Acute Charcot Research Articles

Practical guidelines of the International Working Group on the Diabetic Foot, European Society for Vascular Surgery, Society for Vascular Surgery on the prevention and management of diabetes-related foot disease 2023

Diabetes‑related foot disease results in a major global burden for patients and the healthcare system. The International Working Group on the Diabetic Foot (IWGDF) has been producing evidence‑based guidelines on the prevention and management of diabetes‑related foot disease since 1999. In 2023, all IWGDF Guidelines have been updated, based on systematic reviews of the literature and formulation of recommendations by multidisciplinary experts from all over the world. In addition, a new guideline on acute Charcot neuro‑osteoarthropathy was created. In this document, the IWGDF Practical Guidelines, we describe the basic principles of prevention, classification and management of diabetes‑related foot disease, based on the seven IWGDF Guidelines. We also describe the organizational levels to successfully prevent and treat diabetes‑related foot disease according to these principles and provide addenda to assist with foot screening. The information in these practical guidelines is aimed at the global community of healthcare professionals who are involved in the care of persons with diabetes. Many studies around the world support our belief that implementing these prevention and management principles is associated with a decrease in the frequency of diabetes‑related lower‑extremity amputations. The burden of foot disease and amputations is increasing at a rapid rate, and comparatively more so in middle to lower income countries. These guidelines also assist in defining standards of prevention and care in the these countries. Authors hope that these updated practical guidelines continue to serve as a reference document to aid healthcare providers in reducing the global burden of diabetes‑related foot disease.

Assessment, diagnosis and management characteristics of people with acute Charcot neuro-osteoarthropathy in a regional Australian health service: A 3-year retrospective audit.

Acute Charcot neuro-osteoarthropathy (CN) is highly destructive, causing bone and joint damage that can result in devastating structural changes to the foot. The objective of this study was to determine the characteristics of assessment, diagnosis and management of people with acute CN attending a large regional Australian health service. Three-year retrospective medical record audit. Large regional health service with catchment area of >250 000 people in regional Australia. People with acute CN who attended emergency, orthopaedic clinics or High Risk Foot Clinic (HRFC). Participant characteristics and acute CN assessment, diagnosis and management characteristics. Trends in characteristics were investigated according to rurality as measured by the Modified Monash Model (MMM) scale. Seventeen participants (20 presentations) of acute CN were identified. Mean age was 57.1 ± 10.8 years, with 11 female participants. Median duration to seek help was 31 (IQR 14-47) days. Total Contact Casting was undertaken for 85% of cases, with those who resided in MMM1-2 regions experienced significantly shorter time to TCC therapy compared to those residing in MMM3-7 regions (U = 3.0, p < 0.01). Resolution of acute CN with or without deformity occurred in 70% of cases. Those who lived in smaller regional and rural communities were more likely to experience delayed access to gold standard treatment for acute CN. Regional models of care for acute CN should include activities to improve the knowledge of people at risk of acute CN about the condition and upskill regional health professionals for timely and local TCC therapy.

170-OR: Case-Control Study on Whole-Methylome Analysis of Monocytes in Acute Diabetic Charcot Foot—Identifying Differentially Methylated Genes

170-OR: Case-Control Study on Whole-Methylome Analysis of Monocytes in Acute Diabetic Charcot Foot—Identifying Differentially Methylated Genes

PREVALENCE OF VENOUS THROMBOEMBOLISM IN PATIENTS WITH TOTAL CONTACT CAST

BackgroundVenous Thrombo-Embolism is a recognized complication of lower limb immobilization. In the neuropathic patient total contact casting (TCC) is used in the management of acute charcot neuroathropathy and/or to off-load neuropathic ulcers, frequently for long time periods. To our knowledge there is no literature stating the prevalence of VTE in patients undergoing TCC. We perceive that neuropathic patients with active charcot have other risk factors for VTE which would predispose them to this condition and would mandate the use of prophylaxis. We report a retrospective case series assessing the prevalence of VTE in the patients being treated with TCCs.MethodsPatients undergoing TCC between 2006 and 2018 were identified using plaster room records. These patients subsequently had clinical letters and radiological reports assessed for details around the TCC episode, past medical history and any VTE events.ResultsThere were 143 TCC episodes in 104 patients. Average age at cast application was 55 years. Time in cast averaged 45 days (range 5 days – 8 months, median 35 days). 3 out of 4 patients had neuropathy as a consequence of diabetes. One TCC related VTE (0.7% of casting episodes) was documented. This was a proximal DVT confirmed on USS 9 days following cast removal. No patient received VTE prophylaxis while in TCC.ConclusionDespite these complex patients having a multitude of co-morbidities the prevalence of VTE in the TCC setting remains similar to that of the general population. This may be due to the fact that TCCs permit weight bearing. This case series suggests that, while all patients should be individually VTE risk assessed as for any lower limb immobilization, chemical thromboprophylaxis is not routinely indicated in the context of TCCs.

State of the art in the diagnostic evaluation of osteomyelitis: exploring the role of advanced MRI sequences-a narrative review.

Osteomyelitis, a severe bone infection caused mainly by pyogenic organisms, poses diagnostic challenges due to its non-specific magnetic resonance imaging (MRI) manifestations. Conventional MRI, though the imaging modality of choice, often exhibits signal abnormalities with overlapping differential diagnoses, potentially leading to overestimation of infection extent and duration. To address these limitations, advanced MRI sequences, including dynamic contrast-enhanced (DCE) MRI, 1H magnetic resonance spectroscopy (MRS), diffusion-weighted imaging (DWI), and Dixon techniques have emerged as promising alternatives. This narrative review explores the potential role of these sequences in aiding the differential diagnosis of osteomyelitis. We used the PubMed database to search for relevant articles using the MeSH keywords: (osteomyelitis) AND (advanced MRI sequences) and we manually selected the most suitable studies to include in our review. Articles outside of original studies were also included. Only records in English or French were considered. In particular, DWI is useful for characterizing fluid collections, distinguishing bone infarcts, and bacterial skull base osteomyelitis from neoplastic lesions. Moreover, DWI assists in differentiating diabetic foot osteomyelitis (DFO) from Charcot neuro-osteoarthropathy, facilitates the diagnosis of pediatric acute osteoarticular infections, and aids in distinguishing osteomyelitis from Modic I degenerative changes. Additionally, DWI proves valuable in monitoring spinal infections and distinguishing pedal osteomyelitis from other conditions, even in patients with renal impairment. DCE-MRI enhances MRI specificity by assessing contrast uptake over time, providing valuable insights into inflammatory microenvironments. It aids in detecting DFO, differentiating it from acute Charcot arthropathy, and distinguishing osteomyelitis from neuropathic arthropathy. Moreover, DCE-MRI shows potential in assessing response to antibiotic therapy in spinal infections. Dixon acquisition improves image quality and facilitates the detection of bone marrow abnormalities, aiding in the differentiation of diabetic foot from osteomyelitis. It also assists in distinguishing osteomyelitis from neuropathic arthropathy and provides valuable information in evaluating the diabetic foot. Proton MR spectroscopy, a well-established modality, offers metabolic information that can differentiate malignant from benign lesions. The role of advanced MRI techniques in evaluating osteomyelitis remains to be fully defined, and further research is required to explore its potential utility in this context. In conclusion, the incorporation of advanced MRI sequences has shown promise in improving the differential diagnosis of osteomyelitis. Future investigations exploring combinations of these techniques and their clinical applications hold significant potential to enhance diagnostic accuracy and patient outcomes.

Evaluation of acute Charcot foot with radiographs or MRI scans?

Evaluation of acute Charcot foot with radiographs or MRI scans?

Reconstruction of the ‘Foot at Risk’ during Acute Charcot Neuroarthropathy

Reconstruction of the ‘Foot at Risk’ during Acute Charcot Neuroarthropathy

Tibiotalocalcaneal Arthrodesis Using Hybrid Plate-Nail Constructs: A Novel Technique for Treatment of Unstable Ankle and Hindfoot Deformities.

Tibiotalocalcaneal (TTC) arthrodesis is a treatment option for several pathologies of the ankle and hindfoot, including acute trauma, posttraumatic arthritis, and Charcot neuroarthropathy. Traditional fixation options for TTC arthrodesis include intramedullary hindfoot nailing or internal fixation with plates and/or screws. In certain patients, either due to poor bone quality, impaired sensation, or concern for noncompliance, more robust fixation may be desired. In such patients, we have used a hybrid plate-nail construct with promising results. This article and the accompanying video demonstrate our technique for TTC arthrodesis using a plate-nail construct and review treatment decisions involved with management of these complex cases.

Practical guidelines on the prevention and management of diabetes-related foot disease (IWGDF 2023 update).

Diabetes-related foot disease results in a major global burden for patients and the healthcare system. The International Working Group on the Diabetic Foot (IWGDF) has been producing evidence-based guidelines on the prevention and management of diabetes-related foot disease since 1999. In 2023, all IWGDF Guidelines have been updated based on systematic reviews of the literature and formulation of recommendations by multidisciplinary experts from all over the world. In addition, a new guideline on acute Charcot neuro-osteoarthropathy was created. In this document, the IWGDF Practical Guidelines, we describe the basic principles of prevention, classification and management of diabetes-related foot disease based on the seven IWGDF Guidelines. We also describe the organisational levels to successfully prevent and treat diabetes-related foot disease according to these principles and provide addenda to assist with foot screening. The information in these practical guidelines is aimed at the global community of healthcare professionals who are involved in the care of persons with diabetes. Many studies around the world support our belief that implementing these prevention and management principles is associated with a decrease in the frequency of diabetes-related lower-extremity amputations. The burden of foot disease and amputations is increasing at a rapid rate, and comparatively more so in middle to lower income countries. These guidelines also assist in defining standards of prevention and care in these countries. In conclusion, we hope that these updated practical guidelines continue to serve as a reference document to aid healthcare providers in reducing the global burden of diabetes-related foot disease.

Diagnosis and management of acute Charcot foot

Searchable abstracts of presentations at key conferences in endocrinology ISSN 1470-3947 (print) | ISSN 1479-6848 (online)

Acute Charcot neuropathy: A devastating consequence of diabetes mellitus

Abstract Introduction Acute Charcot neuropathy (ACN) is a complication of diabetes mellitus. The prevalence of ACN may be up to 13% in diabetic individuals. ACN has a complex etiology. Although it mostly affects middle of the foot, hind-foot joints, the ankle, and forefoot joints; upper limp may also be affected. Here, we present a case with ACN, whose diagnosis was hard to differentiate and manage. Clinical Case A fifty-nine-year-old female admitted to our emergency department with a complaint of pain, numbness, swelling, edema and erythema on left arm. When questioned, she had a history of type 2 diabetes for 22 years and had impaired glycemic regulation with 12.2% HbA1c level. She had all macro and micro vasculary complications of diabetes. On physical examination, her left arm was swollen, pulses were not palpabl. With a suspicion of acute thromboembolism, doppler ultrasound was performed and USG showed no arterial occlusion, but thrombosis from the basilic vein to the proximal brachial vein was seen. She initiated anticoagulant therapy with heparin. After 2 weeks, her complaints increased and pallor, coldness, and pain with passive movements on the left arm were added. She admitted to our intensive care unit with a diagnosis of compartment syndrome. She was followed in ICU with stable hemodynamics and without oxygen supplementation. She had transient acute kidney injury due to rhabdomyolysis but resolved without hemodialysis. Despite fasciotomy, myonecrosis developed on left arm and transhumeral resection was performed. After this devastating result, the patient transferred to endocrinology clinic. Intensive insulin therapy and appropriate antibiotic treatment were continued. During her stay in our clinic, she had the same complaints and physical examination findings on her left foot. Imaging studies (X-ray, bone scintigraphy) showed no osteomyelitis but acute charcot arthropathy was seen. Her glucose levels were regulated, and antibiotics completed. The physical strengthening and ROM exercises for lower extremity and oral total calorie intake was adjusted. Her HbA1c level was decreased to 6.2% without hypoglycemia and she is stable on follow-up. Conclusion ACN is a devastating complication of diabetic neuropathy with its consequences. The diagnosis may mislead clinicians to cellulitis, acute venous thrombosis, arthritis or gout. Misdiagnosis or delay in diagnosis may result in serious consequences such as infection, ulceration even amputation as in our case. A multidisciplinary approach and close monitoring of the findings may provide huge benefit for the patient.

The Neuro-Ischaemic Charcot Foot: Prevalence, Characteristics and Severity of Peripheral Arterial Disease in Acute Charcot Neuro-Arthropathy.

The study aimed to evaluate the prevalence, characteristics and outcomes of patients affected by Charcot neuro-arthropathy (CN) and peripheral arterial disease (PAD) compared to CN without PAD. Consecutive patients presenting with an acute CN were included. The sample size was calculated by the power analysis by adopting the two-tailed tests of the null hypothesis with alfa = 0.05 and a value of beta = 0.10 as the second type error and, therefore, a test power equal to 90%. Seventy-six patients were identified. Twenty-four patients (31.6%) had neuro-ischaemic CN; they were older (66 vs. 57yrs), p = 0.03, had a longer diabetes duration (19 vs. 14yrs), p &lt; 0.001, and more cases of end-stage-renal-disease (12.5 vs. 0%), p = 0.04 and ischaemic heart disease (58.3 vs. 15.4%), p &lt; 0.0001 than neuropathic CN. Fifty patients (65.8%) had concomitant foot ulcers, 62.5% and 67.3% (p = 0.3), respectively, in CN with and without PAD. Neuro-ischaemic CN show arterial lesions of 2.9 vessels, and PAD was located predominantly below-the-knee (75%) but not below-the-ankle (16.7%). The outcomes for neuro-ischaemic and neuropathic CN patients were, respectively: wound healing (86.7 vs. 94.3%), p = 0.08; minor amputation (25 vs. 7.7%), p = 0.003; major amputation (8.3 vs. 1.9%), p = 0.001; hospitalization (75 vs. 23%), p = 0.0001. The study showed a frequent association between CN and PAD, leading to a neuro-ischaemic Charcot foot type. Neuro-ischaemic CN leaded to an increased risk of minor and major amputation and hospitalization, compared to neuropathic CN.

THE MANAGEMENT OF DIABETIC FOOT IN THE EMERGENCY

Background:Diabetic foot ulcers infected mainly increase the risk of amputation. The aim of our study was to define the predictors of amputation of the diabetic foot, draw the clinical, bacteriological and therapeutic profile of patients presenting to the emergency Aims: To define the predictors of amputation of the diabetic foot, draw the clinical, bacteriological and therapeutic profile of patients presenting to the emergency Patients/methods: This is a prospective observational study spread over twelve months in the medical and surgical emergencies including 108 patients. We investigated socio-demographic, clinical data and treatment of patients hospitalized for diabetic foot. Results: The mean age of patients was 63.7ans, 92.6% were diabetic type2. 57.4% of lesions were acute (ulcers (37%), wet gangrene (33.3%), dry gangrene (13%),cellulitis (24.1%) and acute Charcot foot (9.3%)), 63% following a trauma and 33.2% due to unsuitable footwear. 81.5% had clinical signs of angiopathy and 64.5% of neuropathy. The lesions were classified: uninfected (9.3%), low (9.3%), moderate (38.8%) and severe (42.6%) according to the IDSA / IWGDF and 0D (46.3%) 3D (18.5%) 3B (7.4%) according to the University of Texas. Staphylococcus aureus was the most germ solved. Antibiotics administered if osteitis was Amoxicillin-clavulanate (57.5%) and Ertapenem (31.5%) in his absence. 14.8% received debridement, 1.9% for revascularization and 83.3% for amputation. In our study, the risk of amputation increases with the average socioeconomic level, severity of the infection and the presence of osteitis /osteomyelitis while drying feet after ablution was a protective factor. 9.3% of recurrence and 5.6% of deaths were recorded. Conclusions: The multidisciplinary management of diabetic foot is paramount. The surgery is common immediately but rarely necessary, medical treatment is the first-line therapy avoiding abusive amputations. Prevention requires the establishment of specialized units. Summary:Diabetic foot ulcers infected mainly increase the risk of amputation. The aim of our study was to define the predictors of amputation of the diabetic foot, draw the clinical, bacteriological and therapeutic profile of patients presenting to the emergency. This is a prospective observational study spread over twelve months in the medical and surgical emergencies including 108 patients. In our study, the risk of amputation increases with the average socioeconomic level, severity of the infection and the presence of osteitis /osteomyelitis while drying feet after ablution was a protective factor. 9.3% of recurrence and 5.6% of deaths were recorded.

Mini-Invasive Approach and Minor Amputation in the Management of Diabetic Foot Ulcer: A Retrospective Study of 110 Cases

Category:Diabetes; OtherIntroduction/Purpose:The diabetic foot is an increasing issue over the last years. The 25% of diabetic patients have a risk to develop a diabetic foot ulcer (DFU) in their lifetime, among these, the 28% of patients will result in an amputation. The amputation is associated with a high rate of complications. Therefore, percutaneous mini-invasive (PMI) approaches and minor amputations (MA) have a widespread use in the last years. The aim of our work is to evaluate the clinical and functional outcomes of PMI and MA in the treatment of recurrences and unhealed DFU after conservative treatment.Methods:We retrospectively enrolled 110 patients treated in our orthopedic department in Perugia between January 2012 and October 2019. Included were the patients underwent to a PMI or MA treatment after failed conservative treatment for 12 weeks. The PMI technique consist of flexor tenotomy, metatarsal osteotomy and resection arthroplasty sec. Kessler. DFU were classified according to the Texas Foot Ulcer Classification. Exclusion criteria were: patient affected by peripheral vasculopathy disease, previous major amputation, psychiatric disease. The patients were divided in 2 groups. The group A included 57 patients treated with PMI, mean age 62.8 y.o. (range 50-80). The group B included 53 patients treated with MI, mean age 66.2 y.o. (range 53-85). The mean follow up was 18 months (range 4-40 months). Clinical outcomes, complication's rate, functional scores (FFI and VAS- FA) were assessed. The statistical analysis was performed with the t-student test, the significativity value was set p<0.05.Results:In the group A, the patients had a healing's rate in 90,7 % of cases, the ulcer was healed in average in 5.77 weeks ( range 4-8.1). The postoperative complications accounts 35% of cases, including 2 cases of osteomyelitis, 1 acute Charcot foot, 1 case of acute renal insufficiency and pneumonia. Transfer ulcer occurred in 12.96%. Overall a reintervention with a mini-invasive approach was performed in 2 cases. Group B healed in 77% of cases, in a mean time of 9.11 weeks (range 8-13.3), no postoperative complication occurred. In 23% of patients occurred a transfer ulcer after an average time of 30 months, in 1 case a major amputation was mandatory. The mean value at postoperative follow-up was 78 for VAS-FA for group A and 72.2 for group B, the FFIindex was 70% for group A and 68% for group B.Conclusion:The PMI and AM are effective procedures for the treatment of DFU, associated with low complications rate, fast recovery and ulcer's healing process, low rate of recurrences and ulcer transfer. Overall the percutaneous technique show encouraging results, however, these procedures must be addressed to the patient's feature. As prospective, in the future percutaneous treatments might play a role in prevention's strategy.

The role of diffusion-weighted imaging and dynamic contrast-enhanced magnetic resonance imaging for the diagnosis of diabetic foot osteomyelitis: a preliminary report

PurposeTo assess the role of dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) and diffusionweighted imaging (DWI) in diagnosing diabetic foot osteomyelitis (DFO).Material and methodsTwenty-five participants with suspected osteomyelitis were included, who underwent MRI including DCE-MRI and DWI sequences. It was subsequently followed by bone biopsy and microbiological analysis (gold standard). The participants were divided into 2 groups based on biopsy results: DFO-positive or DFO-negative. The semi-quantitative DCE-MRI parameters (SI0, SImax, SIrel, wash-in rate [WIR], and type of curve) and apparent diffusion coefficient (ADC) values were subsequently compared between the 2 groups.ResultsOut of the 25 cases, 19 were DFO-positive and 6 were DFO-negative on bone biopsy. The SI0, SImax, and WIR were significantly higher in DFO-positive cases (p-value 0.050, 0.023, and 0.004, respectively). No difference was seen in SIrel. 100% negative cases revealed type-I curve, and 94% of positive cases showed type-II curve. SI0 > 143.4 revealed a sensitivity of 94.7% and specificity of 83.3%. SImax had a sensitivity of 89.5% but lower specificity of 67.7% at a cut-off value of 408.35. The most significant difference was seen with WIR; p-value ~0.004. At the cut-off value of > 1.280, it had a specificity and sensitivity of 100% and 76%, respectively. Also, ADC values below 1.57 × 10-3 had a sensitivity of 88.2% and specificity of 80% for diagnosing DFO.ConclusionsDWI and DCE-MRI provide non-invasive sequences, which can help to increase the overall specificity and sensitivity of conventional MRI for the diagnosis of osteomyelitis, differentiating it from acute Charcot’s arthropathy.

Mortality in Patients after Diabetic Charcot Foot-Related Procedures

Category:Diabetes; Hindfoot; Midfoot/ForefootIntroduction/Purpose:Diabetic Charcot foot is a chronic and progressive disease, following neuropathic loss of protective sensation and causing destruction of the joints. It is classically identified through a rocker-bottom deformity and may also present with a collapse of the medial arch, bony prominences, and ligamentous instability. Charcot leads to further morbidities, and patients may require surgeries including below the knee amputations or limb salvage reconstruction to treat the disease if conservative treatments fail. Previous literature demonstrated that foot ulceration is associated with mortality in diabetic patients, but no clear association between Charcot diagnosis and mortality has been identified. The purpose of this study was to investigate the mortality in patients diagnosed with acute diabetic Charcot foot.Methods:After institutional review board approval, all patients at a single institution that underwent an orthopaedic surgery for the treatment of Charcot during 2015-2020 were queried using hospital and public records. Demographic data, as well as the 30- day, 90-day, 1-year, and 5-year mortality were recorded.Results:79 patients were identified, with 57 (72%) males and 22 (28%) females with Charcot-related surgeries between 2015 and 2020. At the time of surgery, the average age was 58.2 (28-83) years. At the time of analysis, 61 (77%) patients were still living, but 18 (23%) patients were deceased with mortality within 30 days (1), 90 days (5), 1 year (9), and 5 years (18) of the Charcot-related procedure. For deceased patients, the average age of death was 59.6 years (30-83 years). The average number of days post- operation until death was 460 days (23-1613 days).Conclusion:Diabetic Charcot foot is a serious and debilitating complication of diabetic neuropathy. This data demonstrates that 23% of patients analyzed expired an average of 1.26 years after Charcot-related surgery. In addition, patients that were deceased were an average of 59.6 years of age, suggesting that Charcot may be associated with early mortality. Future studies will include an analysis of possible predictors of mortality for patients diagnosed with Charcot foot to evolve clinical and surgical management of patients.

Nontouch Infrared Skin Thermometry: An Underutilized Tool.

Wound care clinicians and patients can identify surface skin temperature differences with noncontact infrared skin thermometers.1 These inflammatory changes can be important for the early identification of neuropathic complications (eg, repetitive trauma and Charcot foot) and deep/surrounding wound infection. This technology can replace the subjective and often inaccurate assessment of skin temperature differences using the back of the clinician’s hand.2 Role in Preventing Foot Ulcers Persons with diabetes and a high-risk neuropathic foot can use infrared thermometry at six sites on the foot to monitor plantar temperature changes: the first, third, and fifth metatarsal head, as well as the two midsides of the foot and the heel. If a temperature differential of 4 °F or higher is detected at any site, patients should restrict ambulation to reduce repetitive trauma and in turn reduce the likelihood of new foot ulcers.3 Three randomized controlled studies4–6 demonstrated that infrared thermometry prevented most new neuropathic ulcers in this patient population compared with both standard care and an education session for daily foot examinations, rendering this technology one of the few with strong clinical evidence.1,4–6 Charcot Joint A Charcot joint occurs from neuropathy and trauma, leading to microfractures of the bone (Charcot neuroarthropathy). It can occur in any joint, but this discussion is limited to the foot as the most common site. Acute swelling, often with deformity of a neuropathic foot, may be a sign of Charcot neuroarthropathy. The patient usually does not have a foot ulcer or loss of skin integrity, and there may be acute pain in an otherwise painless foot (Figure 1).Figure 1: BILATERAL CHARCOT FEET© WoundPediaClinicians and patients can use the infrared thermometer to assess the aforementioned six sites on each foot. The increased temperature is often 8 °F to 15 °F warmer than the mirror image on the opposite foot.7 With an acute Charcot joint, patients should not apply any direct weight on the foot and use a wheelchair, contact cast, or removable cast walker. Given a loss of proprioception, crutches may be associated with falls. With patient self-monitoring, and as the temperature normalizes, weight bearing can gradually be increased with custom orthopedic shoes, including the introduction of a CROW (Charcot Restraint Orthotic Walker). Infection Infrared thermometry was introduced into the Toronto Regional Dermatology and Wound Clinic in 1996 to detect early infection signs to prevent destruction of cellular and/or tissue-based products. This use of infrared thermometry contributed to the creation of the NERDS and STONEES mnemonics,8–10 which use clinical signs to differentiate superficial (NERDS) from deep and surrounding infection (STONEES; Figure 2). In reviewing the individual factor analysis of each of the STONEES criteria, an increase in skin temperature of 3 °F or higher versus a mirror-image measurement of noninfected comparator skin is more than 8 times more likely to be associated with deep and surrounding infection9 (although two or more other STONEES criteria are also required for definitive diagnosis).Figure 2: CLINICAL CRITERIA FOR INFECTION© WoundPediaPOINTS TO CONSIDER Inexpensive, commercially available noncontact infrared thermometers are useful instruments for wound care practitioners.1 The Fahrenheit scale is preferable to the Celsius scale because it allows detection of smaller intervals of temperature differences making it easier to interpret at the bedside. These thermometers (cost $25–100) are just as effective as scientific grade thermometers (eg, Exergen, at a cost of $615.07).11,12 Smart et al13 have similarly validated mini-infrared thermometers that can be carried in a nurse’s pocket to be equivalent to the scientific standard. Infrared thermometers should have a continuous mode with a maximum temperature reading and convert to Fahrenheit from Centigrade.14 Using the validated whole-wound zigzag method (Figure 3)14 when the thermometer is in activated continuous mode, practitioners can determine a maximum temperature more quickly than measuring four distinct areas to obtain the highest reading around the margin of an ulcer. Maliyar et al15 validated nontouch infrared thermometry had a 3 °F increased or higher temperature compared to the mirror image on the opposite leg but cautioned that temperatures on the front and back of the same extremity may be misleading because of transfer of heat from an active infection. The industrial nontouch infrared thermometers can be held 8 to 12 inches from the skin/wound and give an accurate measurement compared with the scientific standard thermometer (eg, Exergen) that must be held within 1 to 2 cm of the skin surface.2,12 The closer distance is more likely to result in accidental bacterial contamination from the wound surface or exudate. Interrater reliability has been validated with similar infrared thermometer results between two independent observers.11 Although arterial disease with ischemic changes can lower skin temperature, there are no validated studies on the use of nontouch surface infrared thermometry for this indication. Figure 3: ZIGZAG TECHNIQUE© WoundPedia

Effect of Recombinant Human Parathyroid Hormone (1-84) on Resolution of Active Charcot Neuro-osteoarthropathy in Diabetes: A Randomized, Double-Blind, Placebo-Controlled Study

OBJECTIVEFractures in Charcot neuro-osteoarthropathy (CN) often fail to heal despite prolonged immobilization with below-knee casting. The aim of the study was to assess the efficacy of recombinant human parathyroid hormone (PTH) in reducing time to resolution of CN and healing of fractures.RESEARCH DESIGN AND METHODSPeople with diabetes and acute (active) Charcot foot were randomized (double-blind) to either full-length PTH (1-84) or placebo therapy, both in addition to below-knee casting and calcium and vitamin D3 supplementation. The primary outcome was resolution of CN, defined as a skin foot temperature difference >2°C at two consecutive monthly visits.RESULTSMedian time to resolution was 5 months (95% CI 4, 12) in intervention and 6 months (95% CI 2, 9) in control. There was no significant difference in time to resolution between the groups (mixed-effects logistic regression; P = 0.64). The hazard ratio of resolution was 0.84 (95% CI 0.41, 1.74; P = 0.64), and the odds ratio of resolution by 12 months was 1.22 (0.90, 1.67; P = 0.20) (intervention vs. control). On linear regression analysis, there were no significant differences in the effect of treatment on fracture scores quantitated on MRI scans (coefficient 0.13 [95% CI −0.62, 0.88]; P = 0.73) and on foot and ankle X-rays (coefficient 0.30 [95% CI −0.03, 0.63]; P = 0.07).CONCLUSIONSThis double-blind placebo-controlled trial did not reduce time to resolution or enhance fracture healing of CN. There was no added benefit of daily intervention with PTH (1-84) to below-knee casting in achieving earlier resolution of CN.

Trans-calcaneal retrograde nailing for secondary-displaced traumatic ankle fractures in diabetics with insensate feet: a less-invasive salvage-arthrodesis technique.

Secondary displacement of traumatic ankle fractures with subsequent soft-tissue breakdown is a troublesome issue after inappropriate conservative treatment among non-compliant diabetic patients with severe peripheral neuropathy. This study was conducted to evaluate the results of a less-invasive arthrodesis procedure as an alternative to osteosynthesis in these complex scenarios. A total of 46 diabetics, who underwent fluoroscopy-assisted trans-calcaneal retrograde nailing-based ankle arthrodesis between 2012 and 2018 for salvaging secondary-displaced diabetic ankle fractures in their insensate feet, were evaluated in this retrospective study. All fractures were associated with uninfected mechanical ulcers overlying malleoli, without Charcot changes, after failed conservative cast immobilization. The patients (mean age: 52.52 ± 3.70years; 18 males; 46 feet) were evaluated radiologically for union and clinically for limb salvage, modified American Orthopedic Ankle and Foot Scale (AOAFS), and the overall subjective patients' satisfaction. The mean follow-up was 29.5 ± 3.1months. All ulcers have healed with local care only with 100% limb salvage. Four patients experienced minor wound healing problems at posterior heel, and another one developed acute Charcot changes that was successfully managed by offloading andrepeat surgery. Forty patients (86.96%)had fully consolidated fusions with a mean time to fusion 15.78 ± 2.58weeks, while the other six cases had stable fibrous-union. At the final follow-up, the mean modified-AOFAS was 76.85 ± 6.0 from 86 total points. All, but four patients (91.30%)were completely satisfied while the other four patients were partially satisfied. The presented less-invasive arthrodesis technique is reproducible and effective alternative for salvaging unstable diabetic ankle fractures in the insensate feet when standard surgical procedures would be more risky. IV, retrospective case series.

Surgical treatment of midfoot charcot neuroarthropathy review of literature and our results after superconstruct reconstruction of midfoot charcot neuroarthropathy

BackgroundCharcot neuroarthropathy (CN) of the midfoot was traditionally treated non-operatively with off-loading in a total contact cast (TCC). After introduction of the super construct concept, promising results were reported, however there is a need for further studies on this concept. Analysis of non-operative versus operative treatment is presented as well as our results from a consecutive series of 20 patients operated with the superconstruct concept. MethodsTwenty patients were operated from July 2017 until June 2020. Mean age was 58 years (50–80), mean weight was 116 kg (68–156), giving a BMI of 31 (26–45). Preoperative patients off-loaded in a TCC until decreased swelling and skin temperature measurement or ulcer had healed, mean 16 weeks immobilization. Surgery was without tourniquet, using a standard medial and lateral incision. Mean follow up is 24 (5–40) months. ResultsMean operation time was 227 (150–315) minutes. Medial column fusion was mandatory, in five cases as an isolated procedure, in 12 cases in combination with lateral column fusion and in three cases with a talocalcaneal fusion. Preoperative lateral Meary angle decreased from 23.5 to 9.6°, antero-posterior Meary angle decreased from 16.0 to 4.7°. Eight patients had postoperative incisional wound problems. Four patients had partial implant removal. All healed with a good clinical result. Two patients had an acute Charcot attack in the ankle joint during postoperative mobilization. One had a severe collapse of the talus resulting in a below knee amputation, giving an amputation rate of 5%. Radiographic examination at follow up, showed bone union of all patients. Nineteen patients are ambulated in orthopedic shoes at latest follow up, giving a 95% satisfactory result. ConclusionSuperconstruct reconstruction of CN midfoot collapse is a safe procedure. There are incisional wound problems, recognition and fast treatment of these complications is important to achieve good results. There is a risk for overloading the ankle, initiating a new acute Charcot attack. Attention must be on this problem. The surgical technique is demanding and should be performed by experienced foot and ankle surgeons in a multidisciplinary team set up.