Treatment of Alzheimer disease using combination therapy with plasma exchange and haemapheresis with albumin and intravenous immunoglobulin: Rationale and treatment approach of the AMBAR (Alzheimer Management By Albumin Replacement) study. / Tratamiento de la enfermedad de Alzheimer mediante terapia combinada de aféresis terapéutica y hemoféresis con albúmina e inmunoglobulina intravenosa: fundamentos y aproximación terapéutica al estudio AMBAR (Alzheimer Management By Albumin Replacement).

INTRODUCTION: There is a growing interest in new therapeutic strategies for the treatment of Alzheimer disease (AD) which focus on reducing the beta-amyloid peptide (Aß) burden in the brain by sequestering plasma Aß, a large proportion of which is bound to albumin and other proteins. This review discusses the concepts of interaction between Aß and albumin that have given rise to AMBAR (Alzheimer's Disease Management by Albumin Replacement) project, a new multicentre, randomised, controlled clinical trial for the treatment of AD. DEVELOPMENT: Results from preliminary research suggest that Albutein(®) (therapeutic albumin, Grifols) contains no quantifiable levels of Aß. Studies also show that Albutein(®) has Aß binding capacity. On the other hand, AD entails a high level of nitro-oxidative stress associated with fibrillar aggregates of Aß that can induce albumin modification, thus affecting its biological functions. Results from the phase ii study confirm that using therapeutic apheresis to replace endogenous albumin with Albutein(®) 5% is feasible and safe in patients with AD. This process resulted in mobilisation of Aß and cognitive improvement in treated patients. The AMBAR study will test combination therapy with therapeutic apheresis and haemopheresis with the possible leverage effect of Albutein(®) with intravenous immunoglobulin replacement (Flebogamma(®) DIF). Cognitive, functional, and behavioural changes in patients with mild to moderate AD will be assessed. CONCLUSIONS: the AMBAR study represents a new therapeutic perspective for AD.

Native plasma-derived FVIII/VWF complex has lower sensitivity to FVIII inhibitors than the combination of isolated FVIII and VWF proteins. Impact on Bethesda assay titration of FVIII inhibitors.

Sensitivity to FVIII inhibitors of the native plasma-derived (pd) FVIII/VWF complex vs. the complexes formed after exogenous FVIII infusion in the haemophilic patient has not been thoroughly studied. The role of VWF in the interaction of FVIII with inhibitors was studied in vitro using different combinations of VWF and FVIII concentrates. Normal plasma, pdFVIII/VWF and isolated FVIII (recombinant FVIII, B-domain deleted and pdFVIII) were used. Titre (BU) was kinetically determined (up to 2 h) in serial dilutions of inhibitor IgG (purified from a pool of plasmas with inhibitors) mixed with VWF and then incubated with the different FVIII. Inhibitor was also added to previously mixed VWF+FVIII. Residual FVIII:C was determined. TGA assays were performed with FVIII-deficient plasma spiked with the FVIII-VWF mixtures with/without an ESH-8 antibody. Inhibitor titres for plasma and pdFVIII/VWF were comparable at all time points. Titres for all concentrates of isolated FVIII were significantly higher than those for plasma or pdFVIII/VWF (1.4-1.9 fold) even after preincubation with VWF. At t = 0 h, titres for plasma or pdFVIII/VWF were unquantifiable, but were detectable for isolated FVIII (0.6-1.6 BU). In contrast to pdFVIII/VWF, the decrease in thrombin generation parameters by isolated FVIII in the presence of ESH-8 was significant (P < 0.01) even when previously combined with VWF. In conclusion, VWF protection against FVIII inhibitor activity might be higher with native pdFVIII/VWF complex than with the corresponding compound formed from the isolated proteins. Bethesda assay titration using different FVIII concentrates would be advisable to guide the treatment of inhibitor patients.

Kinetics of the interaction between anti-FVIII antibodies and FVIII from therapeutic concentrates, with and without von Willebrand factor, assessed by surface plasmon resonance.

The presence of VWF in plasma-derived FVIII (pdFVIII/VWF) products has been pointed out as a key difference with recombinant FVIII (rFVIII) products with regard to immunogenicity. A Surface Plasmon Resonance (SPR) study was designed to characterize in detail the interaction between anti-FVIII (IgGs) from a severe haemophilia A patient, and FVIII from concentrates of different sources. Full-length rFVIII (preincubated or not with purified VWF), B domain-deleted (BDD)-rFVIII and pdFVIII/VWF were analysed. To ensure reproducible conditions for accurate determination of kinetic constants, a capture-based assay format was developed using protein G surfaces for specific and reversible coupling of endogenous anti-FVIII antibodies. Concentration ranges (nm) of FVIII products tested were 9-0.03 (rFVIII) and 6-0.024 (pdFVIII/VWF). The association with antibodies was monitored for 3-5 min, whereas dissociation of the complex was followed for 5-20-240 min. A strong interaction of rFVIII and BDD-rFVIII with patient's IgG was detected with the K (D) values in the low picomolar range (5.9 ± 3.0 and 12.7 ± 6.9 pm, respectively) and very slow dissociation rates, while pdFVIII/VWF showed only marginal binding signals. The VWF complexed rFVIII displayed reduced binding signals compared with uncomplexed rFVIII, but the K (D) was still in the picomolar range (4.1 ± 1.9 pm) indicating insufficient complex formation. rFVIII, alone or bound to exogenously added VWF, showed high affinity for anti-FVIII IgGs from a severe haemophilia A patient whereas pdFVIII/VWF did not. These results are in agreement with those studies that point towards rFVIII concentrates to be more immunogenic than pdFVIII concentrates.

Elimination capacity of a TSE-model agent in the manufacturing process of Alphanate/Fanhdi, a human factor VIII/VWF complex concentrate.

The variant Creutzfeldt-Jakob disease (vCJD) is a transmissible spongiform encephalopathy (TSE), mainly present in the UK and is associated with the ingestion of bovine products affected with bovine spongiform encephalopathy. Manufacturers of biological products must investigate the ability of their production processes to remove TSE agents. We studied the purification steps in the manufacturing process of two FVIII/VWF concentrates (Alphanate) and Fanhdi in their ability to eliminate an experimental TSE-model agent. Hamster scrapie strain 263K brain-derived materials were spiked into samples of the solutions taken before various stages during its production: 3.5% polyethylene glycol (PEG) precipitation, heparin affinity chromatography and saline precipitation/final filtrations. PEG precipitation and affinity chromatography were studied both as isolated and combined steps. TSE agent removal was determined using a laboratory scale model representative of the industrial manufacturing process. The prion protein (PrP(Sc)) was measured with Western blot and TSE infectivity was measured with bioassay. Western blot results were in agreement with those obtained by bioassay, showing a significant removal capacity in the production process: 3.21-3.43 log(10) for the PEG precipitation; about 3.45 log(10) for the affinity chromatography; and around 2.0 log(10) for the saline precipitation plus final filtrations. PEG precipitation and heparin affinity chromatography were demonstrated to be two complementary TSE-model agent removal mechanisms with total removal being the sum of the two. An overall reduction factor of around 8 log(10) can be deduced. The tests from the production process of FVIII/VWF complex concentrates have demonstrated their potential for eliminating TSE agents.

Flebogamma 5% DIF development: rationale for a new option in intravenous immunoglobulin therapy.

Flebogamma 5% dual inactivation and filtration (DIF), a new 5% liquid intravenous immunoglobulin with a stability of 2 years when stored at temperatures between 2 and 30 degrees C, has been developed. This new product is the result of the accumulated experience provided by Flebogamma, with more than 30 million grams administered since 1992 in Europe and the United States, and the implementation of the latest technology to improve Flebogamma even more by increasing its viral safety margin further. In addition to the specific inactivation stage for Flebogamma 5% (pasteurization), the new process includes a solvent-detergent treatment and nanofiltration through a Planova filter down to 20 nm. The preparation presents a mean purity of 99.6 +/- 0.2% with a correct chromatographic profile. Percentage values of immunoglobulin (Ig)G subclasses are equivalent to the physiological values of normal serum. The content in IgA as well as other possible impurities is very low, and the product presents a mean result of 109 +/- 5% in the Fc fragment functionality assay, demonstrating the integrity of the IgG molecule. The functionality is also reflected in neutralization tests carried out against poliomyelitis, diphtheria, measles and vaccinia which, apart from the antibody titres determined by enzyme-linked immunosorbent assay, guarantees that antibodies are capable of reacting against these pathogens. Regarding safety, the combination of multiple methods with capacity to inactivate or remove biological agents which include chemical inactivation, heat inactivation, nanofiltration and precipitations, with very different mechanisms of action, provides Flebogamma 5% DIF very wide margins of safety regarding to potential pathogens.

Safety procedures of coagulation factors.

Two main types of safety procedures must be applied to biological products, including plasma derivatives: (i) preventive procedures and (ii) elimination procedures. Prevention includes epidemiological control of donor populations; checks on each donor's health condition; analysis of each donation for the main pathogens using serological methods; additional analysis of all plasma for human immunodeficiency virus (HIV), hepatitis B virus (HBV), hepatitis C virus (HCV), hepatitis A virus (HAV) and the B19 virus, using nucleic acid amplification techniques (NAT). A 60 days or longer inventory hold of all plasma donations is applied, to allow additional time to discard previous donations from potential seroconverting or otherwise rejectable donors. Elimination procedures minimize the low residual risk of transmitting pathogens, including unknown or previously undetected ones. Since the introduction 20 years ago of solvent-detergent treatment, very effective against enveloped viruses (HIV, HBV, HCV, West Nile virus, SARS, avian influenza virus etc), there have been no known cases of transmission of this type of pathogens by products manufactured according to this procedure. Other inactivation procedures such as pasteurization, dry-heat or nanofiltration may prove equally effective. In addition, dry-heat treatment and nanofiltration are capable of effectively eliminating non-enveloped viruses (HAV, B19 virus). Recent studies show that the B19 virus is much more sensitive to heat (in lyophilized state or by pasteurization) and acid pH than previously thought. Although there is no evidence for the transmission of classic transmissible spongiform encephalopathies (TSEs) through blood or blood-products transfusion, four possible cases have been reported in the United Kingdom involving transmission by non-leukoreduced blood components of the agent that causes variant Creutzfeldt-Jakob Disease (vCJD), a disease linked to the outbreak of bovine spongiform encephalopathy (BSE) which took place in that country. However, there are no cases of human TSE (classic or variant) transmission by plasma-derived products. Analytical methods capable of detecting the vCJD agent in patients' brains (where high titres are found) and other tissues (such as the spleen, appendix and lymph nodes, where much lower concentrations are found) are unable to detect the agent in blood or plasma from patients with vCJD, even in the clinical phase of the disease. Experiments by Grifols and other groups show that the capacity of the production processes to eliminate vCJD agent models is many orders of magnitude greater than the maximum expected load of the agent. In this regard, the efficacy of precipitation, affinity chromatography, depth filtration and nanofiltration are particularly notable.

Critical factors influencing prion inactivation by sodium hydroxide.

BACKGROUND AND OBJECTIVES: Transmissible spongiform encephalopathies (TSEs) are fatal neurodegenerative diseases caused by aberrantly folded cellular proteins (PrP(Sc); prions) that are generally resistant to conventional pathogen-inactivation techniques. To ensure effective decontamination and inactivation of prions that could be present in source material, we investigated critical factors that influence prion inactivation by NaOH. MATERIALS AND METHODS: A decrease in prion infectivity correlates with the disappearance of the protease-resistant core of PrPSc (PrPRES) observed in biochemical assays. To model prion inactivation, hamster scrapie (strain 263K) brain homogenate (SBH) was incubated for specific periods of time in 0.1 m NaOH at 4 or 18 degrees C, with or without detergent. Neutralized samples were subjected to limited digestion with proteinase K (PK) and then analysed using an endpoint dilution western blot assay and antibody 3F4. Structural changes in prions exposed to NaOH were examined using differential immunoprecipitation. RESULTS: Treatment of SBH with 0.1 m NaOH for 15 min, in the absence of detergent, at 4 and 18 degrees C caused a reduction in the PrP(RES) signal of 3.5 and 4.0 log10 units, respectively, with some residual signal remaining. The presence of the detergent sarkosyl during a 60-min incubation in NaOH further enhanced PrPRES reduction to > or = 4.5 log10 units (i.e. below the limit of detection). NaOH treatment induced conformational changes in PrP that resulted in the exposure of a hidden epitope and enabled prion immunoprecipitation by antibody 3F4. CONCLUSIONS: The use of NaOH can effectively reduce prion levels in an in vitro inactivation assay. After pretreatment of SBH with detergent, NaOH completely eliminates the PrPRES signal. Detergent may liberate lipid membrane-protected PrPSc to improve access to NaOH, which can then inactivate PrPSc by altering its structure. In cases of unidentified exposure to PrPSc during manufacturing, sanitizing procedures combining the use of detergent and NaOH may help to ensure minimal levels of contamination carryover in products.

Possible alternative to European Pharmacopoeia's method of analysis Test for Fc Function of Immunoglobulin (2.7.9) by using tetanus toxoid as antigen.

Preparations of intravenous immunoglobulins must keep functional integrity throughout the purification process. In order to assess Fc fragment functionality, the European Pharmacopoeia proposes the Test for Fc function of immunoglobulin (2.7.9), which is based on a rubella antigen of high titre. Sometimes, such antigen is difficult to obtain. In the present study, we develop the same assay using tetanus toxoid instead of rubella antigen, adapting the procedure for the use of tetanus toxoid. The comparison between rubella-based and tetanus-based assays showed that the slopes of the haemolysis curves were higher if red blood cells had been sensitised with the rubella antigen than with tetanus toxoid. Nonetheless, the tetanus-based assay gave satisfactory results and it could be a good alternative antigen target.

Effect of temperature on plasma freezing under industrial conditions.

The European Pharmacopoeia monograph on Human plasma for fractionation does not define the freezing process time but does define the freezing temperature (- 30 degrees C or below). Initial freezing conditions are crucial for the quality of plasma. These conditions were intended to preserve labile proteins such as fVIIl, but they can also be considered favourable for the plasma quality in general. This study evaluates the way the industrial plasma freezing affects labile coagulation factors. We have studied the freezing of plasma in industrial-size chambers at temperatures close to - 30 degrees C, - 25 degrees C and - 20 degrees C, and the possible differences between performing the freezing process in a chamber or in a freezer, in order to elucidate whether or not these parameters affect the quality of plasma. For this study, plasma bottles were frozen in industrial chambers set at - 30 degrees C, - 25 degrees C and - 20 degrees C, and in a freezer set at - 20 degrees C. The freezing rates were followed by means of probes in plasma control bottles. From this plasma, coagulation factors (fVIII, fIX and fibrinogen) were analysed before and after freezing, and cryoprecipitate was obtained in some cases. Statistically significant differences exist in fVIII:C recovery in thawed plasma between freezing at - 30 degrees C and at - 20 degrees C (n = 11; 85.4 +/- 4.3 % versus 74.6 +/- 6.0 % (chamber) or 79.3 +/- 6.3 % (freezer)). There is no difference between - 30 degrees C and - 25 degrees C, or between freezing at - 20 degrees C in a chamber or in a freezer. No significant loss of activity in thawed plasma is observed for fIX and fibrinogen at - 25 degrees C or - 20 degrees C versus - 30 degrees C. The fVIII and vWF recovery in cryoprecipitates does not show differences (464.2 IU fVIII/ml at - 30 degrees C, 446.7 IU fVIII/ml at - 25 degrees C, and 475.8 IU fVIII/ml at - 20 degrees C). The results obtained from this study support that plasma might also be frozen at - 25 degrees C or below without any impact on its quality, and that sporadic and short term deviations, from - 30 degrees C or below up to - 25 degrees C, in the currently required freezing temperature, would not have an effect on the labile factors recovery.

Influence of von Willebrand factor on the reactivity of human factor VIII inhibitors with factor VIII.

In order to determine the difference in reactivity of factor (F) VIII inhibitors against the FVIII/von Willebrand factor (vWF) complex and against vWF-deficient FVIII, we investigated a panel of 10 antibodies to FVIII from multitransfused individuals with severe haemophilia A and other pathologies. Immunoblotting of purified FVIII and purified thrombin-cleaved FVIII revealed that in all cases inhibitor epitopes could be localized in the heavy chain (A2 subunit) while in four cases they were also present in the light chain. One of the FVIII inhibitors remained unclassified. The effect on FVIII:C of purified IgG from inhibitor plasmas was tested against a high purity FVIII/vWF concentrate and a monoclonally purified FVIII concentrate with only trace contents of vWF, by two different functional assays. Our results suggest that for those inhibitors showing A2 plus light chain (LC) reactivity, the IgG concentration required to inhibit 50% of FVIII activity in vitro is higher for the FVIII/vWF complex than for the vWF-deficient FVIII. We conclude that there might be a protective role of vWF (at least in vitro) against FVIII inhibitors with A2 and LC subunit specificity.

von Willebrand factor contained in a high purity FVIII concentrate (Fanhdi) binds to platelet glycoproteins and supports platelet adhesion to subendothelium under flow conditions.

BACKGROUND AND OBJECTIVE: There is evidence suggesting that von Willebrand factor (VWF) from high purity factor VIII concentrates could be of clinical use in the management of patients suffering from VWD. We analyzed structural and functional characteristics of VWF present in a high purity factor VIII concentrate VWFHPC (Fanhdi). The multimeric structure, the ability to bind to platelet GP Ib/IX or GP IIb/IIIa, and the capacity of VWFHPC to promote platelet adhesion on injured vessels were investigated and compared with that present in standard plasma cryoprecipitates [VWFCRYO]. DESIGN AND METHODS: Binding studies were carried out by incubating radiolabeled VWF and washed platelets, which were activated with either ristocetin (1 mg/mL; for GP Ib/IX), or thrombin (2.5 U/mL; for GP IIb/IIIa). Platelet adhesion was assessed in a perfusion system (shear rate = 800 s-1, 10 min) in which the source of VWF was added (at 0.4 or 0.8 U/mL VWF:Ag) to washed platelets and red cells suspended in a human albumin solution. The deposition of platelets onto the perfused subendothelial surface was morphometrically evaluated and expressed as percentage of surface coverage (%SC). RESULTS: The VWFHPC (152 Units VWF:RCof/mg protein; VWF:RCof/VWF:Ag = 0.97), lacked only a small proportion of high-molecular-weight multimers present in VWFCRYO. Binding affinities (Kd values, nM) of VWFHPC were similar to those of VWFCRYO (5.3 +/- 0.86 vs 5.2 +/- 0.95, for GP Ib/IX; and 11.6 +/- 2.7 vs 15.4 +/- 1.7 for GPIIb-IIIa). A slightly, though not significantly, higher binding capacity for these receptors (Bmax values, molecules/pit) was obtained for VWFHPC. The %SC in perfusions in the presence of albumin was < 10%. Addition of VWFHPC or VWFCRYO significantly increased the %SC, with values of 27.1 +/- 4.9 and 17.5 +/- 2.8%, respectively with 0.4 U/mL (p < 0.004 and p < 0.02 vs albumin); and 30.8 +/- 4.9% and 20.03 +/- 4.1%, respectively, at 0.8 U/mL (p < 0.001 and p < 0.02 vs albumin). INTERPRETATION AND CONCLUSIONS: Our data show that VWF present in the high purity FVIII concentrate Fanhdi retains the functional capacity to bind to GPs Ib/IX and IIb/IIIa and to promote platelet adhesion onto exposed subendothelium.

[No ELISA detectable alterations in immunogenicity following dry-hear treatment (72 hours at 80 degrees C) of FANHDI]. / Ausencia de alteraciones detectables por ELISA en la inmunogenicidad de FANHDI debidas al proceso de calentamiento en seco (72 horas a 80 degrees C).

OBJECTIVE: Neoantigen formation during heat treatment (HT) of factor VIII:von Willebrand Factor (FVIII:vWF) concentrates may induce an immune response against the modified protein, which may also affect the native protein. We present a comparative in vitro study on the immunogenicity of a dual virally inactivated (solvent-detergent and 80 degrees C 72 hours) high purity FVIII:vWF concentrate (Fanhdi) versus the same product without heat treatment. MATERIAL AND METHODS: For this purpose rabbit antisera were prepared using both Fanhdi and the same product from which the human albumin, used as stabilizer, had been removed (these were both HT products). Also, antisera were prepared against the same products made without the dry-heat treatment step (non-HT products). Antisera were analysed by Elisa. Mixtures of antisera with increasing amounts of product (incubation-absorption in liquid phase) were assayed in plates coated with HT and non-HT products. RESULTS: The binding of antibodies against HT products to ELISA plates coated with HT products, could be blocked (in a saturable manner) with non-HT products, following liquid phase incubation. These results strongly suggest the absence of neonantigens. Furthermore, the binding of antibodies against non-HT products to ELISA plates coated with non-HT products, could be blocked (also in a saturable manner) with HT products. This result indicates that there is no epitope loss. CONCLUSIONS: The data obtained in these studies suggest that the heat treatment of viral inactivation as applied in Fanhdi, does not give rise to any major alteration in immunogenicity of the product. The data from clinical and drug surveillance studies carried out with Fanhdi do not show any indication of an increase in the frequency of inhibitors.

Functional compensation of the low platelet count by increased individual platelet size in a patient with May-Hegglin anomaly presenting with acute myocardial infarction.

Platelets are known to play a crucial role in normal hemostasis as well as in thrombus formation at sites exposed to blood flow, as in coronary thrombosis. Thus, low platelet count is a strong negative risk factor for the occurrence of arterial thrombosis, such as occurs in acute myocardial infarction. We encountered a patient with May-Hegglin anomaly, presenting with acute myocardial infarction in his sixth decade, even though his platelet counts had always been less than 50 x 10(3)/microl. We investigated the characteristics of his platelets under the effect of shearing and found that shear-induced platelet aggregation and binding of soluble von Willebrand factor (vWF) to platelets could be induced, even when the patient's platelet count was less than 10 x 10(3)/microl, but that virtually no aggregation or vWF binding by normal platelets could be induced by shearing when platelet counts were less than 50 x 10(3)/microl. We conclude that the low platelet counts in a patient with May-Hegglin anomaly can be functionally compensated for by larger individual platelets, in view of the vWF-dependent platelet thrombus formation occurring under the effect of blood flow and that that is why most patients with May-Hegglin anomaly do not have a bleeding tendency, even though their platelet counts are very low.

[Functionality of von Willebrand factor present in Fanhdi: adhesion to the vascular subendothelium in vitro]. / Estudio de la funcionalidad del factor von Willebrand presente en Fanhdi: adhesión a subendotelio vascular in vitro.

PURPOSE: To study the ability of VWF present in a plasma derived high purity factor VIII concentrate (> or = 100 UI FVIII/mg of protein, Fanhdi) to promote deposition and platelet adhesion on the injured vessel wall, as an indicator of the functionality of said VWF. MATERIAL AND METHODS: An in vitro perfusion system was employed. Adequate proportions of platelets and red cells were suspended in a human albumin solution. Aliquots of the studied product were added to obtain levels of 0.4 and 0.8 VWF:AG U/mL in the perfusates. As a comparative group, cryoprecipitate was assayed at similar VWF:Ag doses. Perfusions were performed on rabbit de-endothelialized abdominal aorta segments, placed in annular perfusion chambers, at 37 degrees C and at a flux of 140 mL/min (800 s-1) for 10 min. Results were evaluated as surface covered by platelets and as the percentage ratio between thrombus and surface covered by platelets. FVIII activity was determined by one stage clotting assay. VWF:RCo activity was determined by aggregometry and VWF:Ag by ELISA. RESULTS: The VWF:Ag/FVIII:C ratio of Fanhdi is 1.57, while VWF:Roc/FVIII:C ratio is 1.15. The values of platelet deposition obtained, expressed as times of increase in the surface covered by platelets, considering the basal value (without VWF added) as 1, were: Cryoprecipitate 0.4 = 1.93; Cryoprecipitate 0.8 = 2.21; Fanhdi 0.4 = 2.99; Fanhdi 0.8 = 3.40. The ratios between thrombus and surface covered are 13.23%, 23.84%, 42.23%, 21.93% and 26.25% respectively. CONCLUSIONS: These data show that VWF present in Fanhdi maintains a high degree of functionality, promoting platelet adhesion on subendothelium under flow conditions, after its incorporation into an albumin-platelet-red cell preparation and resulting in a significant increase in platelet adhesion when compared to the VWF-free basal control.

A modification of the APC resistance test and its application to the study of patients on coumarin therapy.

APC resistance appears to be caused, predominantly, by a mutation in coagulation factor V (nucleotide 1691: G to A). This phenomenon is usually studied by performing APTTs in the absence and presence of added APC. We studied a modification of the assay involving dilution of the test plasma in factor V deficient plasma, to render the assay more factor V specific. This modification was applied to 76 patients with venous thrombosis on coumarin treatment and to 45 controls. Two out of 45 controls (4.4%) showed abnormal results with the modified test. They also showed loss of factor V exon 10 Mnl I restriction site, associated to APC resistance. All remaining controls, with normal functional results by the modified assay, showed normal restriction profile. We detected 9 affected patients (11.8%), one of them homozygous or double heterozygous. In conclusion, the modified assay is very sensitive for factor V dependent APC resistance, and can successfully be applied to patients on coumarin therapy.

[Development and characterization of a high-purity human factor VIII concentrate submitted to 2 specific virus inactivation treatments (FANDHI)]. / Desarrollo y caracterización de un concentrado de factor VIII humano de alta pureza, sometido a dos tratamientos específicos de inactivation viral (Fanhdi).

AIM: To develop a therapeutic human high purity FVIII concentrate, treated with two documented and complementary specific inactivation methods, for the treatment of haemophilia A. MATERIAL AND METHODS: Cryoprecipitate was obtained from human plasma, normal for ALT levels and negative for HBsAg and antibodies to HIV and to HCV. The cryoprecipitate was resuspended and purified with PEG. The PEG precipitate was resuspended and treated with TNBP/Polysorbate 80. The mixture was processed by heparin affinity chromatography. The eluate was concentrated and precipitated with glycine and salts. After resuspension, stabilizers were added and the solution was sterile filtered, dispensed in vials and lyophilized. These final vials were treated at 80 degrees C for 72 hours: FVIII:C, vWF:RCo, vWF:Ag, vWF multimeric structure and the concentration of other plasmatic proteins were analyzed. RESULTS: FVIII: C specific activity was between 1000 and 3000 U/mg (after elimination of vWF, present as a stabilizer and before the addition of human pasteurized albumin). vWF:RCo activity (0.7 U vWF:RCo/U FVIII:C) and the multimeric structure of vWF showed a good degree of conservation. Other plasmatic proteins analyzed were undetectable or at trace amounts. No prekalllikrein, kallikrein or activated coagulation factors activity could be detected. CONCLUSION: The FVIII concentrate described shows a high degree of purity and stability, which makes it very suitable for haemophilia A treatment.

[Evaluation of viral safety of a high-purity human factor VIII concentrate submitted to 2 specific virus inactivation treatments (FANDHI)]. / Estudio de validación de la seguridad viral de un concentrado de factor VIII humano de alta pureza, sometido a dos tratamientos específicos de inactivación viral (FANHDI).

AIM: To perform a validation study of the production process of a human high purity FVIII concentrate, obtained by affinity chromatography and treated with solvent-detergent and 80 degrees C, 72- hour dry heating in the final vial, in order to demonstrate its viral safety. MATERIAL AND METHODS: The ability to inactivate or eliminate viruses was studied in the steps of PEG precipitation, solvent-detergent treatment (6 h 25 degrees C), affinity chromatography and lyophilization plus heating 80 degrees C for 72 h. HIV and models for hepatitis A, B and C, as well as a model for parvovirus B-19 were employed. The experiments were carried out by spiking the samples at each step with 10% of their volume with the highest titer available virus culture. The samples were processed under validated conditions (mimicking the industrial process) and the residual infectivity was determined (as well as p24 antigen and reverse transcriptase for HIV at the solvent-detergent step). RESULTS: No residual infectivity could be detected for enveloped viruses (HIV and models for hepatitis B and C) after the first minutes of solvent-detergent treatment, which lasts 6 hours. Lyophilization followed by heating 80 degrees C for 72 hours caused complete disappearance of infectivity for the models of hepatitis A and C, before 24 hours of a treatment which lasts 72. Furthermore, lyophilization plus heating reduced infectivity for the models of hepatitis B and parvovirus B-19 by 3.4 and 4.1 logs, respectively. The affinity chromatography reduced infectivity by 7.6 logs for the model of hepatitis B and 2 logs for HIV. PEG precipitation also reduced the infectivity by 3.3 logs for the model of hepatitis A and by 1.2 logs for the model of parvovirus B-19. Taking the process as whole, the study showed cumulative reduction values between 5.3 and > 19 logs of the analyzed viruses. 25 million FVIII units have been transfused so far as FANHDI, with no seroconversion detected. Furthermore, no increase in FVIII inhibitor frequency has been described. CONCLUSION: The FVIII concentrate described shows outstanding viral safety characteristics. These data, together with the preliminary clinical experience after one year usage of the product, indicate that FANHDI is a suitable preparation for haemophilia A treatment.