Abnormality detection rates by ultrasound within different racial groups
Transcript of Abnormality detection rates by ultrasound within different racial groups
![Page 1: Abnormality detection rates by ultrasound within different racial groups](https://reader030.fdocuments.us/reader030/viewer/2022020202/5750231d1a28ab877ea842ba/html5/thumbnails/1.jpg)
AbstractsS46
giography and can be an aid in the diagnosis of the difficult tointerpret coronary angiograms.
Sonography of delayed complications of splenic traumaKhan A.N.; Al-Khattab Y.S.; Yeung G.J.M. NorthManchester General Hospital, Crumpsall, Manchester M8 6RB,UK
Aim: To demonstrate the efficacy of sonography in thediagnosis of delayed complications of splenic trauma, whereclinical presentation may be nonspecific or even misleading.
Methods: We retrospectively analysed the case records ofnine patients (5 men, 4 women age range 20–64 years) admit-ted to our institution over a 7 year period with delayedcomplications of splenic trauma. Trauma to the left upperquadrant having occurred 6 months–12 years previously.
Results: All patients presented with vague nonspecific leftupper quadrant symptoms. History of trauma was not forth-coming at initial workup. Alternative diagnoses were enter-tained in all. History of trauma was sought and confirmed inall after the ultrasound result was known. In one patient withcontained splenic rupture diagnosis was delayed by 3 monthsthe patient having had six consultations with various special-ists and had three admissions and treated for pleurisy beforethe true nature of her problem was revealed by ultrasound.The complications uncovered by ultrasound; three delayedsplenic ruptures, four splenic abscesses, one post-traumaticpancreatic tail pseudocyst invading the spleen and one expand-ing false splenic cyst. Only ultrasound was used to achieve thediagnosis and confirmed at surgery.
Conclusions: Ultrasound usually achieves diagnosis of de-layed complications of splenic trauma in what can be aclinically difficult area and may provide the first clue tocausation and lead to the appropriate history being sought.Moreover it begs the question, how safe is conservative man-agement of splenic trauma.
Abnormality detection rates by ultrasound within different racialgroupsJohnson K.; Powell C.; Pearl L. Department of Radiology, NewCross Hospital, Wol6erhampton Road, Wol6erhampton WV1002P, UK
Introduction: An ultrasound examination is commonly theinitial investigation of abdominal pain and it is a service thatis widely available to both General Practitioners and HospitalOut-patient Departments. Within the West Midlands a highproportion of the patients are of Asian (Indian subcontinent)descent. We have investigated the differences in detection ofultrasound abnormalities within different racial groups.
Methods: Ultrasound sessions were chosen at random fromfour West Midland hospitals and outpatients attending for anabdominal ultrasound during these sessions were included inthe study. Patients under follow up and who had a previousultrasound were excluded. Racial origin was elicited from thepatient at the time of their examination. Reports were eitherclassified as: (1) normal; (2) minor abnormality, such as a fattyliver or a simple cyst; (3) significant abnormality, such asgallstones or suspected malignancy. Comparisons were made
between the abnormality rates according to race, sex andsource of referrals. The data was analysed using the x2 test.
Results: Five hundred and thirteen patients were examined,354 (69%) were of European descent, 109 (21%) Asian and 53(7%) other racial origins, predominantly Afro Caribbean.There was no significant difference in the abnormality detec-tion rate between sexes or between source of referral. Therewas a significant difference in the detection of significantabnormalities between patients of European descent 114–354(30%) compared with those of Asian descent 9–108 (7%)(PB0.0001).
Discussion: The Asian population represents a considerableproportion of the work load for abdominal ultrasound exami-nations, but the detection of abnormalities within this group issignificantly lower. This difference suggests that further evalu-ation of health education and management resources in differ-ent ethnic communities is needed to help to improve andrationalise the services offered to people of different racialgroups.
Contrast enhanced three and 4-D ultrasound angiography ofnormal solid organs and tumours—work in progressJayaram V.; Cosgrove D.O.; Blomley M.J.K.; Albrecht T.;Humphries K.N.; Pitt T.; Patel N. Department of Imaging,Hammersmith Hospital and Royal Postgraduate MedicalSchool, London, Wl2 0HS, UK
Introduction: 3-D imaging lends itself to contrast enhancedultrasound due to its ability to delineate the complete vascularanatomy in normal organs like the liver, kidney and testis.Tumour vessels, which often may be tortuous and lie in manyplanes in 2-D images, can be seen in their entire extent in a3-D image. Accurate depiction of tumour vessel characteristicslike length, branching patterns, vascular shunts and loops andthe possibility of studying tumour perfusion from 4-D datasetsare other encouraging possibilities.
Aims and Objecti6es: This poster will illustrate with exam-ples the 3-D vascular anatomy in a normal kidney, liver andtestis. 3-D vasculature of beast and liver tumours—particu-larly its advantages over 2-D images, and a brief idea of a 4-Ddataset obtained by 3-D reconstructions of tumour vasculatureat different time intervals following administration of an ultra-sonic contrast agent will be highlighted.
Materials and Methods: The image stacks for 3-D recon-struction were obtained using the Acuson 128XP/10 and theATL HDI 3000 ultrasound equipment. Contrast media usedwere Levovist (Schering AG, Berlin, Germany) and EchoGen(Sonus Pharmaceuticals, Bothell, USA). 3-D reconstructionswere performed on a dedicated workstation (Sun SPARC) andon the ATL equipment with custom built 3-D reconstructionsoftware.
Conclusions: Analysis of normal vascular anatomy using3-D images is a promising adjunct to Doppler imaging due tothe added spatial information. Tumour vasculature was alsobetter analysed with 3-D images due to the reasons describedabove. Moreover, the administration of an ultrasonic contrastagent facilitates detection of regions of low blood flow. Theabove advantages together with the sensitivity of power