In silico evaluation of limited sampling strategies for individualized dosing of extended half-life factor IX concentrates in hemophilia B patients.

PURPOSE: Hemophilia B is a bleeding disorder, caused by a factor IX (FIX) deficiency. Recently, FIX concentrates with extended half-life (EHL) have become available. Prophylactic dosing of EHL-FIX concentrates can be optimized by assessment of individual pharmacokinetic (PK) parameters. To determine these parameters, limited sampling strategies (LSSs) may be applied. The study aims to establish adequate LSSs for estimating individual PK parameters of EHL-FIX concentrates using in silico evaluation. METHODS: Monte Carlo simulations were performed to obtain FIX activity versus time profiles using published population PK models for N9-GP (Refixia), rFIXFc (Alprolix), and rIX-FP (Idelvion). Fourteen LSSs, containing three or four samples taken within 8 days after administration, were formulated. Bayesian analysis was applied to obtain estimates for clearance (CL), half-life (t1/2), time to 1% (Time1%), and calculated weekly dose (Dose1%). Bias and precision of these estimates were assessed to determine which LSS was adequate. RESULTS: For all PK parameters of N9-GP, rFIXFc and rIX-FP bias was generally acceptable (range: -5% to 5%). For N9-GP, precision of all parameters for all LSSs was acceptable (< 25%). For rFIXFc, precision was acceptable for CL and Time1%, except for t1/2 (range: 27.1% to 44.7%) and Dose1% (range: 12% to 29.4%). For rIX-FP, all LSSs showed acceptable bias and precision, except for Dose1% using LSS with the last sample taken on day 3 (LSS 6 and 10). CONCLUSION: Best performing LSSs were LSS with samples taken at days 1, 5, 7, and 8 (N9-GP and rFIXFc) and at days 1, 4, 6, and 8 (rIX-FP), respectively.

Population Pharmacokinetics of Clotting Factor Concentrates and Desmopressin in Hemophilia.

Hemophilia A and B are bleeding disorders caused by a deficiency of clotting factor VIII and IX, respectively. Patients with severe hemophilia (< 0.01 IU mL-1) and some patients with moderate hemophilia (0.01-0.05 IU mL-1) administer clotting factor concentrates prophylactically. Desmopressin (D-amino D-arginine vasopressin) can be applied in patients with non-severe hemophilia A. The aim of administration of factor concentrates or desmopressin is the prevention or cessation of bleeding. Despite weight-based dosing, it has been demonstrated that factor concentrates still exhibit considerable pharmacokinetic variability. Population pharmacokinetic analyses, in which this variability is quantified and explained, are increasingly performed in hemophilia research. These analyses can assist in the identification of important patient characteristics and can be applied to perform patient-tailored dosing. This review aims to present and discuss the population pharmacokinetic analyses that have been conducted to develop population pharmacokinetic models describing factor levels after administration of factor VIII or factor IX concentrates or D-amino D-arginine vasopressin. In total, 33 publications were retrieved from the literature. Two approaches were applied to perform population pharmacokinetic analyses, the standard two-stage approach and non-linear mixed-effect modeling. Using the standard two-stage approach, four population pharmacokinetic models were established describing factor VIII levels. In the remaining 29 analyses, the non-linear mixed-effect modeling approach was applied. NONMEM was the preferred software to establish population pharmacokinetic models. In total, 18 population pharmacokinetic analyses were conducted on the basis of data from a single product. From all available population pharmacokinetic analyses, 27 studies also included data from pediatric patients. In the majority of the population pharmacokinetic models, the population pharmacokinetic parameters were allometrically scaled using actual body weight. In this review, the available methods used for constructing the models, key features of these models, patient population characteristics, and established covariate relationships are described in detail.

Monitoring coagulation factors during surgery. A systematic review.

OBJECTIVE: The management of surgeries in patients with hemophilia is  complex and requires adequate clotting factor adjustment to avoid bleeding  complications and excessive factor consumption. The aim of this systematic  review is to analyze the pharmacokinetic studies published on surgery in  hemophilic patients, the methodologies used, the main pharmacokinetic covariates applied, and the recommendations made by clinical guidelines. METHOD: A structured search was performed in Pubmed, the Cochrane Library,  and the Database of Abstracts of Reviews of Effects using the search terms  hemophilia (or haemophilia), surgery and pharmacokinetics (or PK). No date or  language limits were established. Results: The search yielded 186 results, from which 34 articles were selected.  Many of these analyzed the use of continuous infusions with the aim of  achieving stable factor VIII or IX levels and reducing overall factor  consumption. However, continuous infusions have fallen into disuse. For  decades, clinical guidelines have recommended the performance of comprehensive pharmacokinetic studies prior to surgery (9-11 samples). The clearance rate obtained is used to adjust the presurgical factor  dose (or the infusion rate in case of continuous perfusion). Another approach is the use of population pharmacokinetic models, which allow adjustments to  be made based on a more limited number of samples. However, the validity of  these presurgical pharmacokinetic estimates ceases as soon as the surgical  procedure is initiated, making it necessary to adjust the dose based on periodic  peak and trough levels. In addition, depending on the  type of  surgery, clinical guidelines recommend maintaining factor VIII and IX levels  above specific thresholds for certain periods of time, which makes it essential  to use pharmacokinetics during the pre- and post-surgical process. In recent  years, specific factor VIII and factor IX pharmacokinetic population models  have been developed for surgery. The main covariates of these population  pharmacokinetic models are age, blood type, and type of surgery for factor  VIII; and age and body weight for factor IX. CONCLUSIONS: Pharmacokinetic estimation could allow individual and standardized intraoperative dose adjustments to be conducted in patients with hemophilia. The development of specific population  pharmacokinetic models for surgery, including those based on extended half- life factors, will allow an optimization of current treatments, potentially  reducing factor consumption and hospital stays.

OBJETIVO: El manejo de las cirugías en pacientes hemofílicos es complejo y  requiere de un ajuste adecuado de los factores de coagulación para evitar  complicaciones hemorrágicas y un consumo elevado. El objetivo de esta  revisión sistemática es analizar los estudios farmacocinéticos publicados en  cirugía en pacientes con hemofilia, las metodologías empleadas, las principales  covariables farmacocinéticas y las recomendaciones de las guías  clínicas.Método: Se ha realizado una búsqueda estructurada sin restricciones de fecha  ni idioma en Pubmed, Cochrane y Database of Abstracts of Reviews of  Effects empleado los mismos términos de búsqueda: (hemophilia or  haemophilia), surgery y (pharmacokinetics or PK). Resultados: La búsqueda sistemática obtuvo 186 resultados, de los que seleccionamos 34 artículos. Muchos estudios analizaban el uso de  erfusiones continuas con el objetivo de lograr niveles estables de factor VIII o  IX y reducir el consumo global, aunque su empleo ha caído en desuso. Durante  décadas las guías clínicas recomendaban realizar estudios  farmacocinéticos completos previos a la cirugía (9-11 muestras), según los  cuales se ajusta la dosis prequirúrgica, así como la velocidad de infusión en caso de perfusión continua basándose en el aclaramiento calculado. Otra aproximación es el empleo de modelos poblacionales farmacocinéticos, ajustando con un número más limitado de muestras. Estas  estimaciones farmacocinéticas prequirúrgicas pierden validez tan pronto como  se inicia un procedimiento quirúrgico, y tienen que ajustarse con niveles pico y valle periódicos. Además, las guías clínicas recomiendan, en función del  populationtipo de cirugía, mantener los niveles de factores VIII y IX por  encima de los umbrales específicos durante periodos, por lo que resulta  fundamental emplear la farmacocinética durante el proceso pre y  postquirúrgico. En los últimos años se han desarrollado modelos poblacionales  farmacocinéticos de factores VIII y IX específicos para cirugía. Las principales  covariables de estos modelos son la edad, el grupo sanguíneo y el tipo de  cirugía para el factor VIII, y la edad y el peso corporal para el factor IX. CONCLUSIONES: La farmacocinética puede permitir ajustar de forma individual y  protocolizada las cirugías en pacientes hemofílicos. El desarrollo de modelos farmacocinéticos poblacionales específicos para cirugía, incluyendo los factores de vida media extendida, permitirá optimizar estos tratamientos, con potencial reducción del consumo y las  estancias hospitalarias.

Reversal of Apixaban and Rivaroxaban Using Activated Prothrombin Complex Concentrates in Patients with Major Bleeding.

BACKGROUND: Clinical experience with using activated prothrombin complex concentrates (aPCCs) to reverse the effects of factor Xa inhibitors is limited. OBJECTIVES: Our objective was to assess the achievement of effective clinical hemostasis using aPCC in patients on chronic apixaban or rivaroxaban therapy presenting with major bleeding in whom a reversal agent is warranted. We also assessed the safety of the drug. METHODS: A retrospective medical records review was conducted at a tertiary referral medical center in the USA. Patients presenting with major bleeding while receiving apixaban or rivaroxaban and treated with aPCC were included. Clinical hemostasis was assessed using International Society of Thrombosis and Hemostasis Scientific and Standardization Subcommittee criteria. RESULTS: A total of 35 patients were included in the study. The most common site of bleeding was intracerebral hemorrhage (ICH) (n = 18 [51.4%]), followed by gastrointestinal bleed (n = 10 [28.6%]). Clinical hemostasis was achieved in 24 (68.6%) patients; 11 patients (31.4%) did not achieve clinical hemostasis; nine of these patients had ICH. Seven of the patients who did not achieve hemostasis died during hospitalization. Three (8.6%) patients experienced thromboembolic events during hospitalization. In total, 21 (60%) patients were receiving concomitant medications that interact with anti-factor Xa inhibitors and can increase the risk of bleeding. CONCLUSIONS: Our study suggests that aPCC could be an option in patients with major bleeding associated with apixaban or rivaroxaban. It may be an alternative for patients who need anticoagulation reversal if the specific antidote, andexanet alfa, is unavailable.

Joint Bleeding Tendencies in Adult Patients With Hemophilia: It's Not All Pharmacokinetics.

Hemophilic arthropathy from joint bleeding remains a complication with major morbidity in the increasingly aging patients with hemophilia. Prophylactic clotting factor infusions, based on pharmacokinetic dosing to reduce bleeding rates, are being explored more and more. However, there is little evidence on the benefits of pharmacokinetic dosing in direct association with bleeding events. Here, we prospectively followed a cohort of adult patients with hemophilia A and B (n = 26) and arthropathic joints on various clotting factor products over a period of 2 years with clinical and radiographic joint health assessments, frequent joint ultrasound, and pharmacokinetic studies. Joint bleeds and synovitis with synovial vascularity changes were objectively diagnosed by musculoskeletal ultrasound and power Doppler and analyzed in relation to pharmacokinetic, joint- and patient-specific parameters. Results revealed that, contrary to common beliefs, bleeding episodes were not readily explained by pharmacokinetic features, as they were not associated with more time spent below certain clotting factor thresholds. Joint bleeding was found to be associated with prominent vascularity changes, suggesting that vascular remodeling and leakiness may contribute to joint bleeding that cannot be prevented by clotting factor replacement alone.

Laboratory assay measurement of modified clotting factor concentrates: a review of the literature and recommendations for practice.

Over the past several years, novel modified clotting factor concentrates (CFCs) have been introduced into practice and are now widely prescribed in the countries where they are licensed. These products allow for less frequent infusions of CFC, thereby providing improved convenience and/or higher trough levels. They have been extensively studied for prophylaxis, episodic treatment of bleeding and for surgical prophylaxis. One issue that has emerged regarding the clinical application of these products revolves around the measurement of infused CFC in the clinical coagulation laboratory. Recent studies have demonstrated significant problems with the measurement of correct FVIII/IX levels following infusion of novel CF VIII/IX concentrates. The source of this problem appears to be related to the tremendous variability of the APTT reagents that are used in the one-stage clotting assay, the most commonly used assay for determining factor levels. More specifically, the issue is related to the type of activator used in the reagents. Depending on the combination of the CFC and the APTT activator, the observed results may be either under- or overestimated to degrees that would be clinically relevant. Recommendations based on a review of published information regarding the potential for incorrect measurements of factor VIII/IX levels following infusion of recently developed, novel factor VIII/IX CFCs are presented for the clinician to use in clinical practice.

Pharmacokinetics and the transition to extended half-life factor concentrates: communication from the SSC of the ISTH.

Extended half-life proteins (EHL) are increasingly used in clinical practice, but there is no standardized approach to sampling, interpretation and implementation of pharmacokinetics (PK) data to maximize treatment benefit. The goal of EHL treatment is to attain a trough level sufficient to protect against spontaneous bleeds and reduce infusion frequency and limitations on individual activity and lifestyle. Performing classical PK assessments requires multiple blood samples, which is burdensome for patients and providers. Herein we review a population pharmacokinetic (popPK) approach to estimate individual PK parameters to transition patients from standard half-life (SHL) to EHL concentrates. We propose that a minimum of two to four post-infusion samples is sufficient to estimate individual PK profiles, with sufficient certainty to maintain factor levels above 1% and achieve bleed-free lifestyles. We also survey current PK use in patients transitioning to EHL, review key PK parameters and popPK models, and recommend an approach to using PK in patients initiating or switching to EHL.

Factor (F)VIII/VIIa enhances global haemostatic function in the co-presence of bypassing agents and FVIII among patients with haemophilia A with inhibitor.

Bypassing therapy is essential for the haemostatic management of patients with haemophilia A with inhibitor (PWHA-inh), but the therapeutic effects are inconsistent. We previously reported that activated prothrombin complex concentrates (aPCC) activated factor (F)VIIIin vitro, and was mediated mainly by the activated FVII (FVIIa) contained in aPCC. We have extended those studies to assess global coagulation in whole blood from 18 PWHA-inh in the co-presence of aPCC and FVIII using Ca2+ -triggered rotational thromboelastometry. The clot times (CTs) in the presence of both aPCC (0·05 iu/ml) and recombinant (r)FVIII (1 iu/ml) ex vivo were shortened compared to the aPCC alone (P < 0·01). These enhancing effects of rFVIII were observed, irrespective of recognizing inhibitor epitopes; however, the clot formation time and 'α'-angle were not significantly different. In samples from 7 PWHA-inh post-infusion of aPCC (70-80 iu/kg), only the CTs were shortened in the presence of rFVIIIex vivo compared to its absence (P < 0·05), indicating that the enhanced activity centred on the initiation phase of coagulation. Furthermore, experiments in the co-presence of rFVIIa and rFVIII demonstrated that FVIII accelerated only the CTs. We concluded that FVIII/FVIIa-related coagulation mechanism enhanced global haemostatic function by the co-presence of bypassing agents and FVIII in PWHA-inh.

Clinical effects with inhibition of multiple coagulative pathways in patients admitted for acute coronary syndrome.

Platelets and the coagulation cascade play key roles in initiation, amplification, and perpetuation of acute coronary syndromes (ACS). In the past few years, there has been great progress in ACS antithrombotic treatment with the introduction of novel anticoagulants (fondaparinux and bivalirudin), more potent P2Y12 inhibitors (prasugrel and ticagrelor) and protease-activated receptor antagonists (vorapaxar). Nonetheless, patients with ACS frequently have recurrent ischemic events despite the use of currently recommended dual antiplatelet therapy, revascularization procedures as appropriate, and other evidence-based secondary preventive measures. This is the rationale beyond intensification of antiplatelet therapy. However, the major downside of intensive antithrombotic therapy is bleeding. When treating ACS patients, clinicians should find the adequate balance between the reduction of thrombotic events by effective drug treatment and the induction of bleeding that is linked to the use of potent or multiple antithrombotic agents. Numerous antithrombotic cocktails including oral anticoagulants with or without aspirin have been tested in large clinical trials with the goal of further reduction of ischemia and bleeding risk. The aim of this review is to discuss clinical outcomes resulting from inhibition of multiple coagulative pathways in patients with ACS in light of evidence from large randomized controlled clinical trials.

Using pharmacokinetics to individualize hemophilia therapy.

Prevention and treatment of bleeding in hemophilia requires that plasma clotting factor activity of the replaced factor exceeds a defined target level. Most clinical decisions in hemophilia are based on implicit or explicit application of pharmacokinetic measures. The large interindividual variability in pharmacokinetics of factor concentrates suggests that relying on the average pharmacokinetic characteristics of factor concentrates would not allow optimizing the treatment of individual patients; for example, adjusting the frequency of infusions and targeting a specific clotting factor activity level on a case-by-case basis. However, individual pharmacokinetic profiles are seldom assessed as part of routine clinical care. Population pharmacokinetics provide options for precise and convenient characterization of pharmacokinetics characteristics of factor concentrates, simplified individual pharmacokinetic profiling, and individualized dosing. Population pharmacokinetics allow for the incorporation of determinants of interpatient variability and reduces the need for extensive postinfusion plasma sampling. Barriers to the implementation of population pharmacokinetics are the need for concentrate-specific pharmacokinetic models, Bayesian calculation power, and specific expertise for production, validation, and appraisal of forecasted estimates. Population pharmacokinetics provide an important theoretical and practical contribution to tailoring the treatment of hemophilia. The need remains for prospective exploration of the clinical impact of tailoring hemophilia treatment based on individual pharmacokinetics, and for the systematic validation of existing software solutions and concentrate-specific models.

Partnering to change the world for people with haemophilia: 7th Haemophilia Global Summit, Madrid, Spain 22-24 September 2016.

The 7th Haemophilia Global Summit was held in Madrid, Spain, in September 2016. With a programme designed, for the 6th consecutive year, by a Scientific Steering Committee of haemophilia experts, the aim of the summit was to share optimal management strategies for haemophilia at all life stages and to provide an opportunity for specialists from across the haemophilia multidisciplinary care team to engage in discussion and debate with leading international experts on current and future areas of research. Topics covered ranged from the optimisation of haemophilia management, emerging issues in clinical care, practical approaches and future perspectives, in addition to patient engagement and empowerment in modern haemophilia care.

Anticoagulant Reversal and Anesthetic Considerations.

Bleeding complications are a common concern with the use of anticoagulant agents. In many situations, reversing of neutralizing their effects may be warranted. Prothrombin complex concentrate replaces coagulation factors lowered by warfarin, as does fresh frozen plasma, but in a more concentrated form. Protamine negates the effect of heparin and combines chemically with heparin molecules to form an inactive salt. It also partially reverses the effects of low-molecular-weight heparin. Recombinant activated factor VII is a nonspecific procoagulant that activates the extrinsic clotting pathway, resulting in thrombin generation, but does not directly neutralize the activity of any of the new oral anticoagulants.

Tailoring treatment of haemophilia B: accounting for the distribution and clearance of standard and extended half-life FIX concentrates.

The prophylactic administration of factor IX (FIX) is considered the most effective treatment for haemophilia B. The inter-individual variability and complexity of the pharmacokinetics (PK) of FIX, and the rarity of the disease have hampered identification of an optimal treatment regimens. The recent introduction of extended half-life recombinant FIX molecules (EHL-rFIX), has prompted a thorough reassessment of the clinical efficacy, PK and pharmacodynamics of plasma-derived and recombinant FIX. First, using longer sampling times and multi-compartmental PK models has led to more precise (and favourable) PK for FIX than was appreciated in the past. Second, investigating the distribution of FIX in the body beyond the vascular space (which is implied by its complex kinetics) has opened a new research field on the role for extravascular FIX. Third, measuring plasma levels of EHL-rFIX has shown that different aPTT reagents have different accuracy in measuring different FIX molecules. How will this new knowledge reflect on clinical practice? Clinical decision making in haemophilia B requires some caution and expertise. First, comparisons between different FIX molecules must be assessed taking into consideration the comparability of the populations studied and the PK models used. Second, individual PK estimates must rely on multi-compartmental models, and would benefit from adopting a population PK approach. Optimal sampling times need to be adapted to the prolonged half-life of the new EHL FIX products. Finally, costs considerations may apply, which is beyond the scope of this manuscript but might be deeply connected with the PK considerations discussed in this communication.

Reversal of warfarin anticoagulation using prothrombin complex concentrate at 25 IU kg-1 : results of the RAPID study.

BACKGROUND: Real-world studies of the emergency reversal of warfarin using 4-factor prothrombin complex concentrate (PCC) report unwarranted delays. The delay to receiving PCC was ≥ 8 h in 46·7% of patients with warfarin-associated bleeding (PWAB) treated with a variable PCC dosing protocol in our retrospective audit. OBJECTIVE: To report the impact of a simplified PCC dosing protocol on the interval to reversal of anticoagulation. METHODS: We developed a PCC dosing protocol standardising the initial PCC dose and simplifying dosing calculations. Study end points were the proportion of PWAB achieving international normalised ratio (INR) ≤1·5 and treated within 8 h of presentation, respectively. RESULTS: Of 17, 15 (88·2%) PWABs achieved a post-treatment INR ≤ 1·5; 14 of 17 (82·4%) PWABs were reversed within 8 h. Median intervals between triage and PCC request and PCC request and start of infusion (administration interval) were 126 min (range 39-520) and 30 min (range 5-100), respectively. Compared with the retrospective cohort, RAPID is associated with an improved administration interval (mean 37·7 vs 76 min, P = 0·031) and the proportion of PWABs treated within 30 min (58·8 vs 6·7%, P = 0·009). CONCLUSION: The RAPID protocol reduces unwarranted delays without compromising efficacy.

Changing Paradigm of Hemophilia Management: Extended Half-Life Factor Concentrates and Gene Therapy.

Management of hemophilia has evolved significantly in the last century-from recognition of the causative mechanism in the 1950s to commercially available clotting factor concentrates in the 1960s. Availability of lyophilized concentrates in the 1970s set the stage for home-based therapy, followed by introduction of virally attenuated plasma-derived, and then recombinant factor concentrates in the 1980s and 1990s, respectively. The subsequent years saw a paradigm shift in treatment goals from on-demand therapy to prophylactic factor replacement starting at an early age, to prevent hemarthrosis becoming the standard of care for patients with severe hemophilia. In the developed world, the increasing use of home-based prophylactic regimens has significantly improved the quality of life, and life expectancy of patients with severe hemophilia. Seminal developments in the past 5 years, including the commercial availability of extended half-life factor concentrates and the publication of successful results of gene therapy for patients with hemophilia B, promise to further revolutionize hemophilia care over the next few decades. In this review, we summarize the evolution of management for hemophilia, with a focus on extended half-life factor concentrates and gene therapy.

New products for the treatment of haemophilia.

Current developments in haemophilia therapy are directed at two therapeutic targets: reduction of injection frequency and reduction or bypassing of inhibitors. A variety of new molecules addressing these aims are now completing clinical trials and are ready to enter clinical use. First amongst these are modified Factor VIII (FVIII) and Factor IX (FIX) molecules with extended half-lives. FIX modifications have achieved 5-fold prolongation of half-life whilst effects on FVIII have been more modest, at less than two-fold. We now face the problem of integrating these into clinical practice. Other approaches have generated chemically modified FVIII molecules with altered activation profiles. An alternative way of correcting the haemophilia defect is to reduce the activity of natural anticoagulants in an attempt to restore the balance of haemostasis. These methods are also giving promising results but, as with all new approaches, it will be some while before they all find their place in practice.

Importance of pharmacokinetic studies in the management of acquired factor X deficiency.

Up to 14% of individuals with systemic AL amyloidosis develop acquired factor X deficiency, which occurs due to adsorption of factor X onto amyloid fibrils. Although baseline factor X levels are not predictive of bleeding risk in these patients, serious hemorrhagic complications can occur, particularly during invasive procedures. Optimal management strategies to attenuate bleeding risk in these patients are unknown. We describe our experience in the management of acquired factor X deficiency, secondary to systemic AL amyloidosis, in a case series of three patients who received prothrombin complex concentrates (PCCs) for treatment and prevention of bleeding events. We performed a retrospective review extracting information on baseline demographics, laboratory data, pharmacokinetic (PK) studies, and clinically documented bleeding events. Our case series demonstrates that individuals with acquired factor X deficiency secondary to amyloidosis have variable laboratory and clinical responses to PCCs. This is likely due to distinct amyloid loads and fibril sequences, leading to different binding avidities for factor X. Our data emphasize the importance of performing PK testing prior to any invasive procedures to determine the dose and frequency interval to achieve adequate factor X levels for hemostasis, given the variable response between individuals.

Longer-acting clotting factor concentrates for hemophilia.

Hemophilia, when severe, leads to spontaneous life-threatening bleeding episodes. Current therapy requires frequent intravenous infusions. Most patients must limit their physical activities to avoid bleeding when the factor activity levels are below normal. In 2014, new therapeutic factor VIII and IX products were approved in Canada and the U.S. Over the next couple of years, other new factor products will likely be approved. These new factors have been engineered to have improved pharmacokinetic properties, including extended half-life in circulation, thus providing major therapeutic advances for patients with hemophilia. In the completed clinical trials, over 700 patients have successfully used these longer acting products regularly for more than one year. These promising new therapies should allow patients with hemophilia to use fewer infusions to prevent spontaneous bleeding or to treat bleeding episodes, and to provide appropriate clotting factor levels for different physical activities.