Morales VRE, López-de la Cruz Y, Morales MR

Language: Portugués
References: 23
Page: 219-224
PDF size: 348.26 Kb.

ABSTRACT

Axillary thoracotomies are among the most described and modified in the history of surgery. Despite the sustained development of video-assisted thoracic surgery, the role of classic thoracotomies in current surgical practice is unavoidable, especially when minimally invasive options are not available. Extended posterior vertical axillary thoracotomy emerged almost 30 years ago from the introduction of innovative modifications to axillary thoracic incisions previously described. An extensive literature review makes it possible to affirm that an axillary thoracotomy, which contains all the distinctive features that the one presented herein, has never been reported before. Its main advantages are discussed in relation to the decrease in the operating time and complications during and after surgery.

REFERENCES

1. De Aquapendente F. Crisol de la cirugía. Valen-cia: Mercaderes de Libros; 1676.

2. Fowler GR. A case of thoracoplasty for the re-moval of a large cicatricial fibrous growth from the interior of the chest, the result of an old em-pyema. Medical Record. 1893;44(27):838-9.

3. Hurtado Hoyo E. Toracotomías axilares. Buenos Aires: Sánchez Teruelo S.A.; 1984.

4. Alonso A, Couto G. Incorporación Solemne a l’Académie Nationale de Medecine de Francia del Acad Elías Hurtado Hoyo. Rev Asoc Méd Argent. 2016;129(1):4-7.

5. Baeza OR, Foster ED. Vertical axillary thoracoto-my: a functional and cosmetically appealing inci-sion. Ann Thorac Surg. 1976;22(3):287-8.

6. Reed MF. Thoracic Incisions. En: Little AG, Mer-rill WH, eds. Complications in Cardiothoracic Surgery: Avoidance and Treatment. 2ª ed. Oxford: Blackwell Publishing; 2010. p. 22-52.

7. Parikh DH, Crabbe DC. Thoracic Incisions and Operative Approaches. En: Parikh DH, Crabbe DC, Auldist AW, Rothenberg SS, eds. Pediatric Thoracic Surgery. London: Springer; 2009. p. 81-92.

8. Wei B, Broussard B, Bryant A, Linsky P, Minnich DJ, Cerfolio RJ. Left upper lobectomy after coro-nary artery bypass grafting. J Thorac Cardiovasc Surg. 2015;150(3):531-5.

9. Kanzaki R, Inoue M, Minami M, Shintani Y, Funa-ki S, Kawamura T, et al. Outcomes of lung cancer surgery in patients with coronary artery disease: a decade of experience at a single institution. Surg Today. 2017;47(1):27-34.

10. Nomori H, Horio H, Suemasu K. Intrathoracic light-assisted anterior limited thoracotomy in lung cancer surgery. Surg Today. 1999;29(7):606-9.

11. Chen K, Li Y, Wang J. VATS versus Open Lobec-tomy for Stage I or II NSCLC. En: Ferguson MK, editor. Difficult Decisions in Surgery: An Evi-dence-Based Approach. 3ª ed. London: Springer-Verlag; 2014. p. 137-52.

12. Dubray C. How to Study Chronic Postsurgical Pain: The Example of Neuropathic Pain. En: Mick G, Guastella V, eds. Chronic Postsurgical Pain. New York: Springer; 2014. p. 3-12.

13. Hodari A, Hammoud Z. Perioperative Arrhythmia Prophylaxis for Major Lung Resection. En: Fergu-son MK, editor. Difficult Decisions in Surgery: An Evidence-Based Approach. 3ª ed. London: Spring-er-Verlag; 2014. p. 125-36.

14. Hu Y, Li Z, Chen J, Li F, Shen C, Song Y, et al. Re-sults of comparing transthoracic device closure and surgical repair with right infra-axillary thora-cotomy for perimembranous ventricular septal defects. Interact Cardiovasc Thorac Surg. 2015; 20(4):493-8.

15. Klinger RY. Fluid Management in Thoracic Sur-gery. En: Slinger P, editor. Principles and Practice of Anesthesia for Thoracic Surgery. 2ª ed. Cham: Springer Nature; 2019. p. 357-73.

16. Long H, Tan Q, Luo Q, Wang Z, Jiang G, Situ D, et al. Thoracoscopic surgery versus thoracotomy for lung cancer: short-term outcomes of a ran-domized trial. Ann Thorac Surg. 2018;105(2):386-92.

17. Miyazaki T, Sakai T, Yamasaki N, Tsuchiya T, Matsumoto K, Tagawa T, et al. Chest tube inser-tion is one important factor leading to intercostalnerve impairment in thoracic surgery. Gen Tho-rac Cardiovasc Surg. 2014;62(1):58-63.

18. 18.Miyata K, Fukaya M, Itatsu K, Abe T, Nagino M. Muscle sparing thoracotomy for esophageal can-cer: a comparison with posterolateral thoracotomy. Surg Today. 2016;46(7):807-14.

19. Komatsu T, Sowa T, Takahashi K, Fujinaga T. Paravertebral block as a promising analgesic mo-dality for managing post-thoracotomy pain. Ann Thorac Cardiovasc Surg. 2014;20(2):113-6.

20. Dumitrescu M, Bobocea A, Cordos I. Muscle spar-ing lateral thoracotomy: the standard incision for thoracic procedures. J Clin Invest Surg. 2017;2(1): 60-5.

21. Loscertales J, Congregado M, Moreno S, Jimenez-Merchan R. Posterolateral thoracotomy without muscle division: a new approach to complex procedures. Interact Cardiovasc Thorac Surg. 2012;14(1):2-4.

22. Zembower TR. Epidemiology of Infections in Cancer Patients. En: Stosor V, Zembower TR, eds. Infectious Complications in Cancer Patients. Hei-delberg: Springer; 2014. p. 43-89.

23. Sutton SH. Infections Associated with Solid Ma-lignancies. En: Stosor V, Zembower TR, eds. In-fectious Complications in Cancer Patients. Heidel-berg: Springer; 2014. p. 371-411.