Advances in the treatment of chest wall surgical diseases_Chinese Journal of Clinical Thoracic and Cardiovascular Surgery

Authors：

LI Jun ^1,2 ,  LIU Xiangyan ¹

1. Department of Thoracic Surgery, Shandong Provincial Hospital Affiliated to Shandong First Medical University, Jinan, 250021, P.R.China;
2. Department of Thoracic Surgery, Qinghai Red Cross Hospital, Xining, 810000, P.R.China;

Corresponding author：

LIU Xiangyan, Email: liuxy6638@126.com

Keywords：

Chest wall surgery; chest wall surgical diseases; treatment; review

DOI：

10.7507/1007-4848.202101017

Video：

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Chest wall surgery used to be a subspecialty of traditional thoracic surgery, which has an ancient history of research and clinical practice. It has gradually become an independent professional field in recent years. With the change of concept and the progress of interdisciplines, we have deepened our understanding of related diseases, and the treatment of chest wall surgical diseases has also acquired new characteristics. This article reviews the progress in the treatment of chest wall surgical diseases including chest wall trauma, chest wall deformity, chest wall tumor, chest wall infection and chest wall defect from the perspective of chest wall surgery.

Citation： LI Jun, LIU Xiangyan. Advances in the treatment of chest wall surgical diseases. Chinese Journal of Clinical Thoracic and Cardiovascular Surgery, 2022, 29(1): 121-126. doi: 10.7507/1007-4848.202101017 Copy

1.	Jiang R, Liao L. Wenlin Wang: A "weird doctor" in defiance of the Matthew effect. J Thorac Dis, 2019, 11(7): E90-E95.
2.	Bemelman M, Poeze M, Blokhuis TJ, et al. Historic overview of treatment techniques for rib fractures and flail chest. Eur J Trauma Emerg Surg, 2010, 36(5): 407-415.
3.	Gerakopoulos E, Walker L, Melling D, et al. Surgical management of multiple rib fractures reduces the hospital length of stay and the mortality rate in major trauma patients: A comparative study in a UK major trauma center. J Orthop Trauma, 2019, 33(1): 9-14.
4.	Fokin AA, Hus N, Wycech J, et al. Surgical stabilization of rib fractures: Indications, techniques, and pitfalls. JBJS Essent Surg Tech, 2020, 10(2): e0032.
5.	Bemelman M, van Baal M, Yuan JZ, et al. The role of minimally invasive plate osteosynthesis in rib fixation: A review. Korean J Thorac Cardiovasc Surg, 2016, 49(1): 1-8.
6.	Zhou X, Zhang D, Xie Z, et al. 3D printing and thoracoscopy assisted MIPO in treatment of long-range comminuted rib fractures, a case report. J Cardiothorac Surg, 2019, 14(1): 83.
7.	苏志勇, 吴骏, 乔贵宾, 等. 胸部创伤治疗学. 第1版. 北京: 科学技术出版社, 2018. 91-92.
8.	乔贵宾, 陈刚. 创伤性肋骨骨折的处理: 广东胸外科行业共识 (2017 年版). 中国胸心血管外科临床杂志, 2018, 25(5): 362-367.
9.	Anuar-Ramdhan IM, Azahari IM, Med Orth M. Minimally invasive plate osteosynthesis with conventional compression plate for diaphyseal tibia fracture. Malays Orthop J, 2014, 8(3): 33-36.
10.	Pieracci FM. Completely thoracoscopic surgical stabilization of rib fractures: Can it be done and is it worth it? J Thorac Dis, 2019, 11(Suppl 8): S1061-S1069.
11.	黄彬, 吕望, 夏平会, 等. 胸腔镜技术在胸外伤中的临床应用. 中华危重症医学杂志(电子版), 2020, 13(6): 456-458.
12.	Christian AB, Grigorian A, Nahmias J, et al. Comparison of surgical fixation and non-operative management in patients with traumatic sternum fracture. Eur J Trauma Emerg Surg, 2020: 1-6.
13.	王文林, 陈春梅, 李学军, 等. 胸廓畸形的整体分类法. 中国胸心血管外科临床杂志, 2018, 25(11): 981-985.
14.	Schwabegger AH. Pectus excavatum repair from a plastic surgeon's perspective. Ann Cardiothorac Surg, 2016, 5(5): 501-512.
15.	Nuss D, Obermeyer RJ, Kelly RE. Pectus excavatum from a pediatric surgeon's perspective. Ann Cardiothorac Surg, 2016, 5(5): 493-500.
16.	Pawlak K, Gąsiorowski Ł, Gabryel P, et al. Video-assisted-thoracoscopic surgery in left-to-right Nuss procedure for pectus excavatum for prevention of serious complications—Technical aspects based on 1006 patients. Wideochir Inne Tech Maloinwazyjne, 2018, 13(1): 95-101.
17.	Wang W. Modified Ravitch procedure or Nuss procedure? Ann Thorac Surg, 2018, 106(4): 1261-1262.
18.	Wang WL, Chen CM, Long WG, et al. Wang procedure: Novel minimally invasive procedure for pectus excavatum children with low age. Case Rep Imag Surg, 2018, 1(1): 1-2.
19.	王文林, 龙伟光, 陈春梅. Wang手术用于低龄漏斗胸治疗. 南方医科大学学报, 2019, 39(2): 249-252.
20.	Ravitch MM. Operative correction of pectus carinatum (pigeon breast). Ann Surg, 1960, 151(5): 705-714.
21.	Abramson H, D'Agostino J, Wuscovi S. A 5-year experience with a minimally invasive technique for pectus carinatum repair. J Pediatr Surg, 2009, 44(1): 118-123.
22.	Wang WL. Minimally invasive surgical technique for barrel chest. Surg Case Rep, 2018, 1(2): 1-2.
23.	Wang W, Chen C. Minimally invasive repair of pectus carinatum: Bar number and technique. Ann Thorac Surg, 2018, 106(4): 1265-1266.
24.	王文林, 龙伟光, 陈春梅, 等. 窒息性胸廓发育不良的外科治疗经验. 中国胸心血管外科临床杂志, 2021, 28(8): 984-989.
25.	Weyant MJ, Bains MS, Venkatraman E, et al. Results of chest wall resection and reconstruction with and without rigid prosthesis. Ann Thorac Surg, 2006, 81(1): 279-285.
26.	Ferraro P, Cugno S, Liberman M, et al. Principles of chest wall resection and reconstruction. Thorac Surg Clin, 2010, 20(4): 465-473.
27.	Rocco G. Chest wall resection and reconstruction according to the principles of biomimesis. Semin Thorac Cardiovasc Surg, 2011, 23(4): 307-313.
28.	Lanuti M. Commentary: Rigid chest wall reconstruction-innovation with functional improvements. Semin Thorac Cardiovasc Surg, Spring, 2020, 32(1): 174-175.
29.	Simal I, García-Casillas MA, Cerdá JA, et al. Three-dimensional custom-made titanium ribs for reconstruction of a large chest wall defect. European J Pediatr Surg Rep, 2016, 4(1): 26-30.
30.	Wu Y, Chen N, Xu Z, et al. Application of 3D printing technology to thoracic wall tumor resection and thoracic wall reconstruction. J Thorac Dis, 2018, 10(12): 6880-6890.
31.	Wang W, Liang Z, Yang S, et al. Three-dimensional (3D)-printed titanium sternum replacement: A case report. Thorac Cancer, 2020, 11(11): 3375-3378.
32.	Garg V, Kosmas C, Young PC, et al. Computed tomography-guided percutaneous biopsy for vertebral osteomyelitis: A department's experience. Neurosurg Focus, 2014, 37(2): E10.
33.	Filsoufi F, Castillo JG, Rahmanian PB, et al. Epidemiology of deep sternal wound infection in cardiac surgery. J Cardiothorac Vasc Anesth, 2009, 23(4): 488-494.
34.	Modrau IS, Ejlertsen T, Rasmussen BS. Emerging role of Candida in deep sternal wound infection. Ann Thorac Surg, 2009, 88(6): 1905-1909.
35.	Kubota H, Miyata H, Motomura N, et al. Deep sternal wound infection after cardiac surgery. J Cardiothorac Surg, 2013, 8: 132.
36.	刘冬, 王文璋, 蔡爱兵, 等. 心脏手术后深部胸骨切口感染修复与重建189例临床分析. 中华外科杂志, 2015, 53(3): 193-196.
37.	张绍明, 陶宏炜, 徐小平, 等. 腹直肌带蒂肌皮瓣治疗心脏术后胸骨骨髓炎的研究. 第四军医大学学报, 2005, 26(16): 1496-1498.

1. Jiang R, Liao L. Wenlin Wang: A "weird doctor" in defiance of the Matthew effect. J Thorac Dis, 2019, 11(7): E90-E95.
2. Bemelman M, Poeze M, Blokhuis TJ, et al. Historic overview of treatment techniques for rib fractures and flail chest. Eur J Trauma Emerg Surg, 2010, 36(5): 407-415.
3. Gerakopoulos E, Walker L, Melling D, et al. Surgical management of multiple rib fractures reduces the hospital length of stay and the mortality rate in major trauma patients: A comparative study in a UK major trauma center. J Orthop Trauma, 2019, 33(1): 9-14.
4. Fokin AA, Hus N, Wycech J, et al. Surgical stabilization of rib fractures: Indications, techniques, and pitfalls. JBJS Essent Surg Tech, 2020, 10(2): e0032.
5. Bemelman M, van Baal M, Yuan JZ, et al. The role of minimally invasive plate osteosynthesis in rib fixation: A review. Korean J Thorac Cardiovasc Surg, 2016, 49(1): 1-8.
6. Zhou X, Zhang D, Xie Z, et al. 3D printing and thoracoscopy assisted MIPO in treatment of long-range comminuted rib fractures, a case report. J Cardiothorac Surg, 2019, 14(1): 83.
7. 苏志勇, 吴骏, 乔贵宾, 等. 胸部创伤治疗学. 第1版. 北京: 科学技术出版社, 2018. 91-92.
8. 乔贵宾, 陈刚. 创伤性肋骨骨折的处理: 广东胸外科行业共识 (2017 年版). 中国胸心血管外科临床杂志, 2018, 25(5): 362-367.
9. Anuar-Ramdhan IM, Azahari IM, Med Orth M. Minimally invasive plate osteosynthesis with conventional compression plate for diaphyseal tibia fracture. Malays Orthop J, 2014, 8(3): 33-36.
10. Pieracci FM. Completely thoracoscopic surgical stabilization of rib fractures: Can it be done and is it worth it? J Thorac Dis, 2019, 11(Suppl 8): S1061-S1069.
11. 黄彬, 吕望, 夏平会, 等. 胸腔镜技术在胸外伤中的临床应用. 中华危重症医学杂志(电子版), 2020, 13(6): 456-458.
12. Christian AB, Grigorian A, Nahmias J, et al. Comparison of surgical fixation and non-operative management in patients with traumatic sternum fracture. Eur J Trauma Emerg Surg, 2020: 1-6.
13. 王文林, 陈春梅, 李学军, 等. 胸廓畸形的整体分类法. 中国胸心血管外科临床杂志, 2018, 25(11): 981-985.
14. Schwabegger AH. Pectus excavatum repair from a plastic surgeon's perspective. Ann Cardiothorac Surg, 2016, 5(5): 501-512.
15. Nuss D, Obermeyer RJ, Kelly RE. Pectus excavatum from a pediatric surgeon's perspective. Ann Cardiothorac Surg, 2016, 5(5): 493-500.
16. Pawlak K, Gąsiorowski Ł, Gabryel P, et al. Video-assisted-thoracoscopic surgery in left-to-right Nuss procedure for pectus excavatum for prevention of serious complications—Technical aspects based on 1006 patients. Wideochir Inne Tech Maloinwazyjne, 2018, 13(1): 95-101.
17. Wang W. Modified Ravitch procedure or Nuss procedure? Ann Thorac Surg, 2018, 106(4): 1261-1262.
18. Wang WL, Chen CM, Long WG, et al. Wang procedure: Novel minimally invasive procedure for pectus excavatum children with low age. Case Rep Imag Surg, 2018, 1(1): 1-2.
19. 王文林, 龙伟光, 陈春梅. Wang手术用于低龄漏斗胸治疗. 南方医科大学学报, 2019, 39(2): 249-252.
20. Ravitch MM. Operative correction of pectus carinatum (pigeon breast). Ann Surg, 1960, 151(5): 705-714.
21. Abramson H, D'Agostino J, Wuscovi S. A 5-year experience with a minimally invasive technique for pectus carinatum repair. J Pediatr Surg, 2009, 44(1): 118-123.
22. Wang WL. Minimally invasive surgical technique for barrel chest. Surg Case Rep, 2018, 1(2): 1-2.
23. Wang W, Chen C. Minimally invasive repair of pectus carinatum: Bar number and technique. Ann Thorac Surg, 2018, 106(4): 1265-1266.
24. 王文林, 龙伟光, 陈春梅, 等. 窒息性胸廓发育不良的外科治疗经验. 中国胸心血管外科临床杂志, 2021, 28(8): 984-989.
25. Weyant MJ, Bains MS, Venkatraman E, et al. Results of chest wall resection and reconstruction with and without rigid prosthesis. Ann Thorac Surg, 2006, 81(1): 279-285.
26. Ferraro P, Cugno S, Liberman M, et al. Principles of chest wall resection and reconstruction. Thorac Surg Clin, 2010, 20(4): 465-473.
27. Rocco G. Chest wall resection and reconstruction according to the principles of biomimesis. Semin Thorac Cardiovasc Surg, 2011, 23(4): 307-313.
28. Lanuti M. Commentary: Rigid chest wall reconstruction-innovation with functional improvements. Semin Thorac Cardiovasc Surg, Spring, 2020, 32(1): 174-175.
29. Simal I, García-Casillas MA, Cerdá JA, et al. Three-dimensional custom-made titanium ribs for reconstruction of a large chest wall defect. European J Pediatr Surg Rep, 2016, 4(1): 26-30.
30. Wu Y, Chen N, Xu Z, et al. Application of 3D printing technology to thoracic wall tumor resection and thoracic wall reconstruction. J Thorac Dis, 2018, 10(12): 6880-6890.
31. Wang W, Liang Z, Yang S, et al. Three-dimensional (3D)-printed titanium sternum replacement: A case report. Thorac Cancer, 2020, 11(11): 3375-3378.
32. Garg V, Kosmas C, Young PC, et al. Computed tomography-guided percutaneous biopsy for vertebral osteomyelitis: A department's experience. Neurosurg Focus, 2014, 37(2): E10.
33. Filsoufi F, Castillo JG, Rahmanian PB, et al. Epidemiology of deep sternal wound infection in cardiac surgery. J Cardiothorac Vasc Anesth, 2009, 23(4): 488-494.
34. Modrau IS, Ejlertsen T, Rasmussen BS. Emerging role of Candida in deep sternal wound infection. Ann Thorac Surg, 2009, 88(6): 1905-1909.
35. Kubota H, Miyata H, Motomura N, et al. Deep sternal wound infection after cardiac surgery. J Cardiothorac Surg, 2013, 8: 132.
36. 刘冬, 王文璋, 蔡爱兵, 等. 心脏手术后深部胸骨切口感染修复与重建189例临床分析. 中华外科杂志, 2015, 53(3): 193-196.
37. 张绍明, 陶宏炜, 徐小平, 等. 腹直肌带蒂肌皮瓣治疗心脏术后胸骨骨髓炎的研究. 第四军医大学学报, 2005, 26(16): 1496-1498.

Chinese Journal of Clinical Thoracic and Cardiovascular Surgery

Advances in the treatment of chest wall surgical diseases

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