Your search keyword '"Giordano, Vincenzo"' showing total 10 results

1. Novel implant design for comminuted posterior wall acetabular fractures.

Author

Domínguez-Barrios, Carlos, Altamirano-Cruz, Marco Antonio, Velarde-Bouche, Jorge Enrique, and Giordano, Vincenzo

Subjects

ACETABULUM surgery, COMMINUTED fractures, BIOMECHANICS, WEIGHT-bearing (Orthopedics), ACETABULUM (Anatomy), COMPUTER-aided design, THREE-dimensional imaging, FRACTURE fixation, ORTHOPEDIC implants, BONE screws, FINITE element method, PLASTIC surgery, COMPARATIVE studies, PROSTHESIS design & construction

Abstract

Background: In recent years, the medical community has witnessed a notable increase in high-energy traumatic injuries, leading to a surge in complex fracture patterns that challenge existing treatment methodologies. Among these, the posterior approach to acetabular fractures stands out for offering direct visualization of the retro-acetabular surface, with current fixation methods relying on 3.5 mm low-profile reconstruction plates and various other implants. Despite the effectiveness of these methods, there is a burgeoning demand for a singular, adaptable implant that not only streamlines the surgical process but also optimizes patient outcomes. Methods: In an innovative approach to address this need, three-dimensional (3D) models of the posterior acetabular wall were meticulously crafted using AutoCAD® software. The chosen material for the implant was 316L surgical steel for its durability and strength. The design of the implant featured a low-profile mesh structure, which was instrumental in facilitating osteosynthesis. This design allowed for the placement of screws of varying lengths in multiple directions, ensuring the initial reconstruction of the joint in an anatomical position without hindering the placement of the definitive implant. The primary objective was to secure the fixation and stabilization of the fracture by specifically targeting the smaller bone fragments. A comparative analysis was then conducted between this novel plate and a conventional 316L surgical steel, seven-hole, 3.5 mm reconstruction plate through finite element analysis. Results: The comparative analysis unveiled that both plates demonstrated comparable deformation capacities, with no significant differences in load-bearing capabilities observed. This finding suggests that the innovative plate can match the performance of traditional plates used in such surgeries. Conclusions: The finite element analysis revealed that the newly developed anatomical plate for posterior wall acetabular fractures meets the necessary physical and mechanical criteria for permanent implementation in patients with these fractures. This breakthrough represents a promising advancement that could simplify surgical procedures and potentially elevate patient outcomes. Level of Evidence II: This study is classified as a Level II, diagnostic study. [ABSTRACT FROM AUTHOR]

Published

2024

2. Does the type of medial plate fixation matter for supplemental fixation of distal femur fractures manage with a lateral pre-contoured locked plate? A Biomechanical study.

Author

Pereira, Sebastián, Bidolegui, Fernando, Garabano, Germán, Pesciallo, Cesar Angel, Giordano, Vincenzo, Pires, Robinson Estevez, Mariolani, José Ricardo, and Belangero, William Dias

Subjects

STATISTICS, KRUSKAL-Wallis Test, ORTHOPEDIC implants, TREATMENT effectiveness, RANDOMIZED controlled trials, FRACTURE fixation, DESCRIPTIVE statistics, RESEARCH funding, BIOMECHANICS, DATA analysis software, DATA analysis, FEMORAL fractures

Abstract

Introduction: Fixation of distal femur fractures with a lateral pre-contoured locking plate provides stable fixation and is the standard treatment in most cases, allowing early range of motion with a high rate of union. However, in situations, the stability achieved with the lateral plate alone may be insufficient, predisposing to fixation failure. The objective of the study was to compare, in synthetic bone models, the biomechanical behaviour of the fixation with a distal femur lateral pre-contoured locking plate solely and associated with a 3.5 mm proximal humeral locking plate applied upside down or a 4.5 mm helical locking compression plate on the medial side. Material and methods: A total of 15 solid synthetic left femur samples were used. A metaphysical defect at the level of the medial cortex was simulated. The samples were randomly distributed into three groups equally. All groups received a 4.5/5.0 mm single lateral 9-hole distal femur lateral pre-contoured locking plate. Group 1 had no supplementary plate. Group 2 received a supplementary 6-hole 3.5 mm proximal humeral locking plate and Group 3 received a supplementary 4.5/5.0 mm helical 14-hole narrow locking compression plate. Results: Both supplementary plate types used in groups 2 and 3 contributed to increase the apparent stiffness of the construct, but pairwise comparison showed statically significant difference only between group 1 and 3. No significant difference was observed between groups 2 and 3. Conclusion: Both supplementary plates might be considered for improving the fixation in distal femur fracture in selected cases. [ABSTRACT FROM AUTHOR]

Published

2024

3. Can CT-based assessment of lateral malleolus anatomy indicate when and how to perform an intramedullary fixation in distal fibula fractures? An analysis of 150 ankles.

Author

Giordano, Vincenzo, Azevedo, Pedro Henrique, Peres, Caio, Perucci, Marcelo, Rodrigues, Matheus, Meireles, Rafael, Pires, Robinson Esteves, Godoy-Santos, Alexandre, and Giannoudis, Peter V.

Subjects

*ORTHOPEDIC implants, *ANKLE fractures, *ANKLE, *FRACTURE fixation, *DESCRIPTIVE statistics, *COMPUTED tomography, *DATA analysis software, FIBULA injuries

Abstract

Purpose: The primary aim was to analyse the lateral malleolus morphology with a focus on the shape of the distal fibula for IM fixation of the fibula in infra- and transsyndesmotic fracture patterns. The secondary aim was to propose a treatment algorithm according to the lateral malleolar anatomy. Methods: 77 healthy, skeletally mature volunteers underwent CT scanning of the ankle. The fibula medullary canal and its cortical thickness were quantitatively analysed at 4 different levels measured from the fibular tip (1.5 cm, 3.0 cm, 4.5 cm, and 6.0 cm). A geometric classification was proposed, and a decision algorithm was developed. Statistical significance was set at a p-value < 0.05. Results: The smallest diameter of the medullary canal of the fibula was at 6.0 cm from the tip of the fibula, in 98.2% of the ankles. The distal fibula can be classified into triangular and rectangular type, according to the cortical thickness index (p < 0.0001). In 16.7% ankles, the internal diameter of the fibula at 6.0 cm was equal or narrower than 3.5 mm (p < 0.05). Conclusion: The shape of the distal fibula as evaluated by CT-guided analysis allows for IM osteosynthesis of the lateral malleolus in 83% of individuals. In our study, the smallest diameter of the medullary canal of the fibula was located 6.0 cm from the tip of the lateral malleolus. Coronal CT evaluation is advantageous in indicating which type of IM implant should be used safely for infra- and transsyndesmotic fracture patterns, potentially reducing intraoperative risks. [ABSTRACT FROM AUTHOR]

Published

2023

4. Nailing the fibula: alternative or standard treatment for lateral malleolar fracture fixation? A broken paradigm.

Author

Giordano, Vincenzo, Boni, Guilherme, Godoy-Santos, Alexandre Leme, Pires, Robinson Esteves, Fukuyama, Junji Miller, Koch, Hilton A., and Giannoudis, Peter V.

Subjects

RESEARCH, ORTHOPEDIC implants, ACQUISITION of data methodology, ANKLE fractures, FUNCTIONAL status, ENDOSCOPIC surgery, SURGERY, PATIENTS, RETROSPECTIVE studies, MEDICAL cooperation, FIBULA injuries, TREATMENT effectiveness, PHYSICAL activity, FRACTURE fixation, MEDICAL records, CASE studies, POSTOPERATIVE period, FIBULA, POSTOPERATIVE pain, PATIENT safety, EVALUATION

Abstract

Purpose: Despite the fact that open reduction and internal fixation with a plate, either non-locked or locked, is the standard of care for managing lateral malleolus fractures, intramedullary (IM) fixation of the fibula has been recently introduced as an alternative, mainly for some potential complicated situations. We hypothesized that almost all patterns of distal fibula fracture can be safely fixed with an IM device, with the potential benefit of providing biomechanical efficiency, but using a soft-tissue friendly implant. Here, we present a multicenter case series based on a proposed algorithm. Patients and methods: Sixty-nine consecutive patients were managed with fibular IM fixation for closed malleolar fractures. Twenty patients were managed by IM screw fixation and 49 by fibular nailing. Outcome was measured both according to the American Orthopaedic Foot and Ankle Society (AOFAS) score for ankle and hindfoot, and the time to bone union. Results: The mean AOFAS for Group I was 99.35 ± 1.95 points and that for Group II was 89.30 ± 16.98 points. There were no significant differences between the fracture pattern, according to the Lauge-Hansen classification, and post-operative levels of pain and functional activity among patients in both groups (p > 0.05). All fractures healed uneventfully in both groups. The mean time to union for Group I was 8.15 weeks and for Group II was 8.25 weeks (p > 0.05). Conclusion: In this multicenter case series, intramedullary fixation for the lateral malleolus fracture presented itself as a viable and safe option for the treatment of almost all patterns of fibula fracture in adults. Overall, we were able to demonstrate the potential indications of the proposed algorithm for the choice of IM implant for the lateral malleolus fracture in terms of the Lauge-Hansen staged classification. [ABSTRACT FROM AUTHOR]

Published

2021

5. Augmentation plating leaving the nail in situ is an excellent option for treating femoral shaft nonunion after IM nailing: a multicentre study.

Author

Uliana, Christiano Saliba, Bidolegui, Fernando, Kojima, Kodi, and Giordano, Vincenzo

Subjects

BONE shafts, UNUNITED fractures, ORTHOPEDIC implants, SURGERY, PATIENTS, TREATMENT effectiveness, FRACTURE fixation, DESCRIPTIVE statistics, FEMORAL fractures

Abstract

Purpose: In recent years, plate augmentation over a retained intramedullary (IM) nail has been shown to be an effective option for managing femur fracture nonunions because it improves the biomechanical environment of the fracture site without causing additional biological damage. In the current study, we present outcome data from 22 consecutive patients treated with plate augmentation for femoral shaft nonunion leaving the nail in situ. Patients and methods: Between 2015 and 2018, 22 consecutive patients with femoral shaft aseptic nonunion after IM nailing were treated with plate augmentation over a retained nail at four different institutions. Nonunion was categorized based on its anatomical location and was classified according to the Weber and Cech classification. Cortical defects greater than 1.0 cm, the type of nailing procedure, and the number of previous interventions were recorded. Patients were assessed clinically and radiographically to measure the healing of nonunion sites. The time to fracture union and complications were recorded. Descriptive statistics were used when applicable. Results: One site location was supra-isthmic, 12 were isthmic, and 9 were infra-isthmic. There were 10 cases of vascular nonunion and 12 cases of avascular nonunion. A cortical defect greater than 1.0 cm was observed in three patients. Antegrade nailing was performed in 11 patients, and retrograde nailing was performed in 11 patients. Reaming was performed in 12 patients. In eight patients, the fracture was openly reduced during the IM nailing index procedure. The average number of previous interventions before augmentation plating was 1.6 (1–4). Bone union was achieved in 19 patients after augmentation plating with an average follow-up of 23.5 months (12–51 months). Excellent and good clinical results were observed in all patients. There was no plate or screw breakage, and no patient developed infection. Conclusion: Augmentation plating leaving the nail in situ is an excellent option for treating femoral shaft nonunion after IM nailing, with a high union rate and few complications. We believe the technique should gradually replace exchange nailing as the standard of care for the majority of femoral shaft nonunions that occur after IM nailing. [ABSTRACT FROM AUTHOR]

Published

2021

6. New fixation method for Pauwels type III femoral neck fracture: a finite element analysis of sliding hip screw, L-shaped, and L-shaped with medial plate.

Author

Freitas, Anderson, Bontempo, Ricardo Lourenço, Azevedo, Frank Anderson Ramos, Battaglion, Leonardo Rigobello, Giordano, Marcos Noberto, Barin, Fabrício Reichert, and Giordano, Vincenzo

Subjects

FINITE element method, EVALUATION of medical care, INTERNAL fixation in fractures, ORTHOPEDIC implants, FEMUR neck, BONE screws, FRACTURE fixation, BIOMECHANICS, FEMORAL fractures

Abstract

Objective: In this study, we aimed to evaluate the biomechanical behavior of three fixations for Pauwels type III fractures (sliding hip screw (SHS), L-shaped, and L-shaped with medial plate), by finite element analysis (FEM). Methods: Three internal fixators were developed to treat Pauwels type III fracture by finite elements: SHS; L-shaped; and L-shaped with medial plate. Under the same conditions, localized and total vertical fracture displacement, maximum and minimum principal and von Mises stresses were evaluated. Results: The localized and total vertical displacement evaluated for the SHS, L-shaped, and L-shaped with medial plate were 0.15 mm, 0.17 mm, and 0.07 mm (localized), and 4.52 mm, 6.97 mm, and 6.83 mm (total), respectively. The maximum values obtained in the upper region of the femoral neck for the internal fixations were 1.43 MPa, 1.29 MPa, and 1.24 MPa, and the minimum values obtained in the lower region of the femoral neck were − 0.73 MPa, − 1.09 MPa, and − 1.03 MPa, respectively. The maximum Von Mises peak stress values were 6.35 MPa, 10.7 MPa, and 16.2 MPa for the fixation models using the SHS, L-shaped, and L-shaped with medial plate, respectively. Conclusion: The present FEM analysis showed that SHS yields better results in terms of total vertical displacements, maximum distribution, and Von Mises peak stresses reduction. On the other hand, the L-shaped construction plus a medial plate decreases localized vertical displacements and maximum principal distribution when compared to the SHS and L-shaped constructions. These results demonstrate that both constructions, SHS and L-shaped plus a medial plate, are biomechanically efficient for the fixation of Pauwels type III femoral neck fractures. [ABSTRACT FROM AUTHOR]

Published

2021

7. Anterior minimally invasive plating osteosynthesis technique (MIPO) for humeral shaft fractures: an anatomical study of neuromuscular structures at risk.

Author

Giordano, Marcos, Giordano, Vincenzo, Gameiro, Vinícius Schott, Belangero, William, Livani, Bruno, Giannoudis, Peter V., and Krettek, Christian

Subjects

*SHOULDER physiology, *FOREARM, *SUPINATION, *STATISTICS, *ORTHOPEDIC implants, *ENDOSCOPIC surgery, *HUMAN anatomical models, *RISK assessment, *HUMERUS injuries, *FRACTURE fixation, *ABDUCTION (Kinesiology), *DESCRIPTIVE statistics, *HUMERUS, *DATA analysis, *STATISTICAL correlation, *BONE fractures, *MYONEURAL junction, *SUPINE position, RADIAL nerve surgery

Abstract

Objective: The aim of this study was to evaluate the neuromuscular structures at risk during modified anterior minimally invasive plating osteosynthesis technique (Belangero–Livani) for humeral shaft fractures. Methods: Eight fresh-frozen human specimens ranging from 38 to 82 years old were used. Specimens were positioned supine with the shoulder in 70° abduction and the forearm in full supination. Anterior minimally invasive plating osteosynthesis technique according to Belangero–Livani technique was performed in each specimen. Under radioscopic control, the plate was introduced in retrograde fashion through the subbrachialis path. Anatomical structures were inspected and different anatomical parameters were measured after dissection at the end of the surgical procedures. Measurements were performed using a high digital caliper. Statistical analysis was performed using the Pearson's correlation coefficient test. A p value of < 0.05 was used to define statistical significance. Results: There were no macroscopic lesions of myotendinous or neurovascular structures in any specimen. The mean distance between the radial nerve to the distal lateral end of the plate was 8.63 mm (range 4.14–13.83 mm). The mean total length of the humerus was 328.59 mm. We found a significant direct correlation between the total length of the humerus and both specimen height and weight. Conclusion: The modified Belangero–Livani anterior MIPO technique for humeral shaft fractures performed in retrograde fashion is safe and useful, without major risk to the soft tissue of the anterior compartment of the arm, including the radial nerve in the lateral intermuscular septum. Intraoperative dissection, avoiding deep lateral retraction on the distal approach, minimizes the risk of radial nerve damage. Strict surgical planning and appreciation for the anatomic landmarks can reduce the risk of damage to neuromuscular structures. Level of evidence: Level IV; Case series with no comparison group; Treatment study [ABSTRACT FROM AUTHOR]

Published

2021

8. Expanding the indications for calcaneal plates beyond foot fractures: a technical trick and case series.

Author

Pires, Robinson E., Giordano, Vincenzo, Boni, Guilherme, Campos, Tulio Vinicius Oliveira, Lopes, Marcos Tadeu Caires, and de Andrade, Marco Antônio Percope

Subjects

*BONE screws, *FOOT fractures, *FRACTURE fixation, *HEEL bone, *CASE studies, *ORTHOPEDIC implants

Abstract

Although non-locking calcaneal plates are designed to treat calcaneal fractures, they present some interesting characteristics that justify using them beyond their current application in fractures of the foot. Calcaneal plates are malleable, have an increased footprint area for fracture containment or buttressing, and present several hole options for screw placement in different trajectories, thereby providing proper fixation even in comminuted fracture patterns. The aim of this study is to describe the unconventional use of calcaneal plates in the orthopaedic trauma scenario. [ABSTRACT FROM AUTHOR]

Published

2021

9. Minimally invasive percutaneous plate osteosynthesis for ankle fractures: a prospective observational cohort study.

Author

Pires, Robinson, Mauffrey, Cyril, Andrade, Marco, Figueiredo, Leonardo, Giordano, Vincenzo, Belloti, João, and Reis, Fernando

Subjects

ORTHOPEDIC surgery, FRACTURE fixation, ANKLE fractures, CONFIDENCE intervals, MINIMALLY invasive procedures, LONGITUDINAL method, SCIENTIFIC observation, ORTHOPEDIC implants, HEALTH outcome assessment, STATISTICS, X-rays, DATA analysis, TREATMENT effectiveness, DESCRIPTIVE statistics, MANN Whitney U Test

Abstract

Background: The gold standard for the surgical management of ankle fractures is through open reduction and internal fixation. The rate of wound problems has been reported to be as high as 18 %, especially in patients with poor vascular supply or in diabetics. Minimally invasive percutaneous plate osteosynthesis (MIPPO) has been described as a potential solution for these patients. Patients and methods: This is a prospective observational cohort study. From October 2009 to February 2010, and following ethical approval of our research, adult patients admitted at our level I trauma center with a closed lateral malleolar displaced unstable fracture (Lauge-Hansen supination-external rotation) with or without a medial-sided injury and patients with an undisplaced fracture associated with medial clear space opening on external rotation stress radiographs were recruited and managed using MIPPO technique. All patients were followed up for a minimum of 12 months post-surgery (12-20 with a mean of 16.5 months). Trauma mechanism, comorbidities, classifications, trauma-surgery interval, image intensifier duration, surgery duration, complications, and function American Orthopaedic Foot and Ankle Society (AOFAS) were analyzed. Results: Thirty-two patients were recruited of which 20 fulfilled the inclusion criteria (16 females, 4 males) and were available for follow-up. Ten fractures (50 %) were classified as 44-B1, 7 fractures (35 %) as 44-B2, and 3 fractures (15 %) as 44-B3 according to the Arbeitsgemeinschaft für Osteosynthesefragen/Orthopaedic Trauma Association classification (100 % were supination-external rotation injuries). At 8 weeks post-surgery, all fractures had healed. The duration of surgery ranged between 15 and 73 min (average 32.8) from skin incision to closure. There were 2 complications (1 malunion and 1 skin necrosis requiring implant removal). At 12-month follow-up, AOFAS average was 88.3 (72-100 standard deviation of 6.8 points). Conclusion: MIPPO technique proved to be a viable option for lateral malleolar fracture treatment with a low complication rate and high functional outcome at 1 year. It is particularly useful in patients with a high risk of wound complication. [ABSTRACT FROM AUTHOR]

Published

2014

10. Failure of fixation of trochanteric femur fractures: Clinical recommendations for avoiding Z-effect and reverse Z-effect type complications.

Author

Pires, Robinson Esteves Santos, Júnior, Egídio Oliveira Santana, Santos, Leandro Emílio Nascimento, Giordano, Vincenzo, Balbachevsky, Daniel, and Reis, Fernando Baldy dos

Subjects

FEMUR injuries, INTERNAL fixation in fractures, INTRAMEDULLARY fracture fixation, FRACTURE fixation, ORTHOPEDIC implants

Abstract

Background: Z-effect and reverse Z-effect are complications that arise from the surgical treatment of pertrochanteric fractures of the femur with proximal femoral nails (PFN) comprising two interlocking head screws. Such complications are induced by the migration of screws in opposite directions, which may lead to failure of the osteosynthesis. Findings: The paper describes three cases of pertrochanteric fractures that were treated with PFN with two interlocking screws that evolved to either Z-effect or reverse Z-effect. Literature-based explanations for this phenomenon are provided together with recommendations of how to avoid such complications. Conclusions: Although intramedullary fixation is an established method of treatment of femoral intertrochanteric and subtrochanteric fractures, the evolution of the procedure may include complications associated with the migration of the interlocking head screws. The occurrence of Z-effect and reverse Z-effect has not been completely elucidated, but the main causes of such complications are probably fracture fixation in varus position, severe medial comminution, inappropriate entry point of the nail and poor bone quality. [ABSTRACT FROM AUTHOR]

Published

2011