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Clinical and functional evaluation of the joint status of hemophiliac adults at a Brazilian blood center

Abstract

BACKGROUND: Hemophilia is a potentially disabling condition as hemophilic arthropathy develops early in life and is progressive, especially in patients treated in an on-demand regime. Objective: This study aimed to describe the structural joint status and the functional independence score of hemophiliac adults and correlate structural damage with the functional deficits found in these patients. METHODS: Hemophiliacs at the Juiz de Fora Regional Blood Center - HEMOMINAS Foundation, aged 18 years and over and treated in an on-demand regime, were clinically evaluated in respect to structural joint damage using the World Federation of Hemophilia Physical Examination Scale (WFH-PE) and functional deficits using the Functional Independence Score in Hemophilia (FISH). The Spearman rank test was used to evaluate the correlation between the two scores. RESULTS: Thirty-nine patients were evaluated. The mean age was 36.8 years. Target joints were detected in 69.2% of patients studied. The mean Physical Examination Scale and Functional Independence Score were 16.87 and 25.64, respectively. Patients with mild hemophilia showed no significant joint involvement. Patients with severe or moderate hemophilia had similar results regarding structural damage (p-value < 0.001) and functional deficits (p-value = 0.001). There was statistical significance in the correlation between the two scores (r = -0.850; p-value = 0.01). CONCLUSIONS: The World Federation of Hemophilia Physical Examination Scale and Functional Independence Score in Hemophilia may be useful to clinically assess structural joint damage and functional deficits in hemophiliacs as the tools are inexpensive and easy to administer and may be able to detect hemophilic arthropathy, which results from recurrent hemarthrosis and is common in the population studied.

Hemophilia A; Hemophilia B; Joint diseases; Disability evaluation; Hemarthrosis


ORIGINAL ARTICLE

Clinical and functional evaluation of the joint status of hemophiliac adults at a Brazilian blood center

Adriana Aparecida Ferreira; Maria Teresa Bustamante-Teixeira; Isabel Cristina Gonçalves Leite; Camila Soares Lima Corrêa; Daniela de Oliveira Werneck Rodrigues; Danielle Teles da Cruz

Universidade Federal de Juiz de Fora - UFJF, Juiz de Fora, MG, Brazil

Corresponding author Corresponding author: Adriana Aparecida Ferreira Hemocentro Regional de Juiz de Fora - Fundação HEMOMINAS Universidade Federal de Juiz de Fora - UFJF Rua Barão de Cataguases s/n, Centro 36.015-370 Juiz de Fora, MG, Brazil driferr@bol.com.br Phone: 55 32 32573126

ABSTRACT

BACKGROUND: Hemophilia is a potentially disabling condition as hemophilic arthropathy develops early in life and is progressive, especially in patients treated in an on-demand regime. Objective: This study aimed to describe the structural joint status and the functional independence score of hemophiliac adults and correlate structural damage with the functional deficits found in these patients.

METHODS: Hemophiliacs at the Juiz de Fora Regional Blood Center - HEMOMINAS Foundation, aged 18 years and over and treated in an on-demand regime, were clinically evaluated in respect to structural joint damage using the World Federation of Hemophilia Physical Examination Scale (WFH-PE) and functional deficits using the Functional Independence Score in Hemophilia (FISH). The Spearman rank test was used to evaluate the correlation between the two scores.

RESULTS: Thirty-nine patients were evaluated. The mean age was 36.8 years. Target joints were detected in 69.2% of patients studied. The mean Physical Examination Scale and Functional Independence Score were 16.87 and 25.64, respectively. Patients with mild hemophilia showed no significant joint involvement. Patients with severe or moderate hemophilia had similar results regarding structural damage (p-value < 0.001) and functional deficits (p-value = 0.001). There was statistical significance in the correlation between the two scores (r = -0.850; p-value = 0.01).

CONCLUSIONS: The World Federation of Hemophilia Physical Examination Scale and Functional Independence Score in Hemophilia may be useful to clinically assess structural joint damage and functional deficits in hemophiliacs as the tools are inexpensive and easy to administer and may be able to detect hemophilic arthropathy, which results from recurrent hemarthrosis and is common in the population studied.

Keywords: Hemophilia A; Hemophilia B; Joint diseases; Disability evaluation; Hemarthrosis/rehabilitation

Introduction

Hereditary hemophilia is the result of genetic alterations that cause deficiencies in clotting factors VIII or IX, hindering the process of hemostasis and predisposing hemophiliacs to spontaneous or post-traumatic bleeding. The main clinical manifestation is intra-articular bleeding (hemarthrosis), which begins even in childhood(1-3). After an episode of hemarthrosis the joint can return to its normal functional state. However commonly there is a recurrence of bleeding, causing inflammatory and enzymatic changes in the synovial membrane(4). The joints evolve to a state of fibrosis and contracture, with loss of mobility(5), causing deformities and disabilities in patients even within the first decades of life(6).

The treatment of hemophilia is based on the intravenous replacement of the deficient clotting factors. Infusions can be administered as prophylaxis, preventing bleeding episodes andreducing the incidence of arthropathies(7-10), or on demand, i.e., after each bleeding episode. Due to the high cost of clotting factor products, only in late 2011 did the Ministry of Health announcethe implementation of primary prophylaxis in Brazil, benefiting children up to 36 months of age with severe hemophilia (or moderate, with a level of clotting factor VIII or IX less than 2%)(11).

Since, under the episodic treatment regime, the development of arthropathy seems inexorable(6,12), rehabilitation measures and methods to assess the clinical condition of the joints are essential to monitor the progression of the arthropathy, to establish or modify treatment protocols, and to assess the effectiveness of therapeutic interventions(13-15). In this context, the present study aimed to clinically evaluate the major joints of adults with hemophilia with regard to structural damage and functional deficits, and to correlate these findings.

Methods

Study design and data collection

This was an observational, cross-sectional study, conducted at the HEMOMINAS Foundation, Regional Blood Center of Juiz de Fora (HRJF), Minas Gerais after approval by the institution's Research Ethics Committee. Informed consent was obtained from all patients. The inclusion criteria were: male, aged 18 years or older, and a level of clotting factor VIII or IX less than or equal to 30%. Of the 60 patients eligible for the study, one was excluded before the start of the study due to severe cognitive impairment resulting from a central nervous system hemorrhage;13 were not located due to outdated records and seven refused to participate in the study. Thus, between June and November2011, 39 patients with hemophilia were evaluated, all treate dunder the on-demand protocol.

For the purposes of this study, patients were interviewed about demographic and socioeconomic data (age, race, education, marital status, main occupation, personal and family income, receipt of social security benefits) and from medical records, data were collected on hemophilia and comorbidities (type and severity of hemophilia, presence of a clotting factor inhibitor, presence of infection with hepatitis B virus, hepatitis C, and human acquired immunodeficiency virus, target joints) and on the treatment of the coagulopathy (age at diagnosis, participation in the emergency home infusion program, physical activity habits, physical therapy and clotting factor consumption in the previous 12 months).

Participants were evaluated according to the recommendations of the World Federation of Hemophilia (WFH). The WFH Physical Examination Score (WFH-PE) and the Functional Independence Score in Hemophilia (FISH) were applied by a single duly qualified examiner.

World Federation of Hemophilia physical examination scale

This scale is an instrument developed in the 1980s to evaluate hemophilic arthropathy. It is still widely used(16) because it is easy to perform and capable of providing an extensive musculoskeletal assessment(4). A tape measure and a goniometer are used in the examination of the knees, ankles, elbows, and hips for the presence of edema, atrophy, crepitus, flexion contractures, axial deformities, loss of range of motion and instability; points are assigned to each finding, according to severity and are summed. A score of zero denotes normal joints; 68 points corresponds to the worst level of arthropathy(17,18).

Functional Independence Score in Hemophilia

This score was developed to measure the functional independence of people with hemophilia. FISH is based on observing the performance of daily life activities. Patients are assessed for their ability to perform eight tasks, divided into three categories: self-care (eating, grooming, bathing and dressing), transfers (chair and squatting) and mobility (walking, going up stairs and running). The activities were clearly defined by the authors of the instrument to reduce inter-observer variance and graded from 1 to 4, according to the assistance required to perform the task as follows: 1) the individual is unable to perform the activity; 2) assistance or adaptation is needed to perform the activity; 3) the activity is performed, but the individual has discomfort; and 4) the activity is performed normally. The scores achieved in each task are summed giving a total from 8 to 32 points with 32 indicating the highest level of functional independence(19,20).

The purpose of including 'running' was to increase the detection capabilities of the assessment tool, especially for patients with less severe joint damage(20). However, in this study carried out at the HRJF, it was not possible to assess the participant's capacity to run as the examination was performed in a doctor's office. In an attempt to compensate for this obstacle, patients were shown an expanse of 50 meters in the area outside the blood center, and were asked if they could cross it running, presenting them the four performance options described in the tool. The patients responded without hesitation.

Statistical analysis

Initially, the Kolmogorov-Smirnov test with Lilliefors correction was performed, which revealed the non-normality of the data. So the non-parametric Mann-Whitney U test was applied to compare the mean WFH-PE and FISH scores according to the severity of hemophilia. Spearman correlation analyses were conducted to evaluate the relationship between WFH-PE, FISH, patient age, and consumption of clotting concentrate in the previous12 months. Statistical analysis was performed using the Statistical Package for the Social Sciences (SPSS, version 15) program.

Results

Thirty-nine patients were evaluated. Participant ages ranged from 18 to 79 years [mean = 36.8; standard deviation (SD) = 16.8 years]. Other demographic and socioeconomic characteristics of the patients are shown in Table 1.

Patient health conditions and characteristics of the treatment received

Of the 39 participants, 33 had hemophilia A and 6 had hemophilia B. In eight cases (20.5%) the hemophilia was classified as mild (level of factor VIII or IX between 5 and 30%), in 16 (41%) as moderate hemophilia (level of factor VIII or IX between 1 and 5%) and in 15 cases (38.5%) as severe hemophilia (level of factor VIII or IX < 1%).

Age at diagnosis ranged from 0 to 67 years with the diagnosis being made after three years of life in 58.8% of the cases. Comorbidities reported by patients were: asthma (10.3%), arthritis (2.6%), cancer (2.6%), heart disease (2.6%), depression(12.8%), hypertension (17.9%), chronic lower back pain (15.4%) and smoking (28.9%); 66.7% were considered sedentary and15.4% had a body mass index greater than 25 kg/m2.

The records of four patients (10.5%) registered seropositive for human immunodeficiency virus (HIV), 22 (57.9%) for hepatitis B virus (HBV), and 22 (57.9%) for hepatitis C virus (HCV). Of 29 participants who had up-to-date test records, the presence of clotting factor inhibitor was detected in only one patient with hemophilia A and in no patients with hemophilia B.

Among the 33 patients with hemophilia A, the consumption of clotting factor VIII concentrate in the previous 12 months was quite variable as shown in Table 2. Of the 31 patients with severe or moderate hemophilia, 22 (70.96%) were participating in the home infusion program of clotting factor concentrates in emergency situations.

Clinical evaluation of structural joint status and functional independence

In 69.2% of the patients, target joint presence was detected(87.1% of the patients with severe or moderate forms of coagulopathy), which indicates, at least, the first stage of hemophili carthropathy(5). However, only eight participants in this study (20.5%)had received physiotherapy sessions in the previous 12 months eventhough the benefits of physical therapy for the rehabilitation of these patients have been demonstrated(11). When the other 31 participants were asked about the reasons that led them not to seek physiotherapy, 16 (51.6%) considered the approach unnecessary, four (12.9%) believed that physical therapy could worsen the joint symptoms, another four said they did not have free access to a physiotherapy service in the area where they lived, two (6.45%) claimed that there had been no medical recommendation and five patients (16.1%) cited other reasons or did not know how to respond.

The mean WFH-PE score was 16.87 (standard deviation 9.49). Table 3 presents the clinical findings in the joints assessed using the WFH-PE scale. Patients with mild hemophilia showed no resulting joint damage from hemophilia. Three of them (18.75%) were scored only on the crepitus on motion item, which, alone, is not indicative of hemophilic arthropathy. Table 4 shows the results of the evaluation using the WFH-PE scale according to the severity of hemophilia.

There was no statistically significant difference in the mean WFH-PE scores between patients with moderate and severe hemophilia (15.47 vs. 16.50; p-value = 0.752) but there was a significant difference when comparing the average scores achieved in the structural joint damage assessments of patients with mild hemophilia to the average of the other patients (4.81 vs. 23.92;p-value < 0.001).

The score of the WFH-PE tool showed significant statistical correlation with the age of the patients with moderate (r = 0.51; p-value = 0.04) or severe (r = 0.54; p-value= 0.03) hemophilia, but not with the age of the patients with mild hemophilia (r = 0.41; p-value = 0.30), nor with the consumption of clotting factor in the previous 12 months regardless of the severity of hemophilia.

The mean score of the FISH instrument was 25.64 (SD: 6.09). Seven out of eight patients with mild hemophilia achieved the maximum functional independence score. Only one elderly patient reported that he would find running and bathing uncomfortable. Additional results from the FISH assessment are shown in Tables 5 & 6.

There was no statistically significant difference between patients with severe and moderate hemophilia in terms of the mean functional independence score (16.37vs. 15.66; p-value = 0.827), yet the assessment results for patients with mild hemophilia were significantly better when compared to those of the other participants (32.25 vs. 16.84;p-value = 0.001).

FISH showed a good correlation with the age of patients with severe (r = -0.63; p-value = 0.01) and moderate (r = -0.55; p-value = 0.02) hemophilia, but not with the age of patients with mild hemophilia (r = -0.08;p-value = 0.84) nor with the consumption of clotting factor concentrate in the previous 12 months regardless of the severity of hemophilia.

The Spearman correlation coefficient between the WFH-PE and FISH scores was -0.850 (p-value = 0.01).

Discussion

The WFH-PE and FISH assessment instruments proved useful in the clinical evaluation of structural joint status and functional independence of adults with hemophilia. Both are easily performed, inexpensive and able to detect the principle types of damage caused by recurrent hemarthrosis, which is quite evident in the population of this study.

Of the 31 patients with severe or moderate hemophilia, 27 (87.1%) showed at least the first stage of hemophilic arthropathy(5) and 20 (64.5%) were dependent on social security benefits due to complications from hemophilia, although the average age of this subgroup was only 35.1 years. Twenty-two patients (70.9%) participated in the home infusion program, indicating reasonable coverage by the program, as an attempt to minimize the inconvenience caused by transferring patients to the blood center.

It is noted that physical therapy, in general, is not viewed by patients as an integral part of coagulopathy treatment. They consider it necessary only in extreme circumstances such as injuries that cause acute immobility. Thus, disabilities that set in gradually continue to be neglected by the patients themselves, and, unlike what was shown in an audit by the Brazilian Court of Audit(21), it was not difficulty to access rehabilitation services that was primarily responsible for this lapse in treatment of HRJF patients, but the lack of information about the importance of physiotherapy in the prevention or treatment of injuries.

Among patients with mild hemophilia who do not generally exhibit spontaneous hemarthrosis, no significant change in the joint structure or functional clinical assessment was seen. What is noteworthy is that the structural joint damage and functional disabilities in patients with severe hemophilia and in those with moderate hemophilia are very similar. In 2011, Den Uijl et al. demonstrated the high clinical variability in this latter group of patients(22) which was corroborated in this study not only by the clinical findings but also by the variability in the consumption of clotting factor concentrate. This variability in the consumptionof blood products among patients with coagulopathies of equal severity was so high that possible explanations extend beyond the medical field, extrapolating to psychological or accessibility issues. The assessment of joint conditions of patients who had consumed larger amounts of blood products in the previous 12 months was also quite variable and no cause-effect relationship between the factor 'consumption of blood products' and severity of arthropathy can be suggested as this was a cross-sectional study.

Conclusion

The WFH-PE and FISH instruments may be extremely useful in the clinical practice in the absence of imaging exams such as magnetic resonance imaging (MRI), which are considered very sensitive to detect early joint damage, but at a cost that makes them relatively inaccessible.

The prevalence of clinically detected joint structural lesions is high, as are deficits that impair functional independence in patients with severe or moderate forms of hemophilia at the HRJF.

Pending the implementation of primary prophylaxis in Brazil, the diagnosis of coagulopathies early in life becomes imperative. Due to the severity of arthropathies found in patients with moderate hemophilia, it is suggested that these individuals should be evaluated in a personalized way with respect to the more precise and accurate laboratory classification of the severity of hemophilia, to facilitate the recommendation of appropriate prophylaxis for these children.

For adults and adolescents (the latter not included in this study, but also not benefiting from proposed prophylaxis) there is current relevance in the guidelines regarding measures to prevent joint damage and on the fundamental importance of rehabilitation measures aimed at social reinsertion.

References

1. Roberts HR, Escobar MA, White GC. Hemophilia A and hemophilia B. In: Lichtman MA, Beutler E, Kaushansky K, Kipps T, Seligsohn U, Prchal J, editors. Williams Hematology. 7th ed. New York: McGraw Hill; 2006. p.1867-8.

2. Friedman KD, Rodgers GM. Inherited coagulation disorders. In: Greer JP, Foerster J, Rodgers GM, Paraskevas F, Glader B, Arber DA, et al. editors. Wintrobe's Clinical Hematology. 12th ed. Philadelphia: Lippincott Williams & Wilkins; 2008. p.1379-424.

3. Villaça PR, Carneiro JD, D'Amico EA. Hemofilias. In: Zago MA, Falcão RP, Pasquini R, editores. Hematologia: fundamentos e prática. São Paulo: Atheneu; 2001. p.803-18.

4. Gurcay E, Eksioglu E, Ezer U, Tuncay R, Cakci A. Functional disability in children with hemophilic arthropathy. Rheumatol Int. 2006;26(11):1031-5. Comment in: Rheumatol Int. 2007;27(5):501-2.

5. Gilbert MS. Musculoskeletal complications of haemophilia: the joint. Haemophilia. 2000;6(Suppl 1):34-7.

6. Aledort LM, Haschmeyer RM, Pettersson H. A longitudinal study of orthopaedic outcomes for severe factor-VIII deficient haemophiliacs. The Orthopaedic Outcome Study Group. J Intern Med. 1994;236(4):391-9.

7. Nilsson IM, Berntorp E, Lofqvist T, Pettersson H. Twenty-five years experience of prophylactic treatment in severe haemophilia A and B. J Intern Med. 1992;232(1):25-32. Comment in: J Intern Med. 1992;232(1):1-2.

8. van den Berg HM, Fischer K, van der Bom JG, Roosendaal G, Mauser-Bunschoten EP. Effects of prophylactic treatment regimens in children with severe haemophilia: a comparison of different strategies. Haemophilia. 2002;8(Suppl 2):43-6.

9. Gringeri A, Lundin B, von Mackensen S, Mantovani LG, Mannucci PM. Primary and secondary prophylaxis in children with haemophilia A reduces bleeding frequency and arthropathy development compared to on-demand treatment: a 10-year, randomized, clinical trial [abstract]. J Thromb Haemost. 2009;7(Suppl 2):OC-MO-034. Presented at: XXII Congress of the International Society of Thrombosis and Haemostasis; 2009 Jul 11-16; Boston, USA.

10. Manco-Johnson MJ, Abshire TC, Shapiro AD, Riske B, Hacker MR, Kilcoyne R, et al. Prophylaxis versus episodic treatment to prevent joint disease in boys with severe hemophilia. N Engl J Med. 2007;357(6):535-44. Comment in: N Engl J Med. 2007;357(6):603-5; N Engl J Med. 2007;357(20):2087; author reply 2087-8.

11. Brasil. Ministério da Saúde. Secretaria de Atenção à Saúde. Departamento de Atenção Especializada, Coordenação Geral de Sangue e Hemoderivados. Protocolo brasileiro de profilaxia primária para hemofilia grave [Internet]. Brasília: Ministério da Saúde; 2011. [cited 2012 Jul 21]. Available from: http://portal.saude.gov.br/portal/arquivos/pdf/protocolo_profilaxia_primaria.pdf

12. Pergantou H, Platokouki H, Matsinos G, Papakonstantinou O, Papadopoulos A, Xafaki P, et al. Assessment of the progression of heamophilic arthropathy in children. Haemophilia. 2010;16(1):124-9.

13. Beeton K, Padkin J. Physiotherapy in the management of hemophilia. In: Lee CA, Berntorp EE, Hoots WK, editors. Textbook of Hemophilia. 2nd ed. Oxford: Blackwell; 2010. p.200-5.

14. Feldman BM, Funk S, Lundin B, Doria AS, Ljung R, Blanchette V; International Prophylaxis Study Group (IPSG). Musculoeskeletal measurement tools from the International Prophylaxis Study Group (IPSG). Haemophilia. 2008;14(Suppl 3):162-9.

15. Poonnoose PM, van Genderen FR. Clinimetrics instruments in hemophilia. In: Lee CA, Berntorp EE, Hoots WK, editors. Textbook of Hemophilia. 2nd ed. Oxford: Blackwell; 2010. p.207-14.

16. Saulyte Trakymiene S, Ingerslev J, Rageliene L. Utility of the Haemophilia Joint Score in study of episodically treated boys with severe haemophilia A and B in Lithuania. Haemophilia. 2010;16(3):479-86.

17. Manco-Johnson MJ, Kilcoyne RF. Magnetic resonance imaging/ joint outcome assessment. In: Lee CA, Berntorp EE, Hoots WK, editors. Textbook of hemophilia. Oxford: Blackwell; 2005. p.182-92.

18. Pettersson H, Gilbert M. Diagnostic imaging in hemophilia: musculoskeletal and other hemorrhagic complications. Berlin: Springer-Verlag; 1985. p. 56-65.

19. Poonnoose PM, Manigandan C, Thomas R, Shyamkumar NK, Kavitha ML, Bhattacharji S, et al. Functional Independence Score in Haemophilia: a new performance-based instrument to measure disability. Haemophilia. 2005;11(6):598-602.

20. Poonnoose PM, Thomas R, Keshava SN, Cherian RS, Padankatti S, Pazani D, et al. Psychometric analysis of the Functional Independence Score in Haemophilia (FISH). Haemophilia. 2007;13(5):620-6.

21. Santos CS, Coutinho CM, Porto MG, Gonçalves PG. Relatório de auditoria. Ação de atenção aos pacientes portadores de coagulopatia [Internet]. Brasília: Tribunal de Contas da União, Secretaria de Fiscalização e Avaliação de Programas de Governo; julho de 2007. [cited 2012 Jun 21]. Available from: http://portal2.tcu.gov.br/portal/page/portal/TCU/comunidades/programas_governo/areas_atuacao/saude/Coagulopatias.pdf

22. den Uijl IE, Mauser- Bunschoten EP, Roosendaal G, Schutgens RE, Biesma DH, Grobbee DE, et al. Clinical severity of haemophilia A: does the classification of the 1950s still stand? Haemophilia. 2011;17(6):849-53.

Submitted: 5/28/2012

Accepted: 7/10/2012

Conflict-of-interest disclosure: The authors declare no competing financial interest

www.rbhh.org or www.scielo.br/rbhh

  • 1. Roberts HR, Escobar MA, White GC. Hemophilia A and hemophilia B. In: Lichtman MA, Beutler E, Kaushansky K, Kipps T, Seligsohn U, Prchal J, editors. Williams Hematology. 7th ed. New York: McGraw Hill; 2006. p.1867-8.
  • 2. Friedman KD, Rodgers GM. Inherited coagulation disorders. In: Greer JP, Foerster J, Rodgers GM, Paraskevas F, Glader B, Arber DA, et al. editors. Wintrobe's Clinical Hematology. 12th ed. Philadelphia: Lippincott Williams & Wilkins; 2008. p.1379-424.
  • 3. Villaça PR, Carneiro JD, D'Amico EA. Hemofilias. In: Zago MA, Falcão RP, Pasquini R, editores. Hematologia: fundamentos e prática. São Paulo: Atheneu; 2001. p.803-18.
  • 4. Gurcay E, Eksioglu E, Ezer U, Tuncay R, Cakci A. Functional disability in children with hemophilic arthropathy. Rheumatol Int. 2006;26(11):1031-5.
  • Comment in: Rheumatol Int. 2007;27(5):501-2.
  • 5. Gilbert MS. Musculoskeletal complications of haemophilia: the joint. Haemophilia. 2000;6(Suppl 1):34-7.
  • 6. Aledort LM, Haschmeyer RM, Pettersson H. A longitudinal study of orthopaedic outcomes for severe factor-VIII deficient haemophiliacs. The Orthopaedic Outcome Study Group. J Intern Med. 1994;236(4):391-9.
  • 7. Nilsson IM, Berntorp E, Lofqvist T, Pettersson H. Twenty-five years experience of prophylactic treatment in severe haemophilia A and B. J Intern Med. 1992;232(1):25-32.
  • Comment in: J Intern Med. 1992;232(1):1-2.
  • 8. van den Berg HM, Fischer K, van der Bom JG, Roosendaal G, Mauser-Bunschoten EP. Effects of prophylactic treatment regimens in children with severe haemophilia: a comparison of different strategies. Haemophilia. 2002;8(Suppl 2):43-6.
  • 9. Gringeri A, Lundin B, von Mackensen S, Mantovani LG, Mannucci PM. Primary and secondary prophylaxis in children with haemophilia A reduces bleeding frequency and arthropathy development compared to on-demand treatment: a 10-year, randomized, clinical trial [abstract]. J Thromb Haemost. 2009;7(Suppl 2):OC-MO-034. Presented at: XXII Congress of the International Society of Thrombosis and Haemostasis; 2009 Jul 11-16; Boston, USA.
  • 10. Manco-Johnson MJ, Abshire TC, Shapiro AD, Riske B, Hacker MR, Kilcoyne R, et al. Prophylaxis versus episodic treatment to prevent joint disease in boys with severe hemophilia. N Engl J Med. 2007;357(6):535-44.
  • Comment in: N Engl J Med. 2007;357(6):603-5;
  • N Engl J Med. 2007;357(20):2087; author reply 2087-8.
  • 11. Brasil. Ministério da Saúde. Secretaria de Atenção à Saúde. Departamento de Atenção Especializada, Coordenação Geral de Sangue e Hemoderivados. Protocolo brasileiro de profilaxia primária para hemofilia grave [Internet]. Brasília: Ministério da Saúde; 2011. [cited 2012 Jul 21]. Available from: http://portal.saude.gov.br/portal/arquivos/pdf/protocolo_profilaxia_primaria.pdf
  • 12. Pergantou H, Platokouki H, Matsinos G, Papakonstantinou O, Papadopoulos A, Xafaki P, et al. Assessment of the progression of heamophilic arthropathy in children. Haemophilia. 2010;16(1):124-9.
  • 13. Beeton K, Padkin J. Physiotherapy in the management of hemophilia. In: Lee CA, Berntorp EE, Hoots WK, editors. Textbook of Hemophilia. 2nd ed. Oxford: Blackwell; 2010. p.200-5.
  • 14. Feldman BM, Funk S, Lundin B, Doria AS, Ljung R, Blanchette V; International Prophylaxis Study Group (IPSG). Musculoeskeletal measurement tools from the International Prophylaxis Study Group (IPSG). Haemophilia. 2008;14(Suppl 3):162-9.
  • 15. Poonnoose PM, van Genderen FR. Clinimetrics instruments in hemophilia. In: Lee CA, Berntorp EE, Hoots WK, editors. Textbook of Hemophilia. 2nd ed. Oxford: Blackwell; 2010. p.207-14.
  • 16. Saulyte Trakymiene S, Ingerslev J, Rageliene L. Utility of the Haemophilia Joint Score in study of episodically treated boys with severe haemophilia A and B in Lithuania. Haemophilia. 2010;16(3):479-86.
  • 17. Manco-Johnson MJ, Kilcoyne RF. Magnetic resonance imaging/ joint outcome assessment. In: Lee CA, Berntorp EE, Hoots WK, editors. Textbook of hemophilia. Oxford: Blackwell; 2005. p.182-92.
  • 18. Pettersson H, Gilbert M. Diagnostic imaging in hemophilia: musculoskeletal and other hemorrhagic complications. Berlin: Springer-Verlag; 1985. p. 56-65.
  • 19. Poonnoose PM, Manigandan C, Thomas R, Shyamkumar NK, Kavitha ML, Bhattacharji S, et al. Functional Independence Score in Haemophilia: a new performance-based instrument to measure disability. Haemophilia. 2005;11(6):598-602.
  • 20. Poonnoose PM, Thomas R, Keshava SN, Cherian RS, Padankatti S, Pazani D, et al. Psychometric analysis of the Functional Independence Score in Haemophilia (FISH). Haemophilia. 2007;13(5):620-6.
  • 21. Santos CS, Coutinho CM, Porto MG, Gonçalves PG. Relatório de auditoria. Ação de atenção aos pacientes portadores de coagulopatia [Internet]. Brasília: Tribunal de Contas da União, Secretaria de Fiscalização e Avaliação de Programas de Governo; julho de 2007. [cited 2012 Jun 21]. Available from: http://portal2.tcu.gov.br/portal/page/portal/TCU/comunidades/programas_governo/areas_atuacao/saude/Coagulopatias.pdf
  • 22. den Uijl IE, Mauser- Bunschoten EP, Roosendaal G, Schutgens RE, Biesma DH, Grobbee DE, et al. Clinical severity of haemophilia A: does the classification of the 1950s still stand? Haemophilia. 2011;17(6):849-53.
  • Corresponding author:

    Adriana Aparecida Ferreira
    Hemocentro Regional de Juiz de Fora - Fundação HEMOMINAS Universidade Federal de Juiz de Fora - UFJF
    Rua Barão de Cataguases s/n, Centro
    36.015-370 Juiz de Fora, MG, Brazil
    Phone: 55 32 32573126
  • Publication Dates

    • Publication in this collection
      05 Apr 2013
    • Date of issue
      2013

    History

    • Received
      28 May 2012
    • Accepted
      10 July 2012
    Associação Brasileira de Hematologia e Hemoterapia e Terapia Celular R. Dr. Diogo de Faria, 775 cj 114, 04037-002 São Paulo/SP/Brasil, Tel. (55 11) 2369-7767/2338-6764 - São Paulo - SP - Brazil
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