The field of research revolves around the study of distal tibiofibular joint (DTFJ) injuries, particularly in patients with ankle fractures. The current state of knowledge indicates that achieving optimal fixation in these injuries is crucial, but it necessitates a comprehensive understanding of the local anatomical relationships. Recent studies have focused on radiologically describing the normal anatomy of the DTFJ and the anatomical relationship of the fibula within the ankle joint. However, there are ongoing debates and gaps in the field, particularly regarding the best methods for assessing and treating these injuries. Some studies have highlighted the importance of fibular length for ankle stability, while others have emphasized the need for accurate evaluation and identification of malreductions and malunions of the distal fibula. Despite these significant studies, there is a need for better investigation in this field to improve patient outcomes.
The main aim of this research topic is to further investigate the anatomy, assessment, and treatment of DTFJ injuries. This includes exploring specific questions such as the most effective methods for restoring fibular length in Maisonneuve fractures, the impact of fibular shortening on ankle stability, and the best techniques for achieving reduction goals in ankle fractures. The research will also test the hypothesis that certain surgical techniques, such as the biplane reduction technique or the use of locked intramedullary nails, can lead to improved patient outcomes.
The scope of this research topic is primarily focused on the study of DTFJ injuries and their treatment. To gather further insights in this field, we welcome articles addressing, but not limited to, the following themes:
- The normal anatomy of the DTFJ and the anatomical relationship of the fibula within the ankle joint.
- The impact of fibular length and rotation on ankle stability.
- The effectiveness of different surgical techniques for treating DTFJ injuries.
- The use of radiographic and CT measurements for assessing fibular length and rotation.
- The role of advanced imaging modalities such as MRI and weight-bearing CT in diagnosing and treating DTFJ injuries.
We encourage researchers and clinicians to contribute their findings to advance our understanding and improve outcomes in patients with DTFJ injuries.
We welcome submissions of original research, systematic reviews, reviews, case reports, study protocols, and more.
Keywords:
Ankle fractures, Fibular fixation, Fibular length, Maisonneuve fracture, Surgical techniques, Ankle stability, Intramedullary nails, Advanced imaging, Ankle Malunion, Biplane Reduction Technique, Distal Tibiofibular Joint (DTFJ), Functional Recovery, MRI, Podiatric Interventions, Rehab Protocols
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
The field of research revolves around the study of distal tibiofibular joint (DTFJ) injuries, particularly in patients with ankle fractures. The current state of knowledge indicates that achieving optimal fixation in these injuries is crucial, but it necessitates a comprehensive understanding of the local anatomical relationships. Recent studies have focused on radiologically describing the normal anatomy of the DTFJ and the anatomical relationship of the fibula within the ankle joint. However, there are ongoing debates and gaps in the field, particularly regarding the best methods for assessing and treating these injuries. Some studies have highlighted the importance of fibular length for ankle stability, while others have emphasized the need for accurate evaluation and identification of malreductions and malunions of the distal fibula. Despite these significant studies, there is a need for better investigation in this field to improve patient outcomes.
The main aim of this research topic is to further investigate the anatomy, assessment, and treatment of DTFJ injuries. This includes exploring specific questions such as the most effective methods for restoring fibular length in Maisonneuve fractures, the impact of fibular shortening on ankle stability, and the best techniques for achieving reduction goals in ankle fractures. The research will also test the hypothesis that certain surgical techniques, such as the biplane reduction technique or the use of locked intramedullary nails, can lead to improved patient outcomes.
The scope of this research topic is primarily focused on the study of DTFJ injuries and their treatment. To gather further insights in this field, we welcome articles addressing, but not limited to, the following themes:
- The normal anatomy of the DTFJ and the anatomical relationship of the fibula within the ankle joint.
- The impact of fibular length and rotation on ankle stability.
- The effectiveness of different surgical techniques for treating DTFJ injuries.
- The use of radiographic and CT measurements for assessing fibular length and rotation.
- The role of advanced imaging modalities such as MRI and weight-bearing CT in diagnosing and treating DTFJ injuries.
We encourage researchers and clinicians to contribute their findings to advance our understanding and improve outcomes in patients with DTFJ injuries.
We welcome submissions of original research, systematic reviews, reviews, case reports, study protocols, and more.
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Keywords:
Ankle fractures, Fibular fixation, Fibular length, Maisonneuve fracture, Surgical techniques, Ankle stability, Intramedullary nails, Advanced imaging, Ankle Malunion, Biplane Reduction Technique, Distal Tibiofibular Joint (DTFJ), Functional Recovery, MRI, Podiatric Interventions, Rehab Protocols
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
