The aim of this paper is to describe the technique and evaluate the effectiveness of the RIA system in the first cases of bone loss treated by the authors with this technique. Between January 2010 and January 2011, ten patients were treated with an average age of fourty six years, with infected bone loss as a result of open fractures in various bone segments, with multiple failed treatment attempts, including three humeri, four femurs and three tibiae. The average size of the initial bone loss was 4 cm, varying from 1 to 8 cm. In 4 patients it was used simultaneously a Ilizarov apparatus with acute compression of the focus, in two patients a Ender pin and monolateral external fixator, three other cases with a SAFE nail with core with antibiotics and in one case an osteosynthesis with a plate and screws. The RIA was introduced with a percutaneous technique with a one pass drilling. The graft thus collected was mixed with appropriate antibiotics and aplied at the defect. The volume of the harvested graft, complications of the donor and recipient and the final results was recorded. The review showed that the average volume of graft was 60 cc, from 20 to 90 cc. In two female patients older than 70 years with osteoporosis, insufficient bone of poor quality was obtained. Problems included a case of iatrogenic fracture of the donor site, due to poor surgical technique and a case of relapse of the nonunion. Regarding the effectiveness of grafts extracted with the RIA system, 90% of the cases achieved consolidation in average of 5 months after grafting, range 3–9 months. This short experience with the RIA system showed that it is an attractive method allowing a rapid removal of a large volume of bone graft with a minimally invasive approach and a short learning curve. It is not indicated in elderly patients with osteoporosis and those with a narrow medullar canal less than 11 mm. Special attention must be done to the need to choose a drill no larger than 1 mm of the diameter of the isthmus, to do a single entry point and with only one drill passage to prevent the weakening of the donor site

Background. Chronic osteomyelitis with intramedullary sequestrum resulting in persistent infection is a challenging orthopaedic problem that often involves multiple surgical operations and unfortunately has a significant recurrence rate. Reasons for this may include difficulty in eradicating all intramedullary microsequestra making subsequent prolonged antibiotic therapy less effective. Use of the Reamer-Irrigator-Aspirator (RIA) has many advantages for management of intramedullary infections in chronic osteomyelitis. The RIA technique allows irrigation of sterile large quantities of saline with simultaneous bony debridement with very sharp reamers that are specially designed to allow simultaneous fluid aspiration. Purpose. We will illustrate the pearls and pitfalls associated with the RIA technique, based on our experience so far. Method. We retrospectively reviewed a number of 6 (six) patients with chronic osteomyelitis of tibia (n=2) and femur (n=4). In an average follow up of 9.6 months post treatment (range 3–18 months) using a protocol including treatment with RIA we noticed immediate control of infection. Complications. Include pin tract infection, pin site pain and fungal infection (due to prolonged use of antibiotics). Conclusion. Based on our patient series so far, the encouraging results we have seen with regard to eradication of infection lead us to believe that RIA has a valuable role to play in the treatment of chronic osteomyelitis

Introduction. Reaming of the canal is an important step in the debridement phase of treating intramedullary infections. Numerous techniques of radical canal debridement have been successfully reported. The use of the Reamer-Irrigation-Aspiration system (RIA-Synthes) is currently expanding to include this clinical scenario. Materials and methods. Prospective collection of data related to infected cases treated with the use of the RIA in a tertiary referral centre referring to a 3 year period. Peri-operative details, microbiology results, and follow-up outcome over a minimum period of 12 months post-surgery are reported. Results. Twenty patients (13 men), with average age 44.8 years (18–75), suffering from 7 tibial and 13 femoral infections represent the study cohort. There were 19 surgical-site-infections, and 1 spontaneous haematogenous infection in non-previously operated extremity. The canal was stabilised using an antibiotic-loaded-cement-nail in 18 cases. The antibiotic nail was subsequently removed after 6–8 weeks. The most commonly isolated organism was staphylococcus aureus. There were followed-up regularly (2,6, 12 weeks, and then at 6 months and 12, 24, 36 months). At 6 months follow up (range 12–43 months) no recurrence was observed. Two patients died during the course of the study. One patient at the day after surgery due to septic shock, and another one at 2 years due to irrelevant causation. Another patient had a below knee amputation after debriding of the canal for pan-medullary osteomyelitis. However, there was no recurrence in the stump at the latest follow up after 1 year. Conclusion. The usage of this new device shows promising results in the treatment of intramedullary osteomyelitis. Reaming under simultaneous irrigation and suction appears to be an effective and safe alternative for debridement of the intra medullary infections of femur and tibia. Long term follow up is essential, as post traumatic osteomyelitis can occur at any time after surgical treatment although the majority of recurrences are seen within 2 years

Intramedullary infection in long bones represents a complex clinical challenge, with an increasing incidence due to the increasing use of intramedullary fixation. We report a prospective case series using an intramedullary reaming device, the Reamer–Irrigator–Aspirator (RIA) system, in association with antibiotic cement rods for the treatment of lower limb long bone infections. A total of 24 such patients, 16 men and eight women, with a mean age of 44.5 years (17 to 75), 14 with femoral and 10 with tibial infection, were treated in a staged manner over a period of 2.5 years in a single referral centre. Of these, 21 patients had had previous surgery, usually for fixation of a fracture (seven had sustained an open fracture originally and one had undergone fasciotomies). According to the Cierny–Mader classification system, 18 patients were classified as type 1A, four as 3A (discharging sinus tract), one as type 4A and one as type 1B. Staphylococcus species were isolated in 20 patients (83.3%). Local antibiotic delivery was used in the form of impregnated cement rods in 23 patients. These were removed at a mean of 2.6 months (1 to 5). Pathogen-specific antibiotics were administered systemically for a mean of six weeks (3 to 18). At a mean follow-up of 21 months (8 to 36), 23 patients (96%) had no evidence of recurrent infection. One underwent a planned trans-tibial amputation two weeks post-operatively due to peripheral vascular disease and chronic recalcitrant osteomyelitis of the tibia and foot. The combination of RIA reaming, the administration of systemic pathogen-specific antibiotics and local delivery using impregnated cement rods proved to be a safe and efficient form of treatment in these patients. Cite this article: Bone Joint J 2014; 96-B:783–8

The use of autograft bone is the best option when undertaking a procedure that requires bone graft because it is osteogenic, osteoconductive and osseo-inductive. Pain, morbidity and complications associated with harvesting iliac or non-iliac sites occur in between 6% and 30% of cases. An alternative source of graft with possibly a lower morbidity is the intramedullary canal. In this study, 28 patients undergoing 30 arthrodesis procedures on the hindfoot had a mean of 48 cm³ (43 to 50) of bone harvested locally from the hindfoot or the tibial shaft by antegrade or retrograde reaming. No patient sustained a fracture of the calcaneum, talus or tibia. There was no morbidity except for one complication when the reamer breached the medial tibial cortex. This healed uneventfully.

This method of using the reamer–irrigator–aspirator system is an extension of the standard technique of intramedullary reaming of the lower limb: it produces good-quality bone graft with viable growth factors consistent with that of the iliac crest, and donor site morbidity is low. This is an efficient method of obtaining autologous bone for use in arthrodesis of the ankle or hindfoot.

We hypothesised that cells obtained via a Reamer–Irrigator–Aspirator (RIA) system retain substantial osteogenic potential and are at least equivalent to graft harvested from the iliac crest. Graft was harvested using the RIA in 25 patients (mean age 37.6 years (18 to 68)) and from the iliac crest in 21 patients (mean age 44.6 years (24 to 78)), after which ≥ 1 g of bony particulate graft material was processed from each. Initial cell viability was assessed using Trypan blue exclusion, and initial fluorescence-activated cell sorting (FACS) analysis for cell lineage was performed. After culturing the cells, repeat FACS analysis for cell lineage was performed and enzyme-linked immunosorbent assay (ELISA) for osteocalcin, and Alizarin red staining to determine osteogenic potential. Cells obtained via RIA or from the iliac crest were viable and matured into mesenchymal stem cells, as shown by staining for the specific mesenchymal antigens CD90 and CD105. For samples from both RIA and the iliac crest there was a statistically significant increase in bone production (both p < 0.001), as demonstrated by osteocalcin production after induction. . Medullary autograft cells harvested using RIA are viable and osteogenic. Cell viability and osteogenic potential were similar between bone grafts obtained from both the RIA system and the iliac crest. Cite this article: Bone Joint J 2013;95-B:1269–74

The scarcity of mesenchymal stem cells (MSCs) in iliac crest bone marrow aspirate (ICBMA), and the expense and time in culturing cells, has led to the search for alternative harvest sites. The reamer-irrigation-aspirator (RIA) provides continuous irrigation and suction during reaming of long bones. The aspirated contents pass via a filter, trapping bony fragments, before moving into a ‘waste’ bag from which MSCs have been previously isolated. We examined the liquid and solid phases, performed a novel digestion of the solid phase, and made a comparative assessment in terms of number, phenotype and differentiation capacity with matched ICBMA. The solid fraction from the filtrate was digested for 60 minutes at 37°C with collagenase. Enumeration was performed via the colony-forming unit fibroblast (CFU-F) assay. Passage (P2) cells were differentiated towards osteogenic, adipogenic and chondrogenic lineages, and their phenotypes assessed using flow cytometry (CD33, CD34, CD45, CD73, CD90, and CD105). MSCs from the RIA phases were able to differentiate at least as well as those from ICBMA, and all fractions had phenotypes consistent with other established sources. The median number of colonies for the three groups was: ICBMA = 8.5 (2 to 86), RIA-liquid = 19.5 (4 to 90), RIA-solid = 109 (67 to 200) per 200 μl. The mean total yield of cells for the three groups was: ICBMA = 920 (0 to 4275), RIA-liquid = 114 983 (16 500 to 477 750), RIA-solid = 12 785 (7210 to 28 475). The RIA filtrate contains large numbers of MSCs that could potentially be extracted without enzymatic digestion and used for bone repair without prior cell expansion

Purpose: Autologous bone grafting is considered the gold standard for multiple orthopaedic indications, including non-union of fractures and other bone defects. Previously autograft was most commonly harvested from the iliac crest, with an estimated complication rate of greater than 10%. New technology, the RIA system, allows harvest of graft material from the medullary canal of the femur. The purpose of this study is to examine the osteo-inductive properties of this human femoral bone graft obtained using the RIA system and the RIA filtrate combined with chronOS (Tricalcium Phosphate). This study will examine whether these materials will induce bone growth when implanted in a rat sub-muscular pouch model. Method: Three samples were collected from each human subject. These included:. femoral bone graft obtained using the RIA {n=10}. chronOS washed with RIA filtrate {n=10}and. a mixture of these two materials {n=10}. chronOS (alone) was used as control {n=10}. These materials were implanted into a sub-muscular pouch in athymic rats (to eliminate rejection of the xenograft). Rat serum levels of BMP-2, VEG-F, TGF-β and IL-10 were obtained at days 7, 14, 21 and 28. Rats were sacrificed at day 28 and radiographic and histologic examinations and histomorphometric analyses were performed. Results: Overall, there were no significant differences in BMP-2, VEG-F, TGF-β and IL-10 levels either between groups or between time points. Average serum values for BMP-2 decreased over time for all groups. Histologically and radiographically, all four materials induced new bone production. chronOS alone produced the greatest volume of new bone while RIA reamings alone produced the least. Histological analysis demonstrated formation of normal bone. Conclusion: The RIA system allowed for harvest of femoral bone graft. This graft induced bone formation and increased osteogenic protein levels when implanted in the rat model. The RIA filtrate, when combined with Tricalcium Phosphate, is equally osteoinductive. Combining reamings with filtrate material may allow large volumes of graft to be produced using this system. This new technology may allow the collection of large volume, osteoinductive grafts without the complications previously described for iliac crest bone graft harvesting

Intramedullary infection is a challenging problem and management usually includes removal of the infected hardware and reaming of the medullary canal. The purpose of this study is to describe a new technique for canal debridement and evaluate its efficacy in the treatment of posttraumatic osteomyelitis of the tibia and femur. This retrospective study included 11 patients (10 male and 1 female, mean age: 42 years) with posttraumatic osteomyelitis of the tibia (n=8) or femur (n=3). Surgical treatment consisted of debridement, implant removal, and reaming of the medullary canal with the RIA (Reamer Irrigator Aspirator) device. All procedures were performed by a single surgeon with a standardised technique. Reaming of the canal was performed with one pass of the RIA. Following reaming, the RIA was used for irrigation of the medullary canal with 10 liters of fluid. At a mean follow-up time of 9 months (6 to 13 months) there was no recurrence of osteomyelitis. Complications included one partial loss of a flap, one refracture of a tibia following an auto versus pedestrian accident, and external fixator pin tract infections in one patient. The RIA device allows for reaming under simultaneous irrigation and aspiration, which may minimise the residual amount of infected tissue in the medullary canal. The disposable reamer head is always sharp, in contrast to standard reamers, which may reduce the thermal effects of reaming on the adjacent bone. In addition, the RIA allows delivery of fluid throughout the length of the medullary canal, thus facilitating irrigation. The RIA device is useful alternative for debridement of intramedullary infections of the tibia and femur

Purpose: The objective of this study is to investigate the effects of the Reamer-Irrigator-Aspirator (RIA) on fat embolism outcome, as compared to the standard AO reamer, utilizing physiologic parameters as outcome measures. Methods: All animal procedures were approved by the Animal Care Committee. Fifteen animal experiments were completed. Following anesthesia, each pig was intubated and ventilated. Initial blood samples were analyzed for proper ventilation and acceptable baseline conditions (PaCO2 between 35–40 mm Hg). One third of the pig’s blood volume was withdrawn to simulate hemorrhagic shock. Each animal was kept in a state of hypovolemia for an hour before transfusion and resuscitation. Each pig underwent alternate assignment into either the RIA or AO group. The distal femur was exposed and reamed in a retrograde fashion, followed by cement pressurization with methylmethacrylate. Physiologic measurements included mean arterial pressure (MAP), pulmonary arterial pressure (PAP), partial pressure of arterial oxygen (PaO2), and cardiac output. Upon completion, the animals were euthanized. The data was analyzed using the SPSS statistical program. Results: One animal in the AO group expired after cement pressurization associated with profound hypotension, pulmonary hypertension and eventual cardiac arrest. There was a statistically significant difference for PaO2 (P = 0.004), cardiac output (P = 0.002), and PAP (P = 0.005) between the AO and RIA groups. That is, by the completion of the experiment the RIA group had higher PaO2, lower PAP, and higher cardiac output measurements as compared to the AO group. There was no statistical significance between the two groups with respect to MAP (P = 0.468). Conclusions: Using established physiologic parameters, there appears to be a difference between the standard AO reamer and the RIA in terms of fat embolism outcome. The RIA showed a more favorable outcome with respect to PAP, PaO2, and cardiac output. With its simultaneous irrigation and aspiration, the RIA may result in less intramedullary fat displacement into the systemic circulation

Introduction. Therapeutic exploitation of MSCs in orthopaedics has been tempered by their scarcity within ‘gold-standard’ iliac crest bone marrow aspirate (ICBMA) and the resulting need to expand cells in vitro. This is time-consuming, expensive and results in cells with a reduced differentiation capacity. [Banfi 2000] The RIA is a device that provides continuous irrigation and suction during reaming of long bones. Aspirated contents pass via a filter, trapping bony-fragments, before moving into a ‘waste’ bag, from which MSCs have been previously isolated. [Porter 2009] We hypothesised that ‘waste’ RIA bag contains more MSCs than a standard aspirated volume of ICBMA (30 ml). We further hypothesised than a fatty solid phase within this ‘waste bag’ contains many MSCs trapped within the adipocyte-rich stromal network and hence requiring an enzymatic digestion for their efficient release [Jones 2006]. Methods. The discarded filtrate ‘waste’ bag that contained saline from marrow cavity irrigation procedure from RIA reaming (7 patients) was filtered (70μm) and the solid fraction digested for 60min (37oC) with collagenase. MSC enumeration was performed using the colony-forming-unit-fibroblast (CFU-F). Following culture in standard expansion media, passage 2 cells were differentiated towards osteogenic, adipogenic and chondrogenic lineages and their phenotype was assessed using flow cytometry. ICBMA from the same patients was used as controls. Results. The highest frequencies of MSCs/CFU-Fs (per 200μl of sample) were found within RIA-solid solid fraction (median 115, range 67-200) compared to ICBMA and RIA-liquid (8, 2-21 and 12, 4-41, respectively). Due to much larger volume of RIA-liquid, it contained the highest total yield of MSCs/CFU-Fs (114983, range 16500-477750), which was equivalent to ∼1137 ml of ICBMA. RIA-solid contained ∼10% of all MSCs within the “waste bag” (12785,7210-28475). MSCs isolated from the RIA phases were able to differentiate into osteogenic, chondrogenic and adipogenic lineages at least as well as matched ICBMA and had a phenotype consistent with MSCs (CD73+ CD90+ CD105+ CD33- CD34- CD45-). Conclusions. The RIA filtrate bag contains massive numbers of MSCs that could potentially be therapeutically used without prior culture-expansion

The need for an artificial scaffold in very large bone defects is clear, not only to limit the risk of graft harvesting, but also to improve clinical success. The use of custom osteoconductive scaffolds made from biodegradable polyester and ceramics can be a valuable patient friendly option, especially in case of a concomitant infection. Multiple types of scaffolds for the Masquelet procedure (MP) are available, however these frequently demonstrate central graft involution when defects exceed a certain size and the complication rates remains high. This paper describes three infected tibial defect nonunions with a segmental defect over ten centimeters long treated with a customized 3D printed polycaprolactone-tricalcium phosphate (PCL-TCP) cage in combination with biological adjuncts. Three male patients, between the age of 37 and 47, were treated for an infected tibial defect nonunion after sustaining Gustilo grade 3 open fractures. All had a segmental midshaft bone defect of more than ten centimeters (range 11–15cm). First stage MPs consisted of extensive debridement, external fixation and placement of anterior lateral thigh flaps (ALT). Positive cultures were obtained from all patients during this first stage, that were treated with specific systemic antibiotics during 12 weeks. The second stage MP was carried out at least two months after the first stage. CT scans were obtained after the first stage to manufacture defect-specific cages. In the final procedure a custom 3D printed PCL-TCP cage (Osteopore, Singapore) was placed in the defect in combination with biological adjuncts (BMAC, RIA derived autograft, iFactor and BioActive Glass). Bridging of the defect, assessed at six months by CT, was achieved in all cases. SPECT-scans 6 months post-operatively demonstrated active bone regeneration, also involving the central part of the scaffold. All three patients regained function and reported less pain with full weight-bearing. This case report shows that 3D printed PCL-TCP cages in combination with biological adjuncts is a novel addition to the surgical treatment of very large bone defects in (infected) posttraumatic nonunion of the tibia. This combination could overcome some of the current drawbacks in this challenging indication

To investigate differences between the Reamer Irrigator Aspirator and the AO reamer on fat embolism outcome using a porcine model. All animal procedures were approved and performed in accordance with the Animal Care Committee at St. Michael’s hospital. Following anesthetic administration, the animals were stabilised for thirty minutes. One third of the pig’s blood volume was withdrawn to simulate hemorrhagic shock. Each animal was kept in a state of hypovolemia for an hour before transfusion and resuscitation. Once the animal was stabilised surgical exposure of the distal femur was completed. A 12 mm Reamer Irrigator Aspirator or AO reamer was used depending on which group the animal was assigned to. Blood work was obtained at: baseline, immediately after induction of hypovolemia, one hour post hypovolemia, post stabilization, one minute, five minutes, 1.5 hours and three hours after reaming. The results were analyzed for activation of the coagulation system, platelet and neutrophil activation, and cytokine elevation. ANOVA was the primary tool used to assess statistical significance. There was no statistical difference between the two reamers with respect to PT, APTT, and fibrinogen. There was a statistical difference in D-dimer at 1.5 and three hours post-reaming, with the RIA showing a lower value. Neither reamer demonstrated any systemic platelet nor neutrophil activation. TNF-alpha spiked immediately post-reaming with the RIA group returning to baseline values and the AO group remaining elevated. There is a spike in IL-1B post reaming in the AO group, however this was not seen in the RIA group. No statistical difference was detected between the two reamers. All markers for platelet and neutrophil activation and the coagulation cascade were measured at the systemic level. Although there is no statistical difference between the RIA and AO reamer, it is possible that activated cells were removed from the systemic circulation and sequestered as thrombi in the pulmonary microvasculature. This hypothesis may be supported by a drop in platelet count and an increase in D-dimer, with the AO reamer suggesting greater thrombi formation. The trends in IL-1B and TNF-alpha seem to suggest that the RIA abrogates the post-reaming proinflammatory state

Background: Increased intramedullary pressure in the femoral cavity causes intravasation of bone marrow content to the circulation which may lead to occlusion of pulmonary vessels and cardiorespiratory dysfunction. A one-step reamer-irrigator-aspirator (RIA) technique has been developed to reduce the intramedullary pressure (IMP) during the reaming procedure. Material and method: In a randomized study in 19 Nor-wegian landrace pigs reamed intramedullary nailing was performed with two different reamer devices. Nine animals were operated with a traditional reamer and ten animals with RIA. One animal in the RIA group was excluded due to a perioperative femoral fracture, and three animals in the traditional group due to a perforation of the distal medial femoral cortex. The intramedullary pressure was registrated with a transducer-tipped pressure monitoring catheter during reaming. Results: The highest intramedullary pressure during reaming was mean 33 mm Hg in the RIA group and 188 mm Hg in the traditional reamer group. This difference was significant (P < 0.05). Intramedullary pressures recorded before surgery, at the opening of the femoral cavity with an awl, by insertion of a guide wire, at insertion of the intramedullary nail, and ten minutes after nail insertion showed no significant differences between the groups. Conclusion: The use of a one-step reamer-irrigator-aspirator technique in the pig femur induced less intramedullary pressure increase than the use of a traditional reamer

Introduction. MSCs have long promised benefits of synthesising bone/cartilage, treating non-unions and potentially accelerating fracture repair. This potential has been tempered by MSC scarcity in the ‘gold-standard’ iliac crest bone marrow aspirate (ICBMA) and the resulting need to expand numbers via cell-culture. Culture of MSCs is time-consuming, expensive and results in cells with a reduced differentiation capacity. The reamer-irrigator-aspirator (RIA) is an innovation designed to reduce intra-medullary (IM) pressures during reaming of long-bones via continuous irrigation and suction. Aspirated contents are passed via a coarse filter, which traps bony-fragments before moving into a ‘waste’ bag - from which MSCs have been previously isolated. We examined liquid and solid phases found in this ‘waste’, performed a novel digestion of the solid phase and made a comparative assessment in terms of number, phenotype and differentiation capacity with matched ICBMA. Methods. The filtrate ‘waste’ bag from RIA reaming (6 patients) was filtered (70μm) and the solid fraction digested for 60min (37°C) with collagenase. MSCs were isolated from liquid & solid fractions and from 10ml matched ICBMA. Enumeration of MSCs was achieved via colony-forming-unit-fibroblast (CFUF) assay and flow-cytometry on fresh sample using CD45low, CD271+. MSCs were cultured by virtue of their plastic adherence and passaged in standard, non-haematopoietic media. Passage (P2) cells were differentiated towards osteogenic, adipogenic and chondrogenic lineages with their phenotype assessed with flow cytometry CD33 CD34 CD45 CD73 CD90 CD105. Results. We found MSCs were in all fractions/patients. Using the CFU-F assay median number of colonies: ICBMA=8 (2–21), RIA-liquid=12 (4–41), RIA-solid=115 (67–200) per 200μl of sample. Total yield of cells was calculated from volume of sample: ICBMA=670 (228–4275), RIA-liquid=39000 (16500–83700), RIA-solid=9400 (7210–28475). MSC frequency as a percentage of total cells using flow-cytometry on fresh sample found similar frequencies. MSCs isolated from the RIA phases differentiated into osteogenic, chondrogenic and adipogenic lineages at least as well as ICBMA. Passaged (P2) cells, from all fractions/patients, had a phenotype consistent with other reported sources. Discussion. The RIA filtrate bag is typically discarded at operation. These results show that this ‘waste’ represents a significant source of MSCs that could be isolated for autologous/allogenous use. Concentration of the liquid-phase/brief enzymatic digestion of the solid-phase offers the possibility of large numbers of MSCs being obtained without/with minimal culture expansion

This study documents the use of bone graft harvested by the RIA system and used in treating segmental bone loss in the femur and tibia following trauma. Eight patients with segmental defects of the tibia or femur were enrolled in the study. The segmental defects were optimized for bone grafting by repeated debridements and muscle flap coverage as required. Graft was harvested from the ipsilateral femur via a percutaneous technique. Volumes of bone graft were recorded and then placed to the defect site during the same surgical procedure. The average age of the patients was twenty-nine years (sixteen to forty-one years). In the five tibiae and three femora there were four grade IIIA, three grade IIIB and One grade IIIC injuries. Muscle flap coverage was required in four patients. The average size of defect was 7 cm (1–14.5 cm). The RIA grafting was performed at an average of three months (2.5 – 5 months) post injury. The average bone graft volume obtained was 73cc(45–90 cc). The average hemoglobin drop was 4.4g/dl(2.3 – 8.0 g/dl) and the average hematocrit drop was 12.3%(6–21%). One patient required transfusion. Donor site complications were limited to one post-operative bleed. Defect site complications included one wound dehiscence and two infections. Radiographic union of the defects was achieved at an average time of four months (two to twelve months). Grafting of large segmental defects using RIA bone graft has resulted in union at an average of four months. This technique represents an alternative to bone transport for treatment of segmental defects. Reamed Irrigation Aspirator (RIA) allows access to large volumes of bone graft from the femur through percutaneous technique. The grafting technique was utilized to obtain graft for eight segmental defects in the tibia and femur. These healed at an average of four months

The purpose of our study was to compare the performance of a new intramedullary reaming device to a contemporary reaming system. The new intramedullary reaming device was the Synthes Reamer/Irrigator/Aspirator reamer (RIA) which differs from contemporary reaming devices in that it has a built-in irrigation and aspiration system to reduce the intramedullary pressures and temperatures associated with reaming. An in-vivo cadaver model was developed to quantify intramedullary pressure, temperature, speed and force of reaming. The results showed significant differences in intramedullary pressures with no significant differences in speed and force of reaming. The purpose of our study was to compare the performance of a new intramedullary reaming device to a contemporary reaming system. The Synthes Reamer/Irrigator/Aspirator reamer (RIA) produced significantly lower peak and average intramedullary pressures during reaming with no significant differences in speed and force of reaming. A reaming system with a built-in irrigation/aspiration could possibly reduce the morbidity and mortality associated with the reaming of long bone fractures. There were significantly lower minimum, maximum and average proximal and distal intramedullary pressures with the RIA reamer. There were no significant differences in force or speed of reaming. No temperature changes were noted with either reaming system. A cadaveric model was developed to compare the RIA reaming system to a contemporary reaming system. Pressures were measured with pressure transducers inserted proximally and distally. Temperatures were measured with thermocouples inserted adjacent to isthmus. Force of reaming was measured with a load cell distally. Speed was calculated from data collected from a linear voltage displacement transducer. Fifteen, matched pairs of frozen, unpreserved femurs were reamed using both reaming systems and the data collected. Canals were reamed to a diameter two centimeters greater than the templated canal size. Data was collected and analyzed with paired t-tests (p< .05). Embolic material within the cardiovascular system has been shown to increase morbidity and mortality in susceptible individuals. Embolization is related to increased intramedullary pressures. The RIA reamer, as a result of its built-in irrigation/aspiration capacity, produces lower intramedullary pressures. This may have clinical significance. Funding: This work was supported by Synthes (West Chester, PA)

Septic complications of long bone fracture are still a significant clinical problem. Although inflammatory process after intramedullary nailing is a rare complication, its treatment is complex. The aim of this study is to analyze the effectiveness of the treatment of septic complications of the long bone union with use of Reamer–Irrigator–Aspirator (RIA) technique and intramedullary antibiotic-coated PMMA nailing. An analysis of the effectiveness of treatment of 49 patients with septic non-union of long bones (12 femur, 37 tibia), in which the RIA method was applied with antibiotic cement impregnated intramedullary nailing. Treatment consisted of reaming of long bone canal using the RIA technique and the intramedullary cement coated nail with the targeted antibiotic. Treatment required second stage with nail exchange and PMMA removal after 6 weeks to prevent the resitant strains selection. In a group of patients treated with use of above-mentioned method the remission of inflammatory process was achieved in all cases. 32 (67%) patients developed bone union, 24 patients with tibial and 8 patients with femoral septic bone union disorders. The average duration of bone union obtainment with intramedullary nailing was 37 weeks. The most common inconveniences that occurred during treatment was prolonged wound discharge and pain. Inflammatory complications of fractures in our material involved extensive injuries, usually high-energetic. Stabilization with intramedullary locked nail coated with antibiotic cement after debridement with RIA method is a convincing treatment. An essential element of biological bone union is to provide a good cover of the bone tissue with a soft tissue envelope and sequestrectomy. The success of the treatment of infected pseudoarthrosis may be obtained under condition of: radical removal of inflammation tissue, convincing biomechanical dynamized stabilization and antibiotic therapy

Introduction. The BOAST (British Orthopaedic Association Standards for Trauma) guidelines do advise that open pilon fractures amongst other open lower limb fractures need to be treated at a specialist centre with Orthoplastic care. The purpose of this study was to determine clinical outcomes in patients with open pilon fractures treated as per BOAST guidelines including relatively aggressive bone debridement. Methods. A retrospective analysis of a single surgeon series of open pilon fractures treated between 2014 and 2019 was conducted. Injuries were graded according to the Gustillo-Anderson classification and all patients were included for the assessment of the rate of infection and fracture healing. Functional outcome assessment was performed in all patients according to the American Orthopedic Foot and Ankle Score (AOFAS) at 6 months after definitive surgery. Initial wound with bone debridement and application of a spanning external fixator was performed within an average of 13.5 (Range: 3–24) hours. Fixation with FWF (Fine Wire Frame) was performed when the wound was healed, with the mean time from primary surgery to application of FWF being 24.5 (Range: 7–60) days. Results. There was a total of 20 patients including 16 males and 4 females. The mean age was 50.45 (Range: 16–88) years. Follow-up was for an average of 23.2 (Range: 5–51) months. There were 3 patients with Gustilo Type I injuries, 6 with Type II, 4 Type with type IIIa and 7 with Type IIIb injuries. Average time to bone union was 9.3 (Range: 2–18) months. The mean AOFAS score was 66 (Range: 15–97) points. TSF was used on 18 patients, while 2 patients had an Ilizarov frame. A corticotomy was performed on 4 patients with critical bone defect post debridement, while 2 patients had Stimulan beads with antibiotics. There was 1 case (5%) of deep infection and 9 cases (45%) of superficial infection. There were also 2 cases (10%) of non-union which required bone grafting from their femur using a RIA (Reamer Irrigation Aspirator). Other complications included 1 case of acute compartment syndrome, 1 case of pulmonary embolism, 1 case of necrotic skin and 1 case of amputation. Conclusion. Results of our study suggests that the use of staged wound debridement including relatively aggressive bone debridement in conjunction with antibiotics, external fixators and patient tailored conversion from spanning external fixator to fine wire frame achieves low rates of wound infection and complications for patients with open pilon fractures

Aims

Continuous local antibiotic perfusion (CLAP) has recently attracted attention as a new drug delivery system for orthopaedic infections. CLAP is a direct continuous infusion of high-concentration gentamicin (1,200 μg/ml) into the bone marrow. As it is a new system, its influence on the bone marrow is unknown. This study aimed to examine the effects of high-concentration antibiotics on human bone tissue-derived cells.