Chunquan Zhu scite author profile

Chunquan Zhu

4Publications

7Citation Statements Received

137Citation Statements Given

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132

Affiliations

Zhongnan Hospital of Wuhan University, Wuhan Puai Hospital, Wuhan University

Publications

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Management of Infected Bone Defects of the Lower Extremities by Three-Stage Induced Membrane Technique

Zhang

Zhu

et al. 2020

Med Sci Monit

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Departmental sources Background: Infected bone defects are therapeutic challenges. Although the induced membrane technique has been used for this problem, there is a 3% to 20.7% failure to eradicate infection, and there have been few reports about its use in tuberculous infection. We present our three-stage induced membrane technique (TSIMT) for treating infected bone defects of the lower extremity. Material/Methods: Forty-one adult patients with infected bone defects of the lower extremities treated by TSIMT were included in a retrospective case-series study between January 2013 and June 2018. The clinical, imaging and laboratory assessment outcomes were analyzed. Results: In the first stage, 3 patients had ankle tuberculous bone defects and 17 patients underwent 2-4 debridements. In the second stage, the average bone defect was 6.0 cm; 1 patient needed an anterolateral thigh flap to cover the wound. In the third stage, 10 patients underwent autograft mixed allograft, and 18 cases used internal fixation. The mean follow-up period was 23.3 months. All patients achieved bone union and clinical eradication of infection. Changes in Lower Extremity Functional Scale (LEFS) scores after 1 year of TSIMT and bone union time are associated with advanced age, longer duration of infected bone defects, active smoking, and external fixation (p<0.05), but are not dependent on bone defect size, debridement times, type of bone graft, or spacer-placing time (p>0.05). Conclusions: TSIMT is effective in treating infected bone defects of the lower extremities. Advanced age, longer duration of infected bone defects, active smoking, and external fixation adversely affect bone union and recovery of infected extremities in a limited time span.

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Limb-Salvage Outcomes of Arterial Repair Beyond Time Limit at Different Lower-Extremity Injury Sites

Deng

Zhu

et al. 2020

Med Sci Monit

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Background The purpose of this study was to analyze the outcomes of revascularization exceeding 12 h after arterial injury at different sites of the lower extremity. Materal/Methods From January 2009 to April 2017, 58 patients with 58 lower-limb arterial injuries who underwent revascularization over 12 h after trauma were included in our study. Outcomes measured, including mortality, amputation, complications, and other parameters (gait, length discrepancy, the range of movement of the knee and ankle joint, and muscle wasting) were analyzed. Results External iliac artery injury (EIAI) or femoral artery injury (FAI) was affected in 4 patients, superficial femoral artery injury (SFAI) in 18, and popliteal artery injury (PAI) (including proximal gastrocnemius muscle vascular (PGMV) and proximal gastrocnemius muscle vascular [PGMV]) in 36. The median time of arterial injury was 72 h (interquartile range, 59.5). No mortality was found. Amputations were performed in 16 patients due to non-viable limbs, progressing infection, or muscle necrosis. All patients were followed up (median, 52 months; interquartile range, 5.5). Of the 42 limb-salvage patients, most had a limp, muscle wasting, or ankle and knee dysfunctions, and 26 patients with knee or ankle dysfunction underwent secondary surgery. Conclusions Although limited recanalization of blood vessels may lead to limb complications or amputations over time, the high success rate of limb salvage still merits the surgeon’s best efforts.

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Modified Masquelet Technique Assisting 3D Printed Elbow Prosthesis for Open Elbow Fracture with Severe Bone Defect: A Case Report and Technique Note

Zhu

Zhang

Zhao

et al. 2022

Orthopaedic Surgery

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Background: Internal fixation for severe open articular bone defects is sometimes ineffective or dangerous. In the emergency stage, radical debridement and infection prevention are demanded to provide a good tissue base and the space-occupying effect to provide enough necessary space to avoid soft-tissue contraction for the reconstruction. In addition, the 3D printing technology makes individual limb reconstruction a reality.Case Presentation: Here, we present a 31-year-old patient with an open fracture and severe bone defect of his left elbow caused by traffic accident, classified as Gustilo-Anderson IIIB. We adopted aggressive debridement and insertion of polymethyl methacrylate (PMMA) to prevent the infection and temporarily construct the bone defect in the emergency stage. Secondly, the total elbow arthroplasty was performed using a unique three-dimensional (3D) printed prosthesis to reconstruct the elbow joint. During the follow-up, the elbow movement function was satisfactory. Conclusions:The modified Masquelet technique assisting 3D printing of personalized elbow joint makes the satisfactory functional reconstruction for open high-energy injuries come true. It could be promoted for the similar surgery of other open joints fractures with severe bone defects.

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Retracted: Management of Infected Bone Defects of the Lower Extremities by Three-Stage Induced Membrane Technique

Zhang

Zhu

et al. 2021

Med Sci Monit

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Chunquan Zhu

Management of Infected Bone Defects of the Lower Extremities by Three-Stage Induced Membrane Technique

Limb-Salvage Outcomes of Arterial Repair Beyond Time Limit at Different Lower-Extremity Injury Sites

Modified Masquelet Technique Assisting 3D Printed Elbow Prosthesis for Open Elbow Fracture with Severe Bone Defect: A Case Report and Technique Note

Retracted: Management of Infected Bone Defects of the Lower Extremities by Three-Stage Induced Membrane Technique

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