Clinical implementation of a multidirectional, angular stable osteosynthesis system in maxillofacial traumatology.

Ali Gbara; Max Heiland; Rainer Schmelzle; Felix Blake

Clinical implementation of a multidirectional, angular stable osteosynthesis system in maxillofacial traumatology.

Standard

Clinical implementation of a multidirectional, angular stable osteosynthesis system in maxillofacial traumatology. / Gbara, Ali; Heiland, Max; Schmelzle, Rainer; Blake, Felix.

in: J CRANIO MAXILL SURG, Jahrgang 36, Nr. 3, 3, 2008, S. 157-160.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Gbara, A, Heiland, M, Schmelzle, R & Blake, F 2008, 'Clinical implementation of a multidirectional, angular stable osteosynthesis system in maxillofacial traumatology.', J CRANIO MAXILL SURG, Jg. 36, Nr. 3, 3, S. 157-160. <http://www.ncbi.nlm.nih.gov/pubmed/18321723?dopt=Citation>

APA

Gbara, A., Heiland, M., Schmelzle, R., & Blake, F. (2008). Clinical implementation of a multidirectional, angular stable osteosynthesis system in maxillofacial traumatology. J CRANIO MAXILL SURG, 36(3), 157-160. [3]. http://www.ncbi.nlm.nih.gov/pubmed/18321723?dopt=Citation

Vancouver

Gbara A, Heiland M, Schmelzle R, Blake F. Clinical implementation of a multidirectional, angular stable osteosynthesis system in maxillofacial traumatology. J CRANIO MAXILL SURG. 2008;36(3):157-160. 3.

Bibtex

@article{060b7faf3c2d4bf0a4d62a019a3b4406,

title = "Clinical implementation of a multidirectional, angular stable osteosynthesis system in maxillofacial traumatology.",

abstract = "AIM: To investigate whether a multidirectional, angular stable osteosynthesis system is suitable for the treatment of mandibular fractures and to compare it with well established available systems. MATERIAL AND METHODS: Following preliminary testing in an animal model, the multidirectional angular stable system TiFix 2.3 obtained from Litos (Hamburg, Germany) was utilised for internal fixation of 39 mandibular fractures. These involved four symphyseal fractures, 17 parasymphyseal, 16 of the angle of the mandible and two comminuted fractures. The surgical and postoperative course was closely scrutinised. Radiographs were taken after 6 months and all plates removed under local anaesthesia. Photographs were taken intraoperatively and the plates and surrounding soft tissues were salvaged for histological analysis. Additionally, these operations were compared with treatment of equivalent fractures which were treated with conventional, non-angular stable systems. The relative costs have also been evaluated. RESULTS: In 33 of the 39 fractures one TiFix plate sufficed for osteosynthesis. The plate most often used was a 2-hole plate which was applied in 25 (55.5%) fractures, followed by the 4-hole plates used in 16 (35.5%) fractures. In two comminuted fractures, four 6-hole plates were used (9%). In 17 patients the operation lasted less than 30 min, in 20 patients less than 60 min, in two less than 120 min. In all cases, the operations were shorter, and due to the plates' dimensions fewer screws had to be used, thus reducing the costs. DISCUSSION: This angular stable system enabled reduction of the amount of the implant material. Also reduced were the operation time and the cost of the procedure. Furthermore, in the future it will allow smaller access incisions and better preservation of the soft tissue integrity.",

author = "Ali Gbara and Max Heiland and Rainer Schmelzle and Felix Blake",

year = "2008",

language = "Deutsch",

volume = "36",

pages = "157--160",

journal = "J CRANIO MAXILL SURG",

issn = "1010-5182",

publisher = "Elsevier",

number = "3",

}

RIS

TY - JOUR

T1 - Clinical implementation of a multidirectional, angular stable osteosynthesis system in maxillofacial traumatology.

AU - Gbara, Ali

AU - Heiland, Max

AU - Schmelzle, Rainer

AU - Blake, Felix

PY - 2008

Y1 - 2008

N2 - AIM: To investigate whether a multidirectional, angular stable osteosynthesis system is suitable for the treatment of mandibular fractures and to compare it with well established available systems. MATERIAL AND METHODS: Following preliminary testing in an animal model, the multidirectional angular stable system TiFix 2.3 obtained from Litos (Hamburg, Germany) was utilised for internal fixation of 39 mandibular fractures. These involved four symphyseal fractures, 17 parasymphyseal, 16 of the angle of the mandible and two comminuted fractures. The surgical and postoperative course was closely scrutinised. Radiographs were taken after 6 months and all plates removed under local anaesthesia. Photographs were taken intraoperatively and the plates and surrounding soft tissues were salvaged for histological analysis. Additionally, these operations were compared with treatment of equivalent fractures which were treated with conventional, non-angular stable systems. The relative costs have also been evaluated. RESULTS: In 33 of the 39 fractures one TiFix plate sufficed for osteosynthesis. The plate most often used was a 2-hole plate which was applied in 25 (55.5%) fractures, followed by the 4-hole plates used in 16 (35.5%) fractures. In two comminuted fractures, four 6-hole plates were used (9%). In 17 patients the operation lasted less than 30 min, in 20 patients less than 60 min, in two less than 120 min. In all cases, the operations were shorter, and due to the plates' dimensions fewer screws had to be used, thus reducing the costs. DISCUSSION: This angular stable system enabled reduction of the amount of the implant material. Also reduced were the operation time and the cost of the procedure. Furthermore, in the future it will allow smaller access incisions and better preservation of the soft tissue integrity.

AB - AIM: To investigate whether a multidirectional, angular stable osteosynthesis system is suitable for the treatment of mandibular fractures and to compare it with well established available systems. MATERIAL AND METHODS: Following preliminary testing in an animal model, the multidirectional angular stable system TiFix 2.3 obtained from Litos (Hamburg, Germany) was utilised for internal fixation of 39 mandibular fractures. These involved four symphyseal fractures, 17 parasymphyseal, 16 of the angle of the mandible and two comminuted fractures. The surgical and postoperative course was closely scrutinised. Radiographs were taken after 6 months and all plates removed under local anaesthesia. Photographs were taken intraoperatively and the plates and surrounding soft tissues were salvaged for histological analysis. Additionally, these operations were compared with treatment of equivalent fractures which were treated with conventional, non-angular stable systems. The relative costs have also been evaluated. RESULTS: In 33 of the 39 fractures one TiFix plate sufficed for osteosynthesis. The plate most often used was a 2-hole plate which was applied in 25 (55.5%) fractures, followed by the 4-hole plates used in 16 (35.5%) fractures. In two comminuted fractures, four 6-hole plates were used (9%). In 17 patients the operation lasted less than 30 min, in 20 patients less than 60 min, in two less than 120 min. In all cases, the operations were shorter, and due to the plates' dimensions fewer screws had to be used, thus reducing the costs. DISCUSSION: This angular stable system enabled reduction of the amount of the implant material. Also reduced were the operation time and the cost of the procedure. Furthermore, in the future it will allow smaller access incisions and better preservation of the soft tissue integrity.

M3 - SCORING: Zeitschriftenaufsatz

VL - 36

SP - 157

EP - 160

JO - J CRANIO MAXILL SURG

JF - J CRANIO MAXILL SURG

SN - 1010-5182

IS - 3

M1 - 3

ER -