Browsing by Author "Fernandéz Comparini, Tomás Alberto"
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- ItemTransphyseal anterior cruciate ligament reconstruction in skeletally immature patients: Quantification of physeal damage using a three-dimensional simulation model study(2025) Fernandéz Comparini, Tomás Alberto; Tuca, María; Fernandez Schlein, Francisco Andrés; Besa Vial, Pablo José; Lira Salas, María Jesus; Vidal, Catalina; Irarrázaval, SebastiánPurpose This study investigated how tunnel orientation and diameter affect physeal damage during transphyseal anatomic anterior cruciate ligament (ACL) reconstruction. The focus was on the distal femoral physis (DFP) and proximal tibial physis (PTP) using a three-dimensional (3D) model derived from magnetic resonance imaging (MRI) of skeletally immature patients. Methods MRI scans from patients aged 10–17 years were segmented to create 3D models of the distal femur, proximal tibia, and their respective physes. Simulations of full-length ACL tunnels were performed using 7-, 8-, 9-, and 10-mm drills, starting at the ACL footprint and covering all possible angulations. Physeal damage was quantified as a percentage of total growth plate volume and analyzed according to tunnel diameter, orientation, patient age, and sex. Statistical analyses were applied, with significance set at P < 0.05. Results Maximum DFP damage (14.6 % ± 3.9) occurred with horizontal tunnels and 10-mm drill diameter, with significantly greater damage in males. Less than 7 % DFP damage was observed when using vertical tunnels (>45° cephalic) and anteromedial (AM) portal direction. For the PTP, the highest damage occurred with oblique angles and 10-mm drills (5.5 % ± 2.4), with statistically significant variation by tunnel size and patient age, but not by sex. Conclusions Tunnel orientation and diameter significantly influence physeal damage during pediatric ACL reconstruction. Vertical tunnels and anteromedial drilling directions minimize growth plate injury, supporting their use in surgical planning to reduce the risk of long-term growth disturbances.
- ItemTransphyseal anterior cruciate ligament reconstruction in skeletally immature patients: Quantification of physeal damage using a three-dimensional simulation model study(2025) Fernandéz Comparini, Tomás Alberto; Tuca, María; Fernandez Schlein, Francisco Andrés; Besa Vial, Pablo José; Lira Salas, María Jesus; Vidal, Catalina; Irarrázaval, SebastiánPurpose This study investigated how tunnel orientation and diameter affect physeal damage during transphyseal anatomic anterior cruciate ligament (ACL) reconstruction. The focus was on the distal femoral physis (DFP) and proximal tibial physis (PTP) using a three-dimensional (3D) model derived from magnetic resonance imaging (MRI) of skeletally immature patients. Methods MRI scans from patients aged 10–17 years were segmented to create 3D models of the distal femur, proximal tibia, and their respective physes. Simulations of full-length ACL tunnels were performed using 7-, 8-, 9-, and 10-mm drills, starting at the ACL footprint and covering all possible angulations. Physeal damage was quantified as a percentage of total growth plate volume and analyzed according to tunnel diameter, orientation, patient age, and sex. Statistical analyses were applied, with significance set at P < 0.05. Results Maximum DFP damage (14.6 % ± 3.9) occurred with horizontal tunnels and 10-mm drill diameter, with significantly greater damage in males. Less than 7 % DFP damage was observed when using vertical tunnels (>45° cephalic) and anteromedial (AM) portal direction. For the PTP, the highest damage occurred with oblique angles and 10-mm drills (5.5 % ± 2.4), with statistically significant variation by tunnel size and patient age, but not by sex. Conclusions Tunnel orientation and diameter significantly influence physeal damage during pediatric ACL reconstruction. Vertical tunnels and anteromedial drilling directions minimize growth plate injury, supporting their use in surgical planning to reduce the risk of long-term growth disturbances.
- ItemTransphyseal anterior cruciate ligament reconstruction in skeletally immature patients: Quantification of physeal damage using a three-dimensional simulation model study(2025) Fernandéz Comparini, Tomás Alberto; Tuca, María; Fernandez Schlein, Francisco Andrés; Besa Vial, Pablo José; Lira Salas, María Jesus; Vidal, Catalina; Irarrázaval, SebastiánPurpose This study investigated how tunnel orientation and diameter affect physeal damage during transphyseal anatomic anterior cruciate ligament (ACL) reconstruction. The focus was on the distal femoral physis (DFP) and proximal tibial physis (PTP) using a three-dimensional (3D) model derived from magnetic resonance imaging (MRI) of skeletally immature patients. Methods MRI scans from patients aged 10–17 years were segmented to create 3D models of the distal femur, proximal tibia, and their respective physes. Simulations of full-length ACL tunnels were performed using 7-, 8-, 9-, and 10-mm drills, starting at the ACL footprint and covering all possible angulations. Physeal damage was quantified as a percentage of total growth plate volume and analyzed according to tunnel diameter, orientation, patient age, and sex. Statistical analyses were applied, with significance set at P < 0.05. Results Maximum DFP damage (14.6 % ± 3.9) occurred with horizontal tunnels and 10-mm drill diameter, with significantly greater damage in males. Less than 7 % DFP damage was observed when using vertical tunnels (>45° cephalic) and anteromedial (AM) portal direction. For the PTP, the highest damage occurred with oblique angles and 10-mm drills (5.5 % ± 2.4), with statistically significant variation by tunnel size and patient age, but not by sex. Conclusions Tunnel orientation and diameter significantly influence physeal damage during pediatric ACL reconstruction. Vertical tunnels and anteromedial drilling directions minimize growth plate injury, supporting their use in surgical planning to reduce the risk of long-term growth disturbances.