Table 1: A comparison of the sensitivity and specificity of clinical signs, symptoms and laboratory investigations in this study and previously published literature.
Prabhakar Rajan, Dinesh C. Sharma & Christopher J.E. Watson: A Retrospective Review Of Appendicectomy Management In A UK Teaching Hospital: The Internet Journal of Surgery. 2006; Volume 7, Number 2.
Acute appendicitis is one of the commonest clinical presentations in emergency surgical practice. Historically, early recognition and prompt surgical intervention was thought to provide the only chance of survival as mortality was high. Despite structured scoring and computer-aided systems 1 , the diagnosis can pose a challenge to even the most experienced clinicians with negative appendicectomy rates of up to 20% reported in some centres 2 . Some clinicians advocate delaying surgery to improve diagnostic accuracy in selected doubtful cases; however there have previously been reports that may lead to increased perforation rates 3 and significant mortality 4 , 5 , 6 . Proponents of “active observation and repeated re-evaluation”, claim a reduction in negative appendicectomy rates with no significant increase in perforation rates 7 or other morbidity 8 .
Plain radiology has little role in the diagnosis of appendicitis 9 , but ultrasonography, in experienced hands can be accurate, although false-negatives can occur 10 . It is probably most useful in excluding gynaecological pathology 11 , 12 . Computed Tomography (CT) is not so operator dependent and is the investigation of choice, with reports of up to 100% accuracy and negative appendicectomy rates of 7% 13 . High radiation exposure make it undesirable for the paediatric population, and CT tends to be reserved for more difficult cases, at the extremes of age, where more sinister pathologies exist. Within the overburdened UK National Health Service (NHS) and in areas of the world where these technologies are unavailable, the onus still remains on clinical examination.
Diagnostic laparoscopy has been advocated for uncertain cases, and has been shown to reduce negative appendicectomy rates 14 . It is most useful in young females to exclude gynaecological pathology. Laparoscopic appendicectomy has also been shown to significantly reduce the incidence of most post-operative morbidity compared to open procedures, apart an increase in intra-abdominal abcesses 14 . This might be a result of inexperienced laparoscopists operating on perforated appendices 15 .
The aim of this study was to review the appendicectomy management in our unit. By comparing our results to the published data we hope to identify the optimum management strategy.
We conducted a retrospective review of the hospital databases and records of one hundred and two patients who underwent appendicectomy at Addenbrooke's Hospital, Cambridge. The list of patients was obtained from the operating theatre database, and the clinical records and investigations database were subsequently reviewed. For the purpose of emergency general surgical admissions, Addenbrooke's operates as a district general hospital, serving the local population.
The pre-operative clinical diagnosis in all cases was acute appendicitis, based on history, clinical examination, laboratory tests and if necessary, radiological investigations. Appendicectomy was either laparoscopic or open, depending on the preference of the operating surgeon. Where there was a high clinical index of suspicion, surgery was performed on the same day as admission after review by the on-call Registrar or Consultant. In uncertain cases, patients were actively observed on the ward overnight and assessed the next morning by a senior member of the team before a decision was made to operate. All appendices were removed and sent for histological examination. Records were studied, noting the features of the clinical presentation, results of investigations, operative findings, morbidity, mortality and final histology.
Accuracy of diagnoses was defined as the number of histologically confirmed cases per 100 procedures. The chi-squared test was used to examine differences in proportion with a significance accepted as p<0.05.
One hundred and twenty two consecutive appendicectomy procedures were performed for presumed acute appendicitis between October 2000 and January 2001. We were able to review the notes of 102 patients. The age range was from 6 to 82 years with a mean age of 30 years; 62% males and 38% females, of which 69.2% were less than 40 years of age. Total diagnostic accuracy was 85.3%, and was significantly higher in males (90.5%) than females (71.8%) (p<0.05). The negative appendicectomy rate was 11.8%, and was significantly lower in males (6.3%) than in females (21%) (p<0.05). The mean length of inpatient stay was 2 days.
The most common clinical presentation (51%) was migratory right iliac fossa (RIF) pain, with localised RIF pain (26%) and pain elsewhere (24%) being the next most common presentations. 67% of patients had symptoms of nausea and vomiting, but anorexia was a poorly documented symptom and present in only 30% of cases. The mean duration of symptoms was 32 hours. Febrile symptoms and pyrexia were only present in 26% and 38% patients respectively. Guarding and rebound was elicited in 77% and 61% of patients respectively. Table 1 shows the sensitivity and specificity of the signs and symptoms, and laboratory investigations elicited in the history and clinical examination.
Table 1: A comparison of the sensitivity and specificity of clinical signs, symptoms and laboratory investigations in this study and previously published literature.
29 patients were subjected to plain radiology, 3 of which revealed only non-specific features. Ultrasonography and CT scanning revealed appendiceal pathology in 1 out of 7 cases and 4 out of 5 cases respectively. 95 patients received pre-operative antibiotics (cefotaxime and metronidazole) (not documented in 4 cases, not given in 1 case).
Operating took place in a dedicated CEPOD 16 theatre with 24 hour medical and nursing staff. Two-thirds of the operating took place from 8am to 8pm; the remainder out of hours. 3 procedures were performed by the Consultant only, with the majority of cases being shared between the on-call Registrar (55%) and SHO (41%). 5 laparoscopic cases were performed by the Registrar, 4 of which were performed on females under the age of 40 years. 9 appendices were described as macroscopically normal, 7 of which were confirmed as normal on histology. The mean time to theatre was 2 days from the onset of symptoms, and there was no significant increase in perforation rates in those operated on after this threshold (p>0.05).
Only 10 patients had positive microbiology cultures from intra-abdominal swabs. Furthermore, there were only 6 reported cases of wound infection, of which 4 progressed to have significant wound-related problems (pain or dehiscence). All of these patients had received pre-operative antibiotics.
Clinical examination and investigation yielded total diagnostic accuracy of 85% and is comparable to published data. The total negative appendicectomy rate of 12% was similar to results from centres that adopt a policy of active observation 7 . It is unsurprising that there was a significant difference in these results between males and females as the majority of females were of an age where gynaecological pathology is common. Diagnostic accuracy and negative appendicectomy rates could potentially be improved with further use of radiology or laparoscopy.
The sensitivities and specificities of the various clinical signs and symptoms were comparable with the literature 17 , 18 . Although RIF pain proved to be a sensitive indicator of acute appendicitis, migratory pain was much more specific. Laboratory tests appear to aid what is primarily clinical diagnosis, or in uncertain cases, provided a baseline for sequential investigations. We found that although WCC was a highly sensitive indicator of acute appendicitis, it was by no means specific, as has been reported by other centres 19 . CRP was found to be only moderately sensitive or specific, in keeping with recent reports 20 .
As per NCEPOD 16 guidelines, the majority of operating took place within daylight hours and by more senior surgeons or by juniors under close senior supervision, with only 20% of cases being performed by SHOs without a senior surgeon scrubbed. There was no significant increase in perforation rates in patients where the operation was delayed, either due to purposeful active observation, or a late presentation.
We conclude from our study that the judgement of an experienced clinician is an adequate diagnostic tool in the majority of cases. We followed a policy “active observation and repeated re-evaluation” which yielded results comparable to published data without significant morbidity. We found that laboratory investigations provide an adjunct to what is primarily a clinical diagnosis, although cross-sectional radiology can be of assistance in difficult cases at the extremes of age. Our results suggest that optimum management could include further use of diagnostic radiology and laparoscopy to reduce negative appendicectomy rates particularly in females of child-bearing age. This has implications on radiology resources and training of juniors in laparoscopic skills, however may provide further evidence in favour of a truly consultant-based emergency surgical service.
Mr Prabhakar Rajan,
Department of Urology,
Freeman Hospital, High Heaton,
Newcastle-upon-Tyne, NE7 7DN, UK.
Tel. +44 191 233 6161;
Fax. +44 191 213 1968;
E-mail address: prabs_rajan@yahoo.co.uk
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