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Management of the diabetic foot Difficult to treat Scottish Intercollegiate Guidelines CLICK HERE Network, Management of diabetes. infections SIGN 2001, guidelines 55 Diagnosis and treatment of diabetic foot CLICK HERE infections Clinical Infectious Diseases 2004; 39:885- 910 Wound microbiology and approaches to CLICK HERE wound management Clinical Microbiology Review 2001; 14:244- 269 Culture of percutaneous bone biopsy CLICK HERE specimens for diagnosis of diabetic foot osteomyelitis: concordance with ulcer Educational swab cultures Clinical Infectious Diseases 2006; 42: 57-62 Workshops Diagnostic accuracy of the physical CLICK HERE 2009 examination and imaging tests for osteomyelitis underlying diabetic foot ulcers: meta-analysis. Clinical Infectious Diseases 2008; 47:519-27 Venues throughout the UK October - November 2009 Probing to bone in infected pedal ulcers: a CLICK HERE clinical sign of underlying osteomyelitis in diabetic patients The Journal of the American Medical Association 1995; 273:721-3 READING LIST Diabetic foot ulcer classifi cation system CLICK HERE for research purposes: a progress report on criteria for including patients in research studies. Diabetes/metabolism research and reviews 2004; 20 (supplement 1): S90-95 Fungal infection of the diabetic foot: two CLICK HERE ditinct syndromes Diabetic Medicine 2001; 18:567-72 Rifampicin-ofl oxacin oral regimen for the CLICK HERE treatment of mild to moderate diabetic foot osteomyelitis Journal of Antimicrobial Chemotherapy 2001; 48:927-30 Treating foot infections in diabetic CLICK HERE patients: a randomized, multicenter, open- label trail of Linezolid versus ampicillin- sulbactam/amoxicillian-clavulanate Clinical Infectious Diseases 2004; 38:17-24 Difficult to treat Ertapeenem versus peperacillin/ CLICK HERE tazobactam for diabetic foot infections infections (SIDESTEP): prospective, randomized, controlled, double-blinded, multicentre trial Lancet 2005; 366:1695-703 Daptomycin for treating infected diabetic CLICK HERE foot ulcers: evidence from a randomized, controlled trial comparing daptomycin with vancomycin or semi-synthetic penicillins for complicated skin-structure infections Journal of Antimicrobial Chemotherapy 2005; 55:240-5 Cost-minimization analysis and audit of Educational CLICK HERE antibiotic management of bone and joint infections with ambulatory teicoplanin, Workshops in-patient care or outpatient oral linezolid therapy 2009 Journal of Antimicrobial Chemotherapy 2003; 51: 391-396 Practice guidelines for outpatient Venues throughout the UK CLICK HERE parenteral antimicrobial therapy October - November 2009 Clinical Infectious Diseases 2004; 38: 1651-72 Prosthetic Joint Infections READING LIST Diagnosis and management of prosthetic CLICK HERE joint infection BMJ 2009; 338:b1773, doi: 10.1136/bmj. b1773 One hundred and twelve infected CLICK HERE arthroplasties treated with ‘DAIR’ (debridement, antibiotics and implant retention): antibiotic duration and outcome Journal of Antimicrobial Chemotherapy 2009 June; 63 (6): 1264-71 Two-stage revision of infected hip CLICK HERE arthroplasty using a shortened post- operative course of antibiotics Archives of orthopaedic and trauma surgery 2009 Apr; 129 (4): 489-94 Prosthetic Joint Infections CLICK HERE The New England Journal of Medicine 2004; 351: 1645-1654 Difficult to treat Is there a role for extended antibiotic CLICK HERE therapy in a two-stage revision of the infections infected knee arthroplasty? Journal of Bone Joint Surgery 2005 Feb; 87 (2): 171-4 Prospective evaluation of criteria for CLICK HERE microbiological diagnosis of prosthetic joint infection at revision arthroplasty Journal of Clinical Microbiology 1998; 36: 2932-2939 Vascular Graft Infections Correlation between reduced daptomycin CLICK HERE susceptibility and vancomycin resistance in vancomycin-intermediate Educational staphylococcus aureus Antimicrobial Agents and Chemotherapy; Workshops 2006 Mar: 1079-1082 2009 Failures in clinical treatment of CLICK HERE staphylococcus aureus infection with daptomycin are associated with alterations in surface charge, membrane Venues throughout the UK phospholipid asymmetry and drug October - November 2009 binding Antimicrobial Agents and Chemotherapy; 2008 Jan: 269-278 Detection of aortic graft infection by CLICK HERE READING LIST fl uorodeoxyglucose positron emission tomography: comparison with computed tomographic fi ndings Journal of Vascular Surgery; vol 42, no 5: 919-925 Prosthetic vascular graft infection: A risk CLICK HERE factor analysis using a case-control study Journal of Infection 2006; 53: 49-55 CLINICALMICROBIOLOGYREVIEWS,Apr.2001,p.244–269 Vol.14,No.2 0893-8512/01/$04.0010 DOI:10.1128/CMR.14.2.244–269.2001 Copyright©2001,AmericanSocietyforMicrobiology.AllRightsReserved. Wound Microbiology and Associated Approaches to Wound Management P.G.BOWLER,1*B.I.DUERDEN,2,3ANDD.G.ARMSTRONG4,5 ConvaTecGlobalDevelopmentCenter,Deeside,Flintshire,1DepartmentofMedicalMicrobiology,UniversityofWales CollegeofMedicine,Cardiff,2PublicHealthLaboratoryService,London,3andDepartmentofMedicine, ManchesterRoyalInfirmary,Manchester,4UnitedKingdom,andDepartmentofSurgery, SouthernArizonaVeteransAffairsMedicalCenter,Tucson,Arizona5 INTRODUCTION.......................................................................................................................................................245 WOUNDTYPES.........................................................................................................................................................245 WOUNDMICROBIOLOGY.....................................................................................................................................246 MicrobialColonization..........................................................................................................................................246 FactorsPredisposingtoMicrobialProliferation................................................................................................246 WoundInfection......................................................................................................................................................247 Surgicalwoundinfections..................................................................................................................................248 Acutesofttissueinfections................................................................................................................................250 Bitewoundinfections.........................................................................................................................................250 Burnwoundinfections.......................................................................................................................................250 Diabeticfootulcerinfections............................................................................................................................250 Leganddecubitus(pressure)ulcerinfections...............................................................................................251 SignificanceofMicroorganismsinWounds........................................................................................................251 Quantitativemicrobiology:significanceofmicrobialnumbers....................................................................251 Qualitativemicrobiology:significanceofspecificmicroorganisms.............................................................252 MICROBIOLOGICALANALYSISOFWOUNDS................................................................................................254 Wound-SamplingMethods....................................................................................................................................254 Woundtissuesampling......................................................................................................................................254 Woundfluidsampling........................................................................................................................................254 SpecimenTransport...............................................................................................................................................256 AnalysisofWoundSpecimens..............................................................................................................................256 Gas-liquidchromatographyformalodorousspecimens................................................................................257 Gramstain...........................................................................................................................................................257 Cultureofwoundspecimens.............................................................................................................................257 Reportingofmicrobiologicalresults................................................................................................................258 CONTROLOFMICROBIALPOPULATIONSINWOUNDS............................................................................258 AntimicrobialMethodsofTreatment..................................................................................................................259 Antibiotics............................................................................................................................................................259 (i)Acutewounds.............................................................................................................................................259 (ii)Chronicwounds........................................................................................................................................260 (iii)Complementarytherapy.........................................................................................................................260 (iv)Roleofthemicrobiologylaboratoryinguidingantibiotictreatmentinwoundmanagement.....260 Antiseptics............................................................................................................................................................261 Alternativeantimicrobialtherapies..................................................................................................................261 Hyperbaricoxygentherapy................................................................................................................................262 NonantimicrobialMethodsofTreatment............................................................................................................263 Debridement........................................................................................................................................................263 (i)Surgicaldebridement................................................................................................................................263 (ii)Autolyticandenzymaticdebridement...................................................................................................263 (iii)Biosurgicaldebridement........................................................................................................................263 Pressurereductioninwounds...........................................................................................................................263 (i)Off-loading..................................................................................................................................................263 (ii)Vacuum-assistedwoundclosure.............................................................................................................264 InfectionControl.................................................................................................................................................264 CONCLUSIONS.........................................................................................................................................................264 REFERENCES............................................................................................................................................................265 *Corresponding author. Mailing address: ConvaTec GDC, First Avenue, Deeside Industrial Park, Deeside, Flintshire CH5 2NU, UnitedKingdom.Phone:44(0)1244584300.Fax:44(0)1244584311. E-mail:[email protected]. 244 VOL.14,2001 WOUND MICROBIOLOGY 245 INTRODUCTION There is also debate about whether a wound should be sampledforculture,thevalueofwoundsamplingindetermin- Fromamicrobiologicalperspective,theprimaryfunctionof ing the cause of infection and subsequent treatment, and the normal,intactskinistocontrolmicrobialpopulationsthatlive sampling technique required to provide the most meaningful on the skin surface and to prevent underlying tissue from data. Regarding the role of the microbiology laboratory, con- becoming colonized and invaded by potential pathogens. Ex- siderationmustbegiventotherelevanceofculturingpolymi- posureofsubcutaneoustissuefollowingalossofskinintegrity crobialspecimens,thevalueofidentifyingoneormoremicro- (i.e.,awound)providesamoist,warm,andnutritiousenviron- organisms, and which microorganisms (if any) should be mentthatisconducivetomicrobialcolonizationandprolifer- assayed for antibiotic susceptibility. By questioning and justi- ation. However, the abundance and diversity of microorgan- fyingtheneedtosampleandperformmicrobiologicalanalyses ismsinanywoundwillbeinfluencedbyfactorssuchaswound on any problematic wound, long-term savings in cost, labor, type,depth,location,andquality,theleveloftissueperfusion, andtimetoboththewoundmanagementteamandthemicro- and the antimicrobial efficacy of the host immune response. biology laboratory could be considerable. In this respect, the Whereasthemicrofloraassociatedwithclean,surgicalwounds valueoftheGramstainasaquickandinexpensiveadditional would be expected to be minimal, the presence of foreign oralternativetestisalsoworthyofconsideration. materialanddevitalizedtissueinatraumaticwoundislikelyto Although appropriate systemic antibiotics are considered facilitate microbial proliferation unless early prophylactic an- essential for the treatment of nonhealing, clinically infected tibiotic treatment and surgical debridement is implemented wounds, there is debate about the relevance and use of sys- (201). temic and topical antibiotics and of topical antiseptics in the Since wound colonization is most frequently polymicrobial treatment of nonhealing, noninfected wounds. Other, nonmi- (25,27,44,166,226),involvingnumerousmicroorganismsthat crobiologicalapproachestocontrollingpotentiallypathogenic are potentially pathogenic, any wound is at some risk of be- microbialpopulationsinwoundsmustalsobeconsideredpart coming infected. In the event of infection, a wound fails to ofamultidisciplinarywoundmanagementeffort. heal,thepatientsuffersincreasedtrauma,treatmentcostsrise, Inviewofthefears,uncertainties,andcontroversiesregard- and general wound management practices become more re- ingtheroleofmicroorganismsinwounds,thisreviewaimsto source demanding. An analysis of postsurgical wound infec- capturecurrentopinion,evaluatetheroleofthemicrobiologist tions following head and neck surgery demonstrated an in- and the microbiology laboratory in wound management, and creaseintheaveragehospitalizationperiodfrom14dayswhen clarify the relevance of treatment and treatment options in wounds healed without complication to 24 days when the controllingmicrobialcolonizationandinfectioninwounds. wounds became infected (118). In a similar analysis of 108 postsurgicalwounds,Zoutmanetal.(249)concludedthat10.2 WOUNDTYPES dayspercasewasdirectlyattributabletowoundinfectionand that the associated hospital cost was $3,937 per infected pa- Wounds can be broadly categorized as having either an tient. acute or a chronic etiology. Acute wounds are caused by ex- Thus,concernamonghealthcarepractitionersregardingthe ternaldamagetointactskinandincludesurgicalwounds,bites, risk of wound infection is justifiable not only in terms of in- burns, minor cuts and abrasions, and more severe traumatic creasedtraumatothepatientbutalsoinviewofitsburdenon woundssuchaslacerationsandthosecausedbycrushorgun- financial resources and the increasing requirement for cost- shot injuries (60). Irrespective of the nature of the cutaneous effective management within the health care system. From a injury,acutewoundsareexpectedtohealwithinapredictable clinicalperspective,fearsassociatedwithwoundinfectionhave timeframe,althoughthetreatmentrequiredtofacilitateheal- paralleled the increasing use of occlusive dressings since the ingwillvaryaccordingtothetype,site,anddepthofawound. 1960s.Theprimaryfunctionofdressingssuchaspolyurethane The primary closure of a clean, surgical wound would be ex- films, polyurethane foams, and hydrocolloids is to maintain a pected to require minimal intervention to enable healing to moist and optimal environment for wound healing. Although progress naturally and quickly. However, in a more severe they have been reported to encourage microbial proliferation traumaticinjurysuchasaburnwoundorgunshotwound,the inwounds(95,128),theinfectionrateislowerunderocclusive presence of devitalized tissue and contamination with viable dressingsthanunderconventionaldrydressings(24,113)and (e.g., bacterial) and nonviable foreign material is likely to re- woundhealingisnotimpaired(95). quire surgical debridement and antimicrobial therapy to en- Although microorganisms are responsible for wound infec- ablehealingtoprogressthroughanaturalseriesofprocesses, tion, widespread controversy still exists regarding the exact including inflammation and granulation, to final reepithelial- mechanisms by which they cause infection and also their sig- izationandremodeling. nificance in nonhealing wounds that do not exhibit clinical In marked contrast, chronic wounds are most frequently signsofinfection.Oneschoolofthoughtisthatthedensityof caused by endogenous mechanisms associated with a predis- microorganismsisthecriticalfactorindeterminingwhethera posing condition that ultimately compromises the integrity wound is likely to heal (100, 102, 151, 196, 202). However, a ofdermalandepidermaltissue(60).Pathophysiologicalab- second school of thought argues that the presence of specific normalitiesthatmaypredisposetotheformationofchronic pathogens is of primary importance in delayed healing (59, wounds such as leg ulcers, foot ulcers, and pressure sores 130,149,181,216,217),whileyetothershavereportedmicro- include compromised tissue perfusion as a consequence of organismstobeofminimalimportanceindelayedhealing(4, impaired arterial supply (peripheral vascular disease) or im- 70,80,95,98,214,237). paired venous drainage (venous hypertension) and metabolic 246 BOWLER ET AL. CLIN.MICROBIOL.REV. diseases such as diabetes mellitus. Advancing age, obesity, the microbial population in both acute and chronic wounds smoking, poor nutrition, and immunosuppression associated (25, 27, 28, 33–38, 41–45, 64, 80, 98, 143, 166, 185, 213, 226). with disease (e.g., AIDS) or drugs (e.g., chemotherapy or ra- OnthebasisofthestudiesreviewedinTable1,whichinvolved diationtherapy)mayalsoexacerbatechroniculceration.Pres- detailedmicrobiologicalanalysesofclinicallynoninfected(i.e., sure or decubitus ulcers have a different etiology from other colonized) wounds of varied etiology, anaerobes constituted, chronic wounds in that they are caused by sustained external onaverage,38%ofthetotalnumberofmicrobialisolatesper skin pressure, most commonly on the buttocks, sacrum, and study. It should be emphasized that the studies reported did heels.However,theunderlyingpathologyoftencontributesto not investigate specifically the effect of microorganisms on chronicity,andinthissituation,pressuresores,likeallchronic woundhealing. woundtypes,healslowlyandinanunpredictablemanner. Recognition of the fact that anaerobes are too often over- looked,althoughmanyarepotentiallyhighlyvirulent,hasled WOUNDMICROBIOLOGY expertsinthefieldtodefinemembersofthisgroupofbacteria as being “the secret pathogens” (74) and “invisible villains” (18). Nichols and Smith (175) reported that endogenous an- MicrobialColonization aerobic bacteria were the likely cause of postoperative infec- Exposedsubcutaneoustissueprovidesafavourablesubstra- tionswhenwoundspecimensfailedtoyieldbacterialgrowthon tumforawidevarietyofmicroorganismstocontaminateand routineculture. colonize,andiftheinvolvedtissueisdevitalized(e.g.,ischemic, Thefailuretorecognisetheprevalenceofanaerobicbacteria hypoxic, or necrotic) and the host immune response is com- inwoundsmaybeduetoseveralreasons.(i)Anaerobesarenot promised, the conditions become optimal for microbial growth. regarded as being detrimental to normal wound healing (70, Wound contaminants are likely to originate from three main 80, 150, 217). (ii) Compared with aerobic and facultative mi- sources: (i) the environment (exogenous microorganisms in the croorganisms, the culture, isolation, and identification of an- airorthoseintroducedbytraumaticinjury),(ii)thesurrounding aerobicbacteriaismoretime-consuming,labor-intensive,and skin (involving members of the normal skin microflora such as expensiveandisoftendeemedtobetoodemandingformany Staphylococcus epidermidis, micrococci, skin diphtheroids, and diagnosticmicrobiologylaboratories.Therelevanceofcultur- propionibacteria),and(iii)endogenoussourcesinvolvingmucous ingspecimensforanaerobicbacteriaisdiscussedin“Microbi- membranes (primarily the gastrointestinal, oropharyngeal, and ological analysis of wounds” below. (iii) Since anaerobes are genitourinarymucosae)(65).Thenormalmicroflorasofthegut, often perceived to die rapidly in air, the method of specimen theoralcavity,andthevaginaarebothdiverseandabundant,and collection and transportation to the laboratory is assumed to thesesources(particularlytheoralandgastrointestinalmucosae) be critical for maintaining viability and for effective culture. supplythevastmajorityofmicroorganismsthatcolonizewounds. However, many of the frequent wound colonizers, including Detailed microbiological analyses of wounds demonstrate close Bacteroides,Prevotella,Porphyromonas,andPeptostreptococcus correlationsbetweenthespeciesfoundinthenormalfloraofthe spp.,willsurviveforseveraldaysinthepresenceofair(17,26, gutororalcavityandmicroorganismspresentinwoundsinclose 99, 142). Consequently, the methods for sampling and trans- proximitytothosesites(33–35,43,46).Whereasaminor,healing portation are probably less critical than the microbiological woundmayallowsufficienttimeforaonlyrelativelysmallnumber methodsusedtoensureeffectiveisolationofanaerobicbacte- ofskincontaminantstotakeresidence,thecontinuedexposureof ria.However,thisdoesnotimplythatspecimencollectionand devitalizedtissueassociatedwithaslowlyhealingchronicwound transport should be performed without the utmost care and islikelytofacilitatethecolonizationandestablishmentofawide meticulousprocedures. varietyofendogenousmicroorganisms.Dentalplaque,thegingi- Bothacuteandchronicwoundsaresusceptibletocontami- valcrevice,andthecontentsofthecoloncontainapproximately nation and colonization by a wide variety of aerobic and an- 1011to1012microorganisms/goftissue,ofwhich,upto90%of aerobicmicroorganisms,asindicatedinTable2. theoralmicroflora(16)andupto99.9%ofthecolonicmicroflora (105)areanaerobes.Inviewofthissituation,itisreasonableto FactorsPredisposingtoMicrobialProliferation predictthatwoundswithasufficientlyhypoxicandreducedenvi- ronmentaresusceptibletocolonizationbyawidevarietyofen- Surgicalwoundswillhealrapidlyifbloodperfusionismax- dogenousanaerobicbacteria.However,todate,widespreadopin- imized, thus delivering oxygen, nutrients, and cells of the im- ionamongwoundcarepractitionersisthataerobicorfacultative mune system to the site of injury and providing minimal op- pathogens such as Staphylococcus aureus, Pseudomonas aerugi- portunityformicroorganismstocolonizeandproliferate(110). nosa,andbeta-hemolyticstreptococciaretheprimarycausesof This situation is exemplified by wounds in the anus, which, delayedhealingandinfectioninbothacuteandchronicwounds. despitebeingsusceptibletogrossmicrobialcontamination,are Suchopinionhasbeenformedonthebasisofreferencedcom- verywellperfusedandrarelybecomeinfected(110).Theprob- mentsandstudiesperformedlargelyduringthelasttwodecades abilityofwoundhealingisextremelyhighifthetissueoxygen thathaveinvestigatedtheroleofmicroorganismsinwoundheal- tension(pO )is.40mmHg,buthealingisunlikelytooccur 2 ing(58,59,81,94,146,182,216,217,238;D.J.Leaper,Editorial, at levels of ,20 mm Hg (110). In well-perfused periwound J.WoundCare7:373,1998).Acommonoversightintheseand tissue, reported oxygen tensions of 60 to 90 mm Hg compare other studies and opinions is that the culture and isolation of withlevelsofnearzeroincentraldeadwoundspace(176). anaerobic bacteria was minimal or omitted, whereas when In contrast, chronic, nonhealing wounds are frequently hy- wounds are investigated by appropriate microbiological tech- poxic (218) as a consequence of poor blood perfusion (isch- niquesanaerobesarefoundtoformasignificantproportionof emia), and host and microbial cell metabolism contributes VOL.14,2001 WOUND MICROBIOLOGY 247 TABLE 1. Studiesinvolvingadetailedanalysisoftheaerobicandanaerobicmicrobiologyofnoninfectedwoundswithoutspecifically investigatingtheroleofmicroorganismsinwoundhealing Studydescription No.ofmicrobialisolates Author(reference) Predominantisolates (no.ofwounds) (%thatwereanaerobes) Louieetal.1976(143) Microbiologyof20diabetic 116(45) Bacteroidesspp.,Peptostreptococcusspp., ulcers(scrapingsofulcerbed Proteusspp. andwoundedge) Brooketal.1981(46) 392specimenstakenfromburn 580(23) S.epidermidis,S.aureus,alpha-hemolytic sitesin180children streptococci,Propionibacteriumacnes, Peptostreptococcusspp.,Bacteroidesspp. Sapicoetal.1986(213) 49specimensfrom25pressure 130(24) Bacteroidesspp.,coliforms,P.aeruginosa sores Brook1987(33) Aspiratesfromhumanand 59fromanimalbites(37); S.aureus,Peptostreptococcusspp.,Bacte- animalbitewoundsin39 97fromhumanbites(55) roidesspp.(inbothwoundgroups) children Brooketal.1990(42) Analysisof584woundsfrom 1,470(62) Bacteroidesspp.,Peptostreptococcusspp., manysites S.aureus,Clostridiumspp.,Fusobacte- riumspp. Brook1991(37) Analysisofdecubitusulcersin 132(40) S.aureus,Peptostreptococcusspp.,B.fragi- 58children lisgroup,P.aeruginosa Hanssonetal.1995(98) Analysisoflegulcerswithout 325(22) S.aureus,Enterococcusfaecalis,Enter- clinicalsignsofinfectionin58 obactercloacae,Peptostreptococcusmag- patients nus Brooketal.1998(44) 43swabspecimensfromchronic 97(34) S.aureus,Peptostreptococcusspp.,B.fragi- legulcersin41patients lisgroup Bowleretal.1999(28) Swabspecimensfrom30 110(36) S.aureus,coliforms,coagulase-negative noninfectedlegulcerswithout staphylococci,fecalstreptococci,Pepto- clinicalsignsofinfection streptococcusspp. further to a lowering of the local pO . Oxygen tensions of stratedinthecolon,wherevaluescanbeaslowas2250mV, 2 between 5 and 20 mm Hg have been recorded in nonhealing compared with approximately 1150 mV in normal tissue and wounds (218), and values of less than 30 mm Hg have been upto1250mVincirculatingblood.Althoughsomeanaerobes recorded in infected and traumatized tissue (164); this corre- have been reported to survive in an aerated broth culture lateswithareportedpO requirementofapproximately30mm medium that was maintained at low E (73), other investiga- 2 h Hg for active cell division (111). Thus, cell death and tissue tions have demonstrated that several intestinal pathogens necrosiscausedbytissuehypoxiaoranoxiaarelikelytocreate (Clostridium perfringens, Bacteroides fragilis, and Peptostrepto- idealgrowthconditionsformembersofthewoundmicroflora, coccusmagnus)wereinhibitedinthepresenceofoxygenatan includingfastidiousanaerobesthatwillproliferateasresidual E of250mV(73).Also,thetoleranceofanaerobestoE is h h oxygen is consumed by facultative bacteria. Such interaction influencedbypH,asdemonstratedbyC.perfringens,whichhas betweenmicroorganismswasrecognizedaslongagoas1915by a growth-limiting E of 130 mV at pH 7.8 but can survive at h Alexander Fleming in his studies on gunshot wounds during 1250mVatpH6.0(73). the First World War (63). As well as being essential for cell Althoughopinionisconflictingregardingtheimportanceof growth and wound healing, oxygen is a critical component of the redox potential in supporting the growth of anaerobic therespiratoryburstactivityinpolymorphonuclearleukocytes bacteria, a wound environment that has a low oxygen tension (PMNs), resulting in the intracellular production of highly (hypoxiaoranoxia)andalowredoxpotentialwillfacilitatethe potentantimicrobialmetabolites.Asignificantreductioninthe developmentofpolymicrobialaerobic-anaerobicpopulations. killing capacity of PMNs at a pO of ,30 mm Hg has been 2 reported (107), and in this respect, poorly perfused wound WoundInfection tissueisconsideredtobefarmoresusceptibletoinfectionthan arewoundsinvolvingwell-perfusedtissue(176). Infectionoccurswhenvirulencefactorsexpressedbyoneor Although many endogenous anaerobes survive prolonged moremicroorganismsinawoundoutcompetethehostnatural periods of exposure to air (17, 26, 99, 142, 230) and tolerate immunesystemandsubsequentinvasionanddisseminationof oxygentensionsupto60mmHg(8%oxygen)(184),theredox microorganismsinviabletissueprovokesaseriesoflocaland (oxidation-reduction)potential(E )oftissueisalsoimportant systemic host responses. Characteristic local responses are a h for their survival (11). Generally, a low E (measured in mil- purulentdischargeorpainfulspreadingerythemaindicativeof h livolts) favors the growth of anaerobic bacteria, as demon- cellulitisaroundawound(186).Theprogressionofawoundto 248 BOWLER ET AL. CLIN.MICROBIOL.REV. TABLE 2. Aerobicandanaerobicisolatesfromacuteandchronicwoundsofvariedetiologya,b Aerobicandfacultativemicroorganisms Typeofwound Anaerobicbacteria Typeofwound Coagulase-negativestaphylococci A,C Peptostreptococcusasaccharolyticus A,C Micrococcussp. C Peptostreptococcusanaerobius A,C Staphylococcusaureus A,C Peptostreptococcusmagnus A,C Beta-hemolyticstreptococcus(groupC) A Peptostreptococcusmicros A,C Beta-hemolyticstreptococcus(groupG) C Peptostreptococcusprevotii A,C Streptococcusspp.(fecal) A,C Peptostreptococcusindolicus C Streptococcusspp.(viridans) A,C Peptostreptococcussp. A,C Corynebacteriumxerosis C Streptococcusintermedius C Corynebacteriumsp. A,C Clostridiumperfringens A,C Bacillussp. A Clostridiumclostridioforme A,C Clostridiumcadaveris A,C Escherichiacoli A,C Clostridiumbaratii C Escherichiahermanii A Clostridiumsepticum A Serratialiquefaciens C Clostridiumhistolyticum A,C Klebsiellapneumoniae A,C Clostridiumtertium A Klebsiellaoxytoca A,C Clostridiumramosum C Enterobactercloacae A,C Clostridiumsporogenes A,C Enterobacteraerogenes C Clostridiumdifficile C Citrobacterfreundii C Clostridiumbifermentans A Proteusmirabilis A,C Clostridiumlimosum A Proteusvulgaris C Eubacteriumlimosum C Providenciastuartii A Propionibacteriumacnes A,C Morganellamorganii C Acinetobactercalcoaceticus A,C Bacteroidesfragilis A,C Pseudomonasaeruginosa A,C Bacteroidesureolyticus A,C Stenotrophomonasmaltophilia A Bacteroidesovatus A Sphingobacteriummultivorum C Bacteroidesuniformis A,C Bacteroidesstercoris C Candidaparapsilosis A Bacteroidescapillosus C Candidakrusei A Bacteroidesthetaiotaomicron C Bacteroidescaccae C Prevotellaoralis A,C Prevotellaoris A,C Prevotelladisiens A Prevotellabivia C Prevotellabuccae C Prevotellasp. A Prevotellacorporis A,C Prevotellaintermedia A Prevotellamelaninogenica C Porphyromonasasaccharolytica A,C Gram-negativepigmentedbacillus A,C Fusobacteriumnecrophorum C Veillonellaspp. A aAdaptedfromreference27withpermissionofthepublisher. bAcutewounds(A)includedprimarilycutaneousabscessesandpostsurgicalwounds;chronicwounds(C)includedprimarilylegulcers,footulcersandpressuresores. Atotalof367isolateswereculturedfromthe106wounds(61acutewoundsand45chronicwounds). an infected state is likely to involve a multitude of microbial ulcers (36 and 49%, respectively); a correlation between the andhostfactors,includingthetype,site,size,anddepthofthe incidence of anaerobic bacteria and wound infection is thus wound,theextentofnonviableexogenouscontamination,the evident. levelofbloodperfusiontothewound,thegeneralhealthand Surgicalwoundinfections.Theriskofinfectionisgenerally immune status of the host, the microbial load, and the com- based on the susceptibility of a surgical wound to microbial binedlevelofvirulenceexpressedbythetypesofmicroorgan- contamination (196). Clean surgery carries a 1 to 5% risk of isms involved. Most acute and chronic wound infections in- postoperativewoundinfection,andindirtyproceduresthatare volve mixed populations of both aerobic and anaerobic significantlymoresusceptibletoendogenouscontamination,a microorganisms, and this is demonstrated in Table 3, which 27%riskofinfectionhasbeenestimated(174).TheGuideline collatessomeofthepublishedliteratureregardingthemicro- for Prevention of Surgical Site Infection, 1999 issued by the biologyofavarietyofinfectedwoundtypes. CentersforDiseaseControlandPreventionclassifiedsurgical The overall average percent frequencies of anaerobic bac- wound infections as being either incisional (involving skin, teria in noninfected and infected wounds, based on data pre- subcutaneous tissue, or deeper fascia and muscle tissue) or sentedinTables1and3,are38and48%,respectively.These organ/space, involving any internal organs or anatomical numberscompareverycloselywiththoseobservedbyBowler spaces(151).Examplesofthelatterincludesurgeryassociated and Davies (28) specifically in noninfected and infected leg withthelargeintestineandtheheadandneck,whereextensive VOL.14,2001 WOUND MICROBIOLOGY 249 TABLE 3. Studiesinvolvingadetailedmicrobiologicalanalysisoftheaerobicandanaerobicmicrobiologyofinfectedwounds Studydescriptionand No.ofmicrobialisolates Author(reference) Predominantisolates no.ofwounds (%thatwereanaerobes) Sandersonetal.1979(212) Anaerobesin65purulentpost- 179(54) E.coli,Bacteroidesspp.,Peptostreptococcus appendectomywounds(swab spp. samples) Brooketal.1981(46) Analysisof209cutaneousabscesses 467(58) S.aureus,Streptococcusspp.,E.coli, inchildren Bacteroidesspp. Wheat1986(243) Analysisof131infecteddiabetic 538(21) Peptostreptococcusspp.,Enterococcusspp., footulcersin130patients Staphylococcusspp. Brook1989(34) 89specimensfrompostsurgical 235(55) E.coli,Bacteroidesspp.,Peptostreptococcus abdominalwoundinfections spp.,Clostridiumspp. Brook1989(36) Specimensfrom74patientswith 87(22) S.epidermidis,S.aureus,coliforms, postthoracotomysternalwound Peptostreptococcusspp. infections Brook1989(35) AnalysisofpusfromaBartholin’s 67(64) Bacteroidesspp.,Peptostreptococcusspp., abscessin28patients E.coli Brooketal.1990(42) Analysisof676cutaneousabscesses 1,702(65) Bacteroidesspp.,Peptostreptococcusspp., S.aureus,Clostridiumspp., Fusobacteriumspp. Johnsonetal.1995(116) Swabsamplesfrom43diabeticfoot 285(36) Peptostreptococcusspp.,Prevotellaspp., ulcers(46infectedsites) Bacteroidesspp.(emphasison anaerobes) Brook1995(38) Analysisofpusfromgastrostomy 102(44) E.coli,Peptostreptococcusspp., sitewoundinfectionsin22 Enterococcusspp.,Bacteroidesspp., children S.aureus Summanenetal.1995(226) Comparisonofthemicrobiologyof 304(43)fromIVDU; S.aureus,“Streptococcusmilleri,” softtissueinfectionsinIVDUa 222(48)from Peptostreptococcusspp.,Prevotellaspp., andnon-IVDU(160abscesses non-IVDU Bacteroidesspp.,Streptococcuspyogenes sampled) Brook1996(39) Microbiologyofspecimensfrom8 21(62) Peptostreptococcusspp.,Streptococcus childrenwithnecrotizingfasciitis pyogenes,Bacteroidesspp. DiRosaetal.1996(64) Roleofanaerobesin300 639(23) Clostridiumspp.,Bacteroidesspp., postoperativewoundinfections Peptostreptococcusspp.(emphasison anaerobes) Mousa1997(166) Swabsamplesofburnwoundsfrom 377(31) P.aeruginosa,S.aureus,Bacteroidesspp., 127patients Peptostreptococcusspp.,Klebsiellaspp. Brooketal.1997(43) Analysisofperirectalabscessesin44 456(72) B.fragilisgroup,Peptostreptococcusspp., patients Prevotellaspp.,S.aureus,Streptococcus spp. Brooketal.1998(45) Analysisof368specimensfrom340 711(63) B.fragilisgroup,Peptostreptococcusspp., traumapatientswithwound Clostridiumspp.,S.aureus,Prevotella infection spp. Brook1998(40) Analysisof175specimensfrom166 521(70) Peptostreptococcusspp.,Prevotellaspp. childrenwithinfectedtraumatic Fusobacteriumspp.,S.aureus,B.fragilis wounds group Pathareetal.1998(185) Pusortissuespecimensfrom252 775isolates(29) Staphylococcusspp.,Streptococcusspp., diabeticfootinfections Peptostreptococcusspp. Bowleretal.1999(28) Swabsamplesof44infectedleg 220isolates(49) Peptostreptococcusspp.,coliforms, ulcers(basedonclinicalsigns) coagulase-negativestaphylococci, pigmentedandnonpigmentedgram- negativebacteria(anaerobes),fecal streptococci aIVDU,intravenousdruguser. endogenous wound contamination, and hence a higher prob- and9.4%in1,770operations(238).Inthelasttwostudies,the abilityofwoundinfection,islikely. infectionratesrangedfrom1.5%(57)and5.9%(238)follow- With the exception of clean operative procedures, surgical ingcleansurgeryto40%(57)and52.9%(238)followingcon- wound infections are recognized as having a polymicrobial taminated surgery. Despite the frequency and prevalence of etiology,involvingbothaerobicandanaerobicmicroorganisms endogenous anaerobes in surgical wound infections (Table (Table 3) (2, 35, 36, 38, 64, 175, 212), and intra-abdominal 3), the Centers for Disease Control and Prevention guideline infectionsnormallyreflectthemicrofloraoftheresectedorgan for the prevention of surgical site infection has recognized (34, 175). Reported wound infection rates following orthope- S.aureus,coagulase-negativestaphylococci,Enterococcusspp., dic surgery are relatively low (2 to 6.8%) (20, 61, 223), and Escherichia coli, P. aeruginosa, and Enterobacter spp. as the similar studies, involving a large number of generalized post- most frequently isolated pathogens (151). Unfortunately, this operativewoundtypes,havereportedoverallinfectionratesof view has been based on only two published reports that pro- 3.4% in 5,129 operations (1), 4.7% in 62,939 operations (57), vidednoindicationoftheinclusionofanaerobicbacteriology 250 BOWLER ET AL. CLIN.MICROBIOL.REV. in the associated studies, and hence the data may have been tridial myonecrosis (since it involves muscle invasion and is biasedinfavorofaerobicandfacultativemicroorganisms(50, associatedwithahighermortalityrate)andothernon-muscle- 154).Incontrast,Rotsteinetal.(207)emphasizedthepolymi- associatedsofttissueinfections. crobialnatureofalmostallsurgicalinfectionsandcommented The management of necrotizing soft tissue infections re- that the critical importance of aerobic-anaerobic mixtures in quires early diagnosis, aggressive and, if necessary, repeated theseinfectionshadreceivedrelativelylittleattention. debridement,andantibiotictherapy(12,69,191).Hyperbaric Minimizing the incidence of postoperative wound infection oxygen (HBO) therapy is also believed by many to facilitate relies on adequate asepsis and antisepsis and preservation of wound healing (12, 69), although its use is controversial (53, thelocalhostdefenses(109).Asepsisinvolvestheutilizationof 69,165).HBOtherapyisdiscussedinmoredetailin“Control effective infection control procedures (e.g., air filtration, skin of microbial populations in wounds” (below). The pilonidal barrier garments, disinfection) to minimize exogenous micro- sinusisanothertypeofacutewoundthatissusceptibletofecal bialcontaminationduringsurgery.Antisepsisinvolvestheuse contaminationandinfection;Bascom(18)reportedthatanaer- ofskinantisepticsontheoperativesiteandalso,inthecaseof obes were the true and invisible causative microorganisms. dirty surgical procedures, administration of prophylactic anti- Surgicalreshapingofthewoundtoprovideimprovedoxygen- biotics at a time point just prior to surgery that will ensure ationisoftenrequired(18). adequate tissue levels of antibiotic during surgery. As part of Bite wound infections. The reported infection rate for hu- the surgical procedure, endogenous and exogenous microbial man bite wounds ranges from 10 to 50% depending on the contamination must be minimized by ensuring good aseptic, severity and location of the bite, and up to 20% of dog bites skilledsurgicaltechniquesandminimizingthedurationofsur- and 30 to 50% of cat bites become infected (92). Brook (33) gery, while also optimizing the local wound conditions (97). reportedthat74%of39humanandanimalbitewoundscon- This primarily involves removing any devitalized tissue to re- tained a polymicrobial aerobic-anaerobic microflora, with S. establishbloodflowtothewoundarea(2),therebymaintain- aureus,Peptostreptococcusspp.,andBacteroidesspp.beingthe ingadequateperfusiontoenablethedeliveryofimmunecells, predominantisolatesinbothwoundtypes. oxygen,andnutrientsandreducingthemicrobialload. Duetothecomplexnatureoftheoralmicroflorainhumans Acute soft tissue infections. Acute soft tissue infections in- and animals, the majority of bite wounds harbor potential cludecutaneousabscesses,traumaticwounds,andnecrotizing pathogens,manyofwhichareanaerobes.Aswellasthecom- infection. Microbiological investigations have shown that S. monanaerobesinbothhumanandanimalbitewounds,suchas aureusisthesinglecausativebacteriuminapproximately25to Bacteroides,Prevotella,Porphyromonas,andPeptostreptococcus 30%ofcutaneousabscesses(41,158),andthesameorganism spp.(83),lesscommonpotentialpathogenssuchasPasteurella hasalsobeenrecognizedasbeingthemostfrequentisolatein multocida, Capnocytophaga canimorsus, Bartonella henselae, superficialinfectionsseeninhospitalAccidentandEmergency andEikenellacorrodensmayalsobeinvolved(75). Departments (180). However, other studies have demon- Management of bite wounds is likely to involve high-pres- strated that approximately 30 to 50% of cutaneous abscesses sure irrigation to reduce the microbial load, debridement of (41,42,226),50%oftraumaticinjuriesofvariedetiology(40, devitalizedtissue,andantibiotictreatmentforhigh-riskwounds 45), and 47% of necrotizing soft tissue infections (69) have a suchaspunctures(75,82). polymicrobialaerobic-anaerobicmicroflora. Burnwoundinfections.Infectionisamajorcomplicationin Necrotizing soft tissue infections occur with different de- burn wounds, and it is estimated that up to 75% of deaths greesofseverityandspeedofprogression;theyinvolvetheskin following burn injury are related to infection (200, 239). Al- (e.g.,clostridialandnonclostridialanaerobiccellulitis),subcu- though exposed burned tissue is susceptible to contamination taneous tissue to the muscle fascia (necrotizing fasciitis), and by microorganisms from the gastrointestinal and upper respi- muscletissue(streptococcalmyositisandclostridialmyonecro- ratorytracts(239),manystudieshavereportedtheprevalence sis).S.aureushasbeendescribedasbeingthesinglepathogen of aerobes such as P. aeruginosa, S. aureus, E. coli, Klebsiella intwopatientswithrapidlyprogressingnecrotizingfasciitisof spp., Enterococcus spp., and Candida spp. (13, 132, 154, 200, thelowerextremity(199),andinastudyofnecrotizingfasciitis 239).Inotherstudiesinvolvingmorestringentmicrobiological in eight children, Brook (40) reported the presence of pure techniques, anaerobic bacteria have been shown to represent Streptococcus pyogenes in two patients and a mixed predomi- between11and31%ofthetotalnumberofmicrobialisolates nance of Peptostreptococcus spp., S. pyogenes, B. fragilis, C. fromburnwounds(46,166,197).Whiletheaerobesisolatedin perfringens,E.coli,andPrevotellaspp.intheothers.Potentia- the latter studies were similar to those reported previously, tionofinfectionbymicrobialsynergisticpartnershipsbetween predominant anaerobic burn wound isolates were Peptostrep- aerobes, such as S. aureus and S. pyogenes, and nonsporing tococcus spp., Bacteroides spp., and Propionibacterium acnes anaerobes has been recognized in various types of nonclos- (46, 166). Mousa (166) also reported the presence of Bacte- tridialcellulitisandnecrotizingfasciitis(40,122). roides spp. in the wounds of 82% of patients who developed Theclassificationofnecrotizingsofttissueinfectionsiscom- septicshockandconcludedthatsuchmicroorganismsmayplay plex and is based on (i) the assumed causative microorgan- asignificantroleinburnwoundsepsis. ism(s),(ii)theinitialclinicalfindings,(iii)thetypeandlevelof Managementofinfectioninburnwoundsinvolvestheuseof tissueinvolved,(iv)therateofprogression,and(v)thetypeof topical and systemic antimicrobial agents, aggressive debride- therapy required (12). However, Elliot et al. (69) argued that ment of dead tissue, maximization of the immune response, theclassificationofsuchinfectionsserveslittleclinicalpurpose andprovisionofadequatenutrition(147). because the prognosis and treatment are the same and, con- Diabeticfootulcerinfections.Plantarulcersassociatedwith sequently, differentiation is required only between pure clos- diabetes mellitus are susceptible to infection due to the high

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Peptostreptococcus asaccharolyticus. A, C. Micrococcus sp. C. Peptostreptococcus anaerobius. A, C. Staphylococcus aureus. A, C. Peptostreptococcus magnus.
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