Single-port laparoscopy explained

Single-port laparoscopy
Synonym:single-port access surgery (SPA), single-port incisionless conventional equipment-utilizing surgery (SPICES), single-incision laparoscopic surgery (SILS), Single-access endoscopic surgery (SAES), laparo-endoscopic single-site surgery (LESS), natural-orifice transumbilical surgery (NOTUS), and one-port umbilical surgery (OPUS)

Single-port laparoscopy (SPL) is a recently developed technique in laparoscopic surgery. It is a minimally invasive surgical procedure in which the surgeon operates almost exclusively through a single entry point, typically the patient's navel. Unlike a traditional multi-port laparoscopic approach, SPL leaves only a single small scar.

Technique, equipment and training

SPL is accomplished through a single 20 mm incision in the navel (umbilicus or belly button),[1] or through only an 11 mm incision in the navel,[2] minimizing the scarring and incisional pain associated with the multiple points of entry used during traditional laparoscopic surgery.[3]

Specialized equipment for SPL surgery falls into two broad categories; access ports and hand instruments. There are a number of different access ports, including GelPOINT system from Applied Medical, the SILS device from Covidien, the TriPort+, TriPort15 and QuadPort+ a from Advanced Surgical Concepts and the Uni-X from Pnavel. Hand instruments come in three configurations - standard, articulating, and pre-bent rigid. Standard hand instruments are rigid in design and were developed over the last 30 years for use in laparoscopy. Articulation is designed to overcome one of the challenges inherent in SPL, decreased triangulation of instrument. A number of factors influence a surgeon's decision to use standard or articulating hand instruments, including which access port they use, their own surgical skills and cost as articulating instruments are significantly more expensive than standard instruments. SPL is enhanced by the use of specialized medical devices such as the SILS Multiple Instrument Access Port manufactured by Covidien and Laparo-Angle Articulating Instruments made by Cambridge Endoscopic Devices, Inc. The flexible port that can be fitted through a small incision in the navel to allow surgeons to use up to three laparoscopic devices simultaneously. Certain articulating instruments can be inserted through such specialized ports, providing surgeons with maneuverability and access to the target tissue from a single access point.[4] However single port laparoscopic appendicectomy has also been performed using a single standard 10 mm Y-shaped operating telescope having a 5 mm instruments channel also.[2]

Although awareness of single-port surgery is high amongst surgeons,[5] the use of specialised instruments through such limited access requires considerable skill and training. This operative training and experience is currently limited and some negative perceptions regarding increased operating time and complications with this type of surgery remain. One recent study suggests future uptake relies strongly on the availability of evidence, training, instrumentation and reduced costs.[5]

Applications

The SPL technique has been used to perform many types of surgery, including adjustable gastric banding,[6] appendectomy,[7] cholecystectomy,[8] [9] colectomy,[10] hernia repair,[11] hysterectomy,[12] sleeve gastrectomy,[13] nephrectomy,[14] [15] and sacrocolpopexy.[16] SPL has been employed by surgeons at Cleveland Clinic for clinical trials[16] and in the Geneva University Hospital in Switzerland.[9] [10] Although a number of single-incision techniques use specialized instrumentation, most SPL operations in the United States and Europe have used standard instrumentation.[17] The TriPort+ can be inserted with its introducer through a 15 mm incision at the umbilicus. This device allows four instruments to be used simultaneously. During LESS cholecystectomy a fourth instrument becomes essential to gain critical view. Up until now surgeons have been inventive in how to retract the infundibulum; sutures and other novel means of retraction have all been reported. The instrument's channel allows for a fixed curved infundibular grasper to be added; this helps replicate the methodology currently being practised in traditional four-port laparoscopic cholecystectomy.

Risks and benefits

When compared with traditional multi-port laparoscopic techniques, benefits of SPL techniques include less postoperative pain, less blood loss, faster recovery time, and better cosmetic results. Despite the potential advantages of SPL techniques, there may also be complications. Potential complications include significant postoperative pain, injury to organs, bleeding, infection, incisional hernia, intestinal adhesions and scarring.[18]

History

The first documented procedures of significance occurred in the late 1990s.[19] [20] [21] [22] This approach has recently seen more publicity and excitement as surgeons continue to develop techniques to evolve surgery to less invasive approaches. The first described SPL procedure was a gallbladder removal in 1997. Since that time, thousands of SPL procedures have been successfully performed in the United States, from general surgery to urologic, gynecologic and bariatric surgery applications.[23]

See also

References

Notes and References

  1. Raman JD, Cadeddu JA, Rao P, Rane A . Single-incision laparoscopic surgery: initial urological experience and comparison with natural-orifice transluminal endoscopic surgery. BJU Int. 101. 12. 1493–6. 2008. 18325059. 10.1111/j.1464-410X.2008.07586.x. 25718345.
  2. Rao MM, Rao RK . Two-port and single port laparoscopic appendicectomy. Journal of the Indian Medical Association [2004, 102(7):360, 362, 364]. 2004. 102. 7. 360, 362, 364. 15717581.
  3. Web site: UCSF Surgeons Perform First Single-Incision Gallbladder Removal. Emax Health. 2009-06-06. 2011-07-23.
  4. Web site: Hartford Business. 2011-07-23.
  5. Rehman H, Fitzgerald JE, Frantzias J, Lemon J, Ahmed I . The need for training frameworks and scientific evidence in developing scarless surgery: A national survey of surgeons' opinions on single port laparoscopic surgery. International Journal of Surgery. 11. 1. 73–6. 2013. 23220488. 10.1016/j.ijsu.2012.11.018. free.
  6. Nguyen NT, Hinojosa MW, Smith BR, Reavis KM . Single laparoscopic incision transabdominal (SLIT) surgery-adjustable gastric banding: a novel minimally invasive surgical approach. Obesity Surgery. 18. 12. 1628–31. 2008. 18830779. 10.1007/s11695-008-9705-6. 35445891.
  7. Ates O, Hakguder G, Olguner M, Akgur FM . Single-port laparoscopic appendectomy conducted intracorporeally with the aid of a transabdominal sling suture. Journal of Pediatric Surgery. 42. 6. 1071–4. 2007. 17560223. 10.1016/j.jpedsurg.2007.01.065.
  8. Tacchino R, Greco F, Matera D . Single-incision laparoscopic cholecystectomy: surgery without a visible scar. Surgical Endoscopy. 23. 4. 896–9. 2009. 18815836. 10.1007/s00464-008-0147-y. 37411580.
  9. Bucher P, Pugin P, etal . Single Port Access Laparoscopic Cholecystectomy (with video). World J. Surg.. 33. 5. 1015–9. 2009. 19116734. 10.1007/s00268-008-9874-4. 7846171.
  10. Bucher P . Pugin P . Ph Morel . Single port access laparoscopic right hemicolectomy. Int J Colorectal Dis. 23. 10. 1013–6. 2008. 18607608. 10.1007/s00384-008-0519-8. 11813538 .
  11. Filipovic-Cugura J, Kirac I, Kulis T, Jankovic J, Bekavac-Beslin M . Single-incision laparoscopic surgery (SILS) for totally extraperitoneal (TEP) inguinal hernia repair: first case. Surgical Endoscopy. 23. 4. 920–1. 2009. 19172350. 10.1007/s00464-008-0318-x. 11437103.
  12. Web site: Healthcare Sales & Marketing Network News: Novare's Line of Articulating Surgical Tools Allow Full Mobility for 'Keyhole' Hysterectomy. 2011-07-23.
  13. Saber AA, Elgamal MH, Itawi EA, Rao AJ. Single incision laparoscopic sleeve gastrectomy (SILS): a novel technique. Obesity Surgery. 18. 10. 1338–42. 2008. 18688685. 10.1007/s11695-008-9646-0. 38896014. dead. https://archive.today/20120713130505/http://openurl.ingenta.com/content/nlm?genre=article&issn=0960-8923&volume=18&issue=10&spage=1338&aulast=Saber. 2012-07-13.
  14. Web site: Novare Surgical Systems, Inc. Announces First Ever Single Port Laparoscopic Kidney Removal (Nephrectomy) Using RealHand(TM) HD Instruments. 2011-07-23.
  15. Raman JD, Bagrodia A, Cadeddu JA . Single-incision, umbilical laparoscopic versus conventional laparoscopic nephrectomy: a comparison of perioperative outcomes and short-term measures of convalescence. European Urology. 55. 5. 1198–204. 2009. 18715694. 10.1016/j.eururo.2008.08.019.
  16. Kaouk JH, Haber GP, Goel RK, etal . Single-port laparoscopic surgery in urology: initial experience. Urology. 71. 1. 3–6. 2008. 18242353. 10.1016/j.urology.2007.11.034.
  17. Web site: News and Announcements. 2011-07-23.
  18. Web site: Surgery. Agency for Healthcare Research and Quality. 2009. 2011-07-23.
  19. Esposito C. One-trocar appendectomy in pediatric surgery. Surg Endosc. 12. 2. 177–8. 1998. 9479738. 10.1007/s004649900624. 22655493.
  20. Navarra G, Pozza E, Occhionorelli S, Carcoforo P, Donini I . May 1997 . One-wound laparoscopic cholecystectomy . Br J Surg . 84 . 5. 695 . 10.1002/bjs.1800840536. 9171771 .
  21. Piskun G, Rajpal S . 1999 . Transumbilical laparoscopic cholecystectomy utilizes no incisions outside the umbilicus . J Laparoendosc Adv Surg Tech A . 9 . 4. 361–364 . 10.1089/lap.1999.9.361 . 10488834.
  22. Bresadola F., Pasetto A., et al. Elective Transumbilical Compared with Standard Laparoscopic Cholecystectomy. European J of Surg. 1999 Feb; 165(1): 29-34(6)
  23. Web site: Cole . Jean . Region's first 'belly-button' hysterectomy performed . Enewscourier.com . 2009-06-05 . 2024-06-12.