Brazilian biologic registry: BiobadaBrasil implementation process and preliminary results

Titton, David C; Silveira, Ines Guimarães; Louzada-Junior, Paulo; Hayata, Andre L; Carvalho, Hellen Mary S; Ranza, Roberto; Rezende, Lucila S; Pinheiro, Geraldo Castelar; Santos, Jair Licio F; Miranda, Jose Roberto; Carvalho, Jozelio Freitas; Bertolo, Manoel Barros; Freire, Marlene; Scheinberg, Morton A; Skare, Thelma L; Fernandes, Vander; Bianchi, Washington; Laurindo, Ieda Maria M

Abstracts

OBJECTIVES: The present study aimed at describing the implementation process of a national registry in a developing country (Brazil) and at reporting the main preliminary results of the BiobadaBrasil registry. MATERIAL AND METHODS: Through a PANLAR agreement, the Biobadaser protocol was used as a model for implementing the new registry in our country. During the first two years of this effort, the original protocol was adapted, translated, and presented to all Brazilian rheumatologists. For ten months, data of 1,037 patients (750 subjects treated with biological drugs and 287 control subjects) from 15 centers were collected. RESULTS: Most patients had rheumatoid arthritis (RA) (n = 723). Infliximab was the most frequently used anti-TNF agent, and the total exposure to biologic drugs was 2,101 patient-years. The most common reason for interrupting drug use was lack or loss of efficacy (50%), while 30% withdrew from the treatment arm due to adverse events. Three cases of tuberculosis were observed in the biologic group, with an incidence higher than that of the general Brazilian population. Infections were observed in 23% of the biologic group, and the upper respiratory tract was the most commonly affected site. Only one case of tuberculoid leprosy was observed. No deaths or malignancies attributed to drug effects were observed as of February 2010. CONCLUSIONS: The implementation of the BiobadaBrasil registry was successful, and, although recent, the registry has provided important data.

antirheumatic agents; Brazil; database

OBJETIVOS: O presente estudo teve por objetivo descrever o processo de implementação de um registro nacional em um país em desenvolvimento (Brasil) e relatar os principais resultados preliminares do registro BiobadaBrasil. MATERAL E MÉTODOS: Através de um acordo com a PANLAR, o protocolo Biobadaser foi utilizado como modelo para a implementação de um novo registro no nosso país. Durante os dois primeiros anos desse esforço, o protocolo original foi adaptado, traduzido e apresentado a todos os reumatologistas brasileiros. Durante dez meses, dados de 1.037 pacientes (750 tratados com biológicos e 287 controles) de 15 centros foram coletados. RESULTADOS: A maioria dos pacientes tinha artrite reumatoide (AR) (n = 723). Infliximabe foi o agente anti-TNF mais usado, e a exposição total a biológicos foi 2.101 pacientes-ano. A razão mais comum para suspensão da droga foi ineficiência ou perda de efetividade (50%), e 30% dos pacientes interromperam o tratamento devido a eventos adversos. Três casos de tuberculose foram observados no grupo biológico, representando maior incidência do que aquela da população brasileira geral. Infecções foram observadas em 23% dos pacientes do grupo biológico, sendo o trato respiratório superior o local mais comumente afetado. Apenas um caso de hanseníase tuberculoide foi observado. Nenhuma morte nem malignidade atribuível ao efeito dos medicamentos foi observada até fevereiro de 2010. CONCLUSÕES: A implementação do registro foi bem sucedida. Embora recente, o registro BiobadaBrasil já forneceu importantes dados.

agentes antirreumáticos; Brasil; banco de dados

ORIGINAL ARTICLE

^IHospital das Clínicas of the Universidade Federal do Paraná - UFPR, Curitiba, PR; Professor of Rheumatology of the Medical School of the UFPR, Curitiba, PR

^IIHospital São Lucas of the PUC-RS, Porto Alegre, RS; Professor of Rheumatology of the Medical School of PUC-RS

^IIIHospital das Clínicas of the Medical School of Ribeirão Preto of the USP; Distinguished professor of the Medical School of Ribeirão Preto of the USP

^IVRheumatologist - Centro de Reumatologia, Osasco, SP

^VHospital de Base do Distrito Federal, Brasília, DF

^VIHospital de Clínicas of the Universidade Federal de Uberlândia - UFUB; Professor of Rheumatology of the Medical School of the UFUB, MG

^VIIHospital das Clínicas of the UFPR, Curitiba, PR

^VIIIHospital Universitário Pedro Ernesto, Rio de Janeiro, RJ; Professor of Rheumatology of the Medical School of the Universidade Estadual do Rio de Janeiro - UERJ, RJ

^IXDivision of Epidemiology of the Hospital das Clínicas of the Medical School of Ribeirão Preto of the USP; Full Professor of the Medical School of Ribeirão Preto of the USP

^XRheumatologist - Artrocenter Clínica Médica LTDA, Taubaté, SP

^XIHospital das Clínicas of the USP-CEDMAC, São Paulo, SP; Medical School of the USP, São Paulo, SP

^XIIHospital das Clínicas of the Medical Sciences School of the UNICAMP, Campinas, SP; Distinguished professor of the Medical Sciences School of the UNICAMP, Campinas, SP

^XIIIHospital da Universidade Federal do Triângulo Mineiro - UFTM, Uberaba, MG; Professor of Rheumatology of the Medical School of the UFTM, Uberaba, MG

^XIVCentro Hospitalar Abreu Sodré-AACD, São Paulo, SP; Distinguished professor -USP

^XVHospital Universitário Evangélico, Curitiba, PR; Professor of Rheumatology of the Medical School of the PUC-PR, Curitiba, PR

^XVIHospital Geral Universitário, Cuiabá, MT; Universidade Federal do Mato Grosso

^XVIISanta Casa de Misericórdia, Rio de Janeiro, RJ

^XVIIIHospital das Clínicas of the USP, São Paulo, SP; Medical School of the USP, São Paulo, SP

Correspondence to

ABSTRACT

OBJECTIVES: The present study aimed at describing the implementation process of a national registry in a developing country (Brazil) and at reporting the main preliminary results of the BiobadaBrasil registry.

MATERIAL AND METHODS: Through a PANLAR agreement, the Biobadaser protocol was used as a model for implementing the new registry in our country. During the first two years of this effort, the original protocol was adapted, translated, and presented to all Brazilian rheumatologists. For ten months, data of 1,037 patients (750 subjects treated with biological drugs and 287 control subjects) from 15 centers were collected.

RESULTS: Most patients had rheumatoid arthritis (RA) (n = 723). Infliximab was the most frequently used anti-TNF agent, and the total exposure to biologic drugs was 2,101 patient-years. The most common reason for interrupting drug use was lack or loss of efficacy (50%), while 30% withdrew from the treatment arm due to adverse events. Three cases of tuberculosis were observed in the biologic group, with an incidence higher than that of the general Brazilian population. Infections were observed in 23% of the biologic group, and the upper respiratory tract was the most commonly affected site. Only one case of tuberculoid leprosy was observed. No deaths or malignancies attributed to drug effects were observed as of February 2010.

CONCLUSIONS: The implementation of the BiobadaBrasil registry was successful, and, although recent, the registry has provided important data.

Keywords: antirheumatic agents, Brazil, database.

INTRODUCTION

New treatment modalities centered on biological therapies has undoubtedly improved outcomes for patients with severe rheumatoid arthritis (RA) and has definitively created new perspectives in the field of rheumatology.¹ In addition, these benefits have carried over to others diseases, such as ankylosing spondylitis (AS),² psoriatic arthritis (PsA),³ juvenile idiopathic arthritis (JIA),⁴ and systemic lupus erythematosus (SLE),⁵ among others.

Since the introduction of anti-TNF agents and, later, other biological therapies, the safety of these agents compared to placebo has been demonstrated in clinical trials.⁶ However, concerns about long-term safety, particularly serious infection and malignancy, as well as rare and unexpected adverse events, have not been adequately addressed by these trials.⁷ Open-label extensions often do not accurately reflect patients in their daily routines, since they include only those who have been previously studied in randomized clinical trials. Moreover, national pharmacovigilance systems may not be accurate sources of information to address these uncertainties, as adverse events may be significantly underreported. This lack of information about long-term follow-up led to the creation of local registries that are able to collect data from a varied population of patients treated in daily practice. To date, most of the current registries are supported by national societies of rheumatology, mainly in European countries⁸ and the United States.⁹ Throughout the last decade, these registries have collected an impressive amount of data that have been shared worldwide.⁸

The European and American realities might be different from others countries, particularly a developing country like Brazil, which is as large as Western Europe and similar in size to the United States. Particular characteristics of the Brazil, such as the genetic diversity of the population,¹⁰ unique socio-economic situations and certain endemic diseases, have prompted the establishment of a national registry of patients on biological therapies for rheumatologic diseases. The main propose of this registry was to develop a large, prospective epidemiological study for monitoring patients receiving these new drugs.

The aims of the present study were to describe the implementation process of a national registry in a developing country and to show the main preliminary results of BiobadaBrasil registry.

MATERIALS AND METHODS

In order to establish a new registry, the strengths and weaknesses of current registries had to be considered. In addition, the registry would have to encompass some unique characteristics of the country and its National Health System (NHS). For the Brazilian registry, the following were considered to be priorities:

a) To include an internal cohort control group of patients receiving traditional DMARDs (comparators).

b) To assure the quality of data regarding both accuracy and maintenance of a constant flow of information.

c) To enroll private clinics and public/academic centers, since both types of institution are part of the Brazilian NHS. In Brazil, biologic agents (i.e., anti-TNF agents) can be obtained from the public health system free of charge, and can be purchased from private insurance and securities companies for a fee.

d) To encourage the continuous voluntary participation of centers and rheumatologists.

e) To establish proper and independent funding without interference by sponsors.

As is true of other registries (BSBR,¹¹ CORRONA,⁹ RABBIT,¹² ARTIS,¹³ BIOBADASER,¹⁴ DANBIO¹⁵), BiobadaBrasil was set up by a rheumatology society, the Brazilian Society of Rheumatology (SBR)¹⁶ and aimed to include all licensed biologic agents for treatment of any rheumatic disease (regular and off-label indication) for an indefinite follow-up period. Through a PANLAR initiative (BIOBADAMERICA), the Spanish protocol (BIOBADASER)¹⁷ was made available to the Brazilian Society of Rheumatology, and it was deemed capable of fulfilling the perceived needs of the country, since it properly addressed some of the priorities listed above. It included an internal cohort of patients taking non-biologic agents, which served as a control group. The control group included patients initiating treatment with a traditional DMARD and patients requiring an increased dose due to failure on at least one DMARD (switching or combining therapy strategies). Using these inclusion criteria, we aimed to minimize the problems of enrolling different populations when comparing disease severity. The difficulty of establishing a proper control group is an obstacle for any new registry, and it should always be taken into account during the analysis of results. Furthermore, the monitoring system of the Spanish registry had the advantage of monitoring online, via semi-annual phone calls and with annual on-site assessment (by a random sampling process).

In order to be attractive to academic and private centers and to guarantee the continued interest of the study participants, the following incentives were employed: scholarships, certificates of excellence, electronic medical records, access to an online shared knowledge system, VIP status at rheumatology events Brazilian Biologic Registry: BiobadaBrasil implementation process and preliminary results and exclusive meetings with rheumatology experts. The registry is sponsored by the SBR and supported by joint grants from all pharmaceutical companies with currently licensed biologic agents in the country (equal shares). In terms of design, control, conduct, analysis and publication, independence of the registry was granted. Information regarding expenses and general data are provided regularly to all supporting companies; nevertheless, detailed reports of adverse events for each biologic agent are available only to the respective pharmaceutical company.

Five centers were chosen (phase I) to officially begin the registry (BiobadaBrasil) in January 2009. These five centers (four in public university hospitals, one in a private clinic) located 400-3000 km apart, assumed the responsibility of translation, cultural adaptation and standardization of procedures and reports. During this phase, 150 patients were entered into the registry. In April 2009, the project was presented and opened up to contributions from all SBR members (phase II). Data were collected from all participating centers, with as many as 30 patients enrolled without any pending monitoring issues as of February 2010. Ethics committee approval and written informed consent were mandatory for all participating centers.

STATISTICAL METHODS

The cumulative rate of discontinuation was calculated using actuarial methods, accounting for the time of observation from enrolment until the first withdrawal. The log-rank test was used to compare the survival curves of RA, AS, and other group. All analyses were performed using the Stata 9.1 program (StataCorp LP, College Station, TX, USA). Statistical significance was assumed for values of P < 0.05.

RESULTS

In addition to the 5 initial centers, 18 other centers (including one private clinic), located 80-4000 km apart (Figure 1), agreed to participate in the BiobadaBrasil registry. A total of 1,037 patients from these centers were registered as of February 2010. Another 18 centers are currently undergoing the approval process to join the registry. Since its presentation to Brazilian rheumatologists, the registry has steadily grown in number of patients and participating centers (Figure 1).

A total of 1,037 patients, defined as total group, were divided into two groups: one receiving treatment with biological agents (biologic; n = 750) and the other receiving treatment with DMARDs (control; n = 287). In both groups, the majority of patients were diagnosed with RA (69.7%; global); this prevalence of RA was greater in the control group (89.9%) compared to the biologic group (68.9%; P < 0.001, Table 1). Spondyloarthritis accounted for 21.2% of diagnoses (n = 220), AS was identified in 66% (n = 145), psoriatic arthritis in 27.3% (n = 60), Crohn's disease-related spondyloarthritis in 4% (n = 9) and undifferentiated spondyloarthritis in 2.7% (n = 6). Seventy-two percent of the patients were women and had a mean age of 47.3 ± 13.8 years. Mean exposure time to treatment was 2.09 ± 2.39 years, with 750 patients using biologic agents and 287 using only DMARDs. Most study subjects were recruited from public hospitals (85%), while 15% originated from the two private services. The characteristics of patients are summarized in Table 1.

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Overall, infliximab was the TNF blocker most commonly used, followed by adalimumab and etanercept (Table 2). Biologic agents, such as abatacept, rituximab and tocilizumab, were not used in AS. Rituximab was also used in SLE (n = 6), overlap syndrome (n = 1), JIA (n = 1) and Sjögrens syndrome (n = 1).

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The total exposure to TNF antagonists during the first four years of use was 2,101 patient-years for all patients (incidence rate = 7.9%), 1,306 patient-years for RA (incidence rate = 9.2%), 386 patient-years for AS (incidence rate = 4.9%) and 407 patient-years for the other groups (incidence rate = 6.6%). Patients with RA had longer exposures in terms of patient-years and had more commonly tried several different biologic treatments (Table 2).

Biologic therapy withdrawal (Table 3) was more frequently related to lack or loss of efficacy than to adverse effects in the whole study cohort (50% vs. 32%) and in RA patients (55% vs. 28%). Although the frequencies of loss or lack of efficacy and adverse events were different between the test and control groups, no statistical analyses were conducted due to the small size of the control group. For AS patients, similar frequencies for lack or loss of efficacy (50%) and for adverse events (50%) were observed, although the small sample size precluded definitive statistical analysis. Three deaths occurred, all in RA patients. Two of the deaths occurred in the biologic group, with one patient deceased due to H1N1 viral infection and the other due to giant extracranial carotid artery aneurysm. In the control group, one patient died due to acute myocardial infarction (Table 3).

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With regard to adverse events, infections were the most frequent event seen in patients using biologic agents (n = 206, Table 4). The most common sites of infection were the upper respiratory tract (28.6%), urinary tract (27.6%), and skin and soft tissue infections (18.9%) (Table 4). The pattern of adverse events has been similar to that observed in other registries. Interestingly, to date, there has been one case of endemic tropical disease of tuberculoid leprosy reported, and three cases of active tuberculosis have been detected in the group using anti-TNF treatment. One of the cases was pulmonary and two were disseminated, but all three made a total recovery. During the period of observation, four cases of cancer were reported (breast and uterus).

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Figure 2 represents the cumulative probability of drug survival for the three disease groups (RA, AS, and others), using drug discontinuation as the end point. Duration of use of TNF blockers in AS is significantly greater than in RA at 1, 2, 3 and 4 years (Figure 2), and the difference was greater with prolonged exposures (P < 0.05; log rank test).

DISCUSSION

In 1959, a group of Brazilian experts in the field of rheumatology sought to consolidate their efforts in order to solve a problem of communication and share experiences in a country with continental dimensions. As a result of this collaboration, the Brazilian Society of Rheumatology (SBR) was founded. Nowadays, SBR¹⁶ has up to 1,250 members, all with rheumatology expertise certified by SBR through a rigorous exam that consists of written, oral and practical evaluations, as well as a critical curriculum analysis. Medicine in the modern era requires up-to-date scientific information and knowledge, and providing this information is one of the key aims of the SBR. New generation therapies against autoimmune diseases have given new insight into rheumatology. Since many countries have developed registries to collect self-reported data, the SBR decided to follow suit and connect to this innovative network of shared information. To achieve this, in December 2007, the SBR set out to implement a national registry using the experience and technology designed for one of the first European registries: the Spanish BIOBADASER.¹⁷ There were important reasons for choosing BIOBADASER, namely, that it was already tested and in use, that it is written in a Latin language and that it was offered through an agreement with PANLAR as an extension of BIOBADAMERICA.

With a total area of 8,456,510 km², Brazil is divided into 26 federal states and one federal district,¹⁸ and the main initial challenge was to create a project that could be accessible to all rheumatologists in every region. This task posed some obstacles because each state has unique genetic, racial and socio-cultural profiles, endemic diseases including tropical infections, unequal medication access, economic disparities and geographical challenges. The registry implementation was first discussed at great length, planned in detail, translated into Portuguese and then culturally adapted to guarantee good quality of information, decrease potential biases and attract Brazilian rheumatologists. Consequently, 23 active centers from 10 states during the first year are participating so far. Counting centers awaiting ethics committee approval, the total number of centers will reach 41 centers in 15 different states (Figure 1).

One of the major goals of this project is to ensure good data quality; to that end, all centers received a standard operating procedure manual and were continually monitored by a professional staff member. Each centre assumed the responsibility of monitoring each patient's medical chart once a year. The selection of these records was random and encompassed 20% of the total patients included at the registry.

BiobadaBrasil includes all patients undergoing biologic therapy and strict follow-up with complete data entered into the patient's chart. In Brazil, the SBR has published national guidelines for RA, AS and PsA^19,20 that are adhered to by most Brazilian rheumatologists. Nevertheless, there are some off-label indications for which each physician may prescribe medications at his or her own discretion. BiobadaBrasil does not interfere with the individual indications for biologic therapy, and each rheumatologist is responsible for making the decision to start or stop a medication.

These are preliminary data, and the registry is relatively small; therefore, it is very early to draw any specific conclusions. In addition, our internal control cohort is small, mainly due to the fact that in phase I of our project, the five centers included almost exclusively patients exposed to biologic therapy. Therefore, the control group cannot be compared to the biologic group in a statistically significant way. We believe that a cohort including a more robust group of patients using traditional DMARDs is essential to developing better data about safety of the biologics, and the goal is to have at least one control for each patient using biologic therapy. However, we found some unique and original results in the 1,037 patients included from January 2009 to February 2010. A very important observation was made when private practice patients were included. Remarkably, 15% of patients from our series came from only two private sources. There are no precise or official data about non-public assistance to obtain biologic therapy, but it is estimated that 15-20% of patients fall into the private practice realm. This observation reinforced the importance of private insurance and securities companies. In Brazil, patients have access to medications through judicial order, and the large number of patients from private practice sites may reflect the difficulty of public access to biologic agents.

It is important to point out that in Brazil, infliximab was the first biologic on the market (in 2000) and the first to be indicated for treatment of RA by the NHS (in 2002). Adalimumab and etanercept came on the market two years later and were approved by the NHS six years later for treatment of RA. By the end of 2009, however, the three anti-TNFs were approved for treatment of both AS and PsA. Rituximab, abatacept and tocilizumab were first available in Brazil in 2006, 2007 and 2009, respectively, for RA treatment but are still not available through the NHS. This availability could explain, at least in part, the higher frequency of infliximab use compared to other biologics, the longer drug exposure and the higher rate of switching drugs in RA compared to AS patients.

According to the mean time of exposure to biologic agents in our patients (1.8 ± 1.8 years), we observed discontinuation of drugs in 195/880 (22.2%), which is similar to the withdrawal rate observed in other registries.⁸ Interestingly, 50% of drug withdrawals were due to lack or loss of efficacy, while only 30% were attributed to serious adverse events. In accordance to previous studies,^21,22 AS patients seem to have a lower rate of drug withdrawal due to lack or loss of efficacy than RA patients (6% and 12% respectively). In contrast, both RA and AS had similar frequencies of adverse events (7% and 6%, respectively). Issues related to drug access and governmental or judicial impediments were the other primary reason for biologic therapy interruptions. Furthermore, as observed in other registries, there was a longer mean survival for patients with AS when compared with RA in the biologics group.²¹ This is explained in part by the younger age and fewer co-medications seen in patients with spondyloarthritis (SpA) compared to RA, because age and co-medications are associated with a greater number of adverse events.^23,24

Infections are a major concern for patients using biologic therapies and must be a point of close attention in a registry. In accordance with the observations of Listing et al., we observed a higher frequency of infections in the group undergoing treatment with biologics.²⁵ However, while Listing reported an infection frequency of 15%, our cohort had a greater incidence of 23%. It is speculated that this higher rate of infection may be related to increased exposure to other immunosuppressants, comorbid conditions, use of corticosteroid and disease activity.²⁴ On the other hand, our data suggest that this is more likely to be a direct effect of anti-TNF agents and that all infections are more frequent in patients on biologics than those taking DMARDs. Additionally, lower respiratory tract infections, especially pneumonia, were the most common site of infection, which is agreement with observations from other registries.⁸ Herpes zoster infection is another major concern in biologic patients, in the light of the fact that recent studies have published increased incidence in this subgroup of patients.^25,26 Hence, a recent systematic literature review²⁴ demonstrated lower rates of herpes zoster infection in RA patients treated with traditional DMARDs, such as methotrexate. This is supported by our study, in which ten biologics group patients Brazilian Biologic Registry: BiobadaBrasil implementation process and preliminary results developed herpes zoster infection compared to no control subjects. Bacterial skin infections (erysipelas) and bone and joint infections were also higher in the biologics group. Unfortunately, there was one fatality in the biologic group, when a patient passed away from H1N1 viral pneumonia during the world pandemic in 2009. As discussed by other authors and our own group, we are aware that the potential underreporting of mild infections, especially in the control group, may be an important confounding variable and limitation of this type of registry.^25,27,28

In view of the fact that tuberculosis (TB) remains an important public health problem in Brazil, this mycobacterial infection was persistently investigated in our cohort by performing PPD skin tests on each patient according to SBR and national guidelines and recommendations.^14,19,20 Brazil ranks 14th on a list of the 22 countries with the highest TB burden, and it accounts for 31% of all TB cases in the World Health Organization's (WHO's) Latin American region. Notwithstanding compulsory BCG vaccination in our country, it is still estimated an incidence of 25-49/100,000 cases of active TB.²⁹ Remarkably, despite the low frequency of three cases of non-fatal active tuberculosis in the group taking anti-TNF treatment, the incidence per 100,000 patients in our cohort was impressively higher than what was expected. There is some protection against TB provided by TNF,³⁰ and we are aware of the possibility of a higher incidence of mycobacterial infection in patients under TNF blockers. A Brazilian study showed a low prevalence of PPD reaction prior to infliximab use in RA, SA, and psoriatic arthritis patients, indicating that the test has limited value for diagnosis of tuberculosis infection in candidates to biological infliximab therapy.³¹ In addition, a focus on tropical diseases is key for a South American registry. However, we observed only one case of tuberculoid leprosy, and no cases of histoplasmosis or other granulomatous diseases were reported. Although rare, acute reactions can be severe, being observed more commonly after the initial injections, both intravenous and subcutaneous.³² To date, our registry has not observed any rare or unexpected adverse events, and could not compare the risk for malignancy between the biologic and control groups.

CONCLUSIONS

Although it is very early in its implementation, the BiobadaBrasil registry has collected important data that might be relevant to routine practice and academic studies. For a country with large geographical dimensions and a very heterogeneous cultural and socioeconomic makeup, proper data collection and event monitoring are needed to develop a uniform and cohesive body of information. We believe that the BiobadaBrasil registry will supply needed reference data on actual Brazilian rheumatology practices regarding indications for initiating or switching medications and safety profiles for these commonly used drugs. Certainly, longer observation periods will improve knowledge and clinical practices in the field of rheumatology.

We concluded that the main aims of implementing a national registry were successfully reached.

Authors contributions

All authors were involved in drafting the manuscript, collecting data, or critically revising it for important intellectual content, and all authors approved the final version to be published. The data presented here were obtained from the centers participating in the BiobadaBrasil that included at least 30 patients until 31 January 2010.

Acknowledgements

Special thanks to BIOBADASER for support and encouragement in the development of our registry, and to Dr. Fernando Neubarth (President of SBR 2006-8), who believed that the Brazilian Rheumatology Society was capable of taking on this project. We are indebted to all colleagues and staff in the BiobadaBrasil group for their cooperation and data supply.

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Carmona L, Gómez-Reino JJ, BIOBADASER Group. Survival of TNF antagonists in spondylarthritis is better than in rheumatoid arthritis. Data from the Spanish registry BIOBADASER. Arthritis Res Ther 2006; 8:R72.
²²
Saad AA, Ashcroft DM, Watson KD, Symmons DP, Noyce PR, Hyrich KL; on behalf of the BSRBR. Efficacy and safety of anti-TNF therapies in psoriatic arthritis: an observational study from the British Society for Rheumatology Biologics Register. Rheumatology (Oxford). 2010; 49:697-705.
²³
Shelton PS, Fritsch MA, Scott MA: Assessing medication appropriateness in the elderly: a review of available measures. Drugs Aging 2000; 16:437-450.
²⁴
Leombruno JP, Einarson TR, Keystone EC. The safety of anti-tumour necrosis factor treatments in rheumatoid arthritis: meta and exposure-adjusted pooled analyses of serious adverse events. Ann Rheum Dis. 2009; 68(7):1136-45.
²⁵
Listing J, Strangfeld A, Kary S, Rau R, von Hinueber U, Stoyanova-Scholz M, et al. Infections in patients with rheumatoid arthritis treated with biologic agents. Arthritis Rheum 2005; 52:3403-12.
²⁶
Strangfeld A, Listing J, Herzer P, Liebhaber A, Rockwitz K, Richter C, et al. Risk of herpes zoster in patients with rheumatoid arthritis treated with anti-TNF-alpha agents. JAMA. 2009; 301:737-44.
²⁷
Dixon WG, Watson K, Lunt M, Hyrich KL, British Society for Rheumatology Biologics Register Control Centre Consortium, Silman AJ, et al., on behalf of the British Society for Rheumatology Biologics Register. Rates of serious infection, including site-specific and bacterial intracellular infection, in rheumatoid arthritis patients receiving anti-tumor necrosis factor therapy: results from the British Society for Rheumatology Biologics Register. Arthritis Rheum 2006; 54:2368-76.
²⁸
Bongartz T, Sutton AJ, Sweeting MJ, Buchan I, Matteson EL, Montori V. Anti-TNF antibody therapy in rheumatoid arthritis and the risk of serious infections and malignancies: systematic review and meta-analysis of rare harmful effects in randomized controlled trials. JAMA 2006; 295:2275-85.
²⁹
Global tuberculosis control: a short update to the 2009 report. Available on http://www.who.int/tb/publications/global_report/2009/update/en/) website. Acessado em janeiro de 2011.
³⁰
Carmona L, Gómez-Reino JJ, Rodríguez-Valverde V, Montero D, Pascual-Gómez E, Mola EM, et al. Effectiveness of recommendations to prevent reactivation of latent tuberculosis infection in patients treated with tumor necrosis factor antagonists. Arthritis Rheum 2005; 52:1766-1772.
³¹
Callado MR, Lima JR, Nobre CA, Vieira WP. Low prevalence of reactive PPD prior to infliximab use: comparative study on a population sample of Hospital Geral de Fortaleza Rev Bras Reumatol. 2011; 51:46-52.
³²
de Moraes JC, Aikawa NE, Ribeiro AC, Saad CG, Carvalho JF, Pereira RM et al. Immediate complications of 3,555 injections of anti-TNFα. Rev Bras Reumatol. 2010; 50:165-75.

Brazilian biologic registry: BiobadaBrasil implementation process and preliminary results

David C Titton^I; Ines Guimarães Silveira^II; Paulo Louzada-Junior^III; Andre L Hayata^IV; Hellen Mary S. Carvalho^V; Roberto Ranza^VI; Lucila S. Rezende^VII; Geraldo Castelar Pinheiro^VIII; Jair Licio F. Santos^IX; Jose Roberto Miranda^X; Jozelio Freitas Carvalho^XI; Manoel Barros Bertolo^XII; Marlene Freire^XIII; Morton A. Scheinberg^XIV; Thelma L Skare^XV; Vander Fernandes^XVI; Washington Bianchi^XVII; Ieda Maria M Laurindo^XVIII

Publication Dates

Publication in this collection
04 May 2011
Date of issue
Apr 2011

History

Received
28 Jan 2011
Accepted
29 Jan 2011

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

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Hetland ML, Unkerskov J, Ravn T, Friis M, Tarp U, Andersen LS, et al. Routine database registration of biological therapy increases the reporting of adverse events twentyfold in clinical practice. First results from the Danish Database (DANBIO). Scand J Rheumatol. 2005; 34:40-4.

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Brazilian Society of Rheumatology website. http://www.reumatologia.com.br Acessado em janeiro de 2011.
» link

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BIOBADASER website. http://www.biobadaser.ser.es/ Acessado em janeiro de 2011.
» link

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Brazilian Institute of Geography and Statistics 2008 website. http://www.sidra.ibge.gov.br/bda/territorio/tabunit.asp?n=6&t=2&z=t&o=4 Acessado em janeiro de 2011.
» link

[19] ¹⁹
Bertolo MB, Brenol CV, Schainberg CG, Neubarth F, Lima FAC, Laurindo IM, et al. Update on the Brazilian consensus for the diagnosis and treatment of rheumatoid arthritis. Rev Bras Reumatol 2007; 47:151-159.

[20] ²⁰
Sampaio-Barros PD, Azevedo VF, Bonfiglioli R, Campos WR, Carneiro SCS, Carvalho MAP, et al. First update on the Brazilian consensus for the diagnosis and treatment of spondyloarthropathies: other spondyloarthropathies. Rev Bras Reumatol 2007; 47:233-249.

[21] ²¹
Carmona L, Gómez-Reino JJ, BIOBADASER Group. Survival of TNF antagonists in spondylarthritis is better than in rheumatoid arthritis. Data from the Spanish registry BIOBADASER. Arthritis Res Ther 2006; 8:R72.

[22] ²²
Saad AA, Ashcroft DM, Watson KD, Symmons DP, Noyce PR, Hyrich KL; on behalf of the BSRBR. Efficacy and safety of anti-TNF therapies in psoriatic arthritis: an observational study from the British Society for Rheumatology Biologics Register. Rheumatology (Oxford). 2010; 49:697-705.

[23] ²³
Shelton PS, Fritsch MA, Scott MA: Assessing medication appropriateness in the elderly: a review of available measures. Drugs Aging 2000; 16:437-450.

[24] ²⁴
Leombruno JP, Einarson TR, Keystone EC. The safety of anti-tumour necrosis factor treatments in rheumatoid arthritis: meta and exposure-adjusted pooled analyses of serious adverse events. Ann Rheum Dis. 2009; 68(7):1136-45.

[25] ²⁵
Listing J, Strangfeld A, Kary S, Rau R, von Hinueber U, Stoyanova-Scholz M, et al. Infections in patients with rheumatoid arthritis treated with biologic agents. Arthritis Rheum 2005; 52:3403-12.

[26] ²⁶
Strangfeld A, Listing J, Herzer P, Liebhaber A, Rockwitz K, Richter C, et al. Risk of herpes zoster in patients with rheumatoid arthritis treated with anti-TNF-alpha agents. JAMA. 2009; 301:737-44.

[27] ²⁷
Dixon WG, Watson K, Lunt M, Hyrich KL, British Society for Rheumatology Biologics Register Control Centre Consortium, Silman AJ, et al., on behalf of the British Society for Rheumatology Biologics Register. Rates of serious infection, including site-specific and bacterial intracellular infection, in rheumatoid arthritis patients receiving anti-tumor necrosis factor therapy: results from the British Society for Rheumatology Biologics Register. Arthritis Rheum 2006; 54:2368-76.

[28] ²⁸
Bongartz T, Sutton AJ, Sweeting MJ, Buchan I, Matteson EL, Montori V. Anti-TNF antibody therapy in rheumatoid arthritis and the risk of serious infections and malignancies: systematic review and meta-analysis of rare harmful effects in randomized controlled trials. JAMA 2006; 295:2275-85.

[29] ²⁹
Global tuberculosis control: a short update to the 2009 report. Available on http://www.who.int/tb/publications/global_report/2009/update/en/) website. Acessado em janeiro de 2011.

[30] ³⁰
Carmona L, Gómez-Reino JJ, Rodríguez-Valverde V, Montero D, Pascual-Gómez E, Mola EM, et al. Effectiveness of recommendations to prevent reactivation of latent tuberculosis infection in patients treated with tumor necrosis factor antagonists. Arthritis Rheum 2005; 52:1766-1772.

[31] ³¹
Callado MR, Lima JR, Nobre CA, Vieira WP. Low prevalence of reactive PPD prior to infliximab use: comparative study on a population sample of Hospital Geral de Fortaleza Rev Bras Reumatol. 2011; 51:46-52.

[32] ³²
de Moraes JC, Aikawa NE, Ribeiro AC, Saad CG, Carvalho JF, Pereira RM et al. Immediate complications of 3,555 injections of anti-TNFα. Rev Bras Reumatol. 2010; 50:165-75.