleeding history that was not compatible with mild deficiency of FX, further phenotypic analysis revealed the additional presence of severe FVII deficiency (<1% FVII activity; 63-111% FVII:Ag) associated with the homozygous missense gene mutation Cys310Phe. In this kindred, lack of identification of the double coagulation defect might have led not only to incomplete understanding of the clinical phenotype but also to an incorrect prenatal diagnosis.     

Successful treatment of transient acquired factor X deficiency by plasmapheresis with concomitant intravenous immunoglobulin and steroid therapy

Two patients with no history of previous bleeding diatheses presented with active bleeding from multiple body sites, declining hemoglobin levels, and markedly prolonged prothrombin times (PT) and activated partial thromboplastin times (aPTT) with incomplete correction on PT mix assays. Both patients demonstrated a severe deficiency of factor X (F.X) (<1%; reference range 60–150%). F.X levels and bleeding were refractory to multiple transfusions of fresh frozen plasma (FFP) in both patients. In contrast, daily therapeutic plasma exchange (PLEX) with concomitant administration of intravenous immunoglobulin (IV IgG) and steroids produced a rapid increase in F.X levels with cessation of bleeding, followed by stabilization and normalization of F.X levels and progressive correction of coagulation times. Neither patient has demonstrated a recurrence of the bleeding tendency following discontinuation of steroid therapy. These patients had transient acquired F.X deficiency, a rare coagulopathy, which can result in a lethal bleeding diathesis. An IgG inhibitor that selectively inhibited F.X activation in Russell's viper venom or tissue factor/F.VIIa assays was demonstrated in one patient's pretreatment plasma. Previous treatment of hemorrhage in transient acquired F.X deficiency has been prothrombin complex and/or activated clotting concentrates, which can be associated with transient hypercoagulable states. This is the first reported use of PLEX in transient acquired F.X deficiency. PLEX is safe, efficacious, and rapidly restores hemostasis in this rare acquired bleeding disorder. Am. J. Hematol. 57:245–252, 1998. © 1998 Wiley-Liss, Inc.     

Structural and functional characterization of novel F7 mutations identified in Chinese factor VII-deficient patients

Hereditary factor VII (FVII) deficiency is a rare recessive bleeding disorder with an estimated prevalence of 1/500 000. We had investigated 50 unrelated Chinese patients with FVII deficiency and identified, in total, 25 mutations, including 18 missense mutations and 5 splicing mutations, on the F7 gene. The nucleotide transition c.1224T>G (p.His408Gln) in exon 9 constitutes a hotspot of mutation, with 19 patients harbouring this genetic variance. Few patients were homozygous or compound heterozygous for deleterious mutations, such as non-sense mutations, large insertion or deletions, indicating that complete deficiency of FVII may not be compatible with life. The eight novel mutations identified in the study, including one small deletion (p.Glu49GlyfsTer101), three type I missense mutations, p.Cys238Phe, p.Gly420Asp, p.Ala252Val and four type II missense mutations, p.Val336Met, p.Ser342Gly, p.Gly432Ser and p.Ile213Asn, were further analysed by in vitro expression and functional studies. The laboratory phenotype and structural analysis confirmed the functional consequence of p.Ile213Asn mutation involving cleavage and activation site. The molecular dynamic simulations and binding energy calculations along with functional probing of p.Gly432Ser mutation revealed the critical role of residue Gly432 in the binding between activated factor VII (factor VIIa) and tissue factor.     

Combined FV and FVIII deficiency

Summary. Inherited deficiencies of plasma proteins involved in blood coagulation generally lead to lifelong bleeding disorders. The severity of these disorders is generally inversely proportional to the degree of factor deficiency. Among all the autosomal recessive rare bleeding disorders, which include afibrinogenaemia, factor (F) II, FV, FV + VIII, FVII, FX, FXI, FXIII, the combined deficiency of coagulation FV and FVIII (F5F8D or FV + FVIII) is exceptional because it is due to mutations in genes encoding proteins involved in the FV and FVIII intracellular transport (LMAN1 and MCFD2) rather than DNA defects in the genes that encode the corresponding coagulation factors. F5F8D is estimated to be extremely rare (1:1.000.000) in the general population, but an increased frequency is observed in regions where consanguineous marriages is practiced. F5F8D is characterized by concomitantly low levels (usually between 5% and 20%) of both FV and FVIII, and is associated with a mild to moderate bleeding tendency. Treatment of bleeding episodes requires a source of both FV and FVIII; replacement of FV is achieved through the use of fresh frozen plasma, and that of FVIII by desmopressin or specific FVIII concentrates, plasma‐derived or recombinant FVIII products. We focus here on the clinical, molecular, treatment‐related and diagnostic features of F5F8D.     

Bleeding manifestations in heterozygotes with congenital FVII deficiency: a comparison with unaffected family members during a long observation period*

Objectives: To determine whether heterozygotes with FVII deficiency have a bleeding tendency or not.

Patients and methods: Eighty-four patients (OK) heterozygous for FVII deficiency, at the onset of the study, were paired with unaffected family members and followed for a long period of time (mean 22.6 years) for the occurrence of bleeding. Diagnosis of heterozygosis had to be based on family studies, clotting, immunological assays and genetic analysis.

Results: The mean FVII activity level was 0.51?IU/dl (range 35–65) and 94?IU/dl (range 88–118) in the heterozygotes and in the normal counterparts, respectively. Documented bleeding manifestations occurred in eight heterozygotes and in seven normal subjects. Statistical analysis of the difference was not significant. Bleeding manifestations were easy bruising, bleeding after tooth extractions, menorrhagia, epistaxis with no difference among the two groups. There was no strict correlation between bleeding and FVII activity levels.

Conclusions: The study indicates that heterozygotes for FVII deficiency show rare bleeding manifestations which are also present in the unaffected family members with normal FVII levels. This indicates that Factor VII activity levels played no role in the occurrence of the bleeding symptoms. Furthermore, FVII levels of around 0.40?IU/dl are capable of assuring a normal hemostasis.     

Factor VII deficiency in China: Phenotype,genotype and current status of management

Congenital factor VII (FVII) deficiency is a rare bleeding disorder characterised by a wide molecular and clinical heterogeneity. We investigated the clinical phenotype of 193 patients and F7 genotype of 55/193 patients with FVII deficiency throughout China and showed their current status of management. The most frequent bleeding symptoms were epistaxis (44.6%), cutaneous (38.9%), oral cavity (40.4%) bleeding and menorrhagia (44.3% of females of reproductive age). Fatal central nervous system bleeding and disabling joint bleeding occurred in three patients each. The majority of patients (89.6%) had FVII activity (FVII:C) ≤10% and the proportion of symptomatic patients in this group (79.8%) was significantly higher than that in the groups with FVII:C >10%–25% (41.7%) and >25%–50% (37.5%) (χ² = 13.641, p = 0.001). Major bleeds occurred only in patients with FVII:C ≤10%. In total 55 patients underwent genotype analysis: most variants were missense (62.5%) and most patients had homozygous/compound heterozygous (85.4%) variants. Prothrombin complex concentrates (72.4%) were the most frequently used on-demand replacement therapy. Prophylaxis before delivery decreased the risk of postpartum bleeding in women (χ² = 69.243, p = 0.000). Our study provides useful information on the phenotype, genotype and current status of FVII-deficiency patients management and may promote further exploration and care of this population in the future.     

Congenital combined defects of factor VII: a critical review

Factor VII deficiency is the least rare among uncommon congenital coagulation disorders. The majority of cases are isolated deficiencies. In some cases, FVII deficiency has been found to be associated with the deficiency in another coagulation factor or with non-coagulation-related abnormalities or defects. The evaluation of all published studies on the subject has shown that the FVII defect has been reported in association with FV, FVIII, FIX, FX, FXI and protein C defects. Furthermore, FVII deficiency has been described in association with bilirubin metabolism disorders, mental retardation, microcephaly, epicanthus, cleft palate and persistence of ductus arteriosus. The most interesting association appears to be that with FX. This has been shown to be due to a deletion in part of the long arm of chromosome 13. This arm contains genes coding for both FVII and FX. Interestingly, this combined coagulation defect has been found to be associated with carotid body tumors and several other malformations. Combined defects in blood coagulation often create diagnostic difficulties since results cannot be explained if a single factor deficiency is assumed. For example the combined FVII and FX defect yields a rather peculiar laboratory picture (prolonged prothrombin time and partial thromboplastin time, but normal thrombin time) that could suggest FII or FV or FX single deficiency and not FVII deficiency, indicating the need for specific factor assays whenever data are confusing. Finally, the elevated incidence of mental and skeletal malformations present in these combined defects indicates the need for a careful evaluation of all these patients lest some aspects of the defect are missed.     

Bleeding symptoms and coagulation abnormalities in 337 patients with AL-amyloidosis

Haemorrhage is a frequent manifestation of amyloidosis. We performed a retrospective clinical analysis of 337 patients with systemic immunoglobulin light-chain (AL)-amyloidosis, in whom whole-body serum amyloid P component (SAP) scintigraphy and a clotting screen had been performed. Abnormal bleeding was noted in 94 cases (28%), and the coagulation screen was abnormal in 172 cases (51%). The most common abnormalities were prolongation of the thrombin time (TT; 108 cases, 32%) and the prothrombin time (PT; 82 cases, 24%). In multivariate analysis, a prolonged PT was the only coagulation abnormality associated with abnormal bleeding (P = 0.0012), but this was independent of the whole-body amyloid load. Prolongation of the TT was associated with hepatic amyloid infiltration (P < 0.00001), with proteinuria (P < 0.001) and low serum albumin (P < 0.00001). In 154 patients who were studied further, subnormal factor X activity (FX:C) was found in 22 cases (14%). In cases with subnormal FX:C, the corresponding factor X antigen (FX:Ag) measurements were consistently higher (median FX:Ag/FX:C 2.5, range 0.81-9.25, n = 16) than cases with normal FX:C (median FX:Ag/FX:C 0.96, range 0.65-1.29, n = 28, P < 0.0001). No evidence was found of an FX inhibitor. Of the 48/154 (31%) cases with a prolonged TT, the reptilase time was also prolonged in 38/48 cases (79%). These data show that haemorrhage and abnormal coagulation are common in AL-amyloidosis and are multifactorial in origin. We provide evidence suggesting that hepatic amyloid infiltration and nephrotic syndrome are determinants of the TT. In most patients, prolongation of the PT was explained by reduction in FX:C, but this was not wholly explained by a reduction in FX:Ag.     

Lack of bleeding in patients with severe factor VII deficiency

Factor VII deficiency, although rare, is now recognized as the most common autosomal recessive inherited factor deficiency. It is usually considered to be associated with bleeding only in the severely affected subject and heterozygotes (>10%) are not considered at risk. The general recommendation for surgery is to achieve a FVII level in excess of 15% (0.15 1U/mL). We present three cases of severe factor VII deficiency, each of whom appeared hemostatically competent based on clinical history. Subject 1 is a 33 year-old African-American female with a baseline FVII of <1%, who had a fractured tibia requiring open reduction with internal fixation without any FVII replacement and subsequently underwent successful laparoscopic knee surgery with a factor VII level measured at 6%. Subject 2 is a 58 year-old African-American female with a factor VII level of 9% who underwent an elective left total hip replacement without any factor replacement and had no excessive bleeding, but who sustained a pulmonary embolism postoperatively. Subject 3 is a 19-year-old African-American male with a baseline FVII of 1% with a history of active participation in football without noticeable injury and who underwent an emergent appendectomy without bleeding. These three cases represent individuals with the severe form of FVII deficiency who did not exhibit excessive bleeding when challenged with surgical procedures. The clinical history would appear the most valuable tool in predicting the likelihood of bleeding in these patients, and we suggest that the presumption that all patients with severe FVII deficiency should receive replacement therapy before surgical procedures may not be valid in all cases.     

Diagnosis and treatment of inherited factor X deficiency

Summary. Factor X is a vitamin K‐dependent, liver‐produced serine protease that serves a pivotal role in coagulation as the first enzyme in the common pathway to fibrin formation. Inherited factor X deficiency is a rare autosomal recessive bleeding disorder that is estimated to occur in 1:1 000 000 individuals up to 1:500 carriers. Several international registries of FX‐deficient patients have greatly expanded the knowledge of clinical phenotype. A proposed classification of severity is based on FX:C activity measurements: an FX:C measurement <1% is severe, an FX:C measurement of 1–5% is moderate and an FX:C measurement of 6–10% is mild. Levels above 20% are infrequently associated with bleeding and heterozygotes are usually asymptomatic. Among patients with FX:C levels <10%, unlike moderate or severe haemophilia A and B, mucocutaneous bleeding symptoms such as epistaxis and menorrhagia occur in the majority. In addition, patients with moderate–severe deficiency may have symptoms similar to that of haemophilia A and B, including haemarthrosis, intracranial haemorrhage, and gastrointestinal bleeding. Genotype characterization may offer important clues about clinical prognosis. More than 80 mutations of the F10 gene have been identified, most of which are missense mutations. There is no specific FX replacement product yet readily available, but fresh frozen plasma and prothrombin complex concentrates can be used for treatment of bleeding symptoms and preparation for surgery.     

The molecular basis of low activity levels of coagulation factor VII: a Brazilian cohort

Inherited factor VII (FVII) deficiency is the most common among the rare bleeding disorders. It is transmitted as an autosomal recessive inheritance, due to mutations in the FVII gene (F7). Molecular studies of FVII deficiency are rare in non‐Caucasian populations. The aim of the study was to evaluate the molecular basis behind low levels of FVII activity (FVII:C) levels in a cohort of Brazilian patients. A total of 34 patients with low FVII levels were clinically evaluated and submitted to laboratory tests, among these, prothrombin time and FVII:C, with different thromboplastins. All exons and intron/exon boundaries of F7 were amplified and sequenced. A total of 14 genetic alterations were identified, of which six were described previously, c.1091G>A, c.1151C>T, c.‐323_‐313insCCTATATCCT, c.285G>A, c.525C>T, c.1238G>A and eight (54.0%) and eight were new, c.128G>A, c.252C>T, c.348G>A, c.417G>A, c.426G>A, c.745_747delGTG, c.843G>A and c.805+52C>T. In addition to the mutation c.1091G>A, known as FVII Padua, the mutation c.1151C>T also presented discrepant FVII:C levels when tested with human and rabbit brain thromboplastin. There was no association between phenotype and genotype. Most of the identified genetic alterations found were polymorphisms. Low levels of FVII:C in this population were mostly related to polymorphisms in F7 and associated with a mild clinical phenotype. Mutation c.1151C>T was associated with discrepant levels of FVII:C using different thromboplastins, such as reported with FVII Padua.     

Correlating clinical manifestations with factor levels in rare bleeding disorders: a report from Southern India

Data on the clinical manifestations of patients with clotting factor defects other than Haemophilia A, B and von Willebrand disease are limited because of their rarity. Due to their autosomal recessive nature of inheritance, these diseases are more common in areas where there is higher prevalence of consanguinity. There is no previous large series reported from southern India where consanguinity is common. Our aim was to analyze clinical manifestations of patients with rare bleeding disorders and correlate their bleeding symptoms with corresponding factor level. Data were collected in a standardized format from our centre over three decades on 281 patients who were diagnosed with rare bleeding disorders (fibrinogen, prothrombin, factor V (FV), FVII, FX, FXI, FXIII and combined FV or FVIII deficiency). Patients with liver dysfunction or those on medications which can affect factor level were excluded. All patients with <50% factor levels were included in this analysis. Patients were analysed for their salient clinical manifestations and it was correlated with their factor levels. The data shows that FXIII deficiency is the commonest and FXI deficiency is the rarest in Southern India. There was no significant difference in bleeding symptoms among those who were < or >1% factor coagulant activities among all disorders, except for few symptoms in FVII and FX deficiency. An international collaborative study is essential to find out the best way of classifying severity in patients with rare bleeding disorders.     

Use of global assays to understand clinical phenotype in congenital factor VII deficiency

Congenital factor VII (FVII) deficiency is characterized by genotypic variability and phenotypic heterogeneity. Traditional screening and factor assays are unable to reliably predict clinical bleeding phenotype and guide haemorrhage prevention strategy. Global assays of coagulation and fibrinolysis may better characterize overall haemostatic balance and aid in haemorrhagic risk assessment. We evaluated the ability of novel global assays to better understand clinical bleeding severity in congenital FVII deficiency. Subjects underwent central determination of factor VII activity (FVII:C) as well as clot formation and lysis (CloFAL) and simultaneous thrombin and plasmin generation (STP) global assay analysis. A bleeding score was assigned to each subject through medical chart review. Global assay parameters were analysed with respect to bleeding score and FVII:C. Subgroup analyses were performed on paediatric subjects and subjects with FVII ≥1 IU dL^?1. CloFAL fibrinolytic index (FI₂) inversely correlated with FVII:C while CloFAL maximum amplitude (MA) and STP maximum velocity of thrombin generation (V_T max) varied directly with FVII:C. CloFAL FI₂ directly correlated with bleeding score among subjects in both the total cohort and paediatric subcohort, but not among subjects with FVII ≥1 IU dL^?1. Among subjects with FVII ≥1 IU dL^?1, STP time to maximum velocity of thrombin generation and time to maximum velocity of plasmin generation inversely correlated with bleeding score. These preliminary findings suggest a novel potential link between a hyperfibrinolytic state in bleeding severity and congenital FVII deficiency, an observation that should be further explored.     

F8 and F9 mutations fail to co‐segregate in a family with co‐incident haemophilia A and B

Summary. Haemophilia A and B in one individual may arise from co‐incident inheritance of independent mutations in the F8 and F9 genes. However, this association is rare and has been studied poorly at a genetic level. We report a male patient with abnormal bleeding and reduced factor VIII:C (26 IU dL⁻¹) and factor IX:C (35 IU dL⁻¹). This index case harboured a F8 c.979C>G transversion (predictive of p.Leu327Val) and a F9 c.845A>G transition (predictive of p.His282Arg) which have been previously associated with mild haemophilia A and B, respectively. Identical F8 and F9 mutations were identified in the mother and maternal grandmother. However, an affected maternal uncle showed only the F8 c.979C>G mutation, indicating haemophilia A alone. The sister of the index case was heterozygous only for F9 c.845A>G, indicating carriership of haemophilia B alone. The non‐Mendelian inheritance of F8 c.979C>G and F9 c.845A>G in this kindred is consistent with recombination between F8 and F9 and illustrates the large recombination distance between these loci. Recognition of this phenomenon was essential for accurate genetic counselling in this kindred.     

Persistent validity of a classification of congenital factor X defects based on clotting,chromogenic and immunological assays even in the molecular biology era

Summary. An adequate classification of congenital bleeding disorders is of great importance in clinical practice. This is true also for factor X (FX) deficiency. This defect is classified in two forms: type I (cases with low activity and antigen) and type II (cases with low activity and variable levels of antigen). The introduction of molecular biology techniques has allowed a classification based on the site of mutation (propeptide, Gla‐domain, catalytic domain etc.) or on the type of mutation (missense, nonsense, deletion etc.). However, with a partial exception for defects in the Gla‐domain, no site or type of mutation yields a constant and/or typical phenotype. Due to these difficulties, a classification based on clotting, chromogenic or immunological assays is still the most suited for clinical purposes. A satisfactory classification that takes into account recent advances of FX deficiency could read today as follows:

• ? Type I (cross‐reacting material (CRM) negative) (Stuart like)
• ? Type II (CRM positive with inert protein) (Prower like)
• ? Type III (CRM positive with disreactive protein)

• 1 Defects in all activity systems but for RVV activation (Friuli like)
• 2 Defects only or predominantly in the extrinsic‐Xase system (Padua like)
• 3 Defects only or predominant in the intrinsic‐Xase system (Melbourne like)
• 4 Defects with discrepant (high) chromogenic assays.

Finally, type IV should be added to include cases of FX deficiency associated with FVII deficiency usually due to chromosome 13 abnormalities. By using this nosographic approach, all reported cases of FX deficiency can be adequately allocated to one of these groups.     

Identification of eight novel coagulation factor XIII subunit A mutations: implied consequences for structure and function

Background

Severe hereditary coagulation factor XIII deficiency is a rare homozygous bleeding disorder affecting one person in every two million individuals. In contrast, heterozygous factor XIII deficiency is more common, but usually not associated with severe hemorrhage such as intracranial bleeding or hemarthrosis. In most cases, the disease is caused by F13A gene mutations. Causative mutations associated with the F13B gene are rarer.

Design and Methods

We analyzed ten index patients and three relatives for factor XIII activity using a photometric assay and sequenced their F13A and F13B genes. Additionally, structural analysis of the wild-type protein structure from a previously reported X-ray crystallographic model identified potential structural and functional effects of the missense mutations.

Results

All individuals except one were heterozygous for factor XIIIA mutations (average factor XIII activity 51%), while the remaining homozygous individual was found to have severe factor XIII deficiency (<5% of normal factor XIII activity). Eight of the 12 heterozygous patients exhibited a bleeding tendency upon provocation.

Conclusions

The identified missense (Pro289Arg, Arg611His, Asp668Gly) and nonsense (Gly390X, Trp664X) mutations are causative for factor XIII deficiency. A Gly592Ser variant identified in three unrelated index patients, as well as in 200 healthy controls (minor allele frequency 0.005), and two further Tyr167Cys and Arg540Gln variants, represent possible candidates for rare F13A gene polymorphisms since they apparently do not have a significant influence on the structure of the factor XIIIA protein. Future in vitro expression studies of the factor XIII mutations are required to confirm their pathological mechanisms.