Successful reimplantation of extruded long bone segments in open fractures of lower limb--a report of 3 cases

Successful Reimplantation of Extruded Ulnar Diaphyseal Segment: A Case Report and Review of Literature

CASE

A 32-year-old man presented with a type II open both-bone forearm fracture and segmental bone loss because of complete extrusion of a diaphyseal fragment (3 cm) of ulna. The patient presented to our level 1 trauma center after a motor vehicle collision. The extruded segment underwent sterilization and immediate reimplantation with internal fixation approximately 6 hours after arrival. Our patient achieved union by 7-month follow-up, demonstrated excellent functional outcomes, and was free from infection at 1-year follow-up.

CONCLUSION

In select cases, successful reimplantation can be achieved by meticulous debridement, sterilization, and immediate reimplantation with internal fixation.

Successful reimplantation of extruded bone segment in lower limb open fractures: case report and literature review

Objective

The aim of this study is to summarize and demonstrate the different sterilization methods and surgical techniques for open fractures with impacted bone segments in the lower limbs.

Methods

A retrospective analysis was conducted on the clinical characteristics, treatment methods, and outcomes of a case involving a 10.5 cm extruded segment of the femur in a 9-year-old male with a right femoral comminuted fracture treated at our center. Additionally, a retrospective review and summary were conducted on all reported cases of open fractures with impacted bone segments in the lower limbs.

Results

Our center treated a 9-year and 11-month-old male child who presented with a Gustilo type IIIB open fracture of the femur along with a large segment of the femur being ejected as a result of a car accident. The child was resuscitated to correct hypovolemic shock, underwent emergency wound debridement, and had Ilizarov external fixation of the femur. The ejected femur segment was sterilized using ethylene oxide and re-implanted four days after the injury. A literature review showed that out of the cases of open fractures with impacted bone segments in the lower limbs, there were 14 cases involving the femur and 5 cases involving the tibia. Among them, sterilization was performed using povidone-iodine in 6 cases, high-pressure steam sterilization in 3 cases, and other methods including gamma-ray irradiation and soaking in antibacterial solution were used in the remaining cases. In terms of surgical methods, 7 cases were fixed with locking plates, 3 cases were fixed with external fixation devices, 1 case was immobilized in a cast, 1 case was fixed with an intramedullary rod, and 4 cases involved a combination of external fixation and internal fixation. The average time for re-implantation was 7.6 days after the injury. There were no serious complications such as infection or non-union observed in any of the cases during follow-up.

Conclusion

Ethylene oxide can be considered a reliable choice for the reimplantation of displaced bone segments in open fractures after sterilization.

Current Perspectives on the Management of Bone Fragments in Open Tibial Fractures: New Developments and Future Directions

Open tibial fractures may be associated with bone loss at the time of the injury or following surgical debridement of the fracture. This article discusses the various treatment options available and the latest developments surrounding the management of free bone fragments in open tibial fractures.

Successful sterilization and immediate reimplantation of extruded femoral diaphyseal segment: A case report and review of literature

Extrusion of bone is a rare situation in open fractures due to high energy trauma. There are few studies, reporting successful reimplantation of the extruded bone segment using various sterilization and fixation protocols. However, there are no definitive treatment strategies for this challenging situation. We report a case of 30-year-old male patient with grade IIIB compound right distal femur fracture with an extruded long bone segment, who was treated with successful sterilization and immediate reimplantation of an extruded long diaphyseal segment of distal femur following extensive cleaning with sterile normal saline, removal of debris with scrubbing by sterile brush, soakage in the broad-spectrum antimicrobial solution for 30 min, sterilization by autoclaving at 121°C for 45 min, and reimplantation during stable internal fixation with lateral distal femur locking plate using Arbeitsgemeinschaft für Osteosynthesefragen techniques. At 3 months, iliac crest bone grafting, osteoperiosteal flaps, and augmented fixation with a medial locking plate were performed through a subvastus approach for a void in the medial supracondylar femur region. Intraoperatively, punctate bleeding was observed from the reimplanted fragment. Infection was ruled out with normal leukocyte count, C-reactive protein marker, no evidence of unhealthy granulation tissue, and a sterile culture report from the fracture site. The fracture healed in 12 months and the patient had good functional outcome with a lower extremity functional score of 80% and knee range of motion of 110° at short-term follow up of 2 years without any complication. Decision of reimplantation is individualized depending on the time of presentation, contamination, and comminution of extruded fragment with scarce literature on standard treatment strategies. In our case, early presentation, meticulous debridement, unique sterilization technique, immediate reimplantation, and augmented dual distal femur plating with bone grafting aided in achieving successful union with good functional outcome and knee range of motion, avoiding any complications.

Successful Reimplantation of an 18-cm-Long Extruded Femur in an Open Fracture: A Case Report

CASE

A 45-year-old man presented with a Gustillo Anderson type III A open segmental right femur shaft fracture with intercondylar extension and with an 18-cm extruded segment of bone. After sterilization, the segment of bone was reimplanted. The fracture healed, and the patient is ambulant without support with no signs of any infection after 2 years of follow-up.

CONCLUSIONS

In cases of open fracture with an extruded bone segment available, depending on the timing of presentation, soft tissue status, and level of contamination of the bone segment, reimplantation of the extruded bone can yield a satisfactory result.

Advancements and frontiers in nano-based 3D and 4D scaffolds for bone and cartilage tissue engineering

Given the enormous increase in the risks of bone and cartilage defects with the rise in the aging population, the current treatments available are insufficient for handling this burden, and the supply of donor organs for transplantation is limited. Therefore, tissue engineering is a promising approach for treating such defects. Advances in materials research and high-tech optimized fabrication of scaffolds have increased the efficiency of tissue engineering. Electrospun nanofibrous scaffolds and hydrogel scaffolds mimic the native extracellular matrix of bone, providing a support for bone and cartilage tissue engineering by increasing cell viability, adhesion, propagation, and homing, and osteogenic isolation and differentiation, vascularization, host integration, and load bearing. The use of these scaffolds with advanced three- and four-dimensional printing technologies has enabled customized bone grafting. In this review, we discuss the different approaches used for cartilage and bone tissue engineering.

Unified classification of open fractures: Based on Gustilo and OTA classification schemes

BACKGROUND

The Orthopaedic Trauma Association (OTA) classification scheme for open fractures has improved precision, validity and reliability over the modified Gustilo classification system. However, it needs to be modified into a simple and practical classification system to gain widespread acceptance and application.

MATERIAL AND METHODS

We devised a new "unified" classification of open fractures based on the Gustilo and OTA classification systems. The new classification was tested for interobserver reliability on five different fractures classified by 15 surgeons each using the Krippendorff's alpha. Preference of surgeons for the Gustilo, OTA and unified classifications was assessed.

RESULTS

The new classification showed excellent interobserver reliability (α = 0.93). A significantly higher number of surgeons expressed preference for the new over the Gustilo and OTA classifications for routine clinical use.

CONCLUSION

The new "unified" classification of open fractures has good validity, reliability and acceptability, and has the potential to replace all other existing classification systems.

Head-on Allograft Transplantation: A Unique Case Report Where a Large Piece of Femoral Bone was Extruded from One Patient's Body and Impaled Another Patient's Tibia

Introduction:

Open femoral fractures are relatively uncommon occurrences, with few reports addressing their management. They are caused by high-energy mechanisms, and bone loss is a possible, but infrequent occurrence. We present a case in which two friends, 20- and 21-year-old males, were involved in a motorcycle collision. A large piece of bone was ejected from one patient’s femur as a bony projectile and impaled the other patient’s tibia, resulting in an open tibial plateau fracture. This is the first case in the English literature, to the best of our knowledge, in which a piece of bone was ejected from one patient, causing a fracture in another.

Case Report:

Two males, in their mid-twenties, were involved in a head-on motorcycle collision. Both patients sustained open fractures to their lower extremities. A large piece of bone was ejected from one patient’s femur and impaled the other patient’s tibia, causing an open tibial plateau fracture. The patient who provided the bony projectile underwent retrograde intramedullary nail fixation. The segmental piece of bone was not replanted, and he went on to heal without negative sequelae at 2-year follow-up.

Conclusion:

To the best of our knowledge, this is the first case documented in the English literature in which an ejected piece of bone from one person caused a fracture in another fracture. Management of extruded bone segments should be considered on a case-by-case basis.

Reimplantation of an extruded osteoarticular segment of the femur: Case series and in vitro study in a rat model

BACKGROUND

The treatment of open femur fractures with reimplantation of large extruded segments remains one of the most difficult clinical management scenarios. The situation is even complicated when the extruded segments contains a large osteoarticular segment and no consensus exist about the efficient sterilization. We successfully managed five cases of open femur fracture by reimplantation of a large osteoarticular segment. While the outcomes were favourable, we performed an in vitro investigation in a rat model to determine whether the bone segment preparation strategy was optimal.

MATERIALS AND METHODS

After meticulous debridement and sterilization with povidone-iodine scrub/orthopaedic antibiotic solution, osteoarticular segments of the femur were reimplanted successfully in five patients with Gustilo-Anderson IIIa-IIIb fractures. Furthermore, in vitro study performed to assess the relative efficacy of various methods of sterilization employed osteoarticular segments of rat femurs. After contamination, osteoarticular segments were treated via one of the following protocols: (1) saline rinse; (2) povidone-iodine scrub and saline rinse; (3) povidone-iodine scrub and autoclaving; (4) povidone-iodine scrub and immersion in antibiotic solution; (5) povidone-iodine scrub and immersion in povidone-iodine solution; or (6) povidone-iodine scrub and gamma-irradiation. The osteoarticular segments were then cultured and finally evaluated for infection and morphological changes.

RESULTS

At the mean 40 month follow-up, there were no infection in the patients and the fractures achieved completed union. For the basic research, only approaches involving povidone-iodine scrub with autoclaving or antibiotic solution immersion were 100% effective in eliminating bacterial growth. Furthermore, povidone-iodine scrub with antibiotic solution immersion preserved the articular surface morphology.

CONCLUSION

Our study suggests that reimplantation of extruded osteoarticular segments of long bone may represent a feasible alternative to amputation. This is the first description of such a technique and its long-term outcomes in the clinical setting, which were corroborated with the outcomes of in vitro investigation in a rat model, concluding that contaminated extruded osteoarticular segments can be adequately sterilized for reimplantation by cleaning with povidone-iodine scrub followed by brief soaking in antibiotic solution. However, it remains unclear whether the antibacterial efficacy of different sterilizations noted in vitro is reflected in vivo, warranting further research.

Treatment of an atrophic clavicle non-union with the chamber induction technique: a case report

The gold standard technique for treating non-union of the clavicle is based on corticocancellous bone graft harvested from the iliac crest and fixation with a plate. In cases of large clavicular defects, this surgical procedure becomes ineffective and only a complex bone reconstruction can be considered. In the herein study we report on a clavicular non-union which was associated with a 4cm bone defect that was managed successfully with optimum fixation and the Chamber Induction Technique (C.I.T)-formation of the masquelet membrane- and subsequent biological augmentation with a composite bone graft.

Challenges of bone tissue engineering in orthopaedic patients

Bone defects may impede normal biomechanics and the structural stability of bone as an organ. In many cases, the correction of bone defects requires extensive surgical intervention involving the use of bone-grafting techniques and other procedures in which healing is slow, there is a high risk of infection and considerable pain is provoked - with no guarantee of complete correction of the defect. Therefore, the search for surgical alternatives continues to present a major challenge in orthopaedic traumatology. The reamer-irrigator-aspirator (RIA) system, which was devised to avoid the problems that can arise with autograft harvesting from the iliac crest, consists of collecting the product of the femoral canal after reaming. The RIA technique improves osteogenic differentiation of mesenchymal stem cells, compared to bone marrow aspiration or cancellous bone harvesting from the iliac crest using a spoon. Another approach, the Masquelet technique, consists of reconstructing a long bone defect by means of an induced membrane grown onto an acrylic cement rod inserted to fill the defect; in a second surgical step, once the membrane is constituted, the cement rod is removed and cancellous autograft is used to fill the defect. Both in RIA and in the Masquelet technique, osteosynthesis is usually needed. Bone transportation by compression-distraction lengthening principles is commonly implemented for the treatment of large bone loss. However, complications are frequently encountered with these techniques. Among new techniques that have been proposed to address the problem of large bone loss, the application of stem cells in conjunction with tissue engineering techniques is very promising, as is the creation of personalised medicine (or precision medicine), in which molecular profiling technologies are used to tailor the therapeutic strategy, to ensure the right method is applied for the right person at the right time, after determining the predisposition to disease among the general population. All of the above techniques for addressing bone defects are discussed in this paper.

Reimplantation of a Large Extruded Segment of Bone in an Open Fracture

Replacing an extruded segment of bone in an open fracture imposes a challenging decision concerning the best and safest patient management. There are numerous advantages to restoring the patient's own extruded bone segment to its original location, particularly when the bone segment is of structural importance. However, reimplantation of contaminated and avascular extruded bone segments can potentially result in serious infection or nonunion. There is no conclusive evidence regarding the best decontamination protocol for the safest use of the recovered bone segment as an autologous graft. Among the different chemical sterilization solutions 10% povidone-iodine and chlorhexidine gluconate solutions are the author's most preferred solutions. Regarding cellular toxicity, 10% povidone-iodine has been found to be the most favorable among the readily available solutions.

Prevalence and risk factors for re-interventions following reamed intramedullary tibia nailing

INTRODUCTION

This study aimed to identify the prevalence and the risk factors for re-interventions following reamed intramedullary nailing (IMN) of tibial shaft fractures.

PATIENTS AND METHODS

We retrospectively analysed a prospectively populated data of adult patients that underwent reamed intramedullary nailing for stabilization of tibial shaft fractures over a period of three years. Exclusion criteria were immature patients, pathological and periarticular fractures. Data collected included patient demographics, mechanism of injury, open or closed injury pattern, ISS, perioperative complications, reintervention characteristics (time, cause, number), smoking habits, medical co-morbidities and progress to radiological fracture union. Fractures were classified according to AO/OTA system. The cohort of these patients was divided in two groups: Group 1 included the patients who healed uneventfully and Group 2 included the patients who underwent a re-intervention for the healing of the fracture. A logistic regression analysis model was used to assess the odds ratio (OR) of identified risk factors predicting the necessity of re-interventions.

RESULTS

181 (129 male) patients with a mean age of 37 (range 16-87) met the inclusion criteria. 30 patients were excluded due to inadequate follow up, leaving 151 patients for the study group. 119 patients were included in Group 1. 32 (21.2%) patients who had at least one re-intervention (range 1-3) were included in Group 2. The most common causes for re-intervention were aseptic non-union (31.3%) and removal of implants due to soft tissue irritation/anterior knee pain (31.3%), followed by early metalwork failure (12.5%), infected non-union (9.4%), correction of rotational deformities (9.4%) and canal intramedullary sepsis with evident fracture healing (6.3%). 29 (25.8%) from the study cohort patients sustained an open fracture and 8 of them underwent a re-intervention (20.5% of interventions). Incidence of fracture pattern 42-B, C was statistically significant greater in the reintervention (40.6%) compared to the non-re-intervention group (23.53%) (p = 0.026). Risk factors predicting the need for re-interventions included the type of fracture B, C (p = 0.026 OR: 2.528, range: 1.117-5.721) and increased alcohol consumption (p = 0.027/OR: 2.618, range: 1.116-6.141).

CONCLUSION

Fracture pattern and alcohol abuse were highly predictive for re-interventions following reamed IM nailing for stabilization of acute tibial shaft fractures.

Reconstruction of patellar tendon following implantation of proximal tibia megaprosthesis for the treatment of post-traumatic septic bone defects

INTRODUCTION

Latest advances made in joint replacement implants allows reconstruction of entire limbs. These special prostheses or megaprostheses were originally designed for the treatment of severe oncological bone loss. Nowadays, however, the indications and applications of these devices are expanding to other orthopaedic and trauma clinical conditions. Since 2008 we have implanted 152 megaprostheses in non-oncological conditions: 87 were implanted for post-traumatic failures aseptic/septic (represented by complex non-unions and critical size bone defects); 26 total femur, 52 distal femur and 9 proximal tibia. In this group of patients bone and soft tissues conditions are completely different compared to patients with oncological back ground. The presence of infection and previous surgeries can lead to adhesion, scar interference, muscular and tendon impairment and skin problems that lead to reduced function and severe joint stiffness. The purpose of this study is to evaluate the results of treatment of reconstruction of patellar tendon during implantation of proximal tibia megaprosthesis for the treatment of septic post traumatic critical bone defects.

PATIENTS AND METHODS

In this retrospective study, we evaluated 9 patients treated with proximal tibia megaprosthesis who underwent patellar tendon reconstruction. All patients presented a complete patellar tendon disruption at the time of prosthesis implantation. Procedures of reconstruction included a tendon-plasty of quadriceps and/or patellar tendons, a pie crusting of quadriceps fascia, a reinforcement of the apparatus with synthetic tendon graft substitutes (LARS) and a medial gastrocnemius muscular flap to reconstruct the extensor mechanism and obtain skin coverage when needed. The average follow up was 18 months (9-36). For each of the cases, we analysed the complications occurred regarding septic recurrence, patellar fracture, quadriceps and patellar tendon rupture and number of reinterventions. The clinical outcome was assessed by the WOMAC Score.

RESULTS

In all cases there was no infection recurrence or skin related problems. None of the patients require prosthesis revision due to loosening or device failure. No patellar fracture or quadriceps tendon failure was recorded. One patient presented a rupture of the reconstructed patellar tendon due to a trauma incident 18 months after the implantation and he required revision surgery. From a clinical point of view the average WOMAC score was 62.4 at 1 month rising to 72.6 at 3 months, 78.2 at 6 months, 76.4 at 1 year and 74.8 at 18 months.

CONCLUSION

When proximal tibia megaprosthesis is implanted and there are soft tissue and patellar tendon deficiency, soft tissue reconstruction can be achieved by appropriate lengthening of the tendon and a gastrocnemius flap reinforced by LARS. Such an approach allows restoration of the extensor mechanism and coverage of the prosthesis in an area where skin problems are frequently very common.

Restoration of long bone defects treated with the induced membrane technique: protocol and outcomes

This prospective study was undertaken at a regional tertiary referral centre to evaluate the results of treatment of bone defects managed with the induced membrane (IM) technique. Inclusion criteria were patients with bone defects secondary to septic non-union, chronic osteomyelitis and acute fracture with bone loss. Pathological fractures with bone loss were excluded. Data collection included patient demographics, pathology, previous surgical intervention, size of bone defect, type of graft implanted, time-to-union and complications/reinterventions. The minimum time of follow up was 12 months. Forty-three patients (32 males) met the inclusion criteria with a mean age of 47.9 years (range 18-80 years). 22 patients had an acute traumatic bone loss associated with open fracture and 21 presented with an infected non-union or underlying osteomyelitis requiring bone excision. The most common microorganisms grown were staphylcoccous aureus and coagulase negative staphylococcous. The mean length of the bone defect area was 4.2 cm (range 2-12 cm). All patients were managed with the two stage technique receiving composited grafting (Autologous bone graft (Iliac crest/RIA), graft expander as required, osteoprogenitor cells, growth factor) during the second stage. There was one failure (humeral infected non-union) in a previous background of bone radiation that necessitated reconstruction with a free fibula vascularized graft. One patient had a fall and sustained implant failure (humeral defect) 3 months after reconstruction and following re-plating progressed to union 4 months later. Two patients required re-grafting due to failure of healing in one of the defect sides. One patient presented with a discharging sinus 2 years after successful healing of a tibial defect that was treated successfully with soft tissue and bone debridement without necessitating further interventions. One patient despite union (distal 1/3 tibia) underwent a below knee amputation due to a dysfunctional ankle/foot (previous foot compartment syndrome-regional pain syndrome). Of those patients, with lower limb injuries, 4 patients had leg length discrepancies of 1 cm, 1.5 cm, 2 cm (two patients) respectively. The mean time to radiological union was 5.4 months (range 2-12 months). The average time of healing of 1 cm bone defect was 1.24 months. Patients with upper limb reconstruction recovered earlier than those with lower limb injuries. At the latest follow up all patients were able to mobilize full weight bearing without residual pain. The induced membrane technique appears to be an alternative good option for the management of large bone defects secondary to acute bone loss or infected non-unions. The incidence of re-interventions was low in this challenging cohort of patients. The technique should be considered in the surgeon's armamentarium as it is effective and is associated with a low rate of complications.

Histological evolution of the regenerate during bone transport: an experimental study in sheep

INTRODUCTION

Bone transport (BT) for segmentary bone defects is a well-known technique as it enables correction with new bone formation, which is similar to the previous bone. Despite the high number of experimental studies of distraction osteogenesis in bone lengthening, the types of ossification and histological changes that occur in the regenerate of the bone transport process remain controversial.

OBJECTIVE

The aim of this study is to provide the complete evolution of tissues and the types of ossification in the regenerate during the different phases of bone formation after BT until the end of the remodelling period.

METHODS

A histological study was performed using ten adult sheep that were submitted to BT. The types of ossification as well as the evolution of different tissues in the regenerate were determined using histomorphometry and inmunohistochemical studies. The evolution of trabeculae thickness, osteoblast and osteoclast densities, relationship between collagen types and changes in vascularization were also studied.

RESULTS

Ossification was primarily intramembranous, with some focus of endochondral ossification in isolated animals. The cell counts showed a progression of cellular activity from the periphery to the centre, presenting the same progression as the growth of bone trabeculae, whose trabeculae thickness was quadrupled at the end of remodelling. Inmunohistochemical studies confirmed the prevalence of type I collagen and the ratio of the Type I/Type II collagen ratio was found to be 2.48. The percentages of the vascularized areas were proximally higher than distally in all animals, but distal zone obtained higher rates than the central region.

CONCLUSIONS

Bone transport regenerate exhibits a centripetal ossification model and a mixed pattern with predominance of intramembranous over endochondral ossification. The data obtained resemble partially to those found in models of bone lengthening applied to large animals. This study provides a detailed structural characterization of the newly formed tissue, which may help to explain the development of the regenerate of bone transport in humans. It will also serve for future mechanobiological models that may aid research on the effect of loading or distractor stiffness in clinical results.

A novel technique for reimplanting extruded bone fragments in open fractures

Extruded bone fragments are a rare complication of high-energy open fractures. Generally, management is thorough debridement and managing the bone defect. In the literature, there are only a few case reports where successful retention of the free bone fragment has been done. Disinfection of bone fragment is done by autoclaving or use of antiseptic/antibiotic solution. Autoclaving leads to complete loss of viable cells and antiseptic/antibiotic solutions do not disinfect completely. In this case report, authors present an innovative technique of disinfecting the bone fragment effectively with minimum compromise on biology. A 38-year-old male with compound grade III B comminuted fracture of distal femur with 2 extruding bone pieces was managed by thorough debridement, external fixator and antibiotic cement spacer. The extruded bone fragments were rinsed in saline and diluted betadine and implanted in subfascial plane in healthy soft tissues in the thigh along with a few antibiotic beads for assuring disinfection. After 1 week, when no clinical signs of infection were found, the site was opened, cement spacer removed, free fragments positioned anatomically and rigid internal fixation was done. Fracture united at 6 months with good functional outcome. At last follow-up at 1 year, the patient was mobilising freely and there were no signs of low grade infection. The key points of this procedure are:1)Viability of bone fragment maintained while achieving disinfection.2)Traumatised soft tissues healed and prepared for accepting the free bone fragment.3)Use of antibiotic cement counters any remaining chances of infection after thorough debridement.4)Faster union with maintenance of bone length and alignment with use of anatomic fragments. Extensive search of literature was done and this procedure was found to be novel. A larger case series can help in determining the utility of this technique in compound fractures.

Bacterial contamination of open fractures - pathogens, antibiotic resistances and therapeutic regimes in four hospitals of the trauma network Cologne, Germany

INTRODUCTION

The bacterial contamination of soft tissues and bone in open fractures leads to an infection rate of up to 50%. Pathogens and their resistance against therapeutic agents change with time and vary in different regions. In this work, our aims were to characterize the bacterial spectrum present in open fractures, analyze the bacterial resistance to antibiotic agents and question the EAST guideline recommendations for antibiotic prophylaxis after open fractures in a German Trauma Network.

MATERIALS AND METHODS

We conducted a retrospective cohort study and included all patients with open fractures from 1(st) of January 2011 until the 31(st) of December 2014 in four hospitals of the trauma network cologne. Soft tissue damage was classified according to the Gustilo Anderson classification.

RESULTS

We included 123 patients. Forty-five injuries (37%) were classified I°, 45 (37%) as II° and 33 (27%) as III°. Lower leg (34%) was the most commonly injured location. An antibiotic prophylaxis was administered to 109 patients (89%). In 107 of them (98%) a cephalosporin or cephalosporin combination was given. In 35 of the patients (28%), microbiological samples were taken of the fracture site. Wound cultures were positive in 21 patients (60%). Fifty percent of the bacterial detections occurred in III° fractures. Coagulase negative Staphylococci (COST) were the most frequent pathogens. In II° open fractures one gram-negative strain was isolated. Fewest resistances were seen against quinolones and co-trimoxazole.

DISCUSSION

The recommended EAST guideline prophylaxis would have covered all but one bacterium (97% of positive cultures). One Escherichia coli was found in a II° open fracture and would have been missed. One of the isolated Staphylococci epidermidis and an Enterococcus faecium were resistant against gentamycin and first- and second-generation-cephalosporin's which were used as prophylaxis frequently. However, a regional adaption of the EAST guidelines seems not justified due to the rather low number of cases in our study.

CONCLUSION

The EAST guideline seems to be adequate in a high percentage of cases (97%) in the setting of the trauma network cologne. Further research should be guided at identification of initial open fracture pathogens to improve the efficiency of antibiotic prophylaxis.

Reconstruction of septic diaphyseal bone defects with the induced membrane technique

Septic segmental bone voids of the diaphysis are difficult to manage. The induced membrane technique by Masquelet has been successfully used to reconstruct segmental defects more than 20 cm. Our article describes a series of 13 cases with extensive posttraumatic bone loss of the metatarsal, tibial, femoral and radial bones after septic injuries followed by multiple surgical interventions. Antibiotic-impregnated polymethyl methacrylate (PMMA) cement spacers were implanted after successful eradication of bacterial infections of soft tissue and bones. After a mean of 9.8 weeks, body-induced membranes were established and the cements spacers removed. To fill up the bone void, cancellous bone autografts were implanted into the membranes. The follow-up examination after 24 months revealed bony union in all cases and favorable functional results. The induced membrane technique has shown to be effective in treating bone defects of upper and lower extremity bone defects.