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DOI: 10.1055/s-0037-1620031
Infektionsrisiko und postoperative Wundinfektionen beim geriatrischen Patienten
Risk of infections and postoperative surgical site infections in geriatric patientsPublication History
eingereicht:
28 October 2013
angenommen:
27 November 2013
Publication Date:
02 January 2018 (online)
Zusammenfassung
Zukünftig müssen auf die Versorgung geriatrischer Patienten und die Kenntnisse altersphysiologischer Veränderungen ein besonderes Augenmerk gelegt werden. Infektionen stehen beim älteren Patienten an vierthäufigster Stelle der Todesursachen. Infektionen verlaufen in dieser Patientengruppe meist schwerer als bei jungen Menschen und enden häufiger letal. Die zugrunde liegenden Ursachen sind mannigfaltig; das Immunsystem altert, Malnutrition, alternsphysiologische Funktionseinschränkung der Organe und die durch die geriatrietypische Komorbidität bedingte Polymedikation spielen eine bedeutende Rolle. In diesem Zusammenhang machen postoperative Wundinfektionen rund 17 % der nosokomialen Infektionen aus und treffen 2–5 % der Patienten, die sich einem operativen Eingriff unterzogen haben. Es gibt verschiedene Optionen der Risikokontrolle wie beispielsweise der Erhalt peri- und intraoperativer Normothermie, die Beachtung eines ausgeglichenen Stoffwechsels, insbesondere des Monitorings des Blutzuckerspiegels, die Anwendung von Wärmebehandlung und die frühe Mobilisation des Intensiv patienten. Diese beinhaltet auch die geriatrische Akut -rehabilitation. Die nachhaltige Sicherung des operativen Behandlungserfolges erfordert von allen Beteiligten den interdisziplinären und interprofessionellen Dialog.
Summary
Due to demographic shifts, the number of elderly patients treated for postoperative infections is increasing. Therefore in the future treatment of geriatric patients and knowledge of physiological changes in the elderly must be centered. In older adults infections are one of the most common causes of mortality. In these patients course of infections is more severe and often lethal and surgical site infections occur in about 17 % of all hospital-acquired infections. During the physiologic ageing process, various organ systems are affected that are important for response to infection. Structural and functional changes take place in the organ systems, which modify patients’ immune and defense status and physiologic stress response. Also the number of chronic conditions increases with increasing age; on average, 3 to 9 concomitant conditions (diabetes mellitus, arterial hypertension, osteoporosis, incontinence, chronic bronchitis, heart failure, impairment of cognitive performance, etc.) are to be expected, which inevitably increases the risk of complications and, partially as a result, morbidity and mortality from most infectious diseases increase with ascending age. The most prominent comorbidities triggering infections are diabetes mellitus and chronic heart failure. There are various options to minimize the risk of peri- and postoperative infections such as keeping normothermia, tight monitoring of bloodglucose levels, the use of heat treatment and early mobilisation of critically ill patients. This also includes an early acute geriatric rehabilitation. To ensure success of treatment the interdiciplinary and interprofessional dialogue is essential.
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Literatur
- 1 Füssle R, Szigoleit A. Mikrobiologe. 2004; 14: 89-93.
- 2 Anderson DJ, Kaye KS, Classen D. et al. Strategies to prevent surgical site infections in acute care hospitals. Infect Control Hosp Epidemiol 2008; 29: S51-S61.
- 3 Weigelt JA, Dryer D, Haley RW. The necessity and efficacy of wound surveillance after discharge. Arch Surg 1992; 127: 77-82.
- 4 Stockley J, Allen R, Thomlinson D, Constanttine C. A district hospital’s method of postoperative infection surveillance including post-discharge follow-up, developed over a five-year period. J Hosp Infect 2001; 49: 48-54.
- 5 Gastmeier P, Geffers C, Rüden H. et al. Commentary on the recommendations for the surveillance of surgical site infections in outpatient settings Bundesgesundheitsbl – Gesundheitsforsch – Gesundheitsschutz. 2003; 46: 765-769.
- 6 Fry DE. Surgical Site Infections and the Surgical Care Improvement Project (SCIP). Surg Infect 2008; 09: 579-584.
- 7 Bratzler DW, Houck PM, Richards C. et al. Use of antimicrobial prophylaxis for major surgery: baseline results from the National Surgical Infection Prevention Project. Arch Surg 2005; 140: 174-182.
- 8 Wilcox MH. Tigecycline and the need for a new broad-spectrum antibiotic class. Surg Infect 2006; 07: 69-80.
- 9 Lodise TP, Miller CD, Graves J. et al. Clinical prediction tool to identify patients with Pseudomonas aeruginosa respiratory tract infections at greatest risk for multidrug resistance. Antimicrob Agents Chemother 2007; 51: 417-422.
- 10 Owens RC, Rice L. Hospital-based strategies for combating resistance. Clin Infect Dis 2006; 42: S173-S181.
- 11 Oliveira AL, de Souza M, Carvalho-Diaz VM. Epidemiology of bacteremia and factors associated with multi-drug-resistant gram-negative bacteremia in hematopoietic stem cell transplant recipients. Bone Marrow Transplant 2007; 39: 775-781.
- 12 Petrikkos G, Markogiannakis A, Papaparaskevas J. et al. Differences in the changes in resistance patterns to third and fourth-generation cephalosporins and piperacillin/tazobactam among Klebsiella pneumoniae and Escherichia coli clinical isolates following a restriction policy in a Greek tertiary care hospital. Int J Antimicrob Agents 2007; 29: 34-38.
- 13 Kumar A, Roberts D, Wood KE. et al. Duration of hypotension before initiation of effective antimicrobial therapy is the critical determinant of survival in human septic shock. Crit Care Med 2006; 34: 1589-1596.
- 14 Vincent JL, Rello J, Marshall J. et al. International study of the prevalence and outcomes of infection in intensive care units. JAMA 2009; 302: 2323-2329.
- 15 Latham R, Lancaster AD, Covington JF. et al. The association of diabetes and glucose control with surgical-site infections among cardiothoracic surgery patients. Infect Control Hosp Epidemiol 2001; 22: 607-612.
- 16 Kirkland L, Cha S. Admission Glucose Concentration and postoperative Infection and Mortality after hip surgery. JAGS 2007; S76-S77.
- 17 Kurz A, Sessler DI, Lenhardt R. for the Study of Wound Infection and Temperature Group. Perioperative normothermia to reduce the incidence of surgical-wound infection and shorten hospitalization. N Engl J Med 1996; 334: 1209-1215.
- 18 Hartel M, Illing P, Mercer JB. et al. Therapy of acute wounds with water-filtered infrared-A (wIRA). GMS Krankenhhyg Interdiszip 2007; 02 (02) 1-5.
- 19 Greif R, Akça O, Horn E-P. et al. for the Outcomes Research Group. Supplemental perioperative oxygen to reduce the incidence of surgical-wound infection. N Engl J Med 2000; 342: 161-167.
- 20 McGlynn EA, Asch SM, Adams J. et al. The quality of health care delivered to adults in the United States. New Engl J Med 2003; 348: 2635-2645.
- 21 Gawande A. The Checklist Manifesto: How to get things right, 2. Auflage. Macmillan Us 2011.
- 22 Institute for healthcare improvement. http://www. ihi.org/explore/ssi/pages/default.aspx letzter Zugriff 25.10.12013.
- 23 Taraldsen K, Sletvold O, Thingstad P. et al. Physical Behavior and Function Early After Hip Fracture Surgery in Patients Receiving Comprehensive Geriatric Care or Orthopedic Care – A Randomized Controlled Trial. J Gerontol A Biol Sci Med Sci. 2013 Aug. [Epub ahead of print].
- 24 Singler K, Biber RS, Wicklein S. et al. “N-active”: a new comanaged, orthogeriatric ward. Z Gerontol Geriat 2011; 44: 368-374.
- 25 Lögters T, Hakimi M, Linhart W. et al. Die geriatrische Frührehabilitation nach hüftgelenknahem Oberschenkelbruch. Unfallchirurg 2008; 111: 719-726.
- 26 Grubeck-Loebenstein B, Wick G. The aging of the immune system. Adv Immunol 2002; 80: 243-284.
- 27 Larbi A, Franceschi C, Mazzatti D. et al. Aging of the Immune System as a Prognostic Factor for human longevity. Physiology 2008; 23: 64-74.