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Robot Yardımlı Plastik Cerrahi Uygulamaları, Erken Tecrübeler ve Gelecekteki Beklentiler

Robot Assisted Plastic Surgery Applications, Early Experiences and Future Landmarks

Journal Name:

Publication Year:

DOI: 
10.17954/amj.2015.11

Keywords (Original Language):

Abstract (2. Language): 
Objective: During the recent years ‘da Vinci’ robotic surgical system have come into use in Plastic Surgery. Robotic technology provides advantages according to conventional surgery cause of faster surgery, increased use of manual skills and high resolution. Material and Methods: In this review article, we reported that robotic surgery applications in plastic surgery until today and the fi rst robot-assisted plastic surgery application of soft tissue reconstruction of the leg with omental fl ap in Turkey. Results: Robot-assisted surgery in plastic surgery; is used in fl ap transfer and brachial plexus repair and has gained momentum in the last 5 years. Conclusion: The next few years, robotic surgery applications are likely to signifi cantly increase in plastic surgery especially in the case of required the tissue transfer from intraperitoneal space.
Abstract (Original Language): 
Amaç: Plastik cerrahide ‘da Vinci’ robotik cerrahi sistemi son yıllarda kullanıma girmiştir. Robotik teknoloji; daha hızlı cerrahi, el becerilerinin artmış kullanımı ve yüksek çözünürlük gibi avantajlarıyla konvansiyonel cerrahiye göre üstünlükler sağlamaktadır. Gereç ve Yöntemler: Derleme makalemizde plastik cerrahi alanında günümüze kadar uygulanmış robotik cerrahi prosedürlerini ve Türkiye’de ilk defa plastik cerrahi alanınında yapılan robot yardımlı omental fl ep ile bacak yumuşak doku rekonstrüksiyonunu sunmayı amaçladık. Bulgular: Plastik cerrahi alanında robot yardımlı cerrahi; fl ep transferleri ve brakial pleksus onarımında kullanılmış olup son 5 yıl içinde ivme kazanmıştır. Sonuç: Gelecek birkaç yıl içerisinde plastik cerrahi alanında özellikle intraperitonel alandan doku transferi gereken durumlarda robotik cerrahi yönünde ciddi bir artış olacağı gözükmektedir.
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REFERENCES

References: 

1. Giedelman CA, Abdul-Muhsin H, Schatloff O, Palmer
K, Lee L, Sanchez-Salas R, Cathelineau X, Dávila H,
Cavelier L, Rueda M, Patel V. The impact of robotic
surgery in urology. Actas Urol Esp 2013;37(10):652-7.
2. Liverneaux PA, Mantovani GR: Brachial Plexus: Use of
the Da Vinci Robot. NewYork, NY: Thieme, 2013.
3. Bush B, Nifong LW, Chitwood WR Jr. Robotics in cardiac
surgery: past, present, and future. Rambam Maimonides
Med J 2013;4(3):e0017.
4. Buchs NC, Pugin F, Ris F, Volonte F, Morel P, Roche B.
Early experience with robotic rectopexy. Int J Med Robot
2013;9(4):e61-5.
5. Selber JC. Transoral robotic reconstruction of
oropharyngeal defects: A case series. Plast Reconstr Surg
2010;126:1978–87.
6. Selber JC, Baumann DP, Holsinger FC. Robotic latissimus
dorsi muscle harvest: A case series. Plast Reconstr Surg
2012;129(6):1305-12.
7. Pedersen J, Song DH, Selber JC. Robotic, intraperitoneal
harvest of the rectus abdominis muscle. Plast Reconstr
Surg 2014;134(5):1057-63.
8. Naito K, Facca S, Lequint T, Livemeaux PA. The oberlin
procedure for restoration of elbow fl exion with the da Vinci
Robot: Four cases. Plast Reconstr Surg 2012;129(3):707-
11.
9. Tetik C, Uzun M. Novel axillary approach for brachial
plexus in robotic surgery: A Cadaveric Experiment.
Minim Invasive Surg 2014;2014:927456.
10. Miyamoto H, Leechavengvongs S, Atik T, Facca S,
Liverneaux P.Nerve transfer to the deltoid muscle using
the nerve to the long head of the triceps with the da Vinci
robot: six cases. J Reconstr Microsurg 2014;30(6):375-80.
11. Mufarrij PW, Lipkin ME, Stifelman MD. Robot-assisted
ureterolysis, retroperitoneal biopsy, and omental wrap:
Pilot series for the treatment of idiopathic retroperitoneal
fi brosis. J Endourol 2008;22(8):1669-75.
12. Celik H, Cremins A, Jones KA, Harmanli O. Massive
subcutaneous emphysema in robotic sacrocolpopexy.
JSLS 2013;17(2):245-8.

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