Comparison of Surgical Procedures in the Treatment of Hip Periprosthetic Infection

Branco, Ricardo Tomé; Rodrigues, Eurico Bandeira

doi:10.1055/s-0043-1776132

Abstract

Objective The present study aimed to compare the cure rate recovery time and Merle d'Aubigné-Postel functional (MAPF) score after single-stage surgery (C1T) or two-stage surgery (C2T) to treat prosthetic infections of the hip considering sociodemographic and clinical features of the patients.

Materials and Methods The present retrospective study occurred in a single center from 2011 to 2014 with 37 studied cases including 26 treated with C1T and 11 with C2T. We compared the cure rate recovery time and MAPF score in the two groups as well as the sociodemographic and clinical features of the patients. We also considered surgical complications and the most common infectious agents.

Results The C1T group had a faster functional recovery than the C2T group but there were no significant differences in the cure rate surgical complications or MAPF score. However C1T group patients were significantly younger which may have influenced the outcomes. Staphylococcus spp. was the most common infectious agent (62%).

Conclusion Although C2T appears superior regarding infection cure C1T may be preferable for faster functional recovery. However it is critical to consider individual patient characteristics when choosing treatment. Further research with a larger sample size is required to confirm these results.

Keywords
arthroplasty, replacement, hip; prosthesis-related infections; hip prosthesis; recovery of function; reoperation

Resumo

Objetivo

Comparar a taxa de cura, o tempo de recuperação e a pontuação na escala funcional de Merle d'Aubigné-Postel (EFMA) entre a cirurgia em tempo único (C1T) e a cirurgia em dois tempos (C2T) no tratamento de infecções protéticas do quadril, considerando as características sociodemográficas e clínicas dos pacientes.

Materiais e Métodos

Foi realizado um estudo retrospectivo num único centro, entre 2011 e 2014, com um total de 37 casos estudados, sendo 26 tratados com C1T e 11 com C2T. Foram comparadas a taxa de cura, o tempo de recuperação e a pontuação EFMA entre os dois grupos, bem como as características sociodemográficas e clínicas dos pacientes. Foram também consideradas as complicações cirúrgicas e o agente infeccioso mais comum.

Resultados

O grupo C1T teve uma recuperação funcional mais rápida do que o grupo C2T, mas não houve diferenças significativas na taxa de cura, nas complicações cirúrgicas ou na pontuação EFMA. No entanto, o grupo C1T era significativamente mais jovem, o que pode ter influenciado os resultados. Staphylococcus spp. foi o agente infeccioso mais comum (62%).

Conclusão

Embora a C2T pareça ser superior em termos de cura de infecção, a C1T pode ser preferível para uma recuperação funcional mais rápida. No entanto, as características individuais dos pacientes devem ser consideradas na escolha do tratamento. São necessárias mais pesquisas com um tamanho de amostra maior para confirmar estes resultados.

Palavras-chave
artroplastia de quadril; infecções relacionadas a próteses; próteses de quadril; recuperação funcional; reoperação

Introduction

Total arthroplasty-associated infection is a serious issue today. The estimated rate of postoperative infections in total arthroplasties ranges from 1 to 7%, resulting in significant monetary costs.¹1 Illingworth KD, Mihalko WM, Parvizi J, Sculco T, McArthur B, el Bitar Y, Saleh KJ. How to minimizeinfectionandthereby maximizepatient outcomes in total joint arthroplasty: a multicenter approach: AAOS exhibit selection. J Bone Joint Surg Am 2013;95(08):e50

Over one million total hip arthroplasties occur every year worldwide.²2 Pivec R, Johnson AJ, Mears SC, Mont MA. Hip arthroplasty. Lancet 2012;380(9855):1768–1777 Several studies point to an increase in this number due to the higher life expectancy. In addition, the risk of infection increases over time, leading to an absolute increase in the rate of periprosthetic infections.²2 Pivec R, Johnson AJ, Mears SC, Mont MA. Hip arthroplasty. Lancet 2012;380(9855):1768–1777

3 Baek SH. Identification and preoperative optimization of risk factors to prevent periprosthetic joint infection. World J Orthop 2014;5(03):362–367

4 Del Pozo JL, Patel R. Clinical practice. Infection associated with prosthetic joints. N Engl J Med 2009;361(08):787–794

5 Bozic KJ, Kurtz SM, Lau E, Ong K, Vail TP, Berry DJ. The epidemiology of revision total hip arthroplasty in the United States. J Bone Joint Surg Am 2009;91(01):128–133-⁶6 Dale H, Fenstad AM, Hallan G, Havelin LI, Furnes O, Overgaard S, et al. Increasing risk of prosthetic joint infection after total hip arthroplasty. Acta Orthop 2012;83(05):449–458

Hip prosthetic infection is the leading cause of hip revision surgery after mechanical etiologies, highlighting the need to find solutions to maximize its cure rate and reduce its repercussions regarding function, quality of life, and costs.⁵5 Bozic KJ, Kurtz SM, Lau E, Ong K, Vail TP, Berry DJ. The epidemiology of revision total hip arthroplasty in the United States. J Bone Joint Surg Am 2009;91(01):128–133,⁷7 Oussedik S, Gould K, Stockley I, Haddad FS. Defining peri-prosthetic infection: do we have a workable gold standard? J Bone Joint Surg Br 2012;94(11):1455–1456

Hip prosthetic infection treatment may employ different strategies, including single-stage (C1T) and two-stage (C2T) prosthesis replacement, suppressive therapy, and definitive surgery for infectious control, such as amputation or the Girdlestone procedure.⁴4 Del Pozo JL, Patel R. Clinical practice. Infection associated with prosthetic joints. N Engl J Med 2009;361(08):787–794,⁸8 Wolf M, Clar H, Friesenbichler J, Schwantzer G, Bernhardt G, Gruber G, et al. Prosthetic joint infection following total hip replacement: results of one-stage versus two-stage exchange. Int Orthop 2014;38(07):1363–1368

However, there is no consensus on the treatment of prosthetic infection given the scarcity of controlled and randomized clinical trials directly comparing different treatment strategies, in contrast to osteomyelitis or septic arthritis, for instance.⁹9 Zimmerli W, Trampuz A, Ochsner PE. Prosthetic-joint infections. N Engl J Med 2004;351(16):1645–1654,¹⁰10 Lange J, Troelsen A, Thomsen RW, Søballe K. Chronic infections in hip arthroplasties: comparing risk of reinfection following onestage and two-stage revision: a systematic review and metaanalysis. Clin Epidemiol 2012;4:57–73

However, many authors consider C2T the gold standard for treating hip prosthetic infections.¹⁰10 Lange J, Troelsen A, Thomsen RW, Søballe K. Chronic infections in hip arthroplasties: comparing risk of reinfection following onestage and two-stage revision: a systematic review and metaanalysis. Clin Epidemiol 2012;4:57–73

11 Chen SY, Hu CC, Chen CC, Chang YH, Hsieh PH. Two-stage revision arthroplasty for periprosthetic hip infection: Mean follow-up of ten years. BioMed Res Int 2015;2015:345475-¹²12 Hernigou P, Flouzat-Lachianette CH, Jalil R, Uirassu Batista S, Guissou I, Poignard A. Treatment of infected hip arthroplasty. Open Orthop J 2010;4:126–131 The first surgical stage consists of debridement, arthroplasty explantation, and placement of a polymethylmethacrylate spacer impregnated with antibiotics.¹¹11 Chen SY, Hu CC, Chen CC, Chang YH, Hsieh PH. Two-stage revision arthroplasty for periprosthetic hip infection: Mean follow-up of ten years. BioMed Res Int 2015;2015:345475,¹³13 Bori G, Muñoz-Mahamud E, Cuñé J, Gallart X, Fuster D, Soriano A. One-stage revision arthroplasty using cementless stem for infected hip arthroplasties. J Arthroplasty 2014;29(05):1076–1081 Next, antibiotherapy is instituted for 4 to 6 weeks even though its duration is not a consensus.⁴4 Del Pozo JL, Patel R. Clinical practice. Infection associated with prosthetic joints. N Engl J Med 2009;361(08):787–794,¹⁴14 Hsieh PH, Huang KC, Lee PC, Lee MS. Two-stage revision of infected hip arthroplasty using an antibiotic-loaded spacer: retrospective comparison between short-term and prolonged antibiotic therapy. J Antimicrob Chemother 2009;64(02):392–397 The second surgical stage, a revision arthroplasty, occurs after normalization of the analytical parameters of infection.¹⁵15 Osmon DR, Berbari EF, Berendt AR, Lew D, Zimmerli W, Steckelberg JM, et al; Infectious Diseases Society of America. Diagnosis and management of prosthetic joint infection: clinical practice guidelines by the Infectious Diseases Society of America. Clin Infect Dis 2013;56(01):e1–e25 However, few studies addressed the long-term follow-up of these patients.¹¹11 Chen SY, Hu CC, Chen CC, Chang YH, Hsieh PH. Two-stage revision arthroplasty for periprosthetic hip infection: Mean follow-up of ten years. BioMed Res Int 2015;2015:345475

More recently, the success of C1T has been studied, demonstrating its superiority in terms of functional outcomes.¹²12 Hernigou P, Flouzat-Lachianette CH, Jalil R, Uirassu Batista S, Guissou I, Poignard A. Treatment of infected hip arthroplasty. Open Orthop J 2010;4:126–131 This treatment consists of infected tissues and implant excision and the immediate placement of a new prosthesis, followed by antibiotic treatment.¹⁵15 Osmon DR, Berbari EF, Berendt AR, Lew D, Zimmerli W, Steckelberg JM, et al; Infectious Diseases Society of America. Diagnosis and management of prosthetic joint infection: clinical practice guidelines by the Infectious Diseases Society of America. Clin Infect Dis 2013;56(01):e1–e25 Patients can begin physical recovery immediately. However, the same does not seem true for the success rate of infection cure.¹²12 Hernigou P, Flouzat-Lachianette CH, Jalil R, Uirassu Batista S, Guissou I, Poignard A. Treatment of infected hip arthroplasty. Open Orthop J 2010;4:126–131

Some studies indicate that C1T may be the best option for more sensitive infectious agents and patients with good systemic and local conditions (no fistulization or severe tissue damage).¹⁵15 Osmon DR, Berbari EF, Berendt AR, Lew D, Zimmerli W, Steckelberg JM, et al; Infectious Diseases Society of America. Diagnosis and management of prosthetic joint infection: clinical practice guidelines by the Infectious Diseases Society of America. Clin Infect Dis 2013;56(01):e1–e25

The present study aimed to compare the two surgical strategies, C1T and C2T, to treat hip prosthetic infections. We analyzed the cure rate and functional recovery of these patients, considering their characteristics (e.g., gender, age, comorbidities, and previous surgeries).

Materials and Methods

An observational, cross-sectional, retrospective, descriptive-analytical study was performed on subjects undergoing hip prosthesis revision surgery due to a diagnosis of prosthetic infection according to the Musculoskeletal Infection Society criteria⁷7 Oussedik S, Gould K, Stockley I, Haddad FS. Defining peri-prosthetic infection: do we have a workable gold standard? J Bone Joint Surg Br 2012;94(11):1455–1456 from January 2011 to December 2014 in a tertiary reference hospital. The inclusion criterion was a periprosthetic hip infection, and the exclusion criteria were the lack of explantation of all hip prosthesis components and placement of a hip revision prosthesis. Our institutional database identified 242 hip replacement revision surgeries. We selected 37 of the patients diagnosed with a periprosthetic hip infection. Of these, 26 underwent C1T (C1T group) and 11 underwent C2T (C2T group). Collected data included age, gender, time of evolution of the prosthetic infection, infection cure status, infection laterality, infectious agent, relevant comorbidities,¹⁶16 Charlson ME, Pompei P, Ales KL, MacKenzie CR. A new method of classifying prognostic comorbidity in longitudinal studies: development and validation. J Chronic Dis 1987;40(05):373–383 history of previous surgeries at the infected site, surgical complications in infection treatment, time for functional status recovery, and Merle d'Aubigné-Postel functional (MAPF) score¹⁷17 D’Aubigne RM, Postel M. Functional results of hip arthroplasty with acrylic prosthesis. J Bone Joint Surg Am 1954;36-A(03): 451–475 (recorded after 1 year of follow-up).

Data analysis used the IBM SPSS Statistics for Windows, version 22.0 (IBM Corp., Armonk, NYM USA). Graph construction used GraphPad Prism, version 6.01 (GraphPad Software, La Jolla, CA, USA). The Shapiro-Wilk test evaluated the Gaussian distribution of continuous variables from all groups. Group comparison used the following tests: t-test for independent samples, Mann-Whitney U test, two-tailed Fisher exact test, and the respective effect magnitude measures. Results were statistically significant if p< 0.05 at a 95% confidence interval (CI).

Results

The study included 37 surgeries for hip prosthetic infection treatment performed from 2011 to 2014. These procedures included 26 C1Ts and 11 C2Ts.

We performed a comparative analysis of the sociodemographic and clinical characteristics of the sample (►Tables 1 and 2). The C2T group was significantly younger than the C1T group, with a moderate effect magnitude. Our institution avoids C2T in older patients because of the negative impact on functional recovery. Outcome analysis considered this fact.

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Table 1
Sociodemographic features of the patients

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Table 2
Clinical features of the patients

Most infections occurred on revision implants, lasted ≥ 4 weeks, and their etiological agents were resistant organisms. Most cases presented comorbidities with a Charlson index ≥ 1.¹⁶16 Charlson ME, Pompei P, Ales KL, MacKenzie CR. A new method of classifying prognostic comorbidity in longitudinal studies: development and validation. J Chronic Dis 1987;40(05):373–383 Only 21.6% of subjects had surgical complications during the perioperative period. There were no statistically significant differences in clinical parameters between the two groups.

There was no mortality associated with periprosthetic infection. Five patients died of unrelated causes.

The C1T group had a lower cure rate than the C2T group (►Fig. 1), but we did not observe a statistically significant association between the surgical procedure and cure rate.

Fig. 1
Cure rate according to the surgery type for treating a prosthetic infection. n_C1T= 26; n_C2T= 11. p= 0.695, two-tailed Fisher exact test, φ = 0.093.

For a Charlson index ≥ 1, the cure rate was higher for the C2T group than for the C1T group. The opposite occurred in patients with no comorbidities (null Charlson index) (►Fig. 2), but there was no statistical significance.

Fig. 2
(A) Cure rate in the group with no comorbidities (Charlson index = 0) for each type of surgery to treat prosthetic infection. n_C1T= 10; n_C2T= 4. p= 0.505, two-tailed Fisher exact test, φ = 0.194. (B) Cure rate in the group with comorbidities (Charlson index ≥ 1) for each type of surgery to treat prosthetic infection. n_C1T= 16; n_C2T= 7. p= 0.366, two-tailed Fisher exact test, φ = 0.232.

The cure rate for primary implants was higher in the C2T group than in the C1T group, again with no statistical significance (►Fig. 3) In cases of revision implants, the cure rate was ∼ 70%.

Fig. 3
(A) Cure rate in the primary implant group for each type of surgery to treat prosthetic infection. n_C1T= 10; n_C2T= 4. p= 1.000, two-tailed Fisher exact test, φ = 0.258. (B) Cure rate in the revision implant group for each type of surgery to treat prosthetic infections. n_C1T= 16; n_C2T= 7. p= 1.000, two-tailed Fisher exact test, φ = 0.027.

In cases with no previous surgical procedures at the infection site, C2T had a 25% higher cure rate than C1T (►Fig. 4A), but without statistical significance. In cases with previous surgical procedures, the cure rate was ∼ 70% in both groups (►Fig. 4B).

Fig. 4
(A) Cure rate in the group without previous surgeries at the infection site except primary arthroplasty (e.g., osteotomy, surgical debridement for any reason, partial or total prosthesis replacement due to infection or another reason) for each type of surgery to treat prosthetic infection. n_C1T= 8; n_C2T= 4. p= 0.515, two-tailed Fisher exact test, φ = 0.316. (B) Cure rate in the group with previous surgery(ies) at the infection site for each type of surgery to treat the prosthetic infection. n_C1T= 18; n_C2T= 7. p= 1.000, two-tailed Fisher exact test, φ = 0.008.

Some authors reported an increased risk of periprosthetic infection in subjects > 75 years old.¹⁸18 Mahomed NN, Barrett JA, Katz JN, Phillips CB, Losina E, Lew RA, et al. Rates and outcomes of primary and revision total hip replacement in the United States medicare population. J Bone Joint Surg Am 2003;85(01):27–32 We compared the cure rate in patients aged ≥ 75 and <7 5 years old (►Fig. 5A), but the association was not statistically significant. The cure rate was 18% lower in the ≥ 75-year-old group than in the < 75-year-old group, but the fact that the C1T group was significantly younger and had a slightly lower cure rate than the C2T group may be a confounding factor. No surgical procedure showed a statistically significant advantage according to age (►Fig. 5B-C).

Fig. 5
(A) Cure rate in patients aged < 75 years old versus ≥ 75 years old. n_{<75 years}= 19, n_{≥75 years}= 18. p= 0.269; two-tailed Fisher exact test, φ = 0.204. (B) Cure rate in patients aged < 75 years old for each type of surgery to treat prosthetic infection. n_C1T= 11; n_C2T= 8. p= 1.000, two-tailed Fisher exact test, φ = 0.077. (C) Cure rate in patients aged ≥ 75 years old for each type of surgery to treat prosthetic infection. n_C1T= 15; n_C2T= 3. p= 1.000, two-tailed Fisher exact test, φ < 0.001.

The cure rate was higher for females but with no statistical significance (►Fig. 6).

Fig. 6
Cure rate in male versus female patients. n_male= 21, n_female= 16. p= 0.248, two-tailed Fisher exact test, φ = 0.241.

Functional recovery was faster for the C1T group than for the C2T group (►Fig. 7). with a statistically significant difference for the two age groups (< 75 and ≥ 75 years old) (►Fig 8).

Fig. 7
Comparison of functional recovery time in months in the C1T group (n_C1T= 21; M= 3.52, σ = 1.21) and in the C2T group (n_C2T= 10; M= 6.80, σ = 2.39), t (11) = 4.08, p= 0.002, d= 1.73. Error bars indicate σ. **p < 0.01.

Fig. 8
Comparison of functional recovery time in months in patients aged < 75 years old (C1T group: n_C1T= 10; median = 3.00; interquartile range (IQR) = 1.50; C2T group: n_C2T= 7; median = 8.00; IQR = 4.00; U= 6.00; p= 0.004; r= 0.69 and ≥ 75 years old (C1T group: n_C1T= 11; median = 3.00; IQR = 1.00; C2T group: n_C2T= 3; median = 6.00; IQR not calculable; U= 4.00; p= 0.046; r= 0.53). Bars represent the maximum and minimum values. *p < 0.05; **p < 0.01.

There were no statistically significant differences in the MAPF score between C1T and C2T (►Fig 9).

Fig. 9
Merle d'Aubigné-Postel functional (MAPF) score in the C1T group (n= 20; median = 14.0, IQR = 4.00) and in the C2T group (n= 10; median = 14.0; IQR = 2.00); U= 92.5; p= 0.729; r= 0.063. Cases with no score record were excluded (n= 7). Bars represent the maximum and minimum values.

►Table 3 shows the infectious agents in decreasing order of frequency. Staphylococci were the most common organism, with proportions consistent with the literature.²2 Pivec R, Johnson AJ, Mears SC, Mont MA. Hip arthroplasty. Lancet 2012;380(9855):1768–1777,⁴4 Del Pozo JL, Patel R. Clinical practice. Infection associated with prosthetic joints. N Engl J Med 2009;361(08):787–794,⁹9 Zimmerli W, Trampuz A, Ochsner PE. Prosthetic-joint infections. N Engl J Med 2004;351(16):1645–1654,¹⁹19 Bosco JA, Catanzano AJ, Stachel AG, Phillips MSPrince Rainier R Tejada. Expanded gram-negative antimicrobial prophylaxis reduces surgical site infections in hip arthroplasty. J Arthroplasty 2016;31(03):616–621,²⁰20 Stockley I, Mockford BJ, Hoad-Reddick A, Norman P. The use of two-stage exchange arthroplasty with depot antibiotics in the absence of long-term antibiotic therapy in infected total hip replacement. J Bone Joint Surg Br 2008;90(02):145–148,²¹21 Hoberg M, Konrads C, Engelien J, Oschmann D, Holder M, Walcher M, et al. Similar outcomes between two-stage revisions for infection and aseptic hip revisions. Int Orthop 2016;40(03):459–464 There were 3 cases (8.1%) of methicillin-resistant Staphylococcus aureus (MRSA) infection and 5 cases (13.5%) of methicillin-resistant S. epidermidis (MRSE).

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Table 3
Infection-related organisms

We created two categories to investigate potential differences in the cure rate depending on the resistance of the infectious agent (►Fig. 10A). There was a statistically non-significant increase of ∼ 5% in the cure rate for low-resistant agents. There were no statistically significant differences in the functional recovery time between the two resistance categories (►Fig. 10B).

Fig. 10
(A) Cure rate in cases of infection caused by low-resistant agents (non-methicillin-resistant Staphylococci, n= 13) versus high-resistant agents (methicillin-resistant Staphylococci, Gram-negative, and polymicrobial agents, n= 21); p= 1.000; two-tailed Fisher exact test; φ = 0.061. Cases with no organism detection (n= 3) were excluded from the analysis. (B) Functional recovery time in months in cases of infection caused by low-resistant (n= 12; median = 4.00; IQR = 2.50) versus high-resistant agents (n= 16; median = 4.00, IQR = 2.75); U= 91.5; p= 0.832; r= 0.004. Cases with no recovery time record (n= 6) or no organism detection (n= 3) were excluded. Bars represent the maximum and minimum values.

Discussion

Most cases of hip prosthesis revision due to infection occur in males (►Table 1), consistent with previous studies.⁶6 Dale H, Fenstad AM, Hallan G, Havelin LI, Furnes O, Overgaard S, et al. Increasing risk of prosthetic joint infection after total hip arthroplasty. Acta Orthop 2012;83(05):449–458 Furthermore, our study showed that, although there is no statistical significance, the cure rate is lower in males and, consequently, the infection recurrence rate is higher in these subjects (►Fig. 6). These two pieces of information support the hypothesis that the male gender is a risk factor for hip prosthetic infection,³3 Baek SH. Identification and preoperative optimization of risk factors to prevent periprosthetic joint infection. World J Orthop 2014;5(03):362–367,²²22 Reina N, Delaunay C, Chiron P, Ramdane N, Hamadouche MSociété française dechirurgie orthopédiqueet traumatologique. Infectionas a cause of primary total hip arthroplasty revision and its predictive factors. Orthop Traumatol Surg Res 2013;99(05):555–561 even though the literature is controversial.¹⁰10 Lange J, Troelsen A, Thomsen RW, Søballe K. Chronic infections in hip arthroplasties: comparing risk of reinfection following onestage and two-stage revision: a systematic review and metaanalysis. Clin Epidemiol 2012;4:57–73,¹⁸18 Mahomed NN, Barrett JA, Katz JN, Phillips CB, Losina E, Lew RA, et al. Rates and outcomes of primary and revision total hip replacement in the United States medicare population. J Bone Joint Surg Am 2003;85(01):27–32

During the present study, there were no deaths related to any surgery type. Previous studies in the elderly point to a hip prosthetic infection-related death rate of ∼ 8%.²³23 Choong PF, Dowsey MM, Carr D, Daffy J, Stanley P. Risk factors associated with acute hip prosthetic joint infections and outcome of treatment with a rifampinbased regimen. Acta Orthop 2007;78 (06):755–765 A larger sample is required to assess this parameter.

Although age can be a confounding factor, the difference in the cure rate between the two types of surgery (►Fig. 1) was consistent with the literature. A retrospective study of 92 patients compared C1T and C2T and showed cure rates of 56.8 and 94.5%, respectively.⁸8 Wolf M, Clar H, Friesenbichler J, Schwantzer G, Bernhardt G, Gruber G, et al. Prosthetic joint infection following total hip replacement: results of one-stage versus two-stage exchange. Int Orthop 2014;38(07):1363–1368 A meta-analysis indicated an additional 3% risk of reinfection for C1T.10 However, another broader and more recent meta-analysis suggests similar cure rates for both types of surgery, ∼ 92%.²⁴24 Kunutsor SK, Whitehouse MR, Blom AW, Beswick ADINFORM Team. Re-infection outcomes following oneand two-stage surgical revision of infected hip prosthesis: A systematic review and meta-analysis. PLoS One 2015;10(09):e0139166 However, the reliability of these data is questionable since no randomized clinical trial directly compared the effectiveness of these procedures.²⁴24 Kunutsor SK, Whitehouse MR, Blom AW, Beswick ADINFORM Team. Re-infection outcomes following oneand two-stage surgical revision of infected hip prosthesis: A systematic review and meta-analysis. PLoS One 2015;10(09):e0139166

One study described an increased risk of periprosthetic infection for Charlson indices ≥ 1.¹⁸18 Mahomed NN, Barrett JA, Katz JN, Phillips CB, Losina E, Lew RA, et al. Rates and outcomes of primary and revision total hip replacement in the United States medicare population. J Bone Joint Surg Am 2003;85(01):27–32 However, no study compared the two procedures considering comorbidities. Our study favors C2T in patients with one or multiple comorbidities and C1T in subjects without comorbidities (►Fig. 2).

►Table 2 shows that most patients were operated on at the site of infection in addition to primary arthroplasty. These patients seemed to present a higher infection risk (►Figs. 3 and 4), as, in addition to the risk associated with each surgery, these procedures damage the microvasculature and lead to fibrosis, weakening the local immune response, which may exacerbate an indolent, previously insignificant infection.¹²12 Hernigou P, Flouzat-Lachianette CH, Jalil R, Uirassu Batista S, Guissou I, Poignard A. Treatment of infected hip arthroplasty. Open Orthop J 2010;4:126–131 C2T appeared beneficial in patients who, in addition to primary arthroplasty, have never undergone surgery in the same location. However, there was no superiority associated with any surgery in patients with a previous surgical history at the infected site.

Our data could not find a clear benefit in either type of surgery depending on age (►Figs. 5 and 6). Moreover, there was a significant difference between the two groups (►Table 1). Some authors argue that age is a risk factor for prosthetic infection, but data is contradictory.²³23 Choong PF, Dowsey MM, Carr D, Daffy J, Stanley P. Risk factors associated with acute hip prosthetic joint infections and outcome of treatment with a rifampinbased regimen. Acta Orthop 2007;78 (06):755–765,²⁵25 Urquhart DM, Hanna FS, Brennan SL, Wluka AE, Leder K, Cameron PA, et al. Incidence and risk factors for deep surgical site infection after primary total hip arthroplasty: a systematic review. J Arthroplasty 2010;25(08):1216–22.e1, 3

►Fig. 7 shows that C2T resulted in a statistically significant higher functional recovery time than C1T. However, ►Fig. 8 reveals that the difference in recovery time between the 2 groups is lower for subjects ≥7 5 years old. In addition to the greater confidence in the statistical difference, the effect magnitude is higher for ages < 75 years old. These data seem to suggest a weakening of the effect of C2T on the recovery time in older subjects (that is, ≥ 75 years old). Therefore, there is an apparent advantage in considering the functional recovery time as a treatment choice criterion (C1T versus C2T), especially for ages < 75 years old.

The present study detected no differences in the final functional activity level according to the MAPF score. Other studies reported average scores of 13.1 to 15.4 points after C2T and 13.8 points after C1T.¹³13 Bori G, Muñoz-Mahamud E, Cuñé J, Gallart X, Fuster D, Soriano A. One-stage revision arthroplasty using cementless stem for infected hip arthroplasties. J Arthroplasty 2014;29(05):1076–1081,²¹21 Hoberg M, Konrads C, Engelien J, Oschmann D, Holder M, Walcher M, et al. Similar outcomes between two-stage revisions for infection and aseptic hip revisions. Int Orthop 2016;40(03):459–464,²⁶26 Liu K, Zheng J, Jin Y, Zhao YQ. Application of temporarily functional antibiotic-containing bone cement prosthesis in revision hip arthroplasty. Eur J Orthop Surg Traumatol 2014;24(01): 51–55,²⁷27 Kelm J, Bohrer P, Schmitt E, Anagnostakos K. Treatment of proximal femur infections with antibiotic-loaded cement spacers. Int J Med Sci 2009;6(05):258–264 However, none of the studies directly compared the scores between the two types of surgery.

Surgical complications increase the risk of periprosthetic infection. One study related intraoperative fracture in knee arthroplasty with an increased risk of infection.²⁸28 de Dios M, Cordero-Ampuero J. [Risk factors for infection in total knee artrhoplasty, including previously unreported intraoperative fracture and deep venous thrombosis]. Rev Esp Cir Ortop Traumatol 2015;59(01):36–43 Other studies indicated that intraoperative hemorrhage or hematoma is associated with a greater risk of periprosthetic infection.³3 Baek SH. Identification and preoperative optimization of risk factors to prevent periprosthetic joint infection. World J Orthop 2014;5(03):362–367,⁴4 Del Pozo JL, Patel R. Clinical practice. Infection associated with prosthetic joints. N Engl J Med 2009;361(08):787–794 Our data (►Table 2) showed an 8% increase in the C2T group compared with the C1T group in the rate of surgical complications, without statistical significance. Therefore, we cannot make an association between the type of surgery and the rate of surgical complications, as previously suggested.²⁹29 Gehrke T, Kendoff D. Peri-prosthetic hip infections: in favour of one-stage. Hip Int 2012;22(Suppl 8):S40–S45 However, another study proposed that the risk of complications in C2T will be approximately two times higher than in C1T, with the risk of surgical complications at each C2T stage similar to C1T.¹²12 Hernigou P, Flouzat-Lachianette CH, Jalil R, Uirassu Batista S, Guissou I, Poignard A. Treatment of infected hip arthroplasty. Open Orthop J 2010;4:126–131

Some authors proposed that Gram-negative agents, multidrug-resistant organisms, and polymicrobial infections lead to worse outcomes.¹⁰10 Lange J, Troelsen A, Thomsen RW, Søballe K. Chronic infections in hip arthroplasties: comparing risk of reinfection following onestage and two-stage revision: a systematic review and metaanalysis. Clin Epidemiol 2012;4:57–73,³⁰30 Joulie D, Girard J, Mares O, Beltrand E, Legout L, Dezèque H, et al. Factors governing the healing of Staphylococcus aureus infections following hip and knee prosthesis implantation: a retrospective study of 95 patients. Orthop Traumatol Surg Res 2011;97(07): 685–692 However, other studies showed that antimicrobial susceptibility testing results cannot predict the outcome of periprosthetic infection.⁹9 Zimmerli W, Trampuz A, Ochsner PE. Prosthetic-joint infections. N Engl J Med 2004;351(16):1645–1654 Therefore, our data do not allow conclusions on the outcome of severe infections.

There was a selection bias since the decision on the type of surgery was not random. The exclusion of patients who did not complete the second stage of surgery probably resulted in a bias favoring C2T.

The nature of the present study does not allow us to determine whether the cases with no infectious agent detection were due to early antibiotic therapy.

The infection diagnostic criteria used (proposed by the American Musculoskeletal Infection Society⁷7 Oussedik S, Gould K, Stockley I, Haddad FS. Defining peri-prosthetic infection: do we have a workable gold standard? J Bone Joint Surg Br 2012;94(11):1455–1456) do not ensure the avoidance of false-negative and false-positive results. As such, some infection cases included may have corresponded to the simple aseptic detachment of the prosthesis and contamination in the microbiological tests (most frequently by coagulase-negative Staphylococci), whereas some cases of true infection may have been excluded.⁹9 Zimmerli W, Trampuz A, Ochsner PE. Prosthetic-joint infections. N Engl J Med 2004;351(16):1645–1654,¹⁵15 Osmon DR, Berbari EF, Berendt AR, Lew D, Zimmerli W, Steckelberg JM, et al; Infectious Diseases Society of America. Diagnosis and management of prosthetic joint infection: clinical practice guidelines by the Infectious Diseases Society of America. Clin Infect Dis 2013;56(01):e1–e25

Data regarding functional recovery time are independent of the infection cure, which could be a confounding factor. Furthermore, the pain threshold may vary between younger and older subjects for sociocultural reasons. It is also possible that the functional recovery of younger patients will take longer as they will achieve a higher range of mobility than older subjects. Moreover, there were no preoperative MAPF scores.

Conclusion

Our study shows an advantage in the recovery time in subjects undergoing C1T. However, we cannot draw reliable conclusions comparing the cure rate after C1T and C2T. More studies with a larger sample size (ideally, 3,500 patients¹⁰10 Lange J, Troelsen A, Thomsen RW, Søballe K. Chronic infections in hip arthroplasties: comparing risk of reinfection following onestage and two-stage revision: a systematic review and metaanalysis. Clin Epidemiol 2012;4:57–73) are required, considering risk factors and potential confounder factors.

Financial Support

The present research received no specific funding from public, commercial, or not-for-profit sector agencies.

References

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Baek SH. Identification and preoperative optimization of risk factors to prevent periprosthetic joint infection. World J Orthop 2014;5(03):362–367
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Del Pozo JL, Patel R. Clinical practice. Infection associated with prosthetic joints. N Engl J Med 2009;361(08):787–794
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Bozic KJ, Kurtz SM, Lau E, Ong K, Vail TP, Berry DJ. The epidemiology of revision total hip arthroplasty in the United States. J Bone Joint Surg Am 2009;91(01):128–133
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Dale H, Fenstad AM, Hallan G, Havelin LI, Furnes O, Overgaard S, et al. Increasing risk of prosthetic joint infection after total hip arthroplasty. Acta Orthop 2012;83(05):449–458
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Oussedik S, Gould K, Stockley I, Haddad FS. Defining peri-prosthetic infection: do we have a workable gold standard? J Bone Joint Surg Br 2012;94(11):1455–1456
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Wolf M, Clar H, Friesenbichler J, Schwantzer G, Bernhardt G, Gruber G, et al. Prosthetic joint infection following total hip replacement: results of one-stage versus two-stage exchange. Int Orthop 2014;38(07):1363–1368
⁹
Zimmerli W, Trampuz A, Ochsner PE. Prosthetic-joint infections. N Engl J Med 2004;351(16):1645–1654
¹⁰
Lange J, Troelsen A, Thomsen RW, Søballe K. Chronic infections in hip arthroplasties: comparing risk of reinfection following onestage and two-stage revision: a systematic review and metaanalysis. Clin Epidemiol 2012;4:57–73
¹¹
Chen SY, Hu CC, Chen CC, Chang YH, Hsieh PH. Two-stage revision arthroplasty for periprosthetic hip infection: Mean follow-up of ten years. BioMed Res Int 2015;2015:345475
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Hernigou P, Flouzat-Lachianette CH, Jalil R, Uirassu Batista S, Guissou I, Poignard A. Treatment of infected hip arthroplasty. Open Orthop J 2010;4:126–131
¹³
Bori G, Muñoz-Mahamud E, Cuñé J, Gallart X, Fuster D, Soriano A. One-stage revision arthroplasty using cementless stem for infected hip arthroplasties. J Arthroplasty 2014;29(05):1076–1081
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Hsieh PH, Huang KC, Lee PC, Lee MS. Two-stage revision of infected hip arthroplasty using an antibiotic-loaded spacer: retrospective comparison between short-term and prolonged antibiotic therapy. J Antimicrob Chemother 2009;64(02):392–397
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Osmon DR, Berbari EF, Berendt AR, Lew D, Zimmerli W, Steckelberg JM, et al; Infectious Diseases Society of America. Diagnosis and management of prosthetic joint infection: clinical practice guidelines by the Infectious Diseases Society of America. Clin Infect Dis 2013;56(01):e1–e25
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Charlson ME, Pompei P, Ales KL, MacKenzie CR. A new method of classifying prognostic comorbidity in longitudinal studies: development and validation. J Chronic Dis 1987;40(05):373–383
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D’Aubigne RM, Postel M. Functional results of hip arthroplasty with acrylic prosthesis. J Bone Joint Surg Am 1954;36-A(03): 451–475
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Liu K, Zheng J, Jin Y, Zhao YQ. Application of temporarily functional antibiotic-containing bone cement prosthesis in revision hip arthroplasty. Eur J Orthop Surg Traumatol 2014;24(01): 51–55
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Kelm J, Bohrer P, Schmitt E, Anagnostakos K. Treatment of proximal femur infections with antibiotic-loaded cement spacers. Int J Med Sci 2009;6(05):258–264
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de Dios M, Cordero-Ampuero J. [Risk factors for infection in total knee artrhoplasty, including previously unreported intraoperative fracture and deep venous thrombosis]. Rev Esp Cir Ortop Traumatol 2015;59(01):36–43
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Gehrke T, Kendoff D. Peri-prosthetic hip infections: in favour of one-stage. Hip Int 2012;22(Suppl 8):S40–S45
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Publication Dates

Publication in this collection
11 Dec 2023
Date of issue
sep/oct 2023

History

Received
19 Mar 2023
Accepted
05 May 2023

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

[1] Financial Support

The present research received no specific funding from public, commercial, or not-for-profit sector agencies.

Variables	Total	C1T	C2T	U	p-value	r
	n= 37 (100%)	n= 26 (70.3%)	n= 11 (29.7%)
	Median (IQR)	Median (IQR)	Median (IQR)
Age^a b Distinguishing whether the infection occurred in a primary implant or a revision implant. (in years)	74 (18.0)	77 (16.0)	64 (18.0)	83.0	.046	0.33
	n (%)	n (%)	n (%)		p-value^b c Number of any previous surgical procedure at the site of infection, except primary arthroplasty surgery.	φ
Sex
Male	21 (56.8)	15 (57.7)	6 (54.5)		1.000	0.029
Female	16 (43.2)	11 (42.3)	5 (45.5)		1.000	0.029

Variables	Total	C1T	C2T	p-value ^a	φ
	n = 37 (100%)	n = 26 (70.3%)	n = 11 (29.7%)
	n (%)	n (%)	n (%)
Infection ^b f Low-resistant agents include those known as easier to eliminate (non-methicillin-resistant Staphylococci), while high-resistant agents include agents those known as more difficult to eradicate (methicillin-resistant Staphylococci, Gram-negative agents, and polymicrobial cases).
Primary implant	14 (37.8)	10 (38.5)	4 (36.4)	1.000	0.020
Revision implant	23 (62.2)	16 (61.5)	7 (63.6)	1.000	0.020
	0^# c Quantifica qualquer procedimento cirúrgico prévio no local da infecção, à exceção da cirurgia de artroplastia primária.
Number of previous surgeries ^c g Charlson comorbidity index.
0	12 (32.4)	8 (30.8)	4 (36.4)	1.000	0.055
≥ 1	25 (67.6)	18 (69.2)	7 (63.6)	1.000	0.055
	0^# c Quantifica qualquer procedimento cirúrgico prévio no local da infecção, à exceção da cirurgia de artroplastia primária.
Infection time ^d h Surgical complications include perioperative fracture, perioperative hemorrhage, dysmetria, and neuronal injury (one case with an adverse reaction to rifampicin, consisting of erythema and anemia, was not considered a surgical complication).
< 4 weeks	6 (16.2)	6 (23.1)	0 (0.00)	0.151	0.286
≥ 4 weeks	31 (83.8)	20 (76.9)	11 (100)	0.151	0.286
	0^# c Quantifica qualquer procedimento cirúrgico prévio no local da infecção, à exceção da cirurgia de artroplastia primária.
Side ^e # Missing values. Significant p values (< 0.05) are shown in bold.
Left	16 (43.2)	14 (53.8)	2 (18.2)	0.071	0.329
Right	21 (56.8)	12 (46.2)	9 (81.8)	0.071	0.329
	0^# c Quantifica qualquer procedimento cirúrgico prévio no local da infecção, à exceção da cirurgia de artroplastia primária.
Infectious agent (resistance ^f b Teste exato de Fisher. Os valores de p significativos (< 0.05) estão representados em negrito. )
Low	13 (38.2)	10 (41.7)	3 (30.0)	0.704	0.109
High	21 (61.8)	14 (58.3)	7 (70.0)	0.704	0.109
	3^# c Quantifica qualquer procedimento cirúrgico prévio no local da infecção, à exceção da cirurgia de artroplastia primária.
Comorbidities (Charlson index ^g a Teste exato de Fisher. )
0	14 (37.8)	10 (38.5)	4 (36.4)	1.000	0.020
≥ 1	23 (62.2)	16 (61.5)	7 (63.6)	1.000	0.020
	0^# c Quantifica qualquer procedimento cirúrgico prévio no local da infecção, à exceção da cirurgia de artroplastia primária.
Complications ^h b Distingue se a infecção ocorreu em implante primário ou em implante de revisão.
Absent	29 (78.4)	21 (80.8)	8 (72.7)	0.672	0.089
Present	8 (21.6)	5 (19.2)	3 (27.3)	0.672	0.089
	0^# c Quantifica qualquer procedimento cirúrgico prévio no local da infecção, à exceção da cirurgia de artroplastia primária.

Organism	n (%)
Staphylococcus aureus	12 (32.4)
Coagulase-negative Staphylococci	11 (29.7)
Polymicrobial infections^a	7 (18.9)
Gram-negative agents	4 (10.8)
Unidentified organism	3 (8.1)
Total	37 (100)

Brasil

Brasil

Comparison of Surgical Procedures in the Treatment of Hip Periprosthetic Infection

Abstract

Resumo

Objetivo

Materiais e Métodos

Resultados

Conclusão

Introduction

Materials and Methods

Results

Discussion

Conclusion

References

Publication Dates

History