1.The Role of Minimally Invasive Plate Osteosynthesis in Rib Fixation: A Review.
Michael BEMELMAN ; Mark VAN BAAL ; Jian Zhang YUAN ; Luke LEENEN
The Korean Journal of Thoracic and Cardiovascular Surgery 2016;49(1):1-8
More than a century ago, the first scientific report was published about fracture fixation with plates. During the 1950's, open reduction and plate fixation for fractures were standardized by the founders of Arbeitsgemeinschaft fur osteosynthesefragen/Association for the Study of Internal Fixation. Since the introduction of plate fixation for fractures, several plates and screws have been developed, all with their own characteristics. To accomplice more fracture stability, it was thought the bigger the plate, the better. The counter side was a compromised blood supply of the bone, often resulting in bone necrosis and ultimately delayed or non-union. With the search and development of new materials and techniques for fracture fixation, less invasive procedures have become increasingly popular. This resulted in the minimally invasive plate osteosynthesis (MIPO) technique for fracture fixation. With the MIPO technique, procedures could be performed with smaller incisions and thus with less soft tissue damage and a better preserved blood supply. The last 5 years rib fixation has become increasingly popular, rising evidence has become available suggesting that surgical rib fixation improves outcome of patients with a flail chest or isolated rib fractures. Many surgical approaches for rib fixation have been described in the old literature, however, most of these techniques are obscure nowadays. Currently mostly large incisions with considerable surgical insult are used to stabilize rib fractures. We think that MIPO deserves a place in the surgical treatment of rib fractures. We present the aspects of diagnosis, preoperative planning and operative techniques in regard to MIPO rib fixation.
Diagnosis
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Flail Chest
;
Fracture Fixation
;
Humans
;
Necrosis
;
Rib Fractures
;
Ribs*
;
Surgical Procedures, Minimally Invasive
2.Rib Fractures: To Fix or Not to Fix? An Evidence-Based Algorithm.
Michael BEMELMAN ; M. W. DE KRUIJF ; Mark VAN BAAL ; Luke LEENEN
The Korean Journal of Thoracic and Cardiovascular Surgery 2017;50(4):229-234
Rib fractures are a common injury resulting from blunt chest trauma. The most important complications associated with rib fractures include death, pneumonia, and the need for mechanical ventilation. The development of new osteosynthesis materials has stimulated increased interest in the surgical treatment of rib fractures. Surgical stabilisation, however, is not needed for every patient with rib fractures or for every patient with flail chest. This paper presents an easy-to-use evidence-based algorithm, developed by the authors, for the treatment of patients with flail chest and isolated rib fractures.
Flail Chest
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Humans
;
Mortality
;
Pneumonia
;
Respiration, Artificial
;
Rib Fractures*
;
Ribs*
;
Thorax
3.Reconstruction of Chest Wall Defects Using a Technique Involving Mesh, Titanium Plates, and a Pedunculated Muscle Flap.
Dave KOOLE ; Michael BEMELMAN ; Joost SCHIJEN ; Marnix DE FIJTER ; Joël VAN DER NIET
The Korean Journal of Thoracic and Cardiovascular Surgery 2018;51(5):308-311
We herein present a new surgical reconstruction technique for large chest wall defects after resection of advanced chest wall tumors.
Thoracic Wall*
;
Thorax*
;
Titanium*