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Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_5 | Pages 93 - 93
1 Apr 2018
Boffano M Pellegrino P Ratto N Giachino M Albertini U Aprato A Boux E Collo G Ferro A Marone S Massè A Piana R
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Introduction and Purposes

Custom made acetabular prosthesis are a valid option for the reconstruction after the resection of pelvic tumors. They should guarantee a stable and reliable reconstruction for the expected survival of the patient. Nevertheless in many cases periacetabular metastatic lesions have been compared to high grade (IIIA-B) Paprosky defects, but treated with low or intermediate longevity implants. Some complex post-traumatic scenarios or total hip arthroplasty (THA) multiple failures need a reconstruction according to oncologic criteria to fill in the huge defect and to obtain an acceptable function. The aim of the study is to compare 3D custom-made implants for tumors and for THA failures.

Materials and Methods

Three custom-made implants after tumor resection (group A: 1 chondroblastic osteosarcoma, 1 bifasic synovialsarcoma, 1 high grade chondrosarcoma) were evaluated and compared to 3 acetabular complex reconstructions after non-oncologic bone defect (group B: 3 cases of aseptic loosening after at least 2 revisions). All the implants were case-based designed, 3D printed, and realized with porous or trabecular surfaces on a Titanium base prosthesis. Age range 16–70 ys in oncologic patients and 60–75 ys in non-oncologic patients. The bone defect to be reconstructed after tumor resection was classified according to Enneking zones (1 type 1-2-3 resection, 1 type 2 resection, 1 partial type 2 resection). Non-oncologic cases were comparable in term of remaining bone stock and classified according to Paprosky classification for acetabular defects as 1 type IIIA an 2 type IIIB. Complications, MSTS functional score, necessity of walking-aids were evaluated at minimum follow up of 1 year.


Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_IV | Pages 495 - 495
1 Oct 2010
Dettoni F Castoldi F Collo G Lollino N Marmotti A Parisi S Rossi R
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Aim: Evaluate the incidence of complications related to timing (time between admission ad operation) and oral antiplatelet/anticoagulant therapy in patients treated for a hip fracture.

Materials and Methods: We prospectively evaluated 5 groups of 30 patients each, selected out of 875 consecutive patients admitted at the First Aid Unit of our Hospital with a proximal femoral fracture: group A – patients on Warfarin therapy, treated more than 5 days after admission (in order to allow the wash-out of Warfarin, as advised by many Anaesthesiologist Associations); B – patients treated more than 5 days after admission, not on Warfarin therapy; C – patients treated less than 48 hours after admission, not on Warfarin therapy; D – patients on Aspirin/NSAIDS therapy, treated more than 5 days after admission; E – patients on Ticlopidine/Clopidogrel therapy, treated more than 5 days after admission. The groups were comparable regarding age, gender, pre-trauma walking ability, mental state, fracture type and treatment. Blood loss, number of RBC transfusions, complications during hospitalization and up to 6 months after discharge, duration of hospitalization, degree of functional recovery and 2 years mortality were recorded. Statistical analysis included Kruskall-Wallis, U-Mann-Whitney and Logistic Regression Tests (SPSS 13.0 software).

Results: Group A showed higher preoperative blood loss (p=0.002), and longer hospitalization (p< 0.001), compared to all other groups. Groups D and E showed no higher complication and mortality rate in comparison to group B and C, while group A showed higher complication and mortality rate. Standing alone, timing and Warfarin appear not to be significant risk factors, while taken together they represent a high risk factor for complications ad mortality (p=0.009).

Conclusion: Patients on Warfarin therapy, affected by hip fracture, are at high risk of complications and mortality, if the recommendation of postponing treatment until drug wash-out is accepted. Reversal of anticoagulation using vitamin K and straight-forward treatment should be considered. Antiplatelet therapy appears not to have the same adverse effect as anticoagulant therapy.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_I | Pages 86 - 86
1 Mar 2009
Marmotti A Collo G Rossi R Germano M Castoldi F Rossi P
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The purpose of this study is to identify the optimal amount of knee flexion required to drill the femoral tunnel in ACL reconstruction using the transtibial technique in order to ensure the correct alignment between the femoral tunnel and the interference screw.

Methods: Twenty (10 × 2) fresh-frozen cadaveric knees were used. The native ACL was resected and its tibial attachment was identified. The angle of the tibial tunnel was set at 55° using an Arthrex tibial guide. The extra-articular tibial tunnel entry point was located at the anterior border of the superficial MCL. The intra-articular exit point of the guide wire was digitized with a digital camera and referenced to anatomical landmarks (the anterior border of the PCL, the lateral aspect of the medial spine and the anterior horn of the lateral meniscus). The femoral tunnels were made using the transtibial technique and a 5mm femoral guide to insert guidewires at 70, 80, and 90 degrees of knee flexion (groups a, b, c respectively). The angles of divergence between the longitudinal axis of the femoral tunnel and the interference screw (placed through an anteromedial portal at 120° of knee flexion) were then measured.

Results: The degrees of divergence were: 5° ± 2° for group a, 12° ± 4 for group b, and 15° ± 3° for group c.

Conclusions: Optimal femoral tunnel and interference screw alignment is achieved using the transtibial technique when the femoral tunnel is drilled with the knee in 70 degrees of flexion and the screw is inserted at 120 degrees of knee flexion.

This study identifies a mathematical formula for the optimal amount of knee flexion required to drill the femoral tunnel in ACL reconstruction using the transtibial technique in order to ensure the correct alignement between the femoral tunnel and the interference screw.


Orthopaedic Proceedings
Vol. 90-B, Issue SUPP_I | Pages 159 - 159
1 Mar 2008
Castoldi F Dettoni F Girardo M Collo G Rossi R Rossi P
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The failure rate of peritrochanteric fracture implants ranges from 5 to 20 % The aim of the present preliminary study is to evaluate the relationship between Singh index (SI), and failure of internal fixation (cut-out), examining bone mechanical properties from ex-vivo human femoral heads.

The failure rate of peritrochanteric fracture implants ranges from 5 to 20 % The aim of the present preliminary study is to evaluate the relationship between Singh index (SI), and failure of internal fixation (cut-out), examining bone mechanical properties from ex-vivo human femoral heads.

From a methodological point of view we decided to use SI on the basis of previous literature,, our data seems not to be influenced by the use of this methodological approach. > Three load speeds were set: 3, 10, 500 mm/min resulting values of BW/s were compared with Davy and Bergmann ones (obtained with instrumented prosthesis), and test validity was confirmed. In conclusion our data demonstrated that: cut out phenomenon occurs for lower mechanical load in femoral heads of patients with lower SI.