ETMExperimental and Therapeutic Medicine1792-09811792-1015D.A. Spandidos10.3892/etm.2020.9337ETM-0-0-09337ArticlesCurrent practices in haemophilic patients undergoing orthopedic surgery - a systematic reviewBadulescuOana Viola1*FilipNina2SirbuPaul Dan3*Bararu-BojanIris1VladeanuMaria1BojanAndrei4CiocoiuManuela1Department of Pathophysiology, Morpho-Functional Sciences (II), Faculty of Medicine, ‘Grigore T. Popa’ University of Medicine and Pharmacy, 700115 Iasi, RomaniaDepartment of Biochemistry, Morpho-Functional Sciences (II), Faculty of Medicine, ‘Grigore T. Popa’ University of Medicine and Pharmacy, 700115 Iasi, RomaniaDepartment of Orthopedics and Traumatology Surgical Sciences (II), Faculty of Medicine, ‘Grigore T. Popa’ University of Medicine and Pharmacy, 700115 Iasi, RomaniaDepartment of Surgical Sciences, ‘Grigore T. Popa’ University of Medicine and Pharmacy, 700115 Iasi, RomaniaCorrespondence to: Dr Nina Filip, Department of Biochemistry, Morpho-Functional Sciences (II), Faculty of Medicine, ‘Grigore T. Popa’ University of Medicine and Pharmacy, 15 Otilia Cazimir Street, 700115 Iasi, Romania zamosteanu_nina@yahoo.com
Dr Iris Bararu-Bojan, Department of Pathophysiology, Morpho- Functional Sciences (II), Faculty of Medicine, ‘Grigore T. Popa’ University of Medicine and Pharmacy, 16 Universității Street, 700115 Iasi, Romania iris_bararu@yahoo.com
Haemophilia is an inherited disease that requires a different approach in order to evaluate, monitor and treat patients. Despite the great advances in therapeutic agents that have emerged, reports on the impact of monitoring outcomes on treatment decisions are rarely presented. Haemophilia A and haemophilia B are inherited bleeding disorders caused by deficiencies in blood clotting factor proteins. A systematic review was performed to identify literature reports on the current practices in haemophilic patients undergoing orthopedic surgery. The best therapy for haemophilic patients consists in performing primary prophylaxis to prevent joint bleeding and other complications. Besides the primary prophylaxis, thromboprophylaxis is used to prevent venous thrombosis in patients with hemophilia who undergo surgical orthopedic procedures. Further research is needed to better manage the pharmacologic approaches in haemophilic patients undergoing orthopedic surgery. Although patients with haemophilia present low risk for thromboembolic complications, such events have been reported in surgical procedures. The recommendations in patients with haemophilia are considerably variable in the current guidelines and clinical practice. The best therapy for haemophilic patients consists in performing primary prophylaxis to prevent joint bleeding and other complications.
Haemophilia A, haemophilia B and von Willebrand disease (VWD) are inherited bleeding disorders of coagulation which represent 95% of all these diseases, while the remaining part is attributed to the rare bleeding disorders (RBDs) (1).
Haemophilia A, an X chromosome-linked disease is determined by deficiency of factor VIII and haemophilia B is due to a deficiency of factor IX. Clinical features of haemophilia A and B are almost identical, but the two haemophilic types can be separated on the basis of specific assays that distinguish between them (2).
The severity of hemophilia is classified according to the amount of the deficient coagulation factor present in the circulation. This is expressed as a percentage (100% represent the normal concentration for the investigated coagulation factor): Mild disease results from a lower concentration between 5-40% of normal; moderate disease from 1-5% and those with severe disease have a concentration of less than 1% (3). Excessive bleeding is observed after minor trauma or surgery for patients with mild and moderate disease, whilst the patients with severe disease bleed spontaneously. The orthopedic problems of hemophilia have reduced since the introduction of prophylaxis using concentrates of the deficient coagulation factor (4).
Different treatment options are available for optimal management of bleeding and their prevention, and long-term outcomes are generally good. Initially the treatment for patients with hemophilia A consisted of administration of cryoprecipitates (enriched in factor VIII) prepared from individual donors or lyophilized factor VIII concentrates prepared from plasma pools of up to 5000 donors. It is now possible to prepare factor VIII by recombinant DNA technology. This type of preparations is free of contaminating viruses (e.g., hepatitis A, B, C, or HIV-1) found in human plasma.
The management of patients with haemophilia is complex as their condition is associated with a large number of comorbidities. Joint problems resulting from recurrent haemarthrosis, such as chronic synovitis and degenerative arthritis represent an important cause of morbidity (5).
2. Search strategy
We used Science Direct, Scopus, PubMed, Google Scholar to search original articles and review articles published in English language with the following key words ‘haemophilia’, ‘orthopaedic surgery’ and ‘arthropathy’. The scientific databases were searched from January 2000 to January 2019. Only full-text, English-language papers were selected. Duplicate publications, irrelevant topics and book chapters were excluded.
3. Orthopaedic procedures in haemophilic patients
Orthopaedic surgery is a viable option to manage a target joint for haemophilic patients with severe arthropathy associated with persistent symptoms (6,7). Surgical orthopaedic procedures generally used for the haemophilic patients are presented in Table I.
Regarding arthroscopic synovectomy of the knee, ankle and elbow, Journeycake et al (8) reported that the frequency of hemarthrosis diminished significantly in the first year after orthopaedic procedures. They concluded that arthroscopic synovectomy should be considered in young hemophilia patients with chronic synovitis.
In 2005, Panotopoulos et al (9) reported no early postoperative complications after three arthrodeses of the subtalar joint and one triple arthrodesis performed with screws and staples. Screw removal was required because of mechanical irritation of soft tissues in two cases after 4 and 12 months, respectively. For advanced haemophilic arthropathy of the ankle, the best solution is an ankle arthrodesis (10,11).
4. Pharmacologic thromboprophylaxis
The major complication that may occur in the patient with haemophilia undergoing total arthroplasty is postoperative bleeding. Considering major bleeding risk of a haemophilia patient, mainly by coagulopathy but also due to surgery, most of the endoprostheses are aimed to provide the required amount of coagulation factor for the substitution treatment. Currently, standard patient care protocols sustain the need for using a haemostatic product, so once administered it could achieve effective haemostasis. In this regard, the use of Moroctocog alfa (a 3rd generation recombinant coagulation factor VIII) in patients with type A haemophilia has proven its safety and effectiveness in orthopaedic surgery (12,13). For of haemophilia patients with inhibitors undergoing total knee replacement surgery, tranexamic acid used as anti-fibrinolytic agent, has been proven to be efficient in reducing hemorrhagipareous phenomena (14).
Holme and Tjønnfjord (15) reported the efficacy of Simoctocog alfa (a 4th generation recombinant FVIII produced in a human cell line without chemical modification or fusion with any other protein) delivered by continuous infusion for bleeding prophylaxis during arthroplasty in patients with haemophilia A.
Silva and Luck Jr (16) reported the risk of infection for total knee replacement is about 16%, and that risk can increase for the ankle because of the poor soft tissue envelope. In the non-haemophilic population, the rate of failure is high, as a result of infection and loosening, similarly to that seen in persons with haemophilia.
The use of thromboprophylaxis is recommended for non-haemophilic patients undergoing orthopedic surgeries because of the particularly well recognized high risk for venous thromboembolism. The drugs prescribed to prevent thrombus formation in total joint arthroplasty are presented in Table II (17,18).
Although patients with haemophilia present low risk for thromboembolic complications, such events have been reported in surgical procedures. Orthopedic surgeries are often required in patients with haemophilia, due to the presence of haemophiliac arthropathy. Arthropathy mainly involves synovial joints, such as elbows, ankles and knees.
Rodríguez-Merchán and De la Corte-García (19) suggested the same type of pharmacological thromboprophylaxis for haemophilic patients undergoing orthopedic surgery as for non-haemophilic patients, if the haemophilic ones present several risk factors for thromboembolism. For hemophilia patients treated with inhibitor, pharmacologic thromboprophylaxis is not recommended (20).
Dargaud et al (21) reported that haemophilic patients should not routinely receive thromboprophylaxis, but specific cases with increased risk of thrombosis should receive therapy with LMWH.
Krekeler et al (22) analysed 105 interventions on haemophilic patients, 90 of them being major orthopaedic surgeries and 15 minor surgeries. The authors did not find any case of deep vein thrombosis or lung embolism when therapy with LWMH was not given after surgery. For haemophilia patients the use of venous thrombosis prophylaxis during orthopedic surgeries remains controversial (23).
The presence of particular surgical indications, the need for different surgical techniques and dedicated multidisciplinary post-operative care and the higher rate of complication have to be clearly highlighted.
5. Conclusions and prospects
In summary, the recommendations in patients with haemophilia are considerably variable in the current guidelines and clinical practice. The best therapy for haemophilic patients consists in performing primary prophylaxis to prevent joint bleeding and other complications. Patients with hemophilia should be clearly informed on the risk-benefit ratio of each surgical procedure taking into account functional outcome, quality of life improvement and the risk of complications. Further research is needed in order the settle general current guidelines and clinical practices, to achieve better management of haemophilic patients undergoing orthopedic surgery.
Acknowledgements
Not applicable.
Funding
No funding was received.
Availability of data and materials
The datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.
Authors' contributions
OVB and PDS analyzed and interpreted the patient data regarding the hematological and orthopaedic disease. NF and IBB performed literature research and wrote the first draft of the manuscript. MV and AB collected data and participated in discussion. MC designed the study and supervised the whole process. All authors read and approved the final manuscript.
Ethics approval and consent to participate
Not applicable.
Patient consent for publication
Not applicable.
Competing interests
The authors declare that they have no competing interests.
ReferencesPeyvandiFPallaRMenegattiMMannucciPMIntroduction: Rare bleeding disorders: General aspects of clinical features, diagnosis and management3534935520091959806310.1055/s-0029-1225757Murray RK, Granner DK, Mayes PA and Rodwell VW: Harper's Biochemistry. 25th Edition, McGraw-Hill, Health Profession Division, New York, 225, 2000.World Federation of Hemophilia. WFH guidelines for the management of hemophilia. Available at: https://www1.wfh.org/publication/files/pdf-1472.pdf.Rodriguez-MerchanECPrevention of the musculoskeletal complications of hemophilia201220127120122277897210.1155/2012/201271KnobeKBerntorpEHaemophilia and joint disease: Pathophysiology, evaluation, and management1515920112909013610.15256/joc.2011.1.2RizzoARZagoMCarulliCInnocentiMOrthopaedic procedures in haemophilia1419719920172926373310.11138/ccmbm/2017.14.1.197Rodríguez-MerchánECThe role of orthopaedic surgery in haemophilia: Current rationale, indications and results416517320193119198410.1302/2058-5241.4.180090JourneycakeJMMillerKLAndersonAMBuchananGRFinneganMArthroscopic synovectomy in children and adolescents with hemophilia2572673120031297280910.1097/00043426-200309000-00010PanotopoulosJHanslik-SchnabelBWanivenhausATriebKOutcome of surgical concepts in haemophilic arthropathy of the hindfoot1146847120051612889010.1111/j.1365-2516.2005.01133.xLuckJV JrSilvaMRodriguez-MerchanCEGhalamborNZahiriCAFinnRSHemophilic arthropathy1223424520041547367510.5435/00124635-200407000-00004Rodriguez-MerchanECThe haemophilic ankle1233734420061683473210.1111/j.1365-2516.2006.01285.xBadulescuOVCiocoiuMFilipNVeringaVThe efficiency of substitutive treatment with moroctocog alfa in managing hemostasis in patients with hemophilia A without inhibitors with total knee arthroplasties69370237042018d'OironRPipeSWJacqueminMMild/moderate haemophilia A: New insights into molecular mechanisms and inhibitor development14 (Suppl 3)S138S14620081851053410.1111/j.1365-2516.2008.01730.xBadulescuOVCiocoiuMFilipNVeringaVTranexamic acid-major antifibrinolytic agent used to achieve hemostasis in hemophilic patients with anti-factor VIII antibodies who must undergo total joint replacement706386412019HolmePATjønnfjordGEContinuous infusion of simoctocog Alfa in haemophilia A patients undergoing surgeries25545920093039461710.1111/hae.13625SilvaMLuckJV JrLong-term results of primary total knee replacement in patients with hemophilia87859120051563481710.2106/JBJS.C.01609KnesekDPetersonTCMarkelDCThromboembolic prophylaxis in total joint arthroplasty201283789620122302961110.1155/2012/837896GaliJCCamargoDBThromboprophylaxis for total knee arthroplasty541520193136323510.1016/j.rbo.2017.06.025Rodríguez-Merchán EC and De la Corte-García H: Orthopedic surgery in hemophilia: Is thromboprophylaxis necessary? Joint surgery in the adult patient with hemophilia. Springer, Cham, pp83-87, 2015.OzeloMCSurgery in patients with hemophilia: Is thromboprophylaxis mandatory?130 (Suppl 1)S23S2620122302665310.1016/j.thromres.2012.08.265DargaudYMeunierSNegrierCHaemophilia and thrombophilia: An unexpected association!1031932620041523094410.1111/j.1365-2516.2004.00906.xKrekelerSAlesciSMiesbachWIncidence of thromboembolic events after major operations in patients with haemophilia32 (Suppl 1)S45S472012(In German)22961299HosseiniFSquireSJYoungerASJacksonSCA 13-year review of elective orthopaedic surgery outcomes in patients with hemophilia A and B612502552019RampalVOdentTTorchetMFRothschildCElieCGlorionCPadovaniJPSurgical synovectomy of the knee in young haemophiliacs: Long-term results of a monocentric series of 23 patients4333720102128625610.1007/s11832-009-0229-yYoonKHBaeDKKimHSSongSJArthroscopic synovectomy in haemophilic arthropathy of the knee2929630020051608254310.1007/s00264-005-0666-2WuLTLuHTChenCHKoALeeCHArthroscopic synovectomy considerably reduces bleeding frequency and improves joint function in hemophilic patients with chronic synovitis4949552016Caviglia H, Eljatib A, Del Soldato G, Daffunchio C, Landro ME and Neme D: Complications of ankle arthroscopy synovectomy. In: Haemophilia. Wiley, NJ, p82, 2018.TriebKPanotopoulosJHartlHBrodnerWPabingerIWanivenhausAOutcome of osteotomies for the treatment of haemophilic arthropathy of the knee38920921220041461832910.1007/s00423-003-0432-0WallnyTSakerAHofmannPBrackmannHHNicolayCKraftCNLong-term follow-up after osteotomy for haemophilic arthropathy of the knee9697520031255878210.1046/j.1365-2516.2003.00705.xDe l'EscalopierNBadinaAPadovaniJPHarrocheAFrenzelLWicartPGlorionCRothschildCLong-term results of ankle arthrodesis in children and adolescents with haemophilia411579158420172842485310.1007/s00264-017-3478-2Fong JY, Luck JV and Silva M: Ankle fusion in hemophilia. In: Annual Meeting. San Diego, CA: American Academy of Orthopaedic Surgery, 2007.MooreMFTobasePAllenDDMeta-analysis: Outcomes of total knee arthroplasty in the haemophilia population22e275e28520162744497310.1111/hae.12885CarulliCFeliciIMartiniCCivininiRLinariSCastamanGInnocentiMTotal hip arthroplasty in haemophilic patients with modern cementless implants301757176020152599813110.1016/j.arth.2015.04.035StraussACRommelspacherYNouriBBornemannRWimmerMDOldenburgJPennekampPHSchmoldersJLong-term outcome of total hip arthroplasty in patients with haemophilia2312913420172748060410.1111/hae.13045DoetsHCBrandRNelissenRGTotal ankle arthroplasty in inflammatory joint disease with use of two mobile-bearing designs881272128420061675776110.2106/JBJS.E.00414RadossiPBissonRMunariFRisatoRTassinariCSartoriRTagarielloGTotal ankle replacement for end-stage arthropathy in patients with haemophilia1465866020081824841010.1111/j.1365-2516.2008.01650.xVan Der HeideHJNovákováIde Waal MalefijtMCThe feasibility of total ankle prosthesis for severe arthropathy in haemophilia and prothrombin deficiency1267968220061708352210.1111/j.1365-2516.2006.01350.x
Orthopaedic procedures in haemophilic patients.
Orthopaedic procedures
Joint type
Key summary
(Refs.)
Arthroscopic synovectomy
Elbows
This procedure should be considered in young hemophilia patients with chronic synovitis.
(8)
Knee
An arthroscopic synovectomy of the knee using appropriate arthroscopic portals is a useful method in treating haemophilic patients as it decreases bleeding episodes, amount of factor replacement and knee pain.
(8,24,25)
Ankle
Arthroscopic synovectomy significantly reduces joint pain, prevents bleeding episodes, and improves joint function with few complications.
(8,26)
Osteotomy
Knee
The patient can benefit from this treatment option so that joint, replacement may possibly be avoided or at least postponed to a later stage of life.
(27-29)
Hip
Intertrochanteric varus osteotomy for haemophilic arthropathy of the hip is an alternative to joint arthroplasty.
(29)
Arthrodesis (joint fusion)
Ankle
Arthrodesis in young patients with haemophilia resulted in good long-term functional outcome, with a low surgery-related complication rate.
(9,11,30,31)
Arthroplasty
Knee
Total knee replacement is considered the gold standard for the treatment of end stage chronic arthropathy in hemophilic patients.
(16,32)
Hip
Total hip replacement in haemophilic patients leads to a significant increase of function, reduction of pain and a high satisfaction.
(33,34)
Ankle
Ankle arthroplasty in hemophilic patients leads to pain relief and improves joint mobility in the vast majority of patients.
(35-37)
Thromboprophylactic agents and their mechanism of action.
Drug
Mechanism of action
Aspirin
Irreversibly blocks cyclooxygenase and the formation of thromboxane A2 (platelet aggregator).
Rivaroxaban
Inhibits directy factor Xa.
Warfarin
Inhibits the vitamin K epoxide reductase complex 1 (VKORC1) (an essential enzyme for activating the vitamin K available in the body).
Low-molecular-weight heparin (LMWHs)
Inhibits coagulation by activating antithrombin III. Antithrombin III binds to and inhibits factor Xa.
Bemiparin
Nadroparin
Reviparin
Enoxaparin
Dalteparin
Tinzaparin
Fondaparinux
Synthetic pentasaccharide inhibitor for factor Xa.