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Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_13 | Pages 119 - 119
1 Nov 2021
Facchini A Troiano E Saviori M Meglio MD Ghezzi R Mondanelli N Giannotti S
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Introduction and Objective

The aim of this study was to evaluate whether CT-based pre-operative planning, integrated with intra-operative navigation could improve glenoid baseplate fixation and positioning by increasing screw length, reducing number of screws required to obtain fixation and increasing the use of augmented baseplate to gain the desired positioning. Reverse total shoulder arthroplasty (RSA) successfully restores shoulder function in different conditions. Glenoid baseplate fixation and positioning seem to be the most important factors influencing RSA survival. When scapular anatomy is distorted (primitive or secondary), optimal baseplate positioning and secure screw purchase can be challenging.

Materials and Methods

Twenty patients who underwent navigated RSA (oct 2018 and feb 2019) were compared retrospectively with twenty patients operated on with a conventional technique. All the procedures were performed by the same surgeon, using the same implant in cases of eccentric osteoarthritis or complete cuff tear. Exclusion criteria were: other diagnosis as proximal humeral fractures, post-traumatic OA previously treated operatively with hardware retention, revision shoulder arthroplasty.


Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_13 | Pages 96 - 96
1 Nov 2021
Facchini A Ghezzi R Troiano E Giacchè T Cacioppo M Mondanelli N Giannotti S
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Introduction and Objective

Some periprosthetic femoral fractures (PFFs) present history and radiographic aspect consistent with an atypical femoral fracture (AFF), fulfilling the criteria for AFF except that PFFs by themselves are excluded from the diagnosis of AFFs. The aim of this study was to evaluate in a single Institution series of PFFs if any of them could be considered a periprosthetic atypical femoral fracture (PAFF), and their prevalence.

Materials and Methods

Surgical records were searched for PFFs around a primary hip stem from January 2013 to December 2019. Cases were classified according to Vancouver classification. Demographic and medical history were extracted. Fisher's exact test was used for statistical analysis.


Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_13 | Pages 18 - 18
1 Nov 2021
Troiano E Facchini A Meglio MD Peri G Aiuto P Mondanelli N Giannotti S
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Introduction and Objective

In recent years, along with the extending longevity of patients and the increase in their functional demands, the number of annually performed RSA and the incidence of complications are also increasing. When a complication occurs, the patient often needs multiple surgeries to restore the function of the upper limb. Revision implants are directly responsible for the critical reduction of the bone stock, especially in the shoulder. The purpose of this paper is to report the use of allograft bone to restore the bone stock of the glenoid in the treatment of an aseptic glenoid component loosening after a reverse shoulder arthroplasty (RSA).

Materials and Methods

An 86-years-old man came to our attention for aseptic glenoid component loosening after RSA. Plain radiographs showed a complete dislocation of the glenoid component with 2 broken screws in the neck of glenoid. CT scans confirmed the severe reduction of the glenoid bone stock and critical bone resorption and were used for the preoperative planning. To our opinion, given the critical bone defect, the only viable option was revision surgery with restoration of bone stock. We planned to use a bone graft harvested from distal bone bank femur as component augmentation. During the revision procedure the baseplate with a long central peg was implanted “on table” on the allograft and an appropriate osteotomy was made to customize the allograft on the glenoid defect according to the CT-based preoperative planning. The Bio-component was implanted with stable screws fixation on residual scapula. We decided not to replace the humeral component since it was stable and showed no signs of mobilization.


Orthopaedic Proceedings
Vol. 87-B, Issue SUPP_I | Pages 66 - 66
1 Mar 2005
Cristino S Toneguzzi S Piacentini A Grigolo B Cavallo C Santi S Riccio M Tognana E Frizziero A Facchini A Lisignoli G
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Aim of study: The development of tissue engineering techniques evidenced that the healing of injured ligaments require the interactions of different cell types, local cellular environment and the use of devices. In order to gain new information on the complex interactions between mesenchymal stem cells (MSCs) and biodegradable scaffold, we analysed in vitro the proliferation, vitality and phenotype of MSCs grown onto a multilayered-woven-cylindric-array of Hyaff-11A8 fiber configured as ligament scaffold.

Methods: Sheep MSCs were isolated from bone marrow aspirates and grown at two different density (7,5x106/cm and 15x106/cm) in the scaffold. At different time points (2, 4, 6 days) cellular proliferation was analysed by MTT test and cellular viability by calcein-AM immunofluorescence dye and confocal microscopy analysis. Moreover, hyaluronic acid receptor (CD44) and typical matrix ligament proteins (collagen type I, III, laminin, fibronectin, actin) were evaluated by immunohistochemistry.

Results: MSCs growth was cell density-dependent and cells were uniformly distributed inside and along the scaffold. Confocal analysis showed that MSCs completely wrap the fibers at both cell concentrations analysed and were all viable both outside and inside the scaffolds only using the lower cell concentration. Moreover, MSCs expressed CD44, collagen type I, III, laminin, fibronectin and actin.

Conclusion: These data demonstrate that MSCs well survive in a hyaluronic acid-configured ligament scaffold expressing a protein important for scaffold interaction, like CD44, and proteins responsible of the functional characteristic of the ligaments.


Orthopaedic Proceedings
Vol. 87-B, Issue SUPP_I | Pages 67 - 67
1 Mar 2005
Grigolo B Roseti L Fiorini M De Franceschi L Piacentini A Facchini A
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Aims: The maintenance of the original phenotype by isolated chondrocytes grown in vitro is an important requisite for their use in repairing damaged articular cartilage. The methods to verify the expression of cartilage specific molecules usually involve destructive procedures to recover the cells from the scaffolds for tests. The aim of this study was to find a soluble marker able to attest the occurrence of a differentiation process by chondrocytes grown onto a biomaterial used for cell transplantation. We turned our attention to cathepsin B which is known to be abnormally synthesized in de-differentiated chondrocytes and scarcely produced in the differentiated ones.

Methods: The production of cathepsin B by human articular chondrocytes expanded in vitro and then grown onto a hyaluronan-based polymer derivative (Hyaff“-11) three-dimensional scaffold was evaluated with a specific ELISA and by immunohistochemical analysis at different experimental times (1hour, 1 day, 7, 14, 21 days) together with the expression of mRNA by Real Time PCR.

Results: Cathepsin B is always secreted by the cells grown onto the biomaterial but the protein levels increased from the first day after seeding up to 7 days (p< 0.01), then decreased progressively and significantly until day 21 (p< 0.01). The immunohistological data confirmed those obtained by the ELISA test. Cathepsin B staining was particularly evident at day 7 after cells were seeded onto the biomaterial, and then progressively decreased up to 21 days; at this experimental time point, the totality of cells were negative. Real-time PCR monitoring with the LightCycler using fluorescent dye allowed rapid and sensitive detection of cathepsin B mRNAs from the patient samples. The mRNA levels increased for up to 7 days of culture and slightly decreased until day 21. However, no significant differences were observed.

Conclusions: We can identify in cathepsin B a soluble marker of differentiated chondrocytes phenotype useful in the monitoring of autologous chondrocyte transplantation performed by means of different carriers. Its low concentration in the constructs culture medium could be indicative of a phenotypic stability. The introduction of mature cells inside the chondral defects could help to regenerate damaged hyaline articular cartilage better and faster.


Orthopaedic Proceedings
Vol. 87-B, Issue SUPP_I | Pages 58 - 58
1 Mar 2005
Facchini A
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Autologous chondrocyte transplantation is a widely used technique for the treatment of cartilage lesions. This therapeutic strategy has been recently improved by the use of biocompatible scaffolds which allow a better fixation of the cells inside the defect together with the maintenance of their original phenotype. We have recently reported that human chondrocytes can efficiently grow on a hyaluronan acid derivative biomaterial (Hyaff-11, Fidia Advanced Biopolymers, Abano Terme, Italy) and are able to express and produce collagen type II and proteoglycans, molecules expressed by differentiated cells (Grigolo et al. Biomaterials 2002). However, from the histological evaluations of the grafted tissues there is not always evidence of hyaline cartilage neo-formation even in presence of good clinical symptoms. Only few studies deals with cellular, and biochemical processes that occur during the remodeling of the graft tissue after transplantation in humans. Biopsy samples harvested from the graft have been examined using a panel of specific antibodies. It was found that cell transplantation is followed not only by a process of cartilage repair but in some cases also by a regeneration achieved through the turnover of the initial fibrocartilagineous tissue via enzymatic degradation and synthesis of newly formed collagen type II. Therefore, we examined the expression of genes encoding extracellular matrix proteins and regulatory factors essential for cell differentiation in human cartilage biopsies of patients who underwent autologous chondrocyte transplantation.

Human cartilage biopsies of patients treated by autologous chondrocyte transplantation and from a multi-organ donor were used. A Real-Time RT-PCR analysis was performed in isolated chondrocytes to evaluate the expression of collagen type I, II, X, aggrecan, cathepsin B, early growth response protein-1 (Egr-1) and Sry-type high-mobility-group box transcription factor-9 (Sox-9) mRNAs. Immunohistochemical analysis for ECM proteins and regulatory proteins was carried out on paraffin embedded sections.

Real-time RT-PCR analysis showed that collagen type I mRNA was expressed in all the samples evaluated while collagen type II was present even if at lower levels compared to control. Collagen type X messenger was undetectable. Aggrecan mRNA was present in all the samples at lower levels compared to donor. Cathepsin B messenger was higher in the samples compared to control. Egr-1 and Sox-9 mRNAs were expressed at lower levels compared to donor. The immunohistochemical analysis showed a slight positivity for collagen type I in all the sections. Collagen type II was found in all the samples evaluated with a positivity confined inside the cells, while the control displayed a positivity which was diffuse in the ECM. Cathepsin B was slightly positive in all the samples while the control was negative. Egr-1 protein was particularly evident in the areas negative for collagen type II. Sox-9 was positive in all the samples, with evident localization in the superficial layer.

Our results provide evidence that the remodelling of the graft tissue after autologous chondrocyte transplantation is regulated by a sophisticated gene expression machinery control addressed to new cartilage formation.