вторник, 13 марта 2012 г.

Needlescopic versus laparoscopic appendectomy: a systematic review

Background: Needlescopic appendectomies (NA) have been performed since the 1990s. We sought to systematically analyze trials comparing NA with laparoscopic appendectomies (LA) in the management of appendicitis.

Methods: We performed a systematic review of the literature. We compared and analyzed clinical trials on NA and LA to generate summative data expressed as standardized mean differences (SMD).

Results: Of 5 retrieved trials from the electronic database 2 trials involving 412 patients met our inclusion criteria. In the fixed-effects models, NA took longer than LA, and this time difference was statistically significant: SMD 0.20 min, 95% confidence interval 0.01-0.40, p = 0.030, z^sub 1^ = 2.09. In both fixed- and random-effects models, the difference in total hospital stay and in perioperative complications between the NA and LA groups were nonsignificant. Furthermore, in both fixed- and random-effects models, NA was associated with a higher conversion rate to open appendectomy than LA. There was no heterogeneity between the trials (Q = 0.34, p = 0.55).

Conclusion: Needlescopic appendectomy can be a safe and effective procedure for the management of appendicitis. It is comparable to LA in terms of hospital stay and perioperative complications. However, NA is associated with a longer duration of surgery and a higher conversion rate, indicating technical challenges of the procedure. Before recommending routine use of the needlescopic technique for appendectomy, a major multicentre randomized controlled trial is necessary.

Contexte : On effectue des appendicectomies au trocart optique (needlescope) depuis les ann�es 1990. Nous avons voulu analyser de mani�re syst�matique les �tudes qui ont compar� les appendicectomies au trocart optique aux appendicectomies laparoscopiques dans la prise en charge de l'appendicite.

M�thodes : Nous avons proc�d� � une revue syst�matique de la litt�rature. Nous avons compar� et analys� les �tudes cliniques ayant port� sur les appendicectomies au trocart optique et les appendicectomies laparoscopiques afin de g�n�rer des donn�es sommatives exprim�es sous forme de diff�rence moyenne standardis�e (DMS).

R�sultats : Sur 5 �tudes recens�es � partir de bases de donn�es �lectroniques, 2 regroupant 412 patients r�pondaient � nos crit�res d'inclusion. Selon les mod�les � effets fixes, l'appendicectomie au trocart optique a pris plus de temps que l'appendicectomie laparoscopique et cette diff�rence de temps s'est r�v�l�e statistiquement significative (DMS 0,20 minute; intervalle de confiance � 95 %, 0,01-0,40; p = 0,030; z^sub l^ = 2,09). Dans les mod�les, tant � effets fixes qu'al�atoires, les diff�rences de dur�e totale de l'hospitalisation et de complications p�riop�ratoires entre les groupes soumis � l'appendicectomie au trocart optique et � l'appendicectomie laparoscopique n'ont pas �t� significatives. De plus, dans les mod�les � effets fixes et al�atoires, l'appendicectomie au trocart optique a �t� associ�e � un taux de conversion plus �lev� � l'appendicectomie ouverte, comparativement � l'appendicectomie laparoscopique. On n'a not� aucune h�t�rog�n�it� entre les �tudes (Q = 0,34; p = 0,55).

Conclusion : L'appendicectomie au trocart optique peut �tre une technique s�curitaire et efficace pour la prise en charge de l'appendicite. Elle est comparable � l'appendicectomie laparoscopique pour ce qui est de la dur�e du s�jour hospitalier et des complications p�riop�ratoires. Toutefois, l'appendicectomie au trocart optique demande plus de temps et est associ�e � un taux de conversion plus �lev�, ce qui t�moigne des d�fis techniques de l'intervention. Avant de recommander l'utilisation d'embl�e d'une technique au trocart optique pour l'appendicectomie, il faudra proc�der � une grande �tude multicentrique contr�l�e et randomis�e sur ce type d'intervention.

Open appendectomy performed through a grid iron incision in the right lower quadrant was first introduced in the 19th century1,2 and remained mainly unchallenged until the introduction of laparoscopic appendectomy (LA) in 1983 by Semm,3,4 a gynecologist. This was an important change in the management of appendicitis owing to advantages like improved wound-healing,5 shorter hospital stay,6 markedly reduced postoperative pain7 and good cosmetic results,8 all all of which lead to an early return to normal daily activities.9,10 The launch of needlescopic instruments, defined as those 3-mm or less in diameter, sparked further excitement in the 1990s.11 The first successful needlescopic appendectomy (NA) was reported in 1994.12 In theory, NA is beneficial to patients because of the smaller trocar wounds and hence less tissue trauma associated with this minimally invasive approach. It was therefore intriguing to evaluate NA further. Studies comparing NA and LA have been reported, but their conclusions have been limited by study design, study type or study sample.

We sought to use meta-analysis as a tool to compare the outcomes of LA and NA with respect to duration of surgery, total hospital stay, conversion rate and perioperative complications. The specific questions we sought to answer are as follows:

* Does NA significantly reduce the duration of surgery?

* What is the difference in total hospital stay associated with these techniques?

* What is the conversion rate in NA?

* Does NA reduce the incidence of perioperative complications?

METHODS

We identified relevant studies on NA versus LA published between January 1997 and January 2007 in the MEDLINE, EMBASE, CINAHL, Cochrane library and PubMed databases. We used the terms "trials on needlescopic appendectomy/appendicectomy," "minimally invasive appendectomy/appendicectomy" and "key hole surgery for appendicitis" in combination with the medical subject headings "needlescopic versus conventional laparoscopic appendicectomy" and "minimal versus conventional laparoscopic appendectomy/appendicectomy." We also obtained relevant articles referenced in these studies. We used the "related article" function to widen our search criteria, and we reviewed all abstracts, comparative studies, nonrandomized trials and citations scanned.

We reviewed each article to assess eligibility for inclusion in this systematic review. Our inclusion criteria are listed in Box 1. We analyzed randomized controlled trials comparing NA and LA. We analyzed 4 outcome variables: duration of surgery, hospital stay, conversion rate and perioperative complications. Two of us (M.M.S. and M.A.K.) extracted the data independently, with complete agreement. We defined complication as a condition that developed due to surgery and required either repeat surgery or further medical treatment or prolonged the length of stay in hospital. Our data included the following complications: wound infection (with evidence of cellulites and positive culture), wound abscess (which required incision and drainage), intra-abdominal abscess (which required either surgical or radiological drainage), urinary tract infection (where urine culture was positive), chest infection (confirmed on chest radiography), prolonged ileus (no bowel sounds after 72 hours), relaparotomy for any reason and intraoperative or postoperative destabilizing hemorrhage. The criteria to define NA and LA are described in Box 2.

A senior statistician (E.C.) performed statistical analyses using Excel 2003 for Windows XP (Microsoft). For continuous data (e.g., duration of surgery, hospital stay), we used the Hedges g statistic to calculate standardized mean differences (SMDs). We combined the SMDs using inverse variance weights in the fixed-effects model and the DerSimonian-Laird method in the random-effects model.12 We summarized binary data (e.g., complications, recurrence) as risk ratios (RR) and combined them using the Mantel-Haenszel method under the fixed-effects model and the DerSimonian-Laird method under the random-effects model. In each case, we performed a heterogeneity test to determine whether the fixed-effects model was appropriate. When standard deviations (SDs) were not reported in the studies, we estimated SDs either from ranges or p values.13 We used forest plots for the graphical display of results from this review. Subgroup and sensitivity analyses were not feasible owing to the limited number of studies included in our review. Publication bias was also difficult to assess for the same reason.

RESULTS

Figure 1 depicts our search results. We retrieved 5 trials comparing NA and LA involving a total of 1098 patients from the electronic databases. Two randomized controlled trials14,15 involving 412 patients met our inclusion criteria (Box 1). We excluded 3 trials9,16,17 owing to the reasons mentioned in Table 1. Characteristics of each trial are provided in Table 2. There were a total of 200 patients in the needlescopic group and 212 patients in the laparoscopic group. The outcome variables extracted from these trials are shown in Table 3.

Methodological quality of included studies

The methodological quality of included trials is explained comprehensively in Table 4. We used the Mantel- Haenszel fixed-effects model to compute robustness and susceptibility to any outliers among these trials. The allocation concealment and blinding of investigators or assessors were not clearly reported in the studies; consequently, we considered the methodological quality of the trials to be inadequate, and the results of our review may be considered biased.

Duration of surgery

In the fixed-effects models, NA lasted longer than LA, and this time difference was statistically significant: fixedeffects model SMD 0.20 minutes, 95% confidence interval (CI) 0.01-0.40, p = 0.030, z^sub 1^ = 2.09. However, in the random-effects model, statistically there was no difference between the 2 approaches: SMD 0.13 minutes, 95% CI -0.23 to 0.50, p = 0.48, z^sub 1^ = 0.70 (Fig. 2). There was no heterogeneity between the trials (Q = 1.86, p = 0.17).

Hospital stay

In both fixed- and random-effects models, the difference in total hospital stay between the NA and LA groups was statistically nonsignificant: fixed-effects model SMD -0.03 d, 95% CI -0.20 to 0.16, p = 0.74, z^sub 1^ = -0.32 and random-effects model SMD -0.007 d, 95% CI -0.09 to 0.7, p = 0.87, z^sub 1^ = -0.16 (Fig. 3). There was no heterogeneity between the trials (Q = 0.80, p = 0.36).

Perioperative complications

In both fixed- and random-effects models, the difference in the perioperative complication rate between the NA and LA groups was statistically nonsignificant: fixedeffects model RR 0.80, 95% CI 0.44-1.48, p = 0.49, z^sub 1^ = -0.68 and random-effects model RR 0.85, 95% CI 0.47-1.53, p = 0.59, z^sub 1^ = -0.53 (Fig. 4). There was no heterogeneity between the trials (Q = 2.99, p = 0.08).

Conversion rate

In both fixed and random-effects models, NA was associated with a higher conversion rate to open appendectomy than LA, which was statistically significant: fixed-effects model RR 2.80, 95% CI 1.50-5.23, p = 0.001, z^sub 1^ = 3.25 and random-effects model RR 2.80, 95% CI 1.51-5.21, p = 0.001, z^sub 1^ = 3.26 (Fig. 5). There was no heterogeneity between the trials (Q = 0.34, p = 0.55).

DISCUSSION

Needlescopic appendectomy is an evolving technique. General surgeons are practising it with great caution owing to lack of level-I evidence. Our systematic review attempts to provide some evidence on this issue. It is the hope of those pioneering this field that it will extend the benefits already proven for LA versus open appendectomy. 18 For example, the use of smaller 2- to 3-mm ports, rather than 5- or 10-mm ports, will further hasten recovery and reduce postoperative pain and length of hospital stay.19 In experienced hands, NA is a feasible procedure and can be performed safely in select patients, especially in young girls, for the treatment of acute appendicitis. It is less invasive and cosmetically superior to LA.20 We observed no difference in perioperative complications between the 2 techniques or in the resulting length of stay in hospital. The higher conversion rate to open appendectomy observed in the NA group is indicative of the initial technical difficulties surgeons have to face using finer instruments. However, with current instrumentation and the skill level of general surgeons, NA understandably will take longer than the more traditional laparoscopic procedures, and after a learning curve, improved and highquality results may be achieved.

Advocates of NA believe that an element of surgical trauma is due to the skin wound and tissue handling. If we can operate with a smaller skin wound and more gentle tissue handling without compromising access, a better outcome is anticipated. Thus, surgeons must strike a balance between trauma secondary to surgery and adequate access. Our systematic review may pave the way for NA, a less invasive procedure for acute appendicitis, but further exploration and investigation are required. Our study shows that NA has some statistically significant benefits over LA, and after achieving the necessary technical experience, surgeons can consider performing this procedure in patients with acute appendicitis.

To our knowledge, our systematic review is the only comprehensive review of NA to date. It highlights the need for a major multicentre double-blind prospective randomized controlled trial on NA because in this review only 2 randomized controlled trials involving a small number of patients with various stages of appendicitis were retained for analysis. In the meantime, NA may be considered an alternate option for removal of the appendix.

Competing interests: None declared.

Contributors: Drs. Sajid and Baig designed the study. Drs. Sajid and Khan acquired the data, which Drs. Sajid, Khan and Cheek analyzed. Drs. Sajid and Baig wrote the article, which Drs. Khan and Cheek reviewed. All authors approved the final version for publication.

[Sidebar]

Box 1. Inclusion criteria

* Prospective randomized controlled trials on needlescopic versus conventional laparoscopic appendectomy in all languages

* Trials on patients of any age and sex

Box 2. Minimally invasive approaches for appendectomy

Needlescopic appendectomy

* Use of 2 or 3 ports

* One port of 5 mm and 2 ports of 2 or 3 mm/3 ports of 3 mm/3 ports of 2 mm

* Cumulative port size 9-14 mm

* Laparoscope 2-5 mm in size and 0�/30� angle of vision

Conventional laparoscopic appendectomy

* Use of 3 ports

* One port of 10-12 mm and 2 ports of 5 mm

* Cumulative port size 16-27 mm

* Laparoscope 5-10 mm in size and 30� angle of vision

[Reference]

References

1. Fitz RH. Perforating inflammation of vermiform appendix: with special reference to its early diagnosis and treatment. Am J Med Sci 1886;92:321-46.

2. McBurney C. The incision made in the abdominal wall in cases of appendicitis. Ann Surg 1894;20:38-43. Available: www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1493708 (accessed 2009 Feb. 25).

3. Semm K. Endoscopic appendectomy. Endoscopy 1983;15:59-64.

4. Berry J Jr, Malt RA. Appendicitis near its centenary. Ann Surg 1984;200:567-75.

5. Ortega AE, Hunter JG, Peters JH, et al. A prospective randomized comparison of laparoscopic appendectomy with open appendectomy. Laparoscopic Appendectomy Study Group. Am J Surg 1995;2:208-12.

6. Tang E, Ortega AE, Anthone GJ. Intraabdominal abscess following laparoscopic and open appendectomies. Surg Endosc 1996;10:327-8.

7. Chung RS, Rowland DY, Li P. A meta-analysisof randomized controlled trials of laparoscopic versus conventional appendectomy. Am J Surg 1999;177:250-6.

8. Azaro EM, Amaral PC, Ettinger JE. Laparoscopic versus open appendectomy: a comparative study. JSLS 1999;3:279-83.

9. Croce E, Olmi S, Azzola M, et al. Laparoscopic appendectomy and minilaparoscopic approach; a retrospective review after 8 years' experience. JSLS 1999;3:285-92.

10. Heikkinen TJ, Haukipuro K, Hulkko A. Cost-effective appendectomy.

Open or laparoscopic? A prospective randomized study. Surg Endosc 1998;12:1204-8.

11. Gagner M, Garcia-Ruiz A. Technical aspects of minimally invasive abdominal surgery performed with needlescopic instruments. Surg Laparosc Endosc 1998;8:171-9.

12. Cochrane RA, Hay DJ. A microlap appendectomy: case report. Minim Invasive Ther Allied Technol 1997;6:168-9.

13. Egger M, Smith GD, Altman DG. Systematic reviews in healthcare. London: BMJ Publishing; 2006.

14. Huang M, Wei P, Wu C, et al. Needlescopic, laparoscopic and open appendectomy: a comparative study. Surg Laparosc Endosc Percutan Tech 2001;11:306-12.

15. Lau DHW, Yau KK, Chung CC, et al. Comparison of needlescopic appendectomy versus conventional laparoscopic appendectomy. A randomized controlled trial. Surg Laparosc Endosc Percutan Tech 2005;15:75-9.

16. Mostafa G, Matthews BD, Sing RF, et al. Mini-laparoscopic versus laparoscopic approach to appendectomy. BMC Surg 2001;1:4.

17. Chock A, Seslar S, Stoopen E, et al. Needlescopic appendectomy. Surg Endosc 2003;17:1451-3.

18. Bennett J, Boddy A, Rhodes M. Choice of approach for appendicectomy: a meta-analysis of open versus laparoscopic appendicectomy. Surg Laparosc Endosc Percutan Tech 2007;17:245-55.

19. Matthews BD, Mostafa G, Harold KL, et al. Minilaparoscopic appendectomy. Surg Laparosc Endosc Percutan Tech 2001;11:351-5.

20. Schier F. Laparoscopic appendectomy with 1.7 mm instruments. Pediatr Surg Int 1998;14:142-3.

[Author Affiliation]

Muhammad Shafique Sajid, MBA, MSc, MD*

Munir Ahmad Khan, MRCS*

Elizabeth Cheek, PhD[dagger]

Mirza Khurrum Baig, MD*

From the *Department of Colorectal Surgery, Worthing Hospital, Worthing, West Sussex and the [dagger]Department Computing Mathematical and Information Science, University of Brighton, Brighton, UK

Accepted for publication

Dec. 11, 2007

Correspondence to:

Dr. M.S. Sajid

SpR General Surgery

Worthing & Southlands Hospitals

NHS Trust

Worthing, West Sussex BN11 2DH

United Kingdom

fax 01903 285 052

surgeon1wrh@hotmail.com

Комментариев нет:

Отправить комментарий