Final Results of the Prospective ADVATE® Immune Tolerance Induction Registry (PAIR) Study with Plasma- and Albumin-Free Recombinant Factor VIII.

INTRODUCTION: Neutralizing antibodies to coagulation factor VIII (FVIII) remain a major complication associated with FVIII replacement therapy. AIM: To assess safety and efficacy of immune tolerance induction (ITI) therapy with ADVATE® (antihemophilic factor [recombinant] [rAHF]) in patients who participated in the Prospective ADVATE Immune Tolerance Induction Registry (PAIR) study.
METHODS: The PAIR study was an international, multicenter, open-label, prospective, observational study in patients with hemophilia A and inhibitors, prescribed rAHF ITI therapy in clinical practice. The primary endpoint was adverse event (AE) reporting; the secondary endpoints included incidence of central venous access device-related complications and success rates of ITI therapy. Maintenance of immune tolerance was monitored for 12 months post-ITI therapy.
RESULTS: Of 44 patients, 36 completed ITI therapy, including 31 completing the 12-month follow-up. Most patients received rAHF 90-130 IU/kg/day (59.1%) and a mean of 6.0 doses/week; the median duration of rAHF ITI therapy during the PAIR study was 600 days. Overall, 284 AEs were reported; 56 AEs were serious, of which none were considered rAHF-related. Of 228 nonserious AEs, 14 (in six patients) were deemed rAHF-related: increase of FVIII inhibitors titer due to anamnestic response, nausea, catheter site pain, pyrexia, urticaria, upper respiratory tract infection, arthralgia, and hemarthrosis. None were severe or led to ITI discontinuation. Eighteen patients experienced ≥1 central venous access device-related complication, and 21 of 36 completers achieved a negative inhibitor titer. The Kaplan-Meier estimate of success for achievement of first negative titer at 18 months of ITI therapy was 68.3% (95% confidence interval 51.8-83.6%) among completers. Of patients with partial or complete success post-ITI, 87% (20/23) maintained immune tolerance at 12-month follow-up.
CONCLUSION: Data suggest that rAHF ITI therapy in the PAIR study was effective, with no unexpected safety signals reported.

Introduction

Development of neutralizing inhibitory antibodies (inhibitors) remains a major risk associated with coagulation factor VIII (FVIII) replacement therapy. Estimates suggest that 8–44% of patients with severe hemophilia A and 3–13% of patients with mild or moderate hemophilia A develop inhibitory antibodies,1–4 with occurrence dependent on genetic- and patient-related factors, such as mutations, severity of hemophilia, ethnicity, age at first treatment, and family history of hemophilia.1,5–8 In the absence of intervention, inhibitors compromise the effectiveness of FVIII therapy and lead to increased morbidity and mortality due to poor bleed control.9,10

For patients with hemophilia A and inhibitors, induction of FVIII immune tolerance aims to restore FVIII pharmacokinetics (PK) and responsiveness to FVIII therapy, which is the standard of care.11,12 The success rate of immune tolerance induction (ITI) using various dosing regimens has been reported to range between 60 and 80% in patients with severe hemophilia A and inhibitors to FVIII.13–15 In a “good-risk” subgroup of ITI patients (inhibitor titer <10 Bethesda units (BU)/mL and historic peak titer of <200 BU/mL) and severe hemophilia A, data from a randomized, prospective study indicate that success rates were similar between low-dose (50 IU/kg FVIII, three times a week) and high-dose (200 IU/kg FVIII, daily) regimens; however, patients receiving low-dose ITI therapy took longer to achieve tolerance and had higher bleed rates compared with the high-dose group.14 The optimal ITI treatment and dosage regimen is unknown, and information on factors that may predict ITI therapy success or failure emanates from ITI therapy studies.16–21

Previous reports in small patient cohorts suggest that ITI therapy with ADVATE® (antihemophilic factor [recombinant] [rAHF] ; Baxalta US Inc., a Takeda company, Lexington, MA, USA) is effective and confirm an overall established record of safety.22,23 The international Prospective ADVATE Immune Tolerance Induction Registry (PAIR) study was designed to characterize the safety and tolerability of rAHF as a primary FVIII therapeutic agent in ITI therapy in patients with hemophilia A and inhibitors in clinical practices. The main objectives of the study were to assess the incidence of serious and nonserious adverse events (AEs) related to rAHF, incidence of central venous access device (CVAD)–related infections, and the success rates in patients with hemophilia A and inhibitors receiving ITI therapy with rAHF.

Here, we report the final analysis of the PAIR study, encompassing 7 years of prospective surveillance.

Materials and Methods

Study Design and Conduct

The PAIR study was an international, multicenter, open-label, prospective, observational study in patients with hemophilia A and inhibitors prescribed rAHF ITI therapy in clinical practice. The PAIR study was conducted at 27 sites in 10 countries (Belgium, Canada, Denmark, France, Germany, Greece, Italy, Spain, United Kingdom, and United States). Recruitment began in July 2007, and the study was completed in July 2015.

Patients

Patients diagnosed at any age with hemophilia A of any severity, previously diagnosed with an inhibitor to FVIII (low-titer [<5 BU] and high-titer [≥5 BU]), and due to start rAHF ITI therapy as part of routine clinical practice were eligible for this study. The choice of rAHF ITI therapy was made before PAIR study participation. Previous failure of ITI therapy on rAHF and history of hypersensitivity reactions to FVIII were exclusion factors. The protocol for this study defined severe hemophilia A as a baseline level of FVIII ≤1% and non-severe hemophilia A as FVIII >1%, reflecting the classification of hemophilia severity at the time of the study. A FVIII baseline level of <1% has since been adopted for severe hemophilia A.12

Procedures

The rAHF ITI therapy dosing regimen and monitoring schedule were at the treating physician’s discretion, based on individual patient’s requirements. ITI therapy regimens described in the peer-reviewed literature14,16,19–21,24,25 or similar to those described in the International ITI Protocol26 were recommended.

The observation period for each patient was from the time ITI therapy was initiated through 33 months of ITI therapy, with an additional 12-month post-observation follow-up after ITI therapy was considered successful or partially successful. If ITI therapy (partial) success was not achieved within 33 months of ITI therapy initiation, participation in the study ended.

Study-specific patient diaries were used to record the following variables: AEs, ITI infusion administration details, treatment and cause of new bleeding episodes, response to bleed treatment, and concomitant medications taken (including vaccinations). Diary data were recorded by investigators on case report forms (CRFs).

Investigators monitored their patients for the occurrence of any AE. All AEs associated with rAHF during bleed management (not including bleed events during ITI therapy) were reported on the AE CRF. If an AE was serious, the event was recorded using separate serious AE (SAE) forms.

Laboratory testing for the quantitation of FVIII, FVIII inhibitor, and FVIII recovery and PK was performed at baseline, during ITI therapy, at the end of ITI therapy, and at a post-observation 12-month follow-up. All testing was conducted at the local laboratory of the participating site according to locally established procedures and methods. Laboratory tests were not mandated by the protocol, but investigators could utilize the procedure in the International Immune Tolerance Study14 to determine the disappearance of the inhibitor.

The approach to the management of bleeding episodes (ie, breakthrough bleeding) was determined by the treating physician. Bleed events and hemostatic agents received at home or in the clinic were recorded on the Bleeding Episode Treatment Record CRF.

Study Endpoints and Outcome Measures

The primary endpoint was the incidence of AEs possibly related to rAHF during ITI therapy, categorized according to the Medical Dictionary for Regulatory Activities (MedDRA, version 17.0). The study comprised a retrospective and prospective period, defined respectively as the period of time during which rAHF ITI therapy was administered prior to, and following, PAIR study enrollment.

Secondary endpoints were the incidence of CVAD-related infections, general success rate of ITI therapy, and success rate in patients with severe hemophilia A (baseline level of FVIII ≤1%) and receiving rAHF as their primary ITI therapy, with no previous ITI therapy attempt and any titer inhibitor to FVIII.

Consensus recommendations of the 2006 International ITI Workshop define the response to ITI (ie, success) as a combination of a decrease and absence of inhibitors (usually less than 0.6 BU) and a normalization of the PK of FVIII.13 Per the study protocol, precise ITI success was categorized as complete, partial, failure, unassessable, and relapse, based on inhibitor titers and PK assessments performed in the International Immune Tolerance Study.14 However, due to the observational nature of this study and as PK assessments were not available in all centers, success in this analysis was defined only on inhibitor titer. General success was defined as achieving a FVIII inhibitor titer <0.6 BU or cut-off limit of inhibitor detection per local laboratory standard. Partial success occurred within 9–33 months of ITI treatment and was an inhibitor titer <5 BU (ie, conversion from high to low titer). Failure was ≥33 months of treatment with titer ≥5 BU, or 9–33 months of treatment with failure to achieve a >20% reduction in titer. Relapse was a positive inhibitor titer during the 12-month follow-up after inhibitor disappearance.

Statistical Analyses

Safety data, including incidence of CVAD-related infections, were analyzed in the full analysis set (FAS), defined as all patients who enrolled and received at least one dose of rAHF ITI. The incidence of general success of rAHF ITI was analyzed using the completer analysis set (CAS), which comprised all patients who carried ITI therapy to completion, regardless of whether or not they were followed up for 12 months after completion. The nonparametric Kaplan–Meier product limit method was used to estimate time to ITI success (percentage of patients with inhibitor titers who achieved a negative FVIII inhibitor titer following ITI therapy) in the FAS, CAS, and per-protocol analysis set (PPS). The PPS was defined as the subset of patients in the CAS who completed ITI therapy with an assessable outcome (ie, all necessary inhibitor titer results were available in order to determine ITI therapy success or failure).

If the end date for a patient’s current/initial ITI regimen was not collected, the end date was assumed to be 1 day before the first recorded start date of a change in therapy or date of therapy completion, whichever came first. If there was a discrepancy between unique titer measurements reported in multiple places on the CRF, the result found in the patient’s titer log prevailed. To determine the end date of the initial ITI regimen, which was not collected on the CRF, if the initial ITI start date was not missing then the day before the start date of the current ITI regimen was used. If the initial ITI start date was missing, then the date of the end of the previous rAHF therapy was used.

Descriptive statistics were used to summarize continuous variables; frequencies were used for categorical variables. All data were analyzed with SAS® software package, version 9.4 (SAS Institute Inc., Cary, North Carolina, USA).

Results

The results reported in in the main text of this article are based on the protocol definitions of severe hemophilia A (baseline level of FVIII ≤1%) and non-severe hemophilia A (baseline FVIII >1%). Results based on the updated definition of severe hemophilia (baseline level of FVIII <1%)12 are provided in the where appropriate.

As of July 2015, all patients had completed study participation. Of the 44 patients who enrolled and were exposed to rAHF, 36 (81.8%) completed ITI therapy and 31 (70.5%) completed the 12-month follow-up (Figure 1).

Figure 1

Flow of patients through the PAIR study. *Within 33 months of treatment. †As defined by the protocol.

The median age at enrollment was 23.5 months (Table 1). Most patients (86.4%, 38/44) had severe hemophilia A (baseline FVIII level ≤1%); 13.6% (6/44) had non-severe hemophilia A (baseline FVIII level >1%). At initiation of ITI therapy (ie, baseline), high-titer inhibitors were present in 15 of 44 patients (≥10 BU in seven patients), low titers were present in 23 of 44 patients, and titers were unreported in six patients with any hemophilia severity. The most common type of FVIII mutation was an intron 22 inversion (43.2%, 19/44). Most of the remaining patients reported either unknown (27.3%, 12/44) or other (22.7%, 10/44) mutations; missense and nonsense mutations were reported in 4.5% of patients (2/44) and 2.3% of patients (1/44), respectively.

Table 1

Baseline Characteristics of Patients in the PAIR Study

Characteristic	FVIII ≤1% (n = 38)	All Patients (N = 44)
Age at ITI therapy start, months, median (range)	19.0 (1.0–320.0)	23.5 (1.0–676)
Race, n (%)
White	24 (63.2)	29 (65.9)
Asian	1 (2.6)	1 (2.3)
Black	4 (10.5)	4 (9.1)
Hispanic	3 (7.9)	3 (6.8)
Other/missing	6 (15.8)	7 (15.9)
Family history of inhibitor, n (%)
Yes	10 (26.3)	11 (25.0)
No	25 (65.8)	30 (68.2)
Unknown	3 (7.9)	3 (6.8)
Titer, BU, median (mean, range)
At diagnosis	4.9 (19.1, 0.7–173.0)	4.9 (21.2, 0.5–173.0)
Peak before ITI therapya	12.5 (44.0, 0.7–225.2)	12.5 (43.0, 0.7–225.2)
Immediately before ITI therapy	4.0 (8.5, 0–60.6)	3.95 (8.0, 0–60.6)

Notes: Results by current classification of severe hemophilia (FVIII <1%) are provided in . aIf peak titer before ITI therapy was not reported, the maximum of all titer measurements made before ITI therapy was used.

Abbreviations: BU, Bethesda unit; FVIII, coagulation factor VIII; ITI, immune tolerance induction; PAIR, Prospective ADVATE Immune Tolerance Induction Registry.

Use of rAHF as ITI Therapy

The median duration of rAHF ITI therapy administration before PAIR study enrollment was 122 days (n = 34), and during the PAIR study it was 600 days (n = 44).

The most frequently initiated rAHF dose range (59.1%, 26/44 patients) was 90–130 IU/kg/day (Table 2), which was initiated in patients from Germany (n = 1), Denmark (n = 1), Spain (n = 1), Greece (n = 1), France (n = 3/5), Italy (n = 3/5), the United Kingdom (n = 6/9), and United States (n = 9/17). In Belgium, one patient was initiated on 90–130 IU/kg/day and one patient on ≥200 IU/kg/day rAHF. In Canada, two of two patients were initiated on <90 IU/kg/day rAHF. The mean (SD) dose per infusion of rAHF ITI therapy was 113.4 (66.6) IU/kg; patients with severe hemophilia A had a higher mean (SD) dose per infusion than those with non-severe hemophilia A (119.3 [69.4] versus 77.3 [26.9] IU/kg, respectively). Results using the current classification of severe hemophilia are provided in . The total mean (median, range) number of rAHF doses per week was 6.0 (5.2, 0.6–14.0).

Table 2

ITI Therapy Dosage Regimens Utilized in the PAIR Study

Dose in IU/kg/day, n (%)	FVIII ≤1% (n = 38)		All Patients (N = 44)
	High Titera,b (n = 26)	Low Titera,c (n = 12)	High Titera,b (n = 29)	Low Titera,c (n = 15)
≥200	4 (15.4)	0	4 (13.8)	0
~131–199	2 (7.7)	0	3 (10.3)	0
90–130	16 (61.5)	6 (50.0)	18 (62.1)	8 (53.3)
<90	4 (15.4)	6 (50.0)	4 (13.8)	7 (46.7)

Notes: Results by current classification of severe hemophilia (FVIII <1%) are provided in . aIf peak titer before ITI therapy was not reported, the maximum of all titer measurements made before ITI therapy was used. b≥5 BU at baseline. c<5 BU at baseline.

Abbreviations: BU, Bethesda unit; FVIII, coagulation factor VIII; ITI, immune tolerance induction; IU, international unit; PAIR, Prospective ADVATE Immune Tolerance Induction Registry.

Following the initial dose, 47.7% of all patients (21/44) and 47.4% of patients with severe hemophilia (18/38) experienced at least one dose increase during the study. Overall, the percentage of patients receiving dose increases during the study was similar for those with low- (<5 BU, 53.3%) and high-inhibitor titers (≥5 BU, 44.8%) at baseline. Information on whether inhibitors were low- or high-responding was not available in this study.

Safety

A total of 284 AEs were reported in 44 patients before (retrospective period) and after (prospective period) PAIR study enrollment; 56 AEs (19.7%) were serious and not considered related to rAHF ITI therapy (Table 3). Before study enrollment, 31 AEs were reported in 10 of 34 patients, of which eight were SAEs reported in five patients. During the study, 253 AEs were reported in 32 of 44 patients, of which 48 were SAEs reported in 21 patients. A total of 14 nonserious AEs considered related to rAHF ITI therapy occurred in six patients (13.6%), and none of these AEs were severe. These were pyrexia (n = 1), urticaria (n = 1), nausea (n = 2), catheter site pain (n = 1), upper respiratory tract infection (n = 1), arthralgia (n = 2), hemarthrosis (n = 2), and increase of FVIII inhibitors titer due to anamnestic response (n = 4).

Table 3

Summary of AEs in the PAIR Study (FAS)

AEs	n (% of Total AEs)
All AEs	284 (100.0)
SAEs
Total	56 (19.7)
Considered treatment-related	0
Nonserious AEs
Total	228 (80.3)
Considered unrelated to treatment	214 (75.4)
Considered treatment-related	14 (4.9)
Discontinuations	n (% of Total Patients) (N = 44)
Patient withdrew	2 (4.5)
Physician decision	1 (2.3)
Lost to follow-up	4 (9.1)
Other	2 (4.5)

Abbreviations: AE, adverse events; FAS, full analysis set; PAIR, Prospective ADVATE Immune Tolerance Induction Registry; SAE, serious adverse event.

Of 44 patients, 18 (40.9%) had a CVAD placed before rAHF ITI therapy initiation, 10 patients (22.7%) had their first CVAD placed during ITI, six patients (13.6%) had their CVAD replaced during ITI, and 18 patients (40.9%) had a CVAD placed due to complications during ITI therapy. In total, 18 patients experienced at least one CVAD-related complication. The most frequently reported CVAD complications included 18 episodes of local site line infection in five patients (11.0%), nine episodes of line insertion site bleed in three patients (6.8%), and eight episodes of systemic/septic line infection in five patients (11.0%). Other CVAD-associated complications occurring in more than one patient were line insertions (five occurrences in four patients) and line removal (two occurrences in two patients).

Efficacy of ITI Therapy

Of the 36 patients who completed ITI treatment (ie, those in the CAS), 21 (58.3%) achieved a negative titer during the study, two (5.6%) converted from a high- to a low-titer inhibitor, and eight (22.2%) experienced treatment failure (Table 4). Six of 13 patients (46.2%) in the CAS with severe hemophilia (baseline level of FVIII ≤1%) and high titer at baseline achieved a negative titer. Of 23 patients with partial or complete success after ITI therapy, 20 (87%) maintained immune tolerance at 12-month follow-up.

Table 4

Outcomes in Patients Who Completed rAHF ITI Therapy (CAS)

Completers, n (%)	Severe Hemophilia (FVIII ≤1%) (n = 31)	Non-Severe Hemophilia (FVIII > 1%) (n = 5)	Total (n = 36)
General success	18 (58.1)	3 (60.0)	21 (58.3)
Partial success	2 (6.5)	0 (0)	2 (5.6)
Failure	7 (22.6)	1 (20.0)	8 (22.2)

Note: Results by current classification of severe hemophilia (FVIII <1%) are provided in .

Abbreviations: CAS, completer analysis set; FVIII, coagulation factor VIII; ITI, immune tolerance induction; NA, not available; PK, pharmacokinetic; rAHF, antihemophilic factor (recombinant).

The estimated cumulative success rate of rAHF ITI therapy at approximately 18 months (516 days) was 72.4% (95% confidence interval [CI] 55.5–87.0%) in the PPS (n = 31) and 68.3% (95% CI 51.8–83.6%) in the CAS (n = 36) (Figure 2). These rates were in patients with high- and low-titer inhibitors (PPS patients: 20 with high-titer and 11 with low-titer inhibitors; CAS patients: 23 with high-titer and 13 with low-titer inhibitors), and success was defined as the percentage of patients with inhibitors who achieved a negative FVIII inhibitor titer following ITI therapy. The median times to first and second negative titers for all patients were 4.3 months and 5.8 months, respectively. For those patients with a high-titer inhibitor at baseline, the median times to first and second negative titer test were 4.8 and 6.7 months, respectively. Specifically in children (<18 years of age), the estimated cumulative success rate of rAHF ITI therapy at approximately 18 months was 69.4% (95% CI 51.5–85.6%) in the PPS and 65.4% (95% CI 48.1–82.1%) in the CAS.

Figure 2

Kaplan–Meier success curves for achievement of first negative titer.

Maximum inhibitor titers ≥5 BU, ≥10 BU, and ≥100 BU were detected in 25, 22, and 17 patients, respectively, during ITI therapy. Of the patients who achieved a negative inhibitor titer (61.5%, 16/26), three patients (18.8%) reported a relapse at their 12-month follow-up appointment. The first of these patients was 56 years of age at ITI therapy initiation and had a peak inhibitor titer before ITI therapy of 1.6 BU and an inhibitor titer of 1.1 BU at the 12-month follow-up. The second patient was 3 years of age at ITI therapy initiation, with a peak inhibitor titer before ITI therapy of 196.0 BU; although relapse was indicated in the report, the most recent titer at 12 months was 0 BU. The third patient with relapse was 4 months old at ITI initiation and had a peak inhibitor titer of 4.3 BU before ITI therapy and an inhibitor titer of 0.5 BU at follow-up (equal to the local laboratory cut-off for inhibitor detection). The first patient had been receiving a follow-up prophylaxis regimen of 35 IU/kg every other day; the second patient had continued ITI therapy (50 IU/kg every day). The third patient had received 71 IU/kg twice a week and 89 IU/kg once a week.

The median time from inhibitor diagnosis to ITI therapy initiation for all patients with available data (n = 42) was 2.5 months; the median time for patients with severe hemophilia (baseline FVIII level ≤1%) (n = 36) was 2.2 months, and for patients with FVIII level >1% (n = 6) it was 3.7 months.

The median time from inhibitor diagnosis to ITI therapy initiation was 0.5 months for patients with an ITI therapy outcome of general success (n = 20), 34.0 months for patients with partial success (n = 2, high to low titer conversion), and 12.48 months for patients with ITI therapy failure (n = 7).

Treatment of Bleeding Episodes

A total of 339 bleeding episodes occurred in 33 of 36 patients in the CAS on rAHF during ITI therapy. Most bleeding episodes (n = 308) occurred in 29 of 31 patients with severe hemophilia (FVIII ≤ 1%), and the remaining 31 bleeding episodes occurred in four of five patients with non-severe hemophilia (FVIII >1%). The results using the current classification of severe hemophilia are provided in . The most frequent cause of bleeding episodes was trauma-related (156/339), whereas 94 of 339 bleeding episodes were spontaneous. The etiologies of a further 89 bleeding episodes were either unknown or missing.

Most bleeding episodes that occurred during ITI therapy were treated exclusively with recombinant activated factor VII (rFVIIa) products (n = 177), whereas three were exclusively treated with activated prothrombin complex concentrates (aPCC) and 37 with rAHF. For 84 bleeding episodes, treatment began with rAHF and alternated with rFVIIa products, and for five bleeding episodes, treatment began with rFVIIa products and alternated with rAHF.

Discussion

The PAIR study was an international, non-interventional prospective study of rAHF as ITI therapy in a real-world setting. The observational, non-interventional nature of the study enabled the assessment of safety, tolerability and efficacy of rAHF ITI therapy under routine conditions in common clinical practice. In this setting, patients had independently chosen to receive ITI therapy with rAHF and were treated by the investigators according to their clinical judgement and experience. The PAIR study collected and analyzed this real-life experience and summarized the most salient findings. Overall, the findings from the PAIR study add to previous experiences with rAHF ITI therapy in other clinical studies utilizing different designs and treatment regimens.14,22,23,27

The safety results were consistent with the known safety profile of rAHF, and there were no unknown or unexpected safety signals for treatment of bleeding episodes or for ITI therapy.28–30 Most complications that occurred in the PAIR study related to CVAD use. These are known issues associated with the use of these devices, and education on best practices may help to mitigate them. Of note, there were no reports of CVAD-related thromboses, which are a relatively common complication of CVAD insertion.31

The present investigation supports the efficacy conclusion of previous ITI therapy studies.22,23,32 rAHF was effective in a variety of ITI dosing regimens currently used in clinical practice. The estimated PPS and CAS cumulative success rates at 18 months were 72.4% and 68.3%, respectively, in patients who had both high- and low-titer inhibitors at baseline (information on whether inhibitors were low- or high-responding was not available). In the International Immune Tolerance Study, patients with severe hemophilia (defined as FVIII <1%) who were defined as good risk and had high-titer and high-responding inhibitors achieved a success rate of 69.7% (n = 46/66).14 This compares with 46.2% of patients with severe hemophilia (baseline FVIII ≤1%) and high titer in the present study. However, this percentage is based on a sample of 13 patients. In addition, the apparently lower success rate may be a consequence of how severe hemophilia was defined in our study, as patients with moderate hemophilia generally have a lower success rate versus those with severe disease.

Separate retrospective analyses from two US centers suggested that an interval of <1 month from inhibitor detection to ITI therapy start was associated with improved outcome.15 In the present study, although the numbers were small, 20 patients with general success had an inhibitor-diagnosis-to-ITI-therapy-initiation interval of 0.48 months versus 12.48 months for patients with ITI therapy failure (n = 7) and 33.95 months for patients with high to low titer conversion (n = 2). The overall rate of relapse in the present study (13%) is in line with that reported by previous ITI therapy studies (2.3% to 29.7%).33–35

The PAIR study was conducted in eight European countries, as well as the United States and Canada, without the limitation of eligibility criteria used in interventional clinical trials. The number of patients enrolled in all sites and followed up was adequate for a reliable assessment of ITI therapy across multiple geographies, though country-specific comparisons were not possible. The PAIR study provides important information on the administered doses of rAHF for ITI therapy in real-world conditions and may indicate patterns of dosing based on the state of disease. Due to the non-interventional design of the study, it is possible that not all data available were entered into the database. Of note, more than half of the patients had missing bleeding episode data. In addition, the subgroup data may have been skewed by the different sample sizes of patients with severe or moderately severe hemophilia and the fact that the patient age range was wide. Another potential limitation is that the study used the protocol definition of ≤1% for severe hemophilia, which differs from the current definition of <1%.12 However, the results using both definitions are similar and do not change the conclusions in this report. Finally, the number of patients in the study was too low for conclusions about differences between countries.

Conclusions

The observational PAIR study provides important real-world data on a widely used recombinant factor VIII concentrate. The results of the PAIR study are consistent with rAHF as an effective therapy for ITI in patients with hemophilia A and inhibitors. No SAEs related to treatment were reported. Future prospective studies may further define factors associated with ITI therapy success and failure in patients with hemophilia A.