Combination of active stage of diabetic Charcot neuroosteoarthropathy and diabetic lower limb macroangiopathy

Combination of active stage of diabetic Charcot neuroosteoarthropathy and diabetic lower limb macroangiopathy is the rare condition. In the present paper we describe two cases of development of acute Charcot foot in the non-critically ischemic foot. The first case is the patient with previously diagnosed intermitted claudication and the second case is patient who developed the Charcot foot 5 months later after successful endovascular treatment of arterial occlusions of his left lower limb. In both cases the absence of redness in the early stage, the mild-to-moderate pain and mild temperature gradient between affected and non-affected feet were noticed. The clinical course of the Charcot disease in the first patient was favourable. He used walker for 9 months and his foot shape was preserved and deformity was considered as mild. The second patient had more active and profound destructions due to delay of the treatment. He was casted, however his deformity progressed and the treatment continues up to date. In both patients the MRI revealed more affected bones compared with X-ray. These cases emphasize the importance of keeping in mind the Charcot disease even in patients with diabetic peripheral vascular disease

Short-term outcomes of treatment of active stage of Charcot foot in outpatient setting

Background: Treatment options in patients with an acute Charcot foot is not well standardized and still challenging.Aims: To evaluate the results of the non-operative treatment of patients with active stage of diabetic charcot arthropathy in outpatient foot clinic and to identify factors influenced on treatment results.Materials and methods: Medical files of 141 patients with unilateral ulcer-free active charcot arthropathy were reviewed. 78 patients agreed for treatment (total contact cast or walker), 63 patients refused of treatment (follow-up only). The time of resolution of the acute stage, severity of final deformities and foot-related complications were evaluated. Refusers were asked about the cause of their decision.Results: Mean delay of the diagnosis was 3,2±2,8 months. Main causes of the refuse were: mistrust to doctor - 38%, problems with employment - 33%, home/family problems - 18%, medical reasons - 11%. Median healing times (months) in the treatment group vs controls: 9 (6 - 19) 15 (13 - 25) (p=0,001) and progression of the initial deformity: 14% and 35%, respectively (p=0,01). Foot-related complications: 17,5% in the treatment group and in 55,6% of controls (including 6 amputations) (p=0,001). Frequency of breaking the cast/walker - 32%/16,6%. Foot lesions due to cast/walker: 13,6%/41,7% (p<0,01). Median healing times (months) with walkers - 13 (11 - 19), with casts - 9 (6 - 15) months (р=0,02). The use of crutches shortened healing time.Conclusions: The significant delay of diagnosis was revealed. The refuse rate in our cohort was high and main causes of the refuse were social and psychological. Neglect of treatment leads to high frequency and severity of foot-related complications. We noticed high rate of breaking of walkers and casts and device-related foot lesions. Total contact casts were more effective and safe compared with walkers

Changes in loading distribution in patients with Charcot foot during long-term follow-up

Background. The inactive stage of the diabetic Charcot arthropathy foot (CA) is characterised by fixed foot deformities and an absence of inflammation. However, it remains unclear if the shape of the foot and its biomechanics change during long-term follow-up. Aim. To evaluate changes in loading distribution of the affected foot, in patients with inactive CA, during long-term follow-up. Materials and methods. Twenty seven patients with unilateral inactive CA (19 females, 8 males) were studied. Computer pedography (emed AT, novel gmbh) was performed and baseline and the last studies were analysed. Maximal peak pressures (PP) were obtained for the first and the last studies and the percentage of the PP change was calculated for the total follow-up period and for periods: 24 months, 2448 months, 48 months. Results. PP increased: under the hallux 50%; 1st metatarsal30.7%; 2nd toe20%; 2nd toe6%; midfoot9%. PP decreased under 35 toes up to 67%. Significant changes at the first period were found under 35 toes only (62%). The increase in loading under the other parts of the foot appeared at 24 months; however, these changes became significant between 24 and 48 months and peaked after 48 months of follow-up. The maximal increase of PP was noticed under the hallux, the 2nd toe, metatarsals 13 and the midfoot. Conclusions. We revealed the gradual redistribution of PP, under the different parts of the foot, in patients with inactive CA. This redistribution reflects changes in the shape of the affected foot. The loading increased under the hallux, the 2nd toe and the corresponding metatarsals, 3rd metatarsal and midfoot, and decreased under the 35 toes. These changes increased during the follow-up, becoming more pronounced after 4 or more years. Our data may be useful for constructing custom-made footwear for patients with CA

Pedographic assessment of the impact of off-the-shelf orthopedic shoes on the load distribution under the feet in patients with a high risk of developing diabetic foot syndrome

BACKGROUND: It is known that the so-called “rocker” outsole helps to reduce the load on the forefoot and toes. Such an outsole is available in ready-made orthopedic shoes of some Russian manufacturers, however, an objective assessment of their impact on the load distribution under the foot during walking has not been carried out.AIMS: To study the pressure distribution inside the off-the-shelf orthopedic shoes“Sursil-Ortho” in comparison with the load inside the shoes used by patients on a daily basis.METHODS: We studied 20 patients (40 feet) with a high risk of diabetic foot syndrome. According to clinical data, a risk regions were determined on the plantar surface of the feet. In-shoe pedography (pedar, novel,Germany) was performed in shoes usually worn by the patients, and in orthopedic shoes“Sursil-Orto”(Moscow). The maximum peak pressure (MPP) was calculated. Criterion of efficiency: MPP in the risk region<200 kPa or reducing it by 25% or more.RESULTS: There was a significant decrease of the median MPP in the forefoot and in the risk region. The percentage of feet with MPP >200 kPa in the risk region decreased from 58% to 30% (p=0,014), in any area of the forefoot — from 63% to 30% (p=0,04). The increase in MPP under the midfoot and hindfoot did not exceed +14% (ns). Tested footwear was effective in 71% of cases. Predictors of the insufficient effect were: higher initial MPP in the risk region, risk region on the hallux or in the lateral part of the forefoot.CONCLUSIONS: Shoes with a rigid rocker outsole significantly reduce the pressure under the forefoot and under the toes during walking. The degree of load reduction varies: the lateral part of the forefoot and 2-5 toes are most unloaded, and the hallux and medial forefoot are slightly less

Rekomendatsii po izgotovleniyuortopedicheskoy obuvidlya patsientov s sakharnym diabetom

Формы поражения нижних конечностей при сахарном диабете (СД) крайне разнообразны. Отсутствие учета особенностей того или иного пациента приводит к тому, что изготовленная ортопедическая обувь часто не удовлетворяет ни пациентов, ни врачей. Любая обувь, в том числе ортопедическая, может при ее неправильном изготовлении стать причиной повреждения стопы у больного СД. Поэтому очень важен строгий контроль качества изготавливаемой обуви и ее соответствия проблемам данного пациента. В связи с этим представителями различных учреждений эндокринологического и ортопедического профиля были разработаны совместные рекомендации по изготовлению ортопедической обуви с учетом различных клинических проблем у пациентов с СД