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Abstract Bluntabdominaltraumacancausemultipleinternalinjuries.However,theseinjuriesareoftendifficulttoaccuratelyevaluate,particularlyinthepresenceofmoreobviousexternalinjuries.Computed tomography (CT) imaging is currently used to assess clinically stable patients withbluntabdominaltrauma.CTcanprovidearapidandaccurateappraisaloftheabdominalviscera,retroperitoneumandabdominalwall,aswellasalimitedassessmentofthelowerthoracicregionandbonypelvis.Thispaperpresentsexamplesofvarious injuries in traumapatientsdepicted inabdominal CT images.We hope these images provide a resource for radiologists, surgeons andmedicalofficers,aswellasalearningtoolformedicalstudents.

Keywords:blunt abdominal trauma, computed tomography, injuries, medical sciences

Introduction

The rapid identification of life-threateninginjuriesandpromptinitiationofappropriatecaremayincreasethechanceofsurvivalforpatientswithtrauma.However,itisoftendifficulttoaccuratelyclinically evaluate blunt abdominal injuries,which may be masked by other more obviousexternal injuries. CT imaging is the diagnostictool of choice for the evaluation of abdominalinjuryduetoblunttraumainhaemodynamically-stablepatients(1).CTscanscanprovidearapidandaccurateappraisaloftheabdominalviscera,retroperitoneum and abdominal wall (2). Inaddition,anabdominalCTscancanassistintheevaluationofcoexistingabdominal injuriessuchas thoracic injuries (3) and unsuspected pelvicandspinalfractures.TheabilityofCTtoperformand produce fast-processing images, such asmultiplanar reconstruction (MPR), is importantfortheaccurateinterpretationofabnormalities. Avarietyof comments, reports and studiesontheaccuracyandefficacyofCTintheevaluationof blunt abdominal trauma are available in themedical literature; this topic is highly debatedand has generated much discussion (4–11). CThasbeenreportedtobevaluableforthediagnosisof solid organ injuries and for the detection ofactivebleeding.Theaccuratedetectionofbowelandmesenteric injuries has also improvedwith

the development of thin-section multidetectorCT(MDCT)(7).TheuseofCTtoevaluateblunttrauma has influenced current trends in themanagementofsolidorganinjuries,promptingagreater focus onnon-surgicalmanagement (12).Although the decision to surgically interveneis usually based on clinical criteria rather thanfindings from images (13),CT informationoftenincreases diagnostic confidence and decreasesratesofunnecessaryexploratorylaparotomy(14). In 2008, 92 abdominal CT scans wereperformedtoassessbluntabdominaltraumainatertiaryreferralcentre(HospitalTengkuAmpuanAfzan(HTAA)inKuantan,Pahang).Inallofthesecases, CT scans were performed based on theclinical suspicion of intra-abdominal injury. CTfilmsandeachpatient’scasenoteswerefollowedand retrospectively reviewed.Of these92 scans,CT images showed injuries involving variousorgansin72%ofcases;theremainingimagesdidnotshowanyinjuries. Allofthescanswereperformedusingafour-row multislice CT scanner (Somatom SiemensVolume Zoom, Siemens Medical Systems,Erlangen,Germany)withaslicewidthof10mm,a 2.5mm collimation, a 0.75 s rotation time, atable feedof 15mmanda3mmreconstructioninterval. Pre- and post-contrast scans wereroutinelyperformedandpatientsreceived2mL/kg of intravenous contrast medium (Iohexol,

SpecialCommunication

Computed Tomography (CT) Imaging of Injuries from Blunt Abdominal Trauma: A Pictorial Essay

Radhiana Hassan1, 2, Azian abd. aziz1

1 Department of Radiology, International Islamic University Malaysia, Bandar Indera Mahkota, Kuantan, 25200 Pahang, Malaysia

2 IIUM Breast Centre, Kulliyyah of Medicine, International Islamic University Malaysia, Jalan Hospital Campus, 25100 Kuantan, Pahang, Malaysia

Submitted: 27Aug2009Accepted: 6Jan2010

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300 mg/mL). Oral contrast was not routinelygiven. The CT scans were acquired during theportal venous phase approximately 80 secondsafter the contrast injection. When necessary,sagittalandcoronal imageswereacquiredusingthe maximum intensity projection (MIP) andMPRtechniques.FullthoracicCTscanswerenotroutinelyperformedwhenlowerthoracicinjurieswereobservedontheabdominalCT. Thevarious injuriesseenontheCT imagesweregroupedandexaminedbasedontheinjurysiteandtheorgansinvolved.

Haemoperitoneum and the detection of active haemorrhage

CT has high sensitivity and specificity forthe detection of blood in the peritoneal cavity(15). Haemoperitoneum starts near the site ofinjury and spreads along the expected anatomicpathways (16).When the patient is in a supineposition,bloodfromthelivercollectsinMorison’spouchandpassesdowntherightparacolicguttertothepelvis.Fromthespleen,bloodpassesviathephrenocolic ligament to the left paracolic gutterand thepelvis (Figure 1a).Blood froma splenicinjuryalsogoestotherightupperquadrant(16).Althoughperitoneallavageisasensitiveindicatorof intraperitoneal haemorrhage, it is unable todetect the source or origin of the bleeding (17).The ‘sentinel clot’ sign indicates adjacent, focalhigherattenuationclottedbloodasamarkerforthe organ that is the cause of haemorrhage (16)(Figure1b).Alargeamountofbloodmaycollectin the pelvis without much haemoperitoneumseenintheupperabdomen. Activehaemorrhagecanappearasa regionofextravasatedcontrastmaterialandisindicatedon a CT scan by an area of high attenuation,with values ranging from 85 to 350Hounsfieldunits (HU) (Figure 1c) (18).The site of contrastextravasationsnotedonCTscanscorrespondstothesiteofbleedingseenonangiography(19).

Splenic injury

The spleen is the most frequently injuredabdominalorganduringbluntabdominaltraumaandaccountsforupto45%ofallvisceralinjuries(20).ACTscanfollowingthepower injectionofintravenous contrast is highly accurate (98%)in diagnosing acute splenic injuries (21). CTscans can detect a variety of splenic injuries,including laceration, a non-perfused region,intra-parenchymal haematoma and subcapcular

haematoma(22)(Figures2a,2band2c).SeveralCTgradingscalesforsplenicinjuryareavailable,but these grading scales have become lessclinicallyimportantwiththeincreasingpopularityof non-surgical management of splenic injury(23–24). These scales are nowmost importantforresearchanddatabaseuse.

Figure1a: CT coronal MPR in 18-year-oldboy whosemotorbike skidded.He had a Grade V splenic injury(images not shown). Splenectomywas performed and about 2 litersof haemoperitoneum was notedintraoperatively. This imagedemonstrate the possible pathwayofbloodflow,fromthesplenicinjurytoperihepatic(singlearrow)regionsandpassesdowntherightparacolicgutter (double arrows) to thepelviccavity(longarrow).

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Figure1b: CT scan showinghaemoperitoneumfromliverinjuryina23-yearoldmanwhowasinvolvedinamotorvehicleaccident (MVA). The ‘sentinel clot’sign is seen as a high-attenuationcollection adjacent to the liversurface (arrow). Liver injury wasconfirmed surgicallywith estimatedbloodlossof3litres.

Figure1c: CT scan demonstrating activehaemorrhage ina20-year -oldmanfillowing MVA. CT shows contrastextravasation (long arrows) andpoolingof theextravasatedcontrastinthedependantarea(shortarrows).Thispatientdied2daysaftersurgeryfromxcessivebloodloss.

Figure2a: CT scan of a 32-year-old manfollowing MVA showing splenicinjury. Subcapsular hematoma(∂) appears as a region of lowattenuation that compresses thenormal splenic parenchyma. Notealso multiple lacerations of thespleen.Splenectomywasperformedtinthispatient.

Figure2b:CT scan showing splenic lacerationin a 13-year-old boy, a pillion riderof a skidded motorbike. Spleniclacerationisseenasirregular,linearregionoflowattenuation(arrows).A4cmlacerationwasidentifiedatthetipofthespleenduringsurgeryandsplenectomywasperformed.

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Liver injury

The liver is the second most frequentlyinjured intra-abdominal viscus (2). Theworldwideincidenceofliverinjuriesisnotknown(9),althoughpenetrating injuries (gunshotsandstab wounds) account for the majority of liverinjuriesinNorthAmericaandSouthAfricawhilebluntinjuriescausethemajorityofliverinjuriesinEuropeandAustralasia(8). Although elevated transaminase levels are100% sensitive and 92.3% specific in predictinghepatic injuries (25), CT is currently thediagnostic modality of choice. CT scans can beusedtoaccuratelydiagnoseparenchymalinjuriesand exclude surgical lesions such as bowel orpancreatic injuries (26) (Figures3aand3b).CTgrading criteria have been proposed for liverinjuries,but,aswithsplenicinjury,thesecriteriado no correlate well with the need for surgicalinterventionorriskofsubsequentcomplications.Surgical analyses have shown that up to 80%of liver injuries inadultsandup to97%of liverinjuriesinchildrencanbetreatedwithoutsurgery(27).

Figure2c: CT scan demonstrating a shatteredspleen in a 21-year-old malemotorcyclistfollowingMVA.Multiplehypodense areas that connect tothe visceral surfaces are shown.This patient had failed conservativetreatement and splenectomy wasperformed two days following thetrauma which confirmed the CTfindingsofshatteredspleen.

Figure3a: CTscanofliverinjuryina48-year-oldmanwithMVA.CTdemonstratesa subcapsular hematoma thatappears as a hypodense collection,compressingontheunderlyingliverparenchyma(arrows).

Figure3b:CTscanof liver injuryina23-year-oldmanwithMVA.LiverlacerationisshownonCTasanon-enhancingirreguar linear low attenuationarea (arrow) with associatedintraparenchymal hematoma (∂),whichappearsasaregionofdecreaseattenuation compared to the rest ofthe enhanced liver parenchyma.Hewasmanagedsurgically.

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Urinary tract injury

Renal injury occurs in about 10% of casesof abdominal injury and the majority of renalinjuries (80% to90%) result fromblunt trauma(28).CTcanprovideaprecisedelineationofrenallaceration,haematomaandperinephriccollection(29); in addition, CT scans can be used todifferentiate trivial injuries fromthoserequiringintervention(28)(Figures4a,4band4c). Toevaluatebladderinjuries,CTcystographywithretrogradebladderfillingcanbeaddedtotheroutineCTabdominalexamination(30).Bladderinjuries have characteristic CT cystographicfeatures that can be used to accurately classifyinjuries and plan treatment (Figures 5a, 5b and5c). CT differentiates between extraperitonealand intraperitoneal bladder ruptures and helpsdeterminethemanagementoftheseinjuries.

Figure4a:CTscanofrenalinjuryina20-year-oldmanwithMVA.Arightcontusionwhichappearsasafocalpatchyareaof decreased enhancement (arrows)wasobservedonCT.Aliverlacerationispresentadjacenttothekidney.Hewasmanagedconservativelywithanuneventfulrecovery.

Figure4b:CT of renal laceration in a 32-year-oldmanwithMVA.The right renallacerations are shown as iregular,linear low attenuation areas withintheparenchyma(arrow),whichdoesnot involve the collecting systems.Hewasmanagedconservativelywithanunevenfulrecovery.

Figure4c: CTscanofrenalinjuryina17-year-old girl with MVA. Subcapsularhematoma of the right kidney(arrows) appears on CT as asuperficial,crescentic,lowattnuationarea that compresses the adjacentrenalparenchyma.Shewasmanagedconservatively with unevenfulrecovery.

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Pancreatic injury

Pancreaticinjuryisencounteredinonly3%to12%ofallabdominal injuries (31).Pancreaticinjury is more common in children and youngadults, possibly because these individuals havelessretroperitonealfattoactasaprotectivebuffer(2).The identificationofbluntpancreatic injurymaybedifficultbecauseimagefindingsareoftensubtle (32). Initial CT findings may be normal,even with pancreatic transaction, because theelasticpancreaticparenchymaresumesitsnormalcontour(33).ArepeatedCTabdominalscanat24to48hourscanhelprevealevolvinginjuries(2).Adelayindiagnosiscanoftenresultinrecurrentpancreatitis, pseudocyst, fistula or abscessformation(27)(Figure6).

Figure5a: CT cystogram of urinary bladdertruma in a 28-year-old manfollowingMVA.Thereisextravasionofcontrast(arrow)intheperivesicalfat indicating an extra perionealbladderrupture.

Figure5b:CT scan showing fracture of thepelvicbone.AlowerscanofthesamepatientinFigure5ashowsthepelvicfracture (arrow). He was managedconservatively with unevenfulrecovery.

Figure5c: CT scan of urinary blader injury ina 26-year-old man with industrialaccident.He fell andwas runoveerby a tractor. This image showsextravasation of contrast from aurinarybladderinjury,whichoutlinethe bowel loops (arrows). Thisindicates an intraperitoneal bladderrupture. Note fracture on the rightsideofthesacrumanddiasthesisofleftsacroilliacjoint.Urinarybladderperforation at two sites with about1 litre of haemoperitoneum wasconfirmedatsurgery.

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Bowel and mesenteric injury

ThesensitivityofCTtotraumaticbowelinjuryvaries from 69% to 92% and CT is 94%–100%specificforthediagnosisofbowelandmesentericinjuries(10,34–35).CTfindingscanincludefocalbowelwallthickening,mesentericinfiltration,freeair, thepresenceof intraperitonealfluidwithoutsolid organ injuries and extravasated contrastmaterial (10–11,34,36) (Figures 7a and 7b). CTimages must be carefully examined to detectinjuries and close attention should be paid toscanning techniquesandoptimalbowelcontrast(37).

Injury to the retroperitoneum, spine, abdominal wall and lower chest

BeforetheuseofCT,haemorrhageintotheretroperitonealspacewasdifficulttodiagnose(1).CTisvaluableinthedetectionofretroperitonealand abdominal wall injuries (38) (Figures 8aand8b).Inaddition,CTscanscanrevealvariousfracturesinvolvingthepelvis(Figures9aand9b)andspine (Figure 10)andcanoffer informationaboutsignificantunsuspectedorunderestimatedthoracic injuries (Figures 11a and 11b) that arecommoninpatientswithbluntabdominaltrauma(3,39).

Figure6: CTscanofpancreatictransectionina9-year-oldgirlwith‘bicycle-handle’injury. Diagnosis was delayed andCT scanperformed2days after theincident showed a total transectionof the body of pancreas (arrow).This was later complicated by apseudocystformationthatrequiredapercutaneousdrainage.

Figure7a: CT scan of perforated bowel in a26-year-old man with MVA. Notesubtle extraluminal air (singlewhite arrows)with focal bowelwallthickening (double white arrows)at the reectosiqloid region thatwasmissed on initial review of the CTimages. Also note air pockets inthe urinary bladder (black arrows).Urinary bladder perforation andtransection at the rectosiqmoidjunction were detected intraoperatively.

Figure7b: CTscanofbowelinjuryina23-year-old lorry driverwithMVA.CT scanshowedfocalsmallbowelthickening(arrows) but no free air wasidentified. Small bowel perforationwasfoundintraoperatively.

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Figure8a:CT scanof retroperitoneal injury inina23-yearoldmanwithMVA.CTshows an anterior displacement oftherightkidneybyaretroperitonealhaemorrhage. Both kidneys areotherwise intact. He was managedconsevatively with uneventfulrecovery.

Figure9a:CT scan showing fracture of thepelvic bone in a 29-year-old lorrydriverfollowingMVA.Thisvolume-rendered CT coronal MPR imageclearly depicts fracture of the rightpublicramiwithdisplacementofthefracturedfragments.

Figure9b:CT demonstrating soft tissue injuryassociated with pelvic fracture. AcoronalMPRCTimageinsofttissuewindowofthesamepatientinFigure9a showed the fractured fragment(short arrow) compressing at thebase of the urinary bladder. Notethe mal-positioned Foley’s catheterballon within the urethra (longarrow). Urethrogram demonstratedamembranousurethralinjury.

Figure8b:CTscanofthesamepatientinFigure8a showing the soft tissue injury.There ishaematomaandthickeningoftheabdominalwall(shortarrows).The soft tissue injury is extensiveinvolving the right iliopsoasmuscle(longarrows)andextendsinferiorlytothehighregion,whichcompressesthe right femoral artery and vein(images are not shown). Note alsocomminuted fractures of the rightiliacbone.

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Figure10: CT scan of spine fracture in a 29-year-old man who fell from height at the workplace.He complained of pain at the lumbar region. CT scan shows no intra abdominal injurybutdemonstratedasubtleofL5spinousprocess (arrow),whichwasmissedon theplainradiograph.Hewasmanagedconservativelywithunevenfulrecovery.

Figure11a: CT of a 15-year-old boy withMVA. The limited evaluation ofthe lung bases reveals bilaterallung contusions with a left lunglaceration (arrow). He sustainedaGrade1liverinjury(notshown)andwasmanagedconservatively.

Figure11b:CT evaluation of the lowerthoracic region in a 25-year-oldman with MVA revealed fractureof right posterior rib (arrow)with associated pleural effusion,possiblyahaemothorax.

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Conclusion

The examination of CT scans is extremelyuseful for the evaluation of blunt abdominalinjuries in haemodynamically-stable patients.CT scans can reveal a wide variety of injuries.In addition, CT examination is fast and widelyavailable.Withappropriatescanningprotocol,CTcanprovidegoodresolutionimageswithMPR.

Acknowledgements

We would like to thank the surgical andradiological staff of HTAA and Kulliyyah ofMedicine, IIUM for their continuous effort andassistance in thecareandtreatmentofpatients.ThedataobtainedinthispictorialessayispartofaprojectfundedbytheIIUMResearchEndowmentFund(TypeA).

Authors’ contributions

RH and AAA had contributed equally towardsdraftingandrevisingthemanuscript.

Correspondence

DrRadhianaHassanMD(USM),MMed(Rad)(USM)DepartmentofRadiology,KulliyyahofMedicineInternationalIslamicUniversityMalaysia(IIUM)BandarInderaMahkota25200KuantanPahangDarulMakmur,MalaysiaTel: +609-5572056Fax:+609-5149396E-mail:[email protected]

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