References

1. Amaral JF (1993) Laparoscopic application of an ultra-sonically activated scalpel. Gastrointest Clin No Am 3:381-392

2. Kanehira E, Omura K, Kinoshita T, Sasaki M, Watanabe T, Kawakami K, Watanabe Y (1998) Development of a 23.5kHz ultrasonically activated device for laparoscopic surgery. Min Invas Ther Allied Technol 7:315-319

3. Gossot, D, Buess G, Cuschieri A, Leporte E, Lirici M, Mar-vic R, Meijer D, Melzer A, Scurr MO (2000) Ultrasonic dissection for endoscopic surgery. EAES Technology Group. Surg Endosc 14:968-969

4. Kennedy JS, Stranahan PL, Taylor KD, Chandler JG (1998) High-burst-strength, feedback-controlled bipolar vessel sealing. Surg Endosc 12:876-878

5. Remorgida V, Anserini P, Prigione S et al (1999) The behaviour of plastic-insulated instruments in electrosurgery: an overview. Min Invas Ther Allied Technol 8:77-81

6. Romano F, Caprotti R, Franciosi C, De Fina S, Colombo G, Uggeri F (2002) Laparoscopic splenectomy using Ligasure. Preliminary experience. Surg Endosc 16:1608-1611

7. Kanehira E, Kinishita T, Omura K (2000) Fundamental principles and pitfalls linked to the use of ultrasonic scissors. Ann Chir 125:363-369

8. Ott DE, Moss E, Martinez K (1998) Aerosol exposure from an ultrasonically activated (Harmonic) device. J Am Assoc Gynecol Laparosc 5:29-32

9. Nduka CC, Poland N, Kennedy M et al (1998) Does the ultrasonically activated scalpel release viable airborne cancer cells? Surg Endosc 12:1031-1034

10. Kinoshita T, Kanehira E, Omura K, Kawakami K, Wata-nabe Y (1999) Experimental study on heat production by a 23.5-kHz ultrasonically activated device for endoscopic surgery. Surg Endosc 13:621-625

11. Campbell PA, Cresswell AB, Frank TG, Cuschieri A (2003) Real-time thermography during energized vessel sealing and dissection. Surg Endosc 17:1640-1645

12. Sigel B, Dunn MR The mechanism of blood vessel closure by high frequency electrocoagulation. Surg Gynecol Obstet 121:823-831

13. Kanehira E, Kinoshita T, Inaki N, Sekino N, Iida K, Omura K (2002) Development of a new hemostatic dissecting forceps utilizing controlled heat as an energy source. Min In-vas Ther Allied Technol 11:243-247

14. Kanehira E, Omura K, Kinoshita T, Kawakami K, Wata-nabe Y (1999) How secure are the arteries occluded and divided by a newly designed ultrasonically activated device. Surg Endosc 13:340-342

15. Spivak H, Richardson WS, Hunter JG (1998) The use of bipolar cautery, laparosonic coagulating shears, and vascular clips for hemostasis of small and medium sized vessels. Surg Endosc 12:183-185

16. Harold KL, Pollinger H, Matthews BD, Kercher KW, Sing RF, Heniford BT (2003) Comparison of ultrasonic energy, bipolar thermal energy, and vascular clips for hemostasis of small-, medium-, and large-sized arteries. Surg Endosc 17:1228-1230

0 0

Post a comment