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Sviluppo, implementazione e valutazione funzionale di un nuovo modello protesico di cavigliaRomagnoli, Matteo <1975> 18 May 2009 (has links)
Total ankle arthroplasty (TAA) is still not as satisfactory as total hip and total knee arthroplasty. For the TAA to be considered a valuable alternative to ankle arthrodesis, an effective range of ankle mobility must be recovered. The disappointing clinical results of the current generation of TAA are mostly related to poor understanding of the structures guiding ankle joint mobility. A new design (BOX Ankle) has been developed, uniquely able to restore physiologic ankle mobility and a natural relationship between the implanted components and the retained ligaments. For the first time the shapes of the tibial and talar components in the sagittal plane were designed to be compatible with the demonstrated ligament isometric rotation. This resulted in an unique motion at the replaced ankle where natural sliding as well as rolling motion occurs while at the same time full conformity is maintained between the three components throughout the flexion arc. According to prior research, the design features a spherical convex tibial component, a talar component with radius of curvature in the sagittal plane longer than that of the natural talus, and a fully conforming meniscal component. After computer-based modelling and preliminary observations in several trial implantation in specimens, 126 patients were implanted in the period July 2003 – December 2008. 75 patients with at least 6 months follow-up are here reported. Mean age was 62,6 years (range 22 – 80), mean follow-up 20,2 months. The AOFAS clinical score systems were used to assess patient outcome. Radiographs at maximal dorsiflexion and maximal plantar flexion confirmed the meniscalbearing component moves anteriorly during dorsiflexion and posteriorly during plantarflexion. Frontal and lateral radiographs in the patients, show good alignment of the components, and no signs of radiolucency or loosening. The mean AOFAS score was observed to go from 41 pre-op to 74,6 at 6 month follow-up, with further improvement at the following follow-up. These early results reveal satisfactory clinical scores, with good recovery of range of motion and reduction of pain. Radiographic assessment reveals good osteointegration. All these preliminary results confirm biomechanical studies and the validity of this novel ligamentcompatible prosthesis design. Surely it will be important to re-evaluate these patients later.
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Utilizzo di dispositivi magnetici nel trattamento della patologia artrosica del ginocchioRusso, Alessandro <1975> 18 June 2009 (has links)
The use of scaffolds for Tissue Engineering (TE) is increasing due to their efficacy in helping the body rebuild damaged or diseased tissue. Hydroxyapatite (HA) is the most suitable bioactive ceramic to be used in orthopaedic reconstruction since it replicates the mineral component of the hard tissues, and it has therefore excellent biocompatibility properties. The temporal and spatial control of the tissue regeneration process is the limit to be overcome in order to treat large bone and
osteochondral defects. In this thesis we describe the realization of a magnetic scaffolds able to attract and take up growth factors or other bio-agents in vivo via a driving magnetic force. This concept involves the
use of magnetic nanoparticles (MNP) functionalized with selected growth factors or stem cells. These functionalized MNP act as shuttles transporting the bio-agents towards and inside the scaffold under the effect of the magnetic field, enhancing the control of tissue regeneration processes. This scaffold can be imagined as a fixed “station” that provides a unique possibility to adjust the scaffold activity to the specific needs of the healing tissue. Synthetic bone graft substitutes, made of collagen or biomineralized collagen (i.e. biomimetic Hydroxyapatite/collagen composites) were used as starting materials for the fabrication of magnetic scaffolds. These
materials are routinely used clinically to replace damaged or diseased cartilaginous or bone tissue. Our magnetization technique is based on a dip-coating process consisting in the infilling of biologically inspired porous scaffolds with aqueous biocompatible ferrofluids’ suspensions. In this
technique, the specific interconnected porosity of the scaffolds allows the ferrofluids to be drawn inside the structure by capillarity. A subsequent freeze-drying process allows the solvent elimination while keeping very nearly the original shape and porosity of the scaffolds. The
remaining magnetic nanoparticles, which are trapped in the structure, lead to the magnetization of the HA/Collagen scaffold. We demonstrate here the possibility to magnetize commercially available scaffolds up to magnetization values that are used in drug delivery processes. The preliminary biocompatibility test showed that the investigated scaffolds provide a suitable micro-environment for cells. The biocompatibility of scaffold facilitates the growth and
proliferation of osteogenic cells.
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Efficacia del trattamento con concentrati piastrinici (P.R.P.) nelle lesioni condrali e tendinopatieLo Presti, Mirco <1974> 18 June 2009 (has links)
Purpose: Recent knowledge regarding tissue biology highlights a complex regulation of growth factors in reaction to tissue damage. Platelet Rich Plasma (P.R.P.), containing a natural pool of growth factors, can be obtained in a simple and minimally invasive way and be applied to the lesion site. The aim of this study is to explore this novel approach to treat cartilage degenerative lesions of the knee and tendon chronic lesions( patellar tendon, and achilles tendon). In this study we evaluated if the treatment with PRP injections can reduce pain and increase function in cases of patellar tendinosis (Jumper’s Knee), in chronic achilles tendinopathy and in patients with cartilage injuries of the knee.
Materials and Methods: 40 patients with cartilage lesion of the knee, 28 male and 12 female with mean age 47 y. (min 18-
max 52 years), were treated and prospectively evaluated at a minimum 6 months follow-up; in the same way, 12 patients with achilles tendon lesion (8 male and 4 female) with mean age 44,5 y. (min 32-max 58 years) and 10 patients with “Jumper’s Knee” (8 male and 2 female) with mean age
23,2 y. (min 18-max 37 years), were evaluated at 6 months follow up. The procedure involved 3 multiple injections , performed every two weeks. All patients were clinically evaluated at the end of the treatment and at 6 months follow up. IKDC, SF36, EQ-VAS, scores were used for clinical
evaluation and patient satisfaction and functional status were also recorded.
Results: Statistical analysis showed a significant improvement in the SF36 questionnaire in all parameters
evaluated at the end of the therapy and 6 months follow-up in both group(tendinopathies and chondral lesions), and in the EQ VAS and IKDC score (paired T-test, p<0.0005) from basal evaluation to the end of the therapy, and a further improvement was present at 6 months follow-up. Whereas a higher improvement of the sport activity level was achieved in the “Jumper’s Knee” group. No complications related to the injections or severe adverse events were observed during the treatment and follow up period.
Conclusion: PRP inhibits excess inflammation, apoptosis, and metalloproteinase activity. These interactive pathways may result in the restoration of tendon or cartilage, which can with stand loading with work or sports activity, thereby diminishing pain. PRP may also modulate the microvascular environment or alter efferent or afferent neural receptors. The clinical results are encouraging, indicating that PRP injections may have the potential to
increase the tendon and cartilage healing capacity in cases with chronic tendinosis and chondropathy of the knee.
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Controllo molecolare del differenziamento osteoblestico per applicazioni nel campo della rigenerazione del tessuto osseoBaglio, Serena Rubina <1982> 14 May 2010 (has links)
The aim of the study was to identify expression signatures unique for specific stages of osteoblast differentiation in order to improve our knowledge of the molecular mechanisms underlying bone repair and regeneration.
We performed a microarray analysis on the whole transcriptome of human mesenchymal stem cells (hMSCs) obtained from the femoral canal of patients undergoing hip replacement. By defining different time-points within the differentiation and mineralization phases of hMSCs, temporal gene expression changes were visualised. Importantly, the gene expression of adherent bone marrow mononuclear cells, being the undifferentiated progenitors of bone cells, was used as reference. In addition, only the cultures able to form mineral nodules at the final time-point were considered for the gene expression analyses. To obtain the genes of our interest, we only focused on genes:
i) whose expression was significantly upregulated;
ii) which are involved in pathways or biological processes relevant to proliferation, differentiation and functions of bone cells;
iii) which changed considerably during the different steps of differentiation and/or mineralization.
Among the 213 genes identified as differentially expressed by microarray analysis, we selected 65 molecular markers related to specific steps of osteogenic differentiation. These markers are grouped into various gene clusters according to their involvement in processes which play a key role in bone cell biology such as angiogenesis, ossification, cell communication, development and in pathways like TGF beta and Wnt signaling pathways.
Taken together, these results allow us to monitor hMSC cultures and to distinguish between different stages of differentiation and mineralization. The signatures represent a useful tool to analyse a broad spectrum of functions of hMSCs cultured on scaffolds, especially when the constructs are conceived for releasing growth factors or other signals to promote bone regeneration. Morover, this work will enhance our understanding of bone development and will enable us to recognize molecular defects that compromise normal bone function as occurs in pathological conditions.
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L’artroplastica di rivestimento dell’anca con accoppiamento metallo-metallo: 142 casi consecutivi ad un follow-up minimo di 5 anniGrandi, Gianluca <1972> 04 May 2011 (has links)
No description available.
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Superfici biomimetiche per impianti ossei: adesione cellulare e attivazione del differenziamento osteogenicoFotia, Caterina <1979> 04 May 2011 (has links)
No description available.
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Modulazione del differenziamento osteogenico di precursori mesenchimali umani per applicazioni di ingegneria tissutale / Modulation of osteogenic differentiation of human mesenchymal precursors for tissue engineeringFiorentini, Elisa <1981> 11 May 2012 (has links)
Lo scheletro è un tessuto dinamico, capace di adattarsi alle richieste funzionali grazie a fenomeni di rimodellamento ed alla peculiare proprietà rigenerativa. Tali processi avvengono attraverso l’azione coordinata di osteoclasti ed osteoblasti. Queste popolazioni cellulari cooperano allo scopo di mantenere l’ equilibrio indispensabile per garantire l’omeostasi dello scheletro. La perdita di tale equilibrio può portare ad una diminuzione della massa ossea e, ad una maggiore suscettibilità alle fratture, come avviene nel caso dell’osteoporosi. E’ noto che, nella fisiopatologia dell’osso, un ruolo cruciale è svolto da fattori endocrini e paracrini. Dati recenti suggeriscono che il rimodellamento osseo potrebbe essere influenzato dal sistema nervoso. L’ipotesi è supportata dalla presenza, nelle vicinanze dell’osso, di fibre nervose sensoriali responsabili del rilascio di alcuni neuro peptidi, tra i quali ricordiamo la sostanza P. Inoltre in modelli animali è stato dimostrato il diretto coinvolgimento del sistema nervoso nel mantenimento dell’omeostasi ossea, infatti ratti sottoposti a denervazione hanno mostrato una perdita dell’equilibrio esistente tra osteoblasti ed osteoclasti. Per tali ragioni negli ultimi anni si è andata intensificando la ricerca in questo campo cercando di comprendere il ruolo dei neuropeptidi nel processo di differenziamento dei precursori mesenchimali in senso osteogenico. Le cellule stromali mesenchimali adulte sono indifferenziate multipotenti che risiedono in maniera predominante nel midollo osseo, ma che possono anche essere isolate da tessuto adiposo, cordone ombelicale e polpa dentale. In questi distretti le MSC sono in uno stato non proliferativo fino a quando non sono richieste per processi locali di riparo e rigenerazione tessutale. MSC, opportunamente stimolate, possono differenziare in diversi tipi di tessuto connettivo quali, tessuto osseo, cartilagineo ed adiposo. L’attività di ricerca è stata finalizzata all’ottimizzazione di un protocollo di espansione ex vivo ed alla valutazione dell’influenza della sostanza P, neuropeptide presente a livello delle terminazioni sensoriali nelle vicinanze dell’osso, nel processo di commissionamento osteogenico. / Bone is a dynamic tissue, with the ability to adapt to its functional demands and repair itself by bone remodelling. The major effector cells of bone remodelling are osteoclast and osteoblast, they cooperate in order to maintain the balance between bone formation and bone resorption, essential for bone homeostasis. Disruption of this balance can diminish bone mass and micro-architectural integrity of the bone resulting in an increase in bone fragility and susceptibility to fractures, as evident in osteoporosis. It is known that, in the pathophysiology of the bone, a crucial role is played by endocrine and paracrine factors. Recent data suggest that bone remodeling may be influenced by the nervous system. The hypothesis is supported by the presence, in proximity of the bone, of sensory nerve fibers responsible for the release of some neuro peptides, like substance P. Iin capsaicin-treated animal has been shown the direct involvement of the nervous system in the maintenance of bone, this animal showed bone loss and increased bone fragility. For these reasons in recent years has intensified research in this field trying to understand the role of neuropeptides in the process of differentiation of mesenchymal precursors into osteogenic lineage. The mesenchymal stromal cells are undifferentiated multipotent cells present in the bone marrow, adipose tissue, umbilical cord and dental pulp. In these districts, MSC are in a quiescent state until they are required to local repair or tissue regeneration. MSC, suitably stimulated, can differentiate into different types of connective tissue such as, bone, cartilage and adipose. The research was designed to optimize a protocol for ex vivo expansion and to evaluate the effect of substance P, neuropeptide in the sensory endings in the vicinity of the bone, in the process of picking osteogenic.
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Nuovo scaffold biomimetico per il trattamento delle lesioni osteocondrali: studio clinico pilota / New biomimetic scaffold to treat osteochondral lesions: pilot clinical studyPatella, Silvio <1979> 11 May 2012 (has links)
Nel corso degli anni diverse sono le tecniche proposte per il trattamento delle lesioni osteocondrali, da quelle mini-invasive con stimolazione midollare fino a quelle più aggressive basate sul trapianto di tessuti autologhi o eterologhi. Tutti questi metodi hanno comunque dei difetti ed è questo il motivo per cui il trattamento delle lesioni osteocondrali rappresenta tuttora una sfida per il chirurgo ortopedico, in considerazione dell’alta specializzazione e del basso potere di guarigione del tessuto cartilagineo. Buoni risultati sono stati ottenuti con innesti bioingegnerizzati o matrici polimeriche impiantati nei siti danneggiati. La quantità di scaffolds in uso per la riparazione condrale ed osteocondrale è molto ampia; essi differiscono non solo per il tipo di materiali usati per la loro realizzazione, ma anche per la presenza di promotori di una o più linee cellulari , su base condrogenica o osteogenica. Quando ci si approccia ad una lesione condrale di grandi dimensioni, l’osso sub-condrale è anch’esso coinvolto e necessita di trattamento per ottenere il corretto ripristino degli strati articolari più superficiali. La scelta più giusta sembra essere un innesto osteocondrale bioingegnerizzato, pronto per l’uso ed immediatamente disponibile, che consenta di effettuare il trattamento in un unico tempo chirurgico. Sulla base di questo razionale, dopo uno studio preclinico animale e previa autorizzazione del comitato etico locale, abbiamo condotto uno studio clinico clinico pilota utilizzando un nuovo innesto biomimetico nanostrutturato per il trattamento di lesioni condrali ed osteocondrali del ginocchio; la sua sicurezza e maneggevolezza, così come la facile riproducibilità della tecnica chirurgica ed i risultati clinici ottenuti sono stati valutati nel tempo a 6, 12, 24, 36 e 48 mesi dall’impianto in modo da testare il suo potenziale intrinseco senza l’aggiunta di alcuna linea cellulare. / Different techniques have been proposed across the years to treat osteochondral diseases, from minimally-invasive bone marrow stimulation techniques,to some more aggressive approaches. By the way, these methods have some defects and osteochondral lesions are still a challenge for the orthopedic surgeon due to both the high specialization and the low healing potential of the cartilage tissue. Good results have been observed with bioengineered scaffolds or polymeric matrices implanted in the injured area.The range of scaffolds in use for chondral or osteochondral
repair is very wide; they differ not only with respect to the type of the materials used for their realization, but also for the presence or absence of one or more cell lines, either chondrogenic or osteogenic. When approaching big chondral lesions, the subchondral bone is also involved and it needs to be treated in order to have a correct restoration of the most superficial layers of the joint. The smartest treatment choice seems to be a cell-free osteochondral scaffold, an off-the–shelf product, thus immediately available, avoiding the double surgical time.
Following this rationale, after a preclinical animal study and under approval of the local ethics committee, we performed a clinical pilot study using a newly developed nanostructured biomimetic scaffold to treat chondral and osteochondral lesions of the knee; its safety and manageability, as much as the surgical procedure reproducibility and the clinical outcomes, have been evaluated at 6, 12, 24, 36 and 48 months of follow-up in order to test its intrinsic potential without any cells culture aid.
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Valutazione sperimentale della rigenerazione cartilaginea articolare dopo stimolazione biofisica con campi elettromagnetici pulsati in associazione a trattamenti chirurgici / Evaluation of articular cartilage repair with pulsed electromagnetic fields in association with different surgical techniques in an experimental model in rabbitsCadossi, Matteo <1978> 10 June 2013 (has links)
Diverse tecniche di ingegneria tessutale sono state sviluppate per promuovere la riparazione delle lesioni della cartilagine articolare. Nonostante i buoni risultati clinici a breve termine, il tessuto rigenerato fallisce nel tempo poiché non possiede le caratteristiche meccaniche e funzionali della cartilagine articolare nativa. La stimolazione con campi elettromagnetici pulsati (CEMP) rappresenta un approccio terapeutico innovativo. I CEMP aumentano l’attività anabolica dei condrociti con conseguente incremento della sintesi della matrice, e limitano l’effetto catabolico delle citochine pro-infiammatorie riducendo la degradazione della cartilagine nel microambiente articolare. I CEMP agiscono mediante l’up-regolazione dei recettori adenosinici A2A potenziando il loro affetto anti-infiammatorio. Lo scopo di questo studio è stato quello di valutare l’effetto della stimolazione con CEMP sulla guarigione di difetti osteocondrali in un modello sperimentale nel coniglio. Un difetto osteocondrale del diametro di 4mm è stato eseguito nel condilo femorale mediale di entrambe le ginocchia di 20 conigli. A destra la lesione è stata lasciata a guarigione spontanea mentre a sinistra e stata trattata mediante inserimento di scaffold collagenico o trapianto di cellule mesenchimali midollari sul medesimo scaffold precedentemente prelevate dalla cresta iliaca. In base al trattamento eseguito 10 animali sono stati stimolati con CEMP 4 ore/die per 40 giorni mentre altri 10 hanno ricevuto stimolatori placebo. Dopo il sacrificio a 40 giorni, sono state eseguite analisi istologiche mediante un punteggio di O’Driscoll modificato. Confrontando le lesioni lasciate a guarigione spontanea, la stimolazione con CEMP ha migliorato significativamente il punteggio (p=0.021). Lo stesso risultato si è osservato nel confronto tra lesioni trattate mediante trapianto di cellule mesenchimali midollari (p=0.032). Nessuna differenza è stata osservata tra animali stimolati e placebo quando la lesione è stata trattata con il solo scaffold (p=0.413). La stimolazione con CEMP è risultata efficace nel promuovere la guarigione di difetti osteocartilaginei in associazione a tecniche chirurgiche di ingegneria tessutale. / Several tissue engineering approaches have been developed to address hyaline cartilage lesions, but to date there is not a definitive procedure able to promote a repair tissue with the same mechanical and functional characteristics of native cartilage. Pulsed electromagnetic fields stimulation (PEMFs) represents an innovative therapeutic approach. PEMFs increases the anabolic activity of chondrocytes with consequent increase of matrix synthesis, and limits the catabolic effects of inflammatory cytokines, thus reducing cartilage degradation inside the surgical microenvironment. PEMFs mediate an upregulation of A2A adenosine receptors and a potentiation of their anti-inflammatory effects. This study aimed to determine the efficacy of PEMFs in experimental osteochondral defect healing in a rabbit model. Both knees joints of 20 rabbits were exposed and a 4mm diameter osteochondral defect was created in the medial femoral condile. The defect in the right knee was left untreated while in the left knee was filled either with collagen scaffold or with the same scaffold loaded with bone marrow-derived cells previously harvested from the iliac crest. According to the treatment performed 10 rabbits were given PEMF of four hours duration per day for 40 days while other 10 were given sham stimulators. At 40 days the animals were sacrificed and histological evaluation was performed. The quality of the repair tissue was graded with the O’Driscoll modified score and a statistical analysis was done. By comparing the defects left untreated PEMFs significantly improved the histological score (p=0.021). The same result was observed when comparing lesions treated with scaffold loaded with bone marrow-derived cells (p=0.032). No significant difference was found between stimulated or sham treated animals when the defect was filled with the scaffold alone (p=0.413). PEMFs was an effective method to improve healing of osteochondral defects in association with current surgical tissue engineering techniques.
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La navigazione nella chirurgia oncologica ortopedica: Applicazione ed implementazione di nuove tecnologie per il trattamento chirurgico dei tumori dell'apparato muscolo-scheletrico, studio pilota / Computer assisted orthopaedic oncology surgery: application and implementation of new technology to the surgical treatment of musculoskeletal tumors, pilot studyToscano, Angelo <1979> 16 May 2014 (has links)
Nel presente progetto di ricerca, da novembre 2011 a novembre 2013 , sono stati trattati chirurgicamente, con l’assistenza del navigatore , pazienti con tumori ossei primitivi degli arti, del bacino e del sacro, analizzando i risultati degli esami istologici dei margini di resezione del tumore e i risultati clinici e radiografici.
Materiali e metodi :
Abbiamo analizzato 16 pazienti 9 maschi e 7 femmine , con un'età media di 31 anni (range 12-55 ). Di tutti i pazienti valutati 8 avevano una localizzazione agli arti inferiori , 4 al bacino e 4 all'osso sacro . Solo quelli con osteosarcoma parostale , Cordoma e Condrosarcoma non sono stati sottoposti a terapia antiblastica . Solo un paziente è stato sottoposto a radioterapia postoperatoria per una recidiva locale . Tutti gli altri pazienti non sono stati trattati con la radioterapia per l’ adeguatezza dei margini di resezione . Non ci sono state complicanze intraoperatorie . Nel periodo postoperatorio abbiamo osservato una vescica neurologica , una paresi sciatica, due casi di infezione di cui una superficiale e una profonda, tutti e quattro i pazienti con sarcoma sacrale sviluppati hanno avuto ritardato della guarigione della ferita e di questi tre hanno avuto incontinenza sfinterica. In tutti i casi si è ottenuta una eccellente risultato clinico e radiografico , con soddisfazione del paziente , corretto contatto tra l'osteotomia e l'impianto che apparivano stabili ai primi controlli ambulatoriali ( FU 19 mesi).
Risultati:
La chirurgia assistita da calcolatore ha permesso di migliorare l’esecuzione delle resezioni ossee prevista dal navigatore. Questa tecnologia è valida e utile per la cure dei tumori dell’apparato scheletrico, soprattutto nelle sedi anatomiche più complesse da trattare come la pelvi, il sacro e nelle resezioni intercalari difficoltose nell’ottenere un margine di resezione ampio e quindi di salvare l’articolazione e l’arto stesso. / In the present research project, from november 2011 to november 2013, patients with primary bone tumors of the extremities, pelvis and sacrum have been treated using computer assisted surgery evaluating the histological examination results of tumor resection margins and the clinical and radiological outcome.
Materials and methods:
We analized 16 patients 9 males and 7 females with a mean age of 31 years (range 12-55) and the primary bone tumors had different location, histology and grade. Of all the patients evaluated 8 had a localization to the lower limbs, 4 to the pelvis and 4 to the sacrum. Only those with parostale Osteosarcoma, Chordoma and Condrosarcoma have not been undergone to antiblastic treatment. Only one patients was subjected to postoperative radiotherapy for a local recurrence. All other patients were not treated with radiotherapy because of the adequacy of resection. There were no intraoperative complications. In the early postoperative period occured one neurological bladder, one sciatic paresis, two cases of infection one of which superficial and one deep; all the four patients with a sacral localizzation developed delayed wound healing and of these three developed sphincter incontinence. In all cases we obtained an excellent clinical and radiographic result, with patient satisfaction, proper contact between the osteotomy and the implant with a good stability to the first outpatient controls (FU 19 months).
Results:
Computer-assisted tumor surgery, with CT and MRI images fusion, has helped to improve the quality of the bone resections planned by the navigator and this may help reduce the risks of local recurrences. This technology is effective and useful for the treatment of musculoskeletal tumors, especially in complex anatomical sites like pelvis, sacrum and in intercalary resections and in all that cases where tumor resection could be difficult due to distorted surgical anatomy.
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