• Title/Summary/Keyword: Surgical debridement

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Clinical Analysis of Infective Endocarditis (감염성 심내막염의 임상적 고찰)

  • Kim, Hyuck;Kim, Young-Hak;Chung, Won-Sang;Shin, Kyung-Wook;Kim, Ji-Hoon
    • Journal of Chest Surgery
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    • v.43 no.6
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    • pp.619-626
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    • 2010
  • Background: The indications and the optimal time of surgery of infective endocarditis are controversial. We report the surgical results of our hospital during the last 10 years with literature review. Material and Method: Between January 2000 and December 2009, we enrolled 23 infective endocarditis patients who underwent surgery, and analyzed retrospectively. In the preoperative blood culture, 8 cases (34.8%) were positive. The average preoperative antibiotics treatment period was $20.78{\pm}16.00$ days. There were 12 (52.2%) urgent operations. The average follow up period was $49.26{\pm}33.21$ months. Result: 20 mechanical valve replacements were performed, 9 in aortic position, 8 in mitral position and 3 in the both positions. The other procedures were one mitral valvuloplasty, one infected myxoma extirpation, and one infected pacemaker lead removal with debridement. The average period of postoperative intravenous antibiotic treatment was $24.39{\pm}15.98$ days. There were 5 complications, including 2 cases of postoperative bleeding, one postcardiotomy syndrome, one cerebral ischemia, and a low cardiac output syndrome. There were statistically significant postoperative improvement in NYHA class, left ventricle end diastolic/end systolic volume, and left atrium size (p-value < 0.05). Conclusion: We could obtain the satisfactory results without any moftalities by using sufficient preoperative antibiotics in hemodynamically stable patients, and by prompt surgery in unstable patients.

Treament of Sternal Dehiscence or Infection Using Muscle Flaps (근육편을 이용한 흉골열개 및 감염의 치료)

  • 최종범;이삼윤;박권재
    • Journal of Chest Surgery
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    • v.34 no.11
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    • pp.848-853
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    • 2001
  • Background: Sternal infection or dehiscence after cardiac surgery through median sternotomy is rare. If suitable treatment is not performed for the complication, however, the mortality is high. For 12 patients with sternal dehiscence or infection, we performed wide excision of the infected and necrotic tissue and covered with muscle flap(s) to obliterate the mediastinal dead space. Material and method: Sternal infection or dehiscence occurred in 13 of patients who underwent cardiac surgery One patient, who died of cerebral infarction before the sternal complication was treated, was excluded in this study. The sternal wound complication occurred in 6 of patients with valve replacement and 6 of patients with coronary bypass surgery, respectively. Since 1991, 9 patients underwent definite surgical debridement and muscle transposition as soon as fever was controlled with closed irrigation and drainage. The necrotic tissue and bone was widely excised and the sternal dead space was eradicated with the single flap or the combined flaps of right pectoralis flap(turnover flap), left pectoralis flap(turnover flap or rotation-advancement flap), and right rectus muscle flap. Result : There was no mortality in 12 patients with coverage of muscle flap(s) for sternal infection or dehiscence The mean interval between the diagnosis of sternal complication and the myoplasty was 6.6$\pm$3.9 days. In 4 patients, one pectoralis muscle flap was used, and in 8 patients both pectoralis muscle flaps were used. For each 1 patient and 2 patients in each group, right rectus muscle flap was added. For the last 3 patients, a single pectoralis flap was used to eradicate the mediastinal dead space and the longer placement of the mediastinal drain catheter was needed. One patient, who had suffered from necrosis of left pectoralis flap(rotation-advancement flap) with subsequent chest wall abscess after coverage of both pectoralis flaps, was managed with reoperation using right rectum flap. Conclusion : Sternal dehiscence or infection after cardiac operation can be readily managed with wide excision of necrotic infected tissue(including bone) and muscle flap coverage after short-term irrigation of sternal wound. The sternal(mediastinal) dead space may be completely eradicated with right pectoralis major muscle flap alone.

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Transection of the posterior horn of the medial meniscus at the posterior tibial attachment - Clinical features and A new repair technique (Pullout suture) - (내측 반월상 연골 후각의 후방 경골 부착부위의 절단 파열 - 임상 양상 및 새로운 봉합 수기(pullout suture) -)

  • Ahn, Jin-Hwan;Ha, Chul-Won;Kim, Ho;Kim, Sung-Min
    • Journal of the Korean Arthroscopy Society
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    • v.3 no.2
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    • pp.109-114
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    • 1999
  • Purpose : The importance of meniscal repair is well recognized. But transeciton of the posterior horn of the medial meniscus at the posterior tibial attachment is rarely documented and known irreparable. We experienced 9 cases of transection, and present clinical features and pull out suture technique. Methods and Materials : There were 9cases of transection of the posterior horn of medial meniscus from September 1998 to July 1999 in our hospital. Age was 59.3 years in average and ranged from 38 to 70years. Clinical features and MRI made diagnosis in all cases. We confirmed the diagnosis with arthroscopy and repaired the transection with pullout suture technique. Clinical features : Transection of the posterior horn of the medial meniscus at the posterior tibia attachment occurred frequently in middle aged people. They complained posterior knee pain, but they have no history of definitive trauma. Characteristically they had difficulty in full flexion of the knee and in having a squatting position. MRI is very important in diagnosis of transection, especially in coronal view, there is separation of the posterior horn of the meniscus from the posterior tibial attachment. Surgical technique : Pullout suture technique includes debridement of fibrous or scar tissue, exposure of the subchondral bone of the posterior tibial attachment site, suture the transected end of the meniscus with PDS suture, bone tunnel formation from the anteromedial aspect of the proximal tibia, insertion of wire loop through the tibia tunnel, pull the PDS suture through the tibia tunnel out of the joint and stabilize the PDS with post-tie technique to the proximal tibia. Conclusion : Transection of the posterior horn of the medial meniscus at the posterior tibial attachment is not common clinically and rarely documented. Clinical features and MRI are very important in diagnosis of this type tear. Arthroscopic pullout sutures is useful for treatment of this type tear of the meniscus.

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Reverse Superficial Sural Artery Flap for the Reconstruction of Soft Tissue Defect Accompanied by Fracture of the Lower Extremity (하지 골절과 동반된 연부조직 결손 재건을 위한 역행성 비복동맥 피판술)

  • Han, Soo-Hong;Hong, In-Tae;Choi, SeongJu;Kim, Minwook
    • Journal of the Korean Orthopaedic Association
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    • v.55 no.3
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    • pp.253-260
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    • 2020
  • Purpose: Soft tissue defects of the distal lower extremity are commonly accompanied by a fracture of the lower extremities. Theses defects are caused by the injury itself or by complications associated with surgical treatment of the fracture, which poses challenging problem. The reverse superficial sural artery flap (RSSAF) is a popular option for these difficult wounds. This paper reviews these cases and reports the clinical results. Materials and Methods: Between August 2003 and April 2018, patients who were treated with RSSAF for soft tissue defects of the lower third of the leg and ankle related to a fracture were reviewed. A total of 16 patients were involved and the mean follow-up period was 18 months. Eight cases (50.0%) of the defects were due to an open fracture, whereas the other eight cases (50.0%) were postoperative complication after closed fracture. The largest flap measured 10×15 cm2 and the mean size of the donor sites was 51.9 cm2. The flap survival and postoperative complications were evaluated. Results: All flaps survived without complete necrosis or failure. One case with partial necrosis of the flap was encountered, but the wound healed after debridement and repair. One case had a hematoma with a pseudoaneurysmal rupture of the distal tibial artery. On the other hand, the flap was intact and the wound healed after arterial ligation and flap advancement. A debulking operation was performed on three cases for cosmetic reasons and implant removal through the flap was performed in three cases. No flap necrosis was encountered after these additional operations. Conclusion: RSSAF is a relatively simple and safe procedure for reconstructing soft tissue defects following a fracture of the lower extremity that does not require microsurgical anastomosis. This can be a useful treatment option for soft tissue defects on the distal leg, ankle, and foot.