Design criteria for tissue-engineered materials in regenerative medicine include robust biological effectiveness, off-the-shelf availability, and scalable manufacturing under standardized conditions. For bone repair, existing strategies rely on primary autologous cells, associated with unpredictable performance, limited availability and complex logistic. Here, we report the manufacturing of engineered and devitalized human hypertrophic cartilage (HyC) as cell-free material inducing bone formation by recapitulating the developmental process of endochondral ossification. Our strategy relies on a customized human mesenchymal line expressing Bone Morphogenetic Protein-2 (BMP-2), critically required for robust chondrogenesis and concomitant extracellular matrix (ECM) enrichment. Following apoptosis-driven devitalization, lyophilization and storage, the resulting material exhibited unprecedented osteoinductive properties, unmatched by synthetic delivery of BMP-2 or by living engineered grafts. Scalability and pre-clinical efficacy were demonstrated by bioreactor-based production and subsequent orthotopic assessment. Our findings exemplify the broader paradigm of customized ECMs, engineered to activate specific regenerative processes by programming human cell lines as biological factory units.

Aims

Dystrophic calcification (DC) is the abnormal appearance of calcified deposits in degenerating tissue, often associated with injury. Extensive DC can lead to heterotopic ossification (HO), a pathological condition of ectopic bone formation. The highest rate of HO was found in combat-related blast injuries, a polytrauma condition with severe muscle injury. It has been noted that the incidence of HO significantly increased in the residual limbs of combat-injured patients if the final amputation was performed within the zone of injury compared to that which was proximal to the zone of injury. While aggressive limb salvage strategies may maximize the function of the residual limb, they may increase the possibility of retaining non-viable muscle tissue inside the body. In this study, we hypothesized that residual dead muscle tissue at the zone of injury could promote HO formation.

Aims

We analyzed the long-term outcomes of patients observed over ten years after resection en bloc and reconstruction with extracorporeal irradiated autografts

Aims

Type IIIB open tibial fractures are devastating high-energy injuries. At initial debridement, the surgeon will often be faced with large bone fragments with tenuous, if any, soft-tissue attachments. Conventionally these are discarded to avoid infection. We aimed to determine if orthoplastic reconstruction using mechanically relevant devitalized bone (ORDB) was associated with an increased infection rate in type IIIB open tibial shaft fractures.

Introduction: At EFORT 2007 – Thomazeau, Duparc and Hertel excellently formulated principles that may help to decide which types of comminuted dislocated fractures should be resolved by osteosynthesis and which ones by arthroplasty – regarding blood supply of the humeral head. In following section Baker, Shahid, Biberthaler, Farron and Kääb presented results of treatment of complicated fractures by Philos plate. The fact that emerging from these presentations is that using of angular stable implants may lead in many cases to the failure of osteosynthesis, especially in osteoporotic humeral head and/or small size of head.

In their presented work authors summarize the results of using Philos plate in ultimate indications. These are – dislocated proximal humeral fractures with abruption of the head in anatomical neck, where head fragment is so much thin and eventually osteoporotic, that fixation of any osteosynthetic component would be technically impossible. These cases include even situations where head fragment is then splitted into two major fragments.

Method: In our Clinic we have used the Philos plate in 54 cases during last four years. 11 cases of it were indications for arthroplasty according to general principles. In four of 11 cases head was abrupted into two major fragments, and in four of 11 cases head was completely separated from soft tissues and deprived of blood supply. Despite of that, there was performed a reconstruction by Philos plate considering low age of patients/range of age 26 to 54 years/as an attempt for humeral head preservation. Procedure was performed entirely by most experienced surgeons.

Results: Evaluation was performed 1 to 2 years after osteosynthesis. In all eleven cases full healing was found. In 4 cases there is clear remodelling of the head without any collapse of it. Also function of operated shoulder articulations enables the return of extremity functioning. We monitored no significant pain of the joint in any patients.

Conclusion: Angular stable implant allows an attempt for salvage of anatomical head even in cases with head disruption and devitalized fragment.

Presentation supported by grants MSMT CR 57/226010NPV, GA CR 106/04/1118 and FT–TA3/131