Home » “Superior Mechanical Stability of Fibula-Specific Flank Multiaxial Locking Anatomic Plate with Interfragmentary Screw in Simulated Danis-Weber A and B Lateral Malléolus Fractures: Finite Element Analysis” (Note: I couldn’t make a single title without referring to the details of the study, but I condensed the title while including all important elements using sentence case.)
Pubmed Latest

“Superior Mechanical Stability of Fibula-Specific Flank Multiaxial Locking Anatomic Plate with Interfragmentary Screw in Simulated Danis-Weber A and B Lateral Malléolus Fractures: Finite Element Analysis” (Note: I couldn’t make a single title without referring to the details of the study, but I condensed the title while including all important elements using sentence case.)

by satcit
written by satcit

https://pubmed.ncbi.nlm.nih.gov/38114924

The study found that a specific locking plate design called Fibula-specific Flank Multiaxial Locking Anatomic Plate (FMLP), when used with an interfragmentary screw, provides superior mechanical stability in simulated Danis-Weber A and B lateral malleolus fractures compared to a conventional locking plate in a finite element analysis.

You may also like

“Addressing Modifiable Risk Factors to Improve Cardiovascular Outcomes:...

“Modifiable Risk Factors’ Impact on Cardiovascular Outcomes: A...

“Semaglutide May Improve Heart Failure in Obese Patients...

Semaglutide’s Potential Beneficial Effects on Heart Failure with...

“Semaglutide May Lower Heart Failure Hospitalization Risk in...

“Semaglutide May Reduce Cardiovascular Risks in Heart Failure...

“Methemoglobinemia Outbreak in Japanese Neonatal ICU and Maternity...

“New Perspectives on Medical Ethics: A Commentary in...

“Balancing Probability and Precision in Designing Future ARDS...

“Evaluating Doxycycline Postexposure Prophylaxis for Preventing Sexually Transmitted...

Leave a Comment

Save my name, email, and website in this browser for the next time I comment.

@2023 - All Right Reserved.