, Entre janvier 2012 et décembre 2017, 136 patients ont présenté une IPH
, 57%) étaient des femmes. Le score de Charlson médian était de 5 (IQR 3-8), L'âge médian était de 71 ans, vol.77, pp.62-83
,
,
, La dénutrition était modérée pour 41 patients (30%) et sévère pour 36 patients (26%)
, Le délai médian de prise en charge entre le moment des premiers signes d'infection et le traitement chirurgical était de 10 jours
Total hip arthroplasty revision due to infection: a cost analysis approach, Orthop Traumatol Surg Res OTSR, vol.96, pp.124-156, 2010. ,
Increasing risk of prosthetic joint infection after total hip arthroplasty, Acta Orthop, vol.83, pp.449-58, 2012. ,
Are We Winning or Losing the Battle With Periprosthetic Joint Infection: Trends in ,
, Periprosthetic Joint Infection and Mortality Risk for the Medicare Population
, J Arthroplasty, vol.33, pp.3238-3283, 2018.
Reducing surgical site infection incidence through a network: results from the French ISO-RAISIN surveillance system, J Hosp Infect, vol.72, pp.127-161, 2009. ,
URL : https://hal.archives-ouvertes.fr/hal-00428355
The impact of infection after total hip arthroplasty on hospital and surgeon resource utilization, J Bone Joint Surg Am, vol.87, pp.1746-51, 2005. ,
Revision hip arthroplasty: infection is the most common cause of failure, Clin Orthop, vol.468, pp.2046-51, 2010. ,
, Prothèse de hanche ou de genou : diagnostic et prise en charge de l'infection dans le mois suivant l'implantation, vol.29, 2019.
, BP, vol.217, p.62, 2009.
Proceedings of the International Consensus on Periprosthetic Joint Infection, Bone Jt J, 2013. ,
Prosthetic-Joint Infections, N Engl J Med, vol.351, pp.1645-54, 2004. ,
The Mayo prosthetic joint infection risk score: implication for surgical site infection reporting and risk stratification, Infect Control Hosp Epidemiol, vol.33, pp.774-81, 2012. ,
Presence of medical comorbidities in patients with infected primary hip or knee arthroplasties, J Arthroplasty, vol.22, pp.651-657, 2007. ,
Prevalence of modifiable surgical site infection risk factors in hip and knee joint arthroplasty patients at an urban academic hospital, J Arthroplasty, vol.29, pp.272-278, 2014. ,
Obesity and perioperative morbidity in total hip and total knee arthroplasty patients, J Arthroplasty, vol.20, pp.46-50, 2005. ,
Is potential malnutrition associated with septic failure and acute infection after revision total joint arthroplasty?, Clin Orthop, vol.473, pp.175-82, 2015. ,
Prospective Evaluation of Criteria for Microbiological Diagnosis of Prosthetic-Joint Infection at Revision Arthroplasty, J Clin Microbiol, vol.36, pp.2932-2941, 1998. ,
Infection after total hip arthroplasty. A study of the treatment of one hundred and six infections, J Bone Joint Surg Am, vol.78, pp.512-535, 1996. ,
, Stratégie de prise en charge en cas de dénutrition protéino-énergétique chez la personne âgée, 2019.
ASA physical status classifications: a study of consistency of ratings, Anesthesiology, vol.49, pp.239-282, 1978. ,
A new method of classifying prognostic comorbidity in longitudinal studies: development and validation, J Chronic Dis, vol.40, pp.90171-90179, 1987. ,
Surgical procedures in the treatment of 784 infected THAs reported to the Norwegian Arthroplasty Register, Acta Orthop, vol.82, pp.530-537, 2011. ,
Retention treatment after periprosthetic total hip arthroplasty infection, Int Orthop, vol.36, pp.723-732, 2012. ,
Infection control rate of irrigation and débridement for periprosthetic joint infection, Clin Orthop, vol.469, pp.3043-3051, 2011. ,
Debridement and implant retention in the management of hip periprosthetic joint infection: outcomes following guided and rapid treatment at a single centre, Bone Jt J, vol.99, pp.330-336, 2017. ,
Noncompliance with IDSA guidelines for patients presenting with methicillinsusceptible Staphylococcus aureus prosthetic joint infection is a risk factor for treatment failure, Med Mal Infect, vol.48, pp.207-218, 2018. ,
URL : https://hal.archives-ouvertes.fr/hal-01953692
Is prosthesis retention effective for chronic infections in hip arthroplasties? A systematic literature review, Eur J Clin Microbiol Infect Dis Off Publ Eur Soc Clin Microbiol, vol.34, pp.1495-502, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-02271205
A large multicenter study of methicillin-susceptible and methicillin-resistant Staphylococcus aureus prosthetic joint infections managed with implant retention, Clin Infect Dis Off Publ Infect Dis Soc Am, vol.56, pp.182-94, 2013. ,
The preoperative prediction of success following irrigation and debridement with polyethylene exchange for hip and knee prosthetic joint infections, J Arthroplasty, vol.27, pp.857-864, 2012. ,
Chronic infections in hip arthroplasties: comparing risk of reinfection following one-stage and twostage revision: a systematic review and meta-analysis, Clin Epidemiol, vol.4, pp.57-73, 2012. ,
Infectiological, functional, and radiographic outcome after revision for prosthetic hip infection according to a strict algorithm, Acta Orthop, vol.82, pp.27-34, 2011. ,
Pre-operative scoring system to determine the surgical strategy for periprosthetic hip infection, Int Orthop, vol.39, pp.19-25, 2015. ,
One-stage exchange arthroplasty for chronic periprosthetic hip infection: results of a large prospective cohort study, J Bone Joint Surg Am, vol.96, p.1, 2014. ,
Infected total hip arthroplasty revision: one-or two-stage procedure?, Orthop Traumatol Surg Res OTSR, vol.98, pp.144-50, 2012. ,
Removal of an Infected Hip Arthroplasty Is a High-Risk Surgery: Putting Morbidity Into Context With Other Major Nonorthopedic Operations, J Arthroplasty, vol.32, pp.2834-2875, 2017. ,
Preliminary Results After Changing From Two-Stage to One-Stage Revision Arthroplasty Protocol Using Cementless Arthroplasty for Chronic Infected Hip Replacements, J Arthroplasty, vol.33, pp.527-559, 2018. ,
Complications after spacer implantation in the treatment of hip joint infections, Int J Med Sci, vol.6, pp.265-73, 2009. ,
Twostage revision of prosthetic hip joint infections using antibiotic-loaded cement spacers: When is the best time to perform the second stage?, Int Orthop, vol.39, pp.1731-1737, 2015. ,
Sarcopenia is predictive of nosocomial infection in care of the elderly, Br J Nutr, vol.96, pp.895-901, 2006. ,
The effect of malnutrition on patients undergoing elective joint arthroplasty, J Arthroplasty, vol.28, pp.21-25, 2013. ,
Procrastination of wound drainage and malnutrition affect the outcome of joint arthroplasty, Clin Orthop, vol.466, pp.1368-71, 2008. ,
, IL < à 30 jours -Tsukayama 2 : infection chronique, IL > à 30 jours -Tsukayama 3 : infection aiguë tardive, IL > à 30 jours mais infection de la prothèse par voie hématogène en provenance d'un autre foyer infectieux -Tsukayama 4 : infection retrouvée de manière fortuite sur des prélèvements microbiologiques per-opératoires positifs d'un patient opéré pour changement de prothèse et, Annexe 1 : Classification de Tsukayama -Tsukayama 1 : infection aiguë précoce