Charcot neuroarthropathy is a rare but serious complication of diabetes, causing progressive destruction of the bones and joints of the foot leading to deformity, altered biomechanics and an increased risk of ulceration. Management is complicated by a lack of consensus on diagnostic criteria and an incomplete understanding of the pathogenesis. In this review, we consider recent insights into the development of Charcot neuroarthropathy. It is likely to be dependent on several interrelated factors which may include a genetic pre-disposition in combination with diabetic neuropathy. This leads to decreased neuropeptides (nitric oxide and calcitonin gene-related peptide), which may affect the normal coupling of bone formation and resorption, and increased levels of Receptor activator of nuclear factor kappa-B ligand, potentiating osteoclastogenesis. Repetitive unrecognized trauma due to neuropathy increases levels of pro-inflammatory cytokines (interleukin-1β, interleukin-6, tumour necrosis factor α) which could also contribute to increased bone resorption, in combination with a pre-inflammatory state, with increased autoimmune reactivity and a profile of monocytes primed to transform into osteoclasts - cluster of differentiation 14 (CD14). Increased blood glucose and loss of circulating Receptor for Advanced Glycation End-Products (AGLEPs), leading to increased non-enzymatic glycation of collagen and accumulation of AGLEPs in the tissues of the foot, may also contribute to the pathological process. An understanding of the relative contributions of each of these mechanisms and a final common pathway for the development of Charcot neuroarthropathy are still lacking. Cite this article: S. E. Johnson-Lynn, A. W. McCaskie, A. P. Coll, A. H. N. Robinson. Neuroarthropathy in diabetes: pathogenesis of Charcot arthropathy. Bone Joint Res 2018;7:373–378. DOI: 10.1302/2046-3758.75.BJR-2017-0334.R1

Background. Charcot neuroarthropathy is a destructive disease characterized by progressive bony fragmentation as a result of the isolated or accumulative trauma in patients with decreased sensation that manifests as dislocation, periarticular fractures and instability. Although amputation can be a reasonable cost economic solution, many patients are willing to avoid that if possible. We explored here one of the salvage procedures. Methods. 23 patients with infected ulcerated unstable Charcot neuroarthropathy of the ankle were treated between 2012 and 2017. The mean age was 63.5 ±7.9 years; 16 males and 7 females. Aggressive open debridement of ulcers and joint surfaces, with talectomy in some cases, were performed followed by external fixation with an Ilizarov frame. The primary outcome was a stable plantigrade infection free foot and ankle that allows weight bearing in accommodative foot wear. Results. Limb salvage was achieved in 91.3% of cases at the end of a mean follow up time of 25 months (range: 19–32). Fifteen (71.4%) solid bony unions were evident clinically and radiographically, while 6 (28.5%) patients developed stable painless pseudoarthrosis. Two patients had below knee amputations due to uncontrolled infection. Conclusion. Aggressive debridement and arthrodesis with ring external fixation can be used successfully to salvage severely infected Charcot arthropathy of the ankle. Pin tract infection, delayed wound healing and stress fracture may complicate the procedure but can be easily managed. Amputation may be the last resort in uncontrolled infection

Introduction. Charcot neuroarthropathy (CN) of foot and ankle presents significant challenges to the orthopaedic foot and ankle surgeon. Current treatment focuses on conservative management during the acute CN phase with offloading followed by deformity correction during the chronic phase. However, the deformity can progress in some feet despite optimal offloading resulting ulceration, infection, and limb loss. Our aim was to assess outcomes of primary surgical management with early reconstruction. Methods. Between December 2011 and December 2019, 25 patients underwent operative intervention at our specialist diabetic foot unit for CN with progressive deformity and or instability despite advanced offloading. All had peripheral neuropathy, and the majority due to diabetes. Twenty-six feet were operated on in total - 14 during Eichenholtz stage 1 and 12 during stage 2. Fourteen of these were performed as single stage procedures, whereas 12 as two-stage reconstructions. These included isolated hindfoot reconstructions in seven, midfoot in four and combined in 14 feet. Mean age at the time of operation was 54. Preoperative ulceration was evident in 14 patients. Results. Mean follow up was 45 months (Range 12–98). There was 100% limb salvage. One-year ambulation outcomes demonstrate FWB in bespoke footwear for 17 patients and in an ankle foot orthosis (AFO), Charcot restraint orthopaedic walker (CROW) or bivalve cast for seven. All preoperative ulceration had healed. Union was achieved in 18/21 hindfoot reconstructions and 7/18 midfoot reconstructions. There were nine episodes of return to theatre, of which five were within the first 12 months. There was one episode of new ulceration. Conclusion. Surgical management of acute CN (Eichenholtz one and two) of the foot provides functional limb salvage. In particular, hindfoot reconstruction shows good rates of bony union. It should be considered in ‘foot at risk’ presentations of acute CN foot

Introduction and purpose: Neuropathy associated with syringomyelia is a relatively rare entity that predominantly affects the glenohumeral joint. It is characterized by joint destruction, which is in many cases severe and which requires a differential diagnosis from other severe conditions. The therapeutic options are based on maintaining function rather than on immobilization. We present our experience of treating this condition in 4 cases. Materials and methods: The cases were 4 females with a mean age of 53.25 years. One of the cases had both the glenohumeral and carpal joints affected. Only in one case was there a known history of syrinogomyelia associated with Arnold Chari disease, whereas in the other 3 the diagnosis of syringomyelia was established by studying the neuroarthropathy. Results: Two of the patients were treated by means of joint replacement (one total and the other partial) with a favorable postoperative evolution in the medium term. Acceptable pain control and joint balance were achieved. At the end of 5 and 2 years respectively, the total and partial prosthesis had to be revised due to aseptic loosening of the components and joint instability, respectively. The conservative treatment applied to the two remaining cases achieved a functional range of movement for activities of daily living and one of the cases was able to continue with their usual work activities. Conclusions: In spite of numerous sources in the literature that advise against joint replacement, there are very few documented cases and series that substantiate that recommendation. In the long run, in our experience joint replacement is not a satisfactory treatment for glenohumeral neuroarthropathy

Background. Corrective fusion of a deformed / unstable Charcot neuroarthropathy (CN)of the midfoot and hindfoot is performed with the aim to prevent ulcers and maintain patient mobility. Methods. Between October 2007 and July 2018, 103 CN mid and hind foot corrections in 95 patients were performed. There were 34 hind-foot, 38 mid-foot and 31 combined hind and mid-foot surgeries. 83 feet had single stage corrections, whereas 20 required a staged operation. Results. Ninety-five patients were prospectively followed up. The mean patient age in our study was 57 years (21 – 85). Twenty-seven patients had type1 diabetes, 64 patients had type 2 and 4 patients had a neuropathy secondary to other conditions. Forty patients (42%) were offered a below knee amputation prior to attending our foot clinic. At a mean follow up of 56 months (12 – 140) we achieved 100% limb salvage with a 75% full bone fusion rate. There were 17 mortalities within our cohort at a mean period of 3 years. Ninety-seven percent (n=92) patients were mobilizing post-operatively in orthotic footwear. Fifty-two feet had pre-operative ulcers. Post-operatively 17 feet (16 patients) had persistent ulceration. Eight patients had ulcer resolution following further surgery and alteration of footwear, one patient has been listed for a below knee amputation for unstable non-union, whilst the remaining 7 patients have stable ulcers which are managed with dressings. Of the 26 feet (25 patients) with non-unions, 6 patients had revision fixation procedures whilst 8 patients required minor surgical procedures. The remaining 11 patients are stable non-unions who are asymptomatic and weight bearing. Other complications included a deep infection rate of 8% (n=7). Conclusion. We demonstrated a 100% limb salvage rate and an 83% success rate in ulcer resolution. We recommend this be done with the support of the multi-disciplinary team

Background: We report on the surgical treatment of a case spinal neuroarthropathy, where surgical fusion of the pathological level was achieved by a shortening osteotomy and apposition of the adjacent vertebral bodies. Neuropathic (Charcot) arthropathy of the spine is relatively an uncommon problem. Spinal neuroarthropathy has been described to occur after traumatic paralysis as well as other causes of neuropathic arthropathy. Surgery has been recommended for the treatment of painful or unstable neuropathic joints of the spine. From the few cases that have been reported in the literature, surgical management included extensive debridement, bridging of the defect with autogenous graft as well as instrumentation to achieve an anterior and posterior fusion. To the knowledge of the authors, the technique of spine shortening and vertebral apposition was reported only once in the literature, however the patient had to be kept recumbent in a cast for six months. (. 1. ). Methods: Literature review and a case of spinal neuroarthropathy successfully treated by a shortening osteotomy and instrumented arthrodesis is presented. Results: Patient was allowed to mobilize in his wheelchair by the second week post operation with a support of a TLSO, which was used for five months. Roentgenograms and CT scan done at thirteen months showed good position of the spine and evidence of solid bone arthrodesis. This matched marked clinical improvement in the preoperative symptoms. Conclusion: Treatment of a Charcot affection of the spine should be directed toward vertebral stabilization to eliminate the pathological effects and complications secondary to instability. Sound arthrodesis in our case could be achieved with resection of the affected level(s), shortening of the spine and good apposition of fresh bleeding bone surfaces. Careful attention to the demanding surgical technique is required. Yet, any fusion procedure poses additional stresses to the adjacent levels. So long term monitoring of the rehabilitation is mandatory to detect the possibility of developing secondary levels of Charcot joints below a previously successful fusion

Charcot neuroarthropathy is a progressive, destructive process occurring in the presence of neuropathy. We report the outcome of neuropathic foot joints presenting to our clinic over a 12 year period. Methods. Cases were identified from the Diabetic Foot Clinic Register, 1989–2001. We studied patient demographics, clinical presentation, distribution, treatment and outcome. Results. Twenty-eight episodes of arthropathy occurred in 23 patients. Age at onset ranged from 40 to 79 years. Presentation was acute in 14 and subacute in the others. Sites affected included 23 mid foot, 4 ankle and 1 MTP. Nine feet were ulcerated at presentation, eight had a history of ulcer, nine have no ulcer history. Infection complicated the Charcot process in 15. Mean Hba1c at presentation was 9.3%. Treatments. Total contact casting 23, 4 “scotch cast” boots and 1 Air-cast walker. Pamidronate was given to 10 patients. Outcomes. Three patients died. Two had below knee amputations. Casts were required for up to 12 months. Three required orthopaedic foot reconstructions. All ulcers present initially healed. Conclusion. Charcot arthropathy remains uncommon. In our series treatment was successful in all but two patients in terms of preserved limbs, mobility and freedom from ulceration

Aim: To evaluate the results of management of Char-cot foot and ankle deformities by the use of the Ilizarov apparatus. Material-Method: This is a retrospective study of 11 cases (9 patients) aged from 39 to 60 years old (mean 44 years), all suffering from Charcot foot neuroarthropathy. All cases showed established midfoot breakdown. In four cases hindfoot deformity coexisted. Three feet were ulcerated. In six cases the Iizarov frame was applied using complex hinges and closed compression fusions were performed, utilizing the bent wire technique. In five cases the correction of the deformities was performed acutely with the use of percutaneous cannulated screws. In the later cases the Ilizarov frame neutralized the former osteosynthesis method. The Ilizarov device remained attached for 8 weeks, regardless the presence of other osteosynthesis hardware. The Maryland Foot score (MFS) was utilized for objective assessment by the physician and the SF-36 questionaire for subjective assessment by the patient. Results: A statistically significant improvement in MFS and SF-36 score was recorded. In all cases the aim for a stable and painless extremity was achieved. All patients returned to their previous activities and kept using normal shoe wear. Conclusions: A lot of references are found in the literature describing failure in the treatment of Charcot foot deformity with the use of internal fixation. This is justified by the poor bone quality and decreased bone density of the diabetic and alcoholic patients. The use of tensioned wires in multiple levels provides adequate fixation in cases where a frame is used solely and safe neutralization where a frame is combined with internal fixation

Introduction. The mid foot joints are usually the first to be affected in Charcot neuroarthropathy (CN). Reconstruction is technically demanding and fraught with complications. Patients and methods. We present our experience of mid foot fusion in CN from a tertiary diabetic foot centre. We undertook mid foot corrective fusion in 27 feet (25 patients). Twelve of these had concurrent hind foot fusion. Eleven patients had type 1 diabetes, 12 had type 2 and 2 were non-diabetics. 23 patients were ASA grade 3 and 2 were ASA 2. 21 feet had ulcers preoperatively and mean HbA1c was 8.2. 13 patients had diabetic retinopathy and 6 had nephropathy. Results. Average patient age was 59 (43 to 80) and our mean follow up was 35 months (7 to 67). One patient was lost to follow up and 2 patients died. Complete follow up data was available for 26 feet in 24 patients. Satisfactory correction of deformity was achieved in all patients. The mean correction of calcaneal pitch was from 0.6 preoperatively to 10.6 degrees postoperatively, mean Meary angle from 22 to 9 degrees, talo-metatarsal angle on AP view from 33 to 13 degree. Bony union was achieved in 21 out of 26 feet and at least one joint failed to fuse in 5. 19 out of 24 patients were able to mobilize fully or partially weight bearing. We had 6 patients with persisting and 3 with recurrent ulceration. Seven repeat procedures were carried out which included 2 revision fixations. Conclusion. With our technique and a strict protocol 100% limb salvage and 81% union was achieved. 80% patients were mobile and ulcer healing was achieved in 72%. Corrective mid foot fusion is an effective procedure in these complex cases but require the input of a multidisciplinary team for perioperative care

The aim of this project was to look at time taken to achieve clinical resolution of diabetic charcot neuroarthropathy (CN) and to see if there was a correlation with location within the foot and overall outcomes. A retrospective analysis of newly presenting acute CN patients between 2007 & 2012 was performed. Clinic records were examined to determine the site of the CN; total time treated in a TCC or other removable offloading devices; the presence of co-morbidities. Fifty CN cases presented during this time. The mean age was 62.5±11.7 (SD) years. Eleven patients had type 1 diabetes mellitus (T1DM). The mean duration of diabetes was 29.7±12.9 years for T1DM, and 14.4±10.7 years for type 2 diabetics. All had palpable foot pulses & peripheral neuropathy at diagnosis. 82% had retinopathy; 34% had CKD stage 3–4. For the 42 patients who completed treatment, the mean duration was 53.9±28.0 weeks, of which a mean of 30.2±25.0 weeks was spent in a TCC. 23.7±16.2 weeks were spent in other offloading devices. Mean duration of treatment for forefoot, mid-foot & hind-foot was 47.2±22.6, 55.9±30.6 & 51.8±23.1 weeks respectively. Thirty-six patients were treated with TCC & other removable offloading devices, 6 were treated with one modality. Fourteen of the 36 (38.9%) required re-casting. Eight patients did not complete treatment: 4 underwent below knee amputation, 2 died, 2 were still undergoing treatment. In our cohort the mean length of treatment is dependent on the position of the CN. The mean time to resolution is just over 1 year. However, a high percentage (38.9%) deteriorated after coming out of a TCC. This study highlights the need to develop more precise measures to help manage acute CN

Introduction. Corrective fusion for the unstable deformed hind foot in Charcot Neuroarthropathy (CN) is quite challenging and is best done in tertiary centres under the supervision of multidisciplinary teams. Patients and methods. We present our results with a series of 42 hind foot deformity corrections in 40 patients from a tertiary level teaching hospital in the United Kingdom. The mean patient age was 59 (33–82). 16 patients had type1 diabetes mellitus, 20 had type 2 diabetes and 4 were non-diabetic. 18 patients had chronic ulceration. 17 patients were ASA 2 and 23 were ASA grade 3. All patients had acute single stage correction and Trigen hind foot nail fusion performed through a standard technique by the senior author and managed peri-operatively by the multidisciplinary team. Our outcome measures were limb salvage, deformity correction, ulcer healing, weight bearing in surgical shoes and return to activities of daily living (ADL). Results. At a mean follow up of 37 months (7–79) we achieved 100% limb salvage initially and 97% healing of arthrodesis. One patient with persisting non-union has been offered amputation. Deformity correction was achieved in 100% and ulcer healing in 89%. 72.5% patients are able to mobilize and manage independent ADL. There were 11 patients with one or more complications including metal failure, infection and ulcer reactivation. We performed nine repeat procedures including one revision fusion and one vascular procedure. Conclusion. Single stage corrective fusion for hind foot deformity in CN is an effective procedure when delivered by a skilled multidisciplinary team

Background: The pathogenesis of CN is still unknown. An increase of the bone blood supply seems to be one of the mechanisms involved. A feature of CN is a bone reabsorption. IGF-1 can influence the bone tissue by various mechanisms but its vasodilatory effects in others tissues are well-known. Alendronate have an inhibitory effect on bone reabsorption. Aim of this study is to evaluate the effect of alendronate on foot bone density in CN and above all if this effect can be mediated by a modification in IGF-1 levels.

Methods: Twenty patients with a diagnosis of acute CN of the foot were enrolled. According to the randomization, 11 patients were treated with 70 mg of alendronate per os once a week (TG) and 9 patients were followed as control group (CG). Markers of bone turnover [urinary hydroxyprolin, serum collagen carboxyl-terminal telopeptide of type 1 collagen (ICTP), serum bone alkaline phosphatase (B-ALP)], IGF-1 and BMD by dual energy X-ray absorptiometry (DEXA).

Results: ICTP didn’t show significant difference between the two groups (0,54±0,05 ng/ml vs 0,56±0,06 ng/ml p< 0,6) at the outset, after six months the treated group had a significant decrease of this parameter (0,54±0,05 ng/ml vs 0,30±0,03 ng/ml p< 0,05).

In TG hydroxyprolin followed the same trend showing a significant decrease after the six month treatment (18±3,2 mg/l vs 13±3,6 mg/l p< 0,05).

At the same time B-ALP reduction was almost significant (36±4,8% vs 23±3,9% p=0,06)

DEXA demonstrated an improvement in total foot mineralization in the TG(0,18±0,06 g/cm2 vs 0,24±0,08 g/cm2 p< 0,05) and in the distal phalanxes (0,194 g/cm2 vs 0,242 g/cm2 p< 0,01) (fig. 3). Only the TG showed a significant decrease of IGF-1 throughout the trial (142,8±24 vs 123,5±41 ng/ml p< 0,05).

Conclusions: The increase in bone blood flow could be linked to the vascular effects of IGF-1. Alendronate in acute phase helps to stop bone reabsorption and this effect could be mediated by the decrease of IGF-1 levels.

Purpose of the study: Management of the spinal neuroarthropathy of Charcot’s disease is recommended. Vertebral fusion should be extensive and often circumferential. The natural history of this disease, often diagnosed late, is poorly understood and the results of functional treatments not well studied. The purpose of this study was to describe the elements motivating surgical abstention and to analyse the natural course of the vertebral lesions. Material and methods: The diagnosis of spinal neuroarthropathy was established in seven patients from 1997 to 2007. Six has paraplegia and one female patient Friedrich ataxia. The initial neurological disease was known for 18 years on average before diagnosis of the spinal neuroarthropathy. The management decision was based on patient motivation, comorbid conditions, and successive functional, clinical and imaging assessments. The patients were classed by the progression of vertebral destruction. Four patients had a non-evolving destruction, two with a stable spine and two with spinal hypermobility. Results: The spinal stability, the absence of progression of the spinal neuroarthropathy, and in certain cases the presence of an ossification process were determining in deciding to abstain from surgery. Despite the collapse of the trunk, surgical abstention was decided for two patients basically because of the loss of spinal mobility resulting from the arthrodesis. For three other patients with progressing spinal lesions, the presence of comorbid factors (major risk of infection), patient refusal of the risk of temporary or definitive loss of function were the reasons surgery was decided against. Discussion: According to the literature, it is assumed that abstention from surgery will invariably lead to neurological or infectious complications and even patient death. We did not observe these events in our series. The major surgery exposes to a risk of failure; certain authors have reported a complication rate of 60% and others have had 40% repeat operations. The instability induced by the spinal neuroarthropathy can be considered providential by the patient. The fact that several patients declined surgery because of the fear of worsening their handicap after arthrodesis is noteworthy. Simulation with a rigid corset was determining. The spinal neuroarthropathy does not appear to be a continuous destructive process but its natural history is not well known. Predictive elements were not identified in this study. Conclusion: Charcot’s spinal neuroarthropathy is a challenging condition in frail patients. Disease progression, comorbid conditions, and multidisciplinary functional assessments are needed for adequate management and decision making

Introduction. Charcot neuroarthropathy is a limb threatening condition and the optimal surgical strategy for limb salvage in gross foot deformity remains unclear. We present our experience of using fine wire frames to correct severe midfoot deformity, followed by internal beaming to maintain the correction. Materials and Methods. Nine patients underwent this treatment between 2020–2023. Initial deformity correction by Ilizarov or hexapod butt frame was followed by internal beaming with a mean follow up of 11 months. A retrospective analysis of radiographs and electronic records was performed. Meary's angle, calcaneal pitch, cuboid height, hindfoot midfoot angle and AP Meary's angle were compared throughout treatment. Complications, length of stay and the number of operations are also described. Results. Mean age was 53 years (range:40–59). Mean frame duration was 3.3 months before conversion to beaming. Prior frame-assisted deformity correction resulted in consistently improved radiological parameters. Varying degrees of subsequent collapse were universal, but 5 patients still regained mobility and a stable, plantargrade, ulcer-free foot. Complications were common, including hardware migration (N=6,66%), breakage (N=2,22%), loosening (N=3,33%), infection (N=4,44%), 1 amputation and an unscheduled reoperation rate of 55%. Mean cumulative length of stay was 42 days. Conclusions. Aggressive deformity correction and internal fixation for Charcot arthropathy requires strategic and individualised care plans. Complications are expected for each patient. Patients must understand this is a limb salvage scenario. This management strategy is resource heavy and requires timely interventions at each stage with a well-structured MDT delivering care. The departmental learning points are to be discussed

Introduction. Charcot neuroarthropathy is a debilitating condition that frequently leads to skeletal instability, and has an increased risk of ulceration leading to infection and amputation. However, surgical reconstruction may offer limb salvage and restauration of an ulcer-free, plantigrade stable foot for functional weight-bearing. We report on our case series according to a prospective protocol and analyse factors leading to a favourable outcome. Methods. We report a prospective follow-up of 62 patients undergoing Charcot reconstruction, May 2014- Jan 2022, by two surgeons. Peripheral vascular disease was routinely assessed using Duplex scan and major arterial disease was treated before reconstruction. Utilising 3D modelling, pre-operative planning and standardised osteotomies, we performed anatomical correction with radiological evidence. Definitive fixation was undertaken with internal fixation to stabilise the hindfoot. Multivariant analysis was performed to assess risk factors for failure (P>0.05 statistical significance). Results. 59 feet were included, 3 patients did not progress to definitive surgery and 3 patients had bilateral surgery. 62.7% patients were male with an average age of 56, 88.13% had Type 2 diabetes, 56% were hypertensive, 14% were on dialysis. Twenty (54.1%) single stage reconstructions had pre-operative ulceration, 3 pts had ischaemic heart disease and 36 pts had evidence of peripheral arterial disease. 81% of patients achieved normalisation of the 3 out of 4 anatomical angles (P<0.05). Two patients (3.1%) required metalwork removal for infection and limb salvage, 11 (18.6%) had delayed wound healing. Survivorship was 97% at 3yrs, and 94% at 6yrs, however if pre-existing vascular disease was present, it was 94% at 3yrs 85.3% at 6yrs. All patients were mobile at a 3 years mean follow up. Conclusion. Careful patient selection, multidisciplinary team and anatomic reconstruction led to predictable outcomes and functional limb salvage. Pre-operative vascular compromise led to a slight reduction in survivorship, but no major amputation

Aim. The aim of this paper is to analyse the cause of neuropathic diabetic foot ulcers and discuss their preventive measures. Methods. Review of patients with foot ulcers managed in our diabetic MDT clinics since Feb 2018 were analysed. Based on this observation and review of pertinent literature, following observations were made. Results. Forefoot. Progressive hindfoot equinus from contraction of gastroc-soleus-tendo-Achilles complex, with additional contraction of tibialis posterior and peroneal longus muscles and, progressive plantar flexed metatarsal heads secondary to claw toe deformity results in increased forefoot plantar pressures. In patients with insensate feet, this result in ulcer formation under the metatarsal heads from shear stress when walking. Callosity under the metatarsal heads is the earliest clinical sign. Most patients by this time have fixed tightness of the muscle groups as assessed by negative Silfverskiold test. Percutaneous tendo-Achilles lengthening (TAL) has shown to reduce the mid-forefoot plantar pressures by 32% and ulcer healing in 96% of patients within 10 weeks (± 4 weeks). Additional z-lengthening of peroneal longus and tibialis posterior tendons helped in patients with big-toe and 5. th. metatarsal head ulcers. Proximal metatarsal osteotomies further reduce the forefoot pressures to near normality. Midfoot. Midfoot ulcers are secondary to rocker-bottom deformity a consequence of Charcot neuroarthropathy (CN). Hindfoot equinus as described and relative osteopenia from neurally mediated increased blood flow (neurovascular theory) and repeated micro-trauma (neurotraumatic theory) result in failure of medial column osseo-ligamentous structures. As the disease progress to the lateral column, the cuboid height drops resulting in a progressive rocker bottom deformity. The skin under this deformity gradually breaks down to ulceration. In the pre-ulcerative stages of midfoot CN, TAL has shown to stabilise the disease progression and in some patents’ regression of the disease process was noted. The lump can excised electively and the foot accommodated in surgical shoes. Hindfoot. These develop commonly at the pressure areas and bony exostosis in non-ambulatory patients. In ambulatory patients, the most common cause are factors that result in over lengthening of tendo-Achilles such as after TAL, spontaneous tears, or tongue-type fractures. Conclusions. Early identification of factors that result in plantar skin callosity and treating the deforming forces prevent progression to ulceration. Total contact cast without treatment of these deforming forces results in progression of these callosities to ulceration while in the cast or soon after completion of cast treatment

Introduction. Charcot Arthropathy related foot and ankle deformities are a serious challenge. Surgical treatment of these deformities is now well established. The traditional surgical method of extensive surgical exposure, excision of bone, acute correction and internal fixation is not always appropriate in presence of active ulceration, deep infection and poor bone quality. Minimally invasive osteotomies and gradual correction of deformities with a circular frame are proving helpful in minimizing complications. We present our experience with the use of Taylor Spatial Frame (TSF) in 10 patients with recurrent ulceration and deformity. Materials and Methods. Our indication for the treatment with TSF is recurrent or intractable ulceration with or without active bone infection or a history of infection in a deformed foot and/or ankle. There are 2 female and 8 male patients in this cohort. We used a long bone module for ankle and hindfoot deformities (3 patients) and a forefoot 6×6 butt frame (7 patients) for midfoot deformities. An osteotomy through midfoot was performed in all chronic stable midfoot deformity cases and a calcaneal osteotomy and gradual correction through ankle in when hindfoot and ankle deformities co-existed. Results. Our outcome measures are a complete healing of ulcer and infection without recurrence, clinically plantigrade foot and ability to wear regular shoes or diabetic footwear. We achieved this outcome in 9 out of 10 patients. Successful patients remain ulcer free at minimum 7 and maximum 14 years follow up. Complications included eight episodes of pin infection that responded to oral antibiotics only and two pin breakages. Conclusions. Our results confirm that Taylor Spatial Frame treatment is a good alternative to traditional surgery in high-risk complex Charcot neuroarthropathy foot and ankle deformities

Aims: Neuregenic osteoarthropathy often results in a deformity of the foot needing surgical intervention. Indications for surgery are reulcerations, deep infections and decompensation of the static structure of the foot architecture. External fixation is a promising technique for correction. Methods: Between 1997 and 2003, 65 feet which could be examined retrospectively, were operated for neuroarthropathy in 21 women and 43 men. A diabetic polyneuropathy was present in 56 patients. In 59 cases, an external fixation was used while in nine cases Steinmann pins were used. Follow-up treatment consisted of mobilisation in a ankle-foot-orthosis (AFO) for up to a year. Results: For diabetics, the mean duration of the disease was 24.8 years (Type 1) and 13.7 years (Type 2). All feet were at a stage 3 or 4 according to Levin and were classified as types II–V according to Sanders. In five cases there was luxation alone was observed, another nine cases exhibited a combination of luxation and osseous changes. Surgical revision was necessary in seven cases, sometimes repeatedly. As the illness progressed additional operations were necessary in 13 times. It became necessary in six cases due to loss of correction. The fitting of a prosthesis was necessary in two patients (three feet) following amputation. The mean duration was 752 days. Pin infections and disturbances in wound healing were commonly observed but could be treated successfully by conservative means. The occurrence of this complication was independent of previous ulcerations or infections. Within the first year after operation, 13.9% of the feet developed an ulcer. All of the patients could be mobilised with the help of an orthosis (47 cases) or orthopedic shoes (15 cases). Conclusions: External fixation is a suitable and variable method for correcting malalignment of the foot in cases of neuroarthropathy. It has a low complication rate and can be used for rapidly developing as well as non-progressing osteoarthropathies. In general, a fibrous ankylosis is the result of treatment, which allows pain free mobilisation under full whight bearing. In suitable cases, with a good alignment of the foot and good patient cooperation, the use of the AFO can be changed to orthopedic shoes after about 12 months

Aim of this work was to evaluate the efficacy of a new antibiotic bone substitute (CERAMENTTM|G) in the treatment of osteomyelitis (OM) in diabetic foot. From June 2013 to April 2015 we used a new Calcium Sulphate Hemihydrate + Hydroxyapatite + Gentamicin Sulfate (CSH + HA + GS) compound to fill resected bone voids following surgical intervention in cases of diabetic foot OM. The uniqueness of this product is that it induces native bone growth, while the synthetic bone disappears and antibiotic is released into the surrounding tissues, maintaining high gentamicin concentrations for some weeks. In 20 patients, with or without Charcot neuroarthropathy and post-lesional osteomyelitis, after removal of infected bone we applied 10 to 20 ml CSH + HA + GS, filling the residual spaces and aiming to stabilize the remaining bone fragments. When needed, these arthrodeses were stabilized by external-internal hybrid fixators. X-ray evaluations and, when indicated, MRI evaluations were performed before and after surgical intervention, and 3 months post-op. Revascularization with percutaneous angioplasty was performed when needed. 20 patients affected by OM were treated, 4 of them having 1st metatarsal head involvement, 4 having heel involvement, 12 tarsal and hindfoot involvement. After surgical intervention all of them were treated with standard medication and pressure relief. The three 1st metatarsal OM cases healed, both in regards to infection and lesions. One of the patients is still ongoing. One of the patients with heel OM presented with a worsening of the infection and was treated by major amputation, another one presented with good soft tissue growth and, two months from the intervention, and in the absence of clinical signs of OM relapse, was treated with a sural fasciocutaneous pedicled flap; of the remaining two patients one heald and the other is still ongoing; 11 of the 12 patients who had midfoot or hindfoot partial resections healed, one patient is still ongoing. The healed patients are all wearing suitable shoes. The use of a new CSH + HA + GS bone substitute has shown to be efficacious in inducing OM healing and preserving foot structures in diabetic feet

Introduction:. Charcot arthropathy is a complex condition affecting diabetic patients with neuropathy. Diagnosis of acute Charcot arthropathy particularly in absence of any perceptible trauma is very challenging as clinically it can mimic osteomyelitis and cellulitis. Delay in recognition of Charcot arthropathy can result in gross instability of foot and ankle. Early diagnosis can provide an opportunity to halt the progression of disease. We report the role of SPECT /CT in the early diagnosis and elucidation of the natural progression of the disease. Methods:. Our multidisciplinary team analysed the scans of neuropathic patients presented with acute red, hot, swollen foot with normal radiological findings (Eichenholtz stage 0), attending the diabetic foot clinic from 2009–2013. The patients were selected from our database, clinic and nuclear medicine records. Initial workup included the assessment of peripheral neuropathy, temperature difference, between the feet, serum inflammatory markers and weight bearing dorsoplantar, lateral and oblique x-rays. All patients had three dimensional triple Phase Bone Scan using 800Mbq . 99m. Tc HDP followed by CT scan. Those patients with obvious radiological findings and signs of infection were excluded. Results:. We evaluated 193 scans in 189 patients. One hundred and forty nine patients showed increase in focal radionuclide uptake at ligament insertion or subchondral bone with a positive predictive value of 77 percent. Forty four out of 193 were negative for Charcot changes and they were not treated as Charcot. These patients did not develop any Charcot changes in the mean follow up of 8 months, indicating a clinically false positive rate of 23%. Conclusion:. SPECT/CT scan is a highly sensitive and specific tool for early diagnosis and accurate localisation of Charcot neuroarthropathy as clinical examination results in high false positive rate. SPECT/CT also helps to understand the natural progression of this disease