The purpose of this study is to investigate the hemostatic side effects of HDMTX. Between 2001 and 2002, 20 children with acute lymphoblastic leukemia at the Dr. Sami Ulus Children's Hospital, Department of Pediatric Hematology and Oncology, treated according to the St. Jude ALL XIII protocol were eligible to this study. Methotrexate at a dose of 2 g/m(2) was infused over 24 hours. Coagulation screening studies included prothrombin time (PT), APTT, fibrinogen, fibrin degradation product (D-Dimer), factor II, factor V, factor VII, factor VIII, factor IX, factor X, PC, PS, AT-III determinations before HDMTX therapy (PreT), 1 day after (PostT(1D)), and 1 week after (PostT(1W)) the end of the HDMTX infusion. We found that PT and APTT were prolonged, PC, PS, and AT-III levels were decreased with a slight increase in D-Dimer 1 day after the administration of HDMTX and all of them returned to the normal levels by 7 days. In addition we found that FVII, FIX, FX were significantly decreased 1 day after therapy and normalised by 7 days.

BACKGROUND

Given the importance of factor VII (FVII) in extrinsic pathway of coagulation cascade, we sought to elucidate the relationship between FVII and traumatic brain injury-induced coagulopathy and progressive hemorrhagic injury (PHI).

METHODS

Eighty-one patients with isolated traumatic brain injury, 16 years or older, were recruited between 2010 and 2012. Blood was collected on arrival in the emergency department and analyzed with activated partial thromboplastic time, international normalized ratio, platelet count, and activity of FVII. Coagulopathy was defined as thrombocytopenia (platelet count < 120,000/μL) or elevated international normalized ratio of greater than 1.2 or prolonged activated partial thromboplastin time greater than 40 seconds at admission. PHI was present when the follow-up computed tomographic scan reported any increase in size or number of the hemorrhagic lesions. Logistic regression examined the risks for coagulopathy and PHI.

RESULTS

Mean (SD) FVII activity in patients with coagulopathy was 85.69% (34.88%), which was significantly lower than patients without coagulopathy (99.57% [29.37%], p = 0.04). Isolated traumatic brain injury patients with FVII activity less than 77.5% have an odds ratio for coagulopathy of 5.52 (95% confidence interval, 1.82-16.68; p = 0.03) relative to patients with FVII activity of 77.5% or greater. Mean (SD) FVII activity in patients with PHI was 70.76% (18.21%), which was significantly lower than patients without PHI (105.76% [32.27%], p < 0.001). A stepwise logistic regression analysis identified FVII less than 77.5% (odds ratio, 4.53; 95% confidence interval, 1.62-12.67; p = 0.004) as a predisposing risk factors independently associated with the presence of PHI. The overall mortality rate in the study population was 7.4% (n = 6). The plasma FVII in death patients (91.44% [47.19%]) was slightly lower than that in survival patients (92.01% [32.04%]). However, there was no statistical difference between the two groups (p = 0.95).

CONCLUSIONS

A decrease of FVII activity significantly contributes to the coagulopathy and PHI in patients with isolated traumatic brain injury.

METHODS

Prognostic study, level III.

Recombinant activated factor VII (rFVIIa) has been used in a very limited number of patients with severe factor XI (FXI) deficiency. The dose and duration of treatment has varied greatly between these case reports. In a few of these cases there was also evidence of thrombotic complications. We present here a report on one additional patient with congenital FXI deficiency. For two major orthopaedic procedures in this patient we used rFVIIa as a single bolus dose followed by continuous infusion at a low rate. The data from these treatment episodes, together with those from a review of the published cases, lend support to the concept of using much lower doses than in haemophilia with inhibitors. A bolus dose of 20 microg kg(-1) and thereafter maintenance of the FVII activity at approximately 3 IU mL(-1) appears effective and safe.

BACKGROUND

Hemophilia B, resulting from a deficiency of coagulation factor IX, is treated effectively with either recombinant FIX (r-FIX) or plasma-derived FIX (pd-FIX) concentrates, although differences in pharmacokinetics are observed. FIX is activated in vivo by both activated FXI (FXIa) and tissue factor (TF)-activated FVII (FVIIa); however, conventional activated partial thromboplastin time (APTT)-based assays assess only activation by FXIa.

OBJECTIVE

To examine the differences between pd-FIX and r-FIX concentrates with respect to their thrombogenicity and activation.

RESULTS

FIX ELISA was used to quantify antigenic FIX. Calibrated automated thrombography was performed to evaluate the effect of FIX on thrombin generation. FIXa was quantified by the cleavage of FIXa-specific chromogenic substrate. FIX activation was studied in a purified system.

RESULTS

We found that r-FIX had ~ 1.6-fold greater specific activity than pd-FIX. r-FIX generated a markedly higher thrombin peak than pd-FIX at an equivalent antigen level when coagulation was initiated by TF, but this was not seen in contact activation-triggered thrombin generation (TG). Interestingly, the amount of FIXa in r-FIX concentrate was 10 times higher than that in pd-FIX concentrate. In a purified system, the amount of r-FIXa generated by FXIa in the first 10 min of activation was 1.37-fold that of pd-FIXa, whereas no difference between the concentrates was observed when triggered by TF-FVIIa.

CONCLUSIONS

Clear differences were observed between pd-FIX and r-FIX concentrates, including the proportion of FIXa and the activation by FXIa. These may explain some of the discrepancies observed clinically, and suggest that the APTT may not reflect their resultant in vivo properties.

Patients treated with activated recombinant factor VII (rFVIIa; NovoSeven, Novo Nordisk, Bagsvaerd, Denmark) were followed for potential antibody formation. The recombinant product was used to control serious and mild-to-moderate bleeds in a hospital environment and mild-to-moderate bleeds at home. The 267 patients included 222 haemophilia A patients, 16 haemophilia B patients, 16 non-haemophilia patients with inhibitors, and 13 factor VII (FVII)-deficient patients. The individual exposure ranged from one to 121 episodes treated over a period of up to 6 years. Analysis for FVII antibodies in an immunoassay revealed that pre-treatment samples from 5% of the haemophilia A patients had values above the normal range. None of these reactions were specific. Increased post-treatment values were observed in two FVII-deficient patients; both patients had been previously treated with plasma-derived FVII. The FVII-specific antibodies reacted equally well with plasma FVII and rFVIIa. The overall result from antibody determination shows no indication of antibody formation against rFVIIa in haemophilia A or B patients or in non-haemophilia patients with acquired inhibitors; however, FVII-deficient patients represent a risk group for development of antibodies against FVII.

This paper proposes the clustering of individuals given their genotype using a normalized Mutual Information dissimilarity distance. This method is applied to a Single Nucleotyde Polymorphism set belonging to F7 gene, uncovering the intrinsic genetic variability on one Spanish population. This genetic variability corresponds to results published using a complete different approach in population genetics literature. Identified groups are shown to express significant differences in the level of FVII concentration.

OBJECTIVE

To investigate all cases of isolated factor VII (FVII) deficiency as gathered from personal files or by a PubMed search.

METHODS

Personal files dealing with patients studied in Padua during the years 1970 to 2010 were reevaluated. The PubMed search was time unlimited and was carried on 2 occasions during 2014. Cross-checking of the references, listed in every article, was also carried out to avoid omissions. Inclusion criteria were isolated FVII defect of less than 40% of normal, negative coagulation pattern in the family, normal level of other vitamin K-dependent clotting factors, and normalization of the clotting factor after the therapeutic procedures, unless the patient died.

RESULTS

Twenty-nine patients met the inclusion criteria (18 male and 9 female, in 2 cases gender was unreported). This number included 1 personal case. Mean age was 37.9 (range 3-80). Underlying diseases were the following: neoplasia, infections, polytrauma, penicillin administration, nephrotic syndrome Wiskott Aldrich syndrome, and left heart failure (1 case, each); 2 patients had no underlying disease. Bleeding was variable but usually mild. There were 11 fatalities.

CONCLUSIONS

Isolated FVII deficiency is a rare defect, which appears to be a finding associated with several morbid conditions, especially sepsis and tumors. This indicates the need for a careful investigation of even a mild prolongation of prothrombin time, especially when fibrinogen and partial thromboplastin time are normal.

Factor VII (FVII) plays an important role in the initiation of blood coagulation, forming a complex with tissue factor (TF) which activates FIX and FX and FVII zymogen. FVII deficiency displays considerable phenotypic and molecular heterogeneity and there are inconsistencies between the clinical picture observed and the underlying clotting and molecular defects. We have reviewed the data available in the literature on FVII-deficient patients. Clinically, cases range from asymptomatic to patients with severe haemorrhagic tendencies. Asymptomatic patients typically have FVII activity levels of >20% and are heterozygotes, double heterozygotes or homozygotes. Mild FVII-deficient patients, with FVII activity levels >2%, may be double heterozygotes or homozygotes for FVII gene missense mutations. Undetectable FVII levels in severely affected patients are often due to severe gene defects such as frameshifts or mutations affecting the splice sites. The analysis of structure-function relationships in FVII deficiency is difficult due to the complexity of the interactions involving FVII. Also, assays using different reagents may give different results with a given plasma sample, and are not very accurate at low levels of FVII which, although relatively low, may be clinically significant, adding complexity to the analysis of FVII deficiency. The sensitivity of our methods for phenotypic evaluation of FVII deficiency remains inadequate.

Replacement therapy is currently used to prevent and treat bleeding episodes in coagulation factor deficiencies. However, structural differences between the endogenous and therapeutic proteins might increase the risk for immune complications. This study was aimed at identifying factor (F)VII variants resistant to inhibitory antibodies developed after treatment with recombinant activated factor VII (rFVIIa) in a FVII-deficient patient homozygous for the p.A354V-p.P464Hfs mutation, which predicts trace levels of an elongated FVII variant in plasma. We performed fluorescent bead-based binding, ELISA-based competition as well as fluorogenic functional (activated FX and thrombin generation) assays in plasma and with recombinant proteins. We found that antibodies displayed higher affinity for the active than for the zymogen FVII (half-maximal binding at 0.54 ± 0.04 and 0.78 ± 0.07 BU/ml, respectively), and inhibited the coagulation initiation phase with a second-order kinetics. Isotypic analysis showed a polyclonal response with a large predominance of IgG1. We hypothesised that structural differences in the carboxyl-terminus between the inherited FVII and the therapeutic molecules contributed to the immune response. Intriguingly, a naturally-occurring, poorly secreted and 5-residue truncated FVII (FVII-462X) escaped inhibition. Among a series of truncated rFVII molecules, we identified a well-secreted and catalytically competent variant (rFVII-464X) with reduced binding to antibodies (half-maximal binding at 0.198 ± 0.003 BU/ml) as compared to the rFVII-wt (0.032 ± 0.002 BU/ml), which led to a 40-time reduced inhibition in activated FX generation assays. Taken together our results provide a paradigmatic example of mutation-related inhibitory antibodies, strongly support the FVII carboxyl-terminus as their main target and identify inhibitor-resistant FVII variants.

The present study was undertaken to determine whether the extent of Factor VII elevation correlated with the severity of coronary artery disease and whether zymogen or activated Factor VII was responsible for this elevation. A group of 69 patients with coronary artery disease with old myocardial infarction was compared with 28 control subjects. The patient groups showed elevated levels of Factor VII procoagulant activity (FVII:C) and more markedly elevated Factor VII antigen (FVII:Ag) levels than the control group; therefore they had a decreased FVII:C to FVII:Ag ratio. The increased Factor VII level in the patient groups was caused by elevated Factor VII zymogen levels, and not by activated Factor VII. Since FVII:C levels strongly correlated with the titer of thrombin-antithrombin III complexes in all patients, the hypercoagulable state accompanying severe coronary atherosclerosis seems to underlie the increase of FVII and TAT in the stable phase of myocardial infarction.

BACKGROUND

Inhibitory antibodies to factor VIII (FVIII) or IX (FIX) are important issues when managing patients with hemophilia A or B. Advances in bypassing agents such as recombinant activated FVII (rFVIIa) and activated prothrombin complex concentrates (APCC) have enabled the aggressive management of hemophilia with inhibitors during emergency or elective surgery. This study provides an updated evaluation of the safety and effectiveness of bypassing agents in treating perioperative bleeding.

METHODS

We reviewed the records of hemophilia patients with inhibitors who underwent surgery between May 2008 and July 2014 using bypassing agents or high-dose FVIII concentrates at a single center.

RESULTS

In total, 36 surgeries (24 orthopedic, 12 other) were conducted in 18 hemophilia patients with inhibitors. The median inhibitor titer at surgery was 14 (range, 0.7-1,900) Bethesda units. Most patients had high-responding inhibitors. In total, 25 patients received APCC, 9 with rFVIIa initially. In most cases, bleeding stopped or was well controlled; however, bleeding in 6 patients was controlled using sequential bypassing therapy. Hemostatic efficacy of bypassing agents in various surgeries, based on the final patient outcome, was 94.4% (34/36). Among 5 emergency surgeries, 2 deaths occurred.

CONCLUSIONS

Good control of hemostasis can be achieved using bypassing agents in hemophilia patients with inhibitors who are undergoing surgery. Thorough planning is needed before elective surgery and more active and aggressive management may be needed for emergency surgery. Use of bypassing agents can facilitate safe and successful surgeries in hemophilia patients with inhibitors.

This report describes studies on the activation of coagulation factor VII (FVII) and the inhibition of the extrinsic coagulation pathway in acute ischaemic heart disease. FVII and the inhibitor of the tissue thromboplastin-FVII complex, called extrinsic pathway inhibitor (EPI), were determined in plasma from 68 patients and compared to findings in 37 normal individuals. The mean FVII amidolytic activity, the mean FVII clotting activity, as well as the FVII clotting/FVII amidolytic ratio were not significantly different in the patient groups as compared to the controls. The fraction of FVII clotting activity that is sensitive to phospholipase C, 'the FVII-phospholipid complex', was 8% in controls, 19% (P less than 0.05) in patients with acute myocardial infarction, 15% (n.s.) in angina pectoris and 13% (n.s.) in heart failure/arrhythmia patients. The 'FVII-phospholipid complex' was highly significantly correlated to triglycerides in plasma in patients with acute myocardial infarction (r = 0.88, P less than 0.001) and angina pectoris (r = 0.89, P less than 0.001). The mean EPI levels were significantly increased in patients with acute myocardial infarction (132%), angina pectoris (134%), and heart failure (150%) as compared to the control population (110%). The FVII clotting/EPI ratio was significantly decreased both in patients with acute myocardial infarction and heart failure, whereas the FVII amidolytic/EPI ratio was significantly decreased only in the heart failure group. Apparently, in patients with acute ischaemic heart disease, a moderate increase in the procoagulant activity is accompanied by a marked increase in the anticoagulant activity of the extrinsic coagulation pathway, suggesting a balanced activation system.

Hypercoagulability is widely associated with sepsis, inflammation, diabetes, cancers, aging, and many pathological conditions, resulting in life-threatening disseminated intravascular coagulation (DIC), venous thrombosis, thromboembolism, cardiovascular complications, or even deadly multiple organ failure. Relieving coagulation dysfunction is not only a task for research scientists but also a challenge for physicians. The development of effective anticoagulants is under way with the basic understanding of the pathophysiology of hypercoagulable state. In this overview, various anticoagulants will be discussed according to the proposed inhibitory target-sites along the extrinsic pathway that is believed to play an integral role in homeostasis. Anticoagulants generally fall into two broad categories as natural or pharmacological ones. Antithrombin (AT), activated protein C (APC), and tissue factor pathway inhibitor (TFPI) mainly constitute the natural anticoagulant system apart from the recently reported physiological components such as lipoproteins, sphingosine, thrombomodulin (TM) or cellular Marcks protein. Pharmacological anticoagulants include warfarin, FVIIa inhibitors, FXa inhibitors, and thrombin inhibition by its direct inhibitors or heparins. In addition, a group of novel compounds inhibiting TF-dependent FVII activation result in anticoagulation; such upstream downregulation in the extrinsic pathway awaits further research to establish their in vivo benefits. The molecular genetic approaches such as developing soluble TF, FVII and thrombin mutants provide unique downregulation. Anticoagulation also extends its significance to anti-inflammation, making broad impacts on the improvement of human health.

An edible marine red alga, Grateloupia filicina, collected from Jeju Island of Korea was hydrolyzed by cheap food-grade carbohydrases (Viscozyme, Celluclast, AMG, Termamyl, and Ultraflo) to investigate its anticoagulant activity. Among the tested enzymatic extracts of G. filicina, a Termamyl extract showed the highest anticoagulant activity. Anion-exchange chromatography on DEAE-cellulose and gelpermeation chromatography on Sepharose-4B were used to purify the active polysaccharide from the crude polysaccharide fraction of G. filicina. The purified sulfated polysaccharide (0.42 sulfate/total sugar) showed approximately 1,357 kDa molecular mass and was comprised mainly of galactose (98%) and 1-2% of glucose. The sample showed potential anticoagulant activity on activated partial thromboplastin time (APTT) and thrombin time (TT) assays. The purified G. filicina anticoagulant (GFA) inhibited the coagulation factor X (92%), factor II (82%), and factor VII (68%) of the coagulation cascade, and the molecular interaction (protein-polysaccharide) was highly enhanced in the presence of ATIII (antithrombin III). The dissociation constant of polysaccharide towards serine proteins decreased in the order of FXa (58.9 nM)>>FIIa (74.6 nM)>>FVII (109.3 nM). The low/less cytotoxicity of the polysaccharide benefits its use in the pharmaceutical industry; however, further studies that would help us to elucidate the mechanism of its activity are needed.

The management of anticoagulant therapy (OAT) in patients with factor VII (FVII) deficiency is a very challenging clinical issue, as warfarin further reduces FVII levels, thus potentially increasing bleeding risk. On the other hand, the International Normalized Ratio test is misleading in such patients, as they do not reflect the actual level of global inhibition of the coagulation system. We report here three cases of patients with a moderate FVII deficiency and receiving direct oral anticoagulants (DOAC) for prevention of cardioembolism in atrial fibrillation. Of note, two of them experienced a treatment failure while on warfarin, while DOAC treatment was not associated with thrombotic or hemorrhagic adverse events. DOAC are very attractive for the management of OAT in FVII deficient patients, because they do not require monitoring by tests affected by the inherited defect, and their mechanism of action is FVII-independent.

Blood coagulation is a complex biological mechanism aimed to avoid bleeding in which a highly regulated and coordinated interplay of specific proteins and cellular components respond quickly to a vascular injury. However, when this mechanisms occurs in the coronary circulation, it has not a "protective" effect, but rather, it plays a pivotal role in determining acute coronary syndromes. Coagulation recognizes Tissue Factor (TF), the main physiological initiator of the extrinsic coagulation pathway, as its starter.Since TF:VIIa complex is the critical point of the blood coagulation cascade, it is a pharmacological attractive issue for the development of agents with anti thrombotic properties that can exert their activity by inhibiting complex formation and/or its catalytic activity. In fact, it is intuitive that an antithrombotic agent able to inhibit this initial step of the coagulation pathway has several theoretical, extremely important, advantages if compared with drugs active downstream the coagulation pathway, such as FXa or thrombin. The present report gives a brief overview of TF pathophysiology, highlighting the most recent advances in the field of inhibitors of the complex TF/VIIa potentially useful in cardiovascular disease.

Surgical resection is the only definitive treatment for haemophilic pseudotumour. For patients with high- responding factor (F)VIII inhibitors, the lack of reliable by-passing agents in the past has meant that surgery has been avoided in favour of conservative measures. The development of recombinant factor VIIa (rFVIIa) has revolutionized the management of surgery in these patients. We document the first successful report of the surgical resection of a massive pseudotumour in a patient with high responding FVIII inhibitors using rFVIIa to achieve haemostasis. Serial post-operative measurements indicated that FVII coagulation activity (FVII:C) levels were more sensitive to rFVIIa dose changes than the prothrombin time.

Despite the growing evidence implicating intratumoural fibrin formation in the progression of malignant tumours, the origin of coagulation factors that participate in extravascular clotting has not been elucidated. Using immunohistochemical methods we attempted to detect and localize clotting factors of extrinsic pathway in different human malignant tumours. Coagulation factors II, V, VII and X (FII, FV, FVII and FX) were detected in a huge number of cells showing spindle-shaped or stellate morphology. By double immunohistochemical labellings it was demonstrated that cells containing these clotting factors express monocyte/macrophage differentiation marker antigens recognized by Leu M3, Ki M7 and DAKO-macrophage monoclonal antibodies, i.e. they represent monocyte-derived, phagocytic tumour associated macrophages (TAMs). These findings suggest that TAMs can be viewed as clot cells, which in addition to the initiation of extravascular clotting by expressing procoagulant activity can also provide all the components necessary for the extrinsic thrombin formation.

The gene encoding murine coagulation factor VII (fVII) has been cloned. Seven introns and eight exons are present, with the introns positioned as splice junctions between the major domain units of the protein. A total of 11,748 bp of the gene was sequenced, and included 1,077 bp of a 5'-flanking region, in which several high probability binding sites for liver transcription factors were present, as well as a CCAAT sequence and possible GC boxes. Primer extension analysis revealed that the major transcription start site was positioned only 9 residues upstream of the ATG initiation codon, thus providing a very short 5'-untranslated region of the gene. The sequence of the CAP site in the murine fVII gene matched exactly the consensus eukaryotic sequence. A total of 1,484 bp of 3'-flanking nucleotides included a probable polyadenylation site (ATTAAA) and an appropriately positioned downstream consensus sequence (AGTGTTTC) for the efficient formation of a 3' terminus of mRNA. These results indicate that all elements are present for liver-based transcription of the gene for murine factor VII. The sequence and restriction endonuclease map of this gene will facilitate construction of fVII deficient mice and mice containing mutant fVII genes.

In a patient with lethal factor VII (FVII) deficiency, 2 homozygous nucleotide substitutions were identified in the F7 gene: a IVS7+2T>G transversion involving the IVS7 donor splice site, followed by a mutation at nucleotide 10588 that would result in a missense variation (Arg224Gln). The mutated splice site, located within the first repeat of a minisatellite, is followed by a variable number of pseudo-sites, normally silent. To investigate the consequences of this mutation on F7 splicing, we designed normal and mutant minigenes, spanning exons 5 to 8. In cells transfected with the mutant construct, no normal splicing occurred. Only spliced transcripts including the first minisatellite repeat were observed, resulting from the activation of the most proximal wild-type pseudo-site, which would generate a truncated protein (stop codon upstream of nucleotide 10588). These findings, which suggest the existence of a mechanism selecting one single splice site among multiple cryptic sites, explain the patient's phenotype.

Chronic sleep loss, a common feature of human life in industrialized countries, is associated to cardiovascular disorders. Variations in functional parameters of coagulation might contribute to explain this relationship. By exploiting the mouse model and a specifically designed protocol, we demonstrated that seven days of partial sleep deprivation significantly decreases (-30.5%) the thrombin generation potential in plasma evaluated upon extrinsic (TF/FVIIa pathway) but not intrinsic activation of coagulation. This variation was consistent with a decrease (-49.8%) in the plasma activity levels of factor VII (FVII), the crucial physiologicalal trigger of coagulation, which was even more pronounced at the liver mRNA level (-85.7%). The recovery in normal sleep conditions for three days completely restored thrombin generation and FVII activity in plasma. For the first time, we demonstrate that chronic sleep deprivation on its own reduces, in a reversible manner, the FVII expression levels, thus influencing the TF/FVIIa activation pathway efficiency.

This study was aimed at clarification of the function of EGF(1) segment in rat coagulation factor VII with tissue factor (TF) by means of the expression of the fusion protein of EGFP-EGF(1). The DNA fragment encoding EGF(1) was amplified from a rat liver tissue by RT-PCR, and then inserted in an EGFP-procaryotic expression vector to construct the recombinant plasmid pET28a-EGFP-EGF(1) which was introduced into the competent cells of E.coli BL21, then an engineering bacteria strain was obtained which was induced by IPTG to express the fusion protein of EGFP-EGF(1). The fusion protein was purified by chromatography on Ni column, and then acted on the rat hemangioendotheliocytes stimulated with LPS to express TF; the binding of the fusion protein to the hemangioendotheliocytes was detected by means of fluorescence microscopy and flow cytometry. The results indicated that EGFP-EGF(1) was highly expressed in the engineering E.coli strain, and successfully purified, and its molecular mass was confirmed as 36 kD by SDS-PAGE. Fluorescence microscopy and flow cytometry had shown that this fusion protein can bind with the TF on the hemangioendotheliocytes. It is concluded that the EGF(1) region of rat coagulation factor can mediate the specific binding of FVII with TF, so as to lay partly the basis for molecular targeting anti-thrombotic therapy.

In hereditary angioedema (HAE), normal C1-inhibitor (C1-INH) is low and the contact system activated. Recently, the findings of a tissue factor mutant selectively deficient in promoting the conversion of FVII to FVIIa, but with retained cofactor for FVIIa, made it possible to examine reliably the pre-existing content of FVIIa in HAE patients. This was of interest as FXIIa (mainly inhibited by C1-INH) is able to activate FVII directly. FVIIa in 21 remission HAE patients were within normal limits but nearly doubled as compared to their 23 normal siblings (p = 0.0017). Cold promoted activation of FVII (CPA) (common clot assay) was displayed in plasma of all 5 untreated patients (C1-INH function < 35%), but not in plasma of 2 patients treated prophylactically with danazol (C1-INH function about 40%). These results suggest that there is a minute, yet significant activation of FVII in patients with C1-INH deficiency.

BACKGROUND

Plasma stored refrigerated for up to 5 days after thawing is common practice in many US hospitals. Therefore, clotting factor activities in fresh-frozen plasma (FFP), plasma frozen within 24 hours (PF24), and solvent/detergent-treated plasma (SDP), thawed and stored at 1 to 6°C for up to 5 days, were investigated.

METHODS

Five A, B, O, and AB units of FFP, PF24, and SDP were thawed and maintained for 5 days at 1 to 6°C. The activity of factor (F)V, FVII, FVIII, protein S (PS), and ADAMTS13 was determined in each unit at baseline and every 24 hours thereafter for 5 days.

RESULTS

After thaw, mean values of the variables tested were within the normal range in all three plasma products although, in SDP, FVIII activity was significantly lower (p = 0.0039). After 5 days of storage all factors significantly declined except for ADAMTS13 activity, which was stable. Mean FVIII and ADAMTS13 activity was comparable in all three plasma products and within the normal range, mean FV activity was significantly lower in FFP and PF24 (p<0.0001) compared to SDP, and mean FVII activity was significantly lower in PF24 (p<0.03) than in FFP or SDP. Mean PS activity was below the normal range in all three plasma products with the lowest values in SDP (p = 0.0001).

CONCLUSIONS

Over 5 days of refrigerated storage the changes in the measured coagulation factors in FFP, PF24, and SDP are comparable. Clinical follow-up is needed to assess whether slightly lower PS levels in SDP are clinically important.