Bone mineral density in diabetes mellitus patients with and without a Charcot foot

Trabecular and cortical bone microarchitecture using high-resolution peripheral quantitative computed tomographic imaging in diabetic peripheral neuropathy

CONTEXT

Type 2 Diabetes Mellitus (T2D) is associated with an increased risk of fragility fracture despite normal areal bone mineral density (BMD). The contribution of diabetic peripheral neuropathy (PN) to volumetric BMD (vBMD) and bone microarchitecture in T2D is not explored.

OBJECTIVE

To assess vBMD and microarchitectural properties of bone using high-resolution peripheral quantitative computed tomography (HR-pQCT) in patients of T2D with or without PN.

DESIGN

This is a cross-sectional study of patients of T2D divided into two groups [patients with T2D without PN (Group A) and T2D with PN (Group B)]. All patients underwent clinical examination, biochemical evaluation, dual-energy X-ray absorptiometry (DXA), and HR-pQCT of the radius and tibia.

RESULTS

A total of 296 patients were included in the study [Group A (n = 98), Group B (n = 198)]. HR-pQCT demonstrated a significant difference in total vBMD[mg/cm3] at tibia (291.6 ± 61.8 vs. 268.2 ± 63.0; p-0.003); cortical vBMD[mg/cm3] at tibia [912.5 (863.3, 962.4) vs. 853.8 (795.3, 913.2) p-0.000], among groups A and B respectively. Among the microarchitecture parameters, there was a significant difference in cortical porosity at the tibia (2.5% ±1.7% vs. 3%±1.7%; p-0.004), trabecular number[mm-1] at the tibia [1.080 (0.896, 1.237) vs. 1.140 (0.983, 1.286), p-0.045] and trabecular thickness[mm] at the radius [0.228 (0.217, 0.247) Vs. 0.238 (0.224, 0.253); p-0.006], among groups A and B respectively.

CONCLUSION

Despite comparable areal BMD, T2D patients with PN have diminished vBMD and deteriorated skeletal microarchitecture, compared to those without PN.

Radiodensity Analysis of Medial Column Superconstruct Fixation Sites in Midfoot Charcot Neuroarthropathy

Charcot neuroarthropathy (CN) is a highly destructive, pathologic process with devastating consequences to foot structure and viability. The use of intramedullary fixation "superconstructs" allows for "re-bar" support of compromised bone and allows for some dynamic fixation. This study examines radiodensity in Hounsfield units (HU) to compare bone quality of medial column fixation targets using computed tomography scans between patients with and without midfoot CN. A retrospective chart review identified control (nondiabetic, non-CN; n = 29) and midfoot CN (n = 21) groups. Patient demographics and medical history were collected. Two reviewers measured the mean HU of a circular region of interest centered on the first metatarsal head and the anterior, middle, and posterior thirds of the talar body. Radiodensity was compared between groups, and among talar locations, Eichenholtz stages and Brodsky types, with statistical significance set at p ≤ .05. Age and body mass index were not significantly different between groups. The CN group maintained greater mean HU than the control group at the metatarsal head (p < .001), and talar body locations (p < .019). The difference in mean HU of these bones was not statistically significant between Stages 0 to 1 and Stages 2 to 3 or Brodsky Types 1 and 2. Mean HU differences among talus positions were not statistically significant. Indirect bone density analysis using HU showed an increased density in CN patients with no significant difference among talar body locations or midfoot Charcot stages and types. These results may assist in optimizing fixation length. Future studies may examine these densities in ankle CN.

Long-Term Changes in Sarcopenia and Body Composition in Diabetes Patients with and without Charcot Osteoarthropathy

BACKGROUND

Charcot osteoarthropathy of the foot (COA) can currently only be treated using prolonged periods of immobilization of the affected extremity. Therefore, the hypothesis is that COA leads to altered body composition and increased sarcopenia.

OBJECTIVE

To investigate the changes over several years in sarcopenia, body composition, and fat distribution in diabetes patients with previous COA compared to diabetes patients without previous COA.

METHODS

Prospective observational clinical study. Twenty-one subjects were included and had two DXA scans done with mean 8.6-year intervals to compare changes in lean mass and fat distribution. The lean mass of limbs was used as an estimate of appendicular lean mass (aLM). Fat mass and aLM were then used to detect sarcopenic individuals using different methods. Results and Conclusions. As compared to baseline, both groups had significant loss of lean mass, and diabetics without COA had significant gain of total fat percentage. No statistically different prevalence of sarcopenia between the groups could be established. Likewise, no difference was found in total lean and fat mass changes. None of the groups had statistically significant changes of android fat distribution. As compared with published data on sarcopenia, people with diabetes might be more prone to sarcopenia than healthy individuals.

Fractures and Osteoporosis in Patients With Diabetes With Charcot Foot

OBJECTIVE

Charcot foot is a serious complication of diabetes, with degeneration of the bones and joints in the foot and ankle. It is unknown whether patients with diabetes with a Charcot foot have an increased risk of osteoporosis and fractures. The aim of this study was to investigate whether patients with diabetes with a Charcot foot have an increased risk of fracture and/or osteoporosis compared with patients with diabetes without Charcot foot.

RESEARCH DESIGN AND METHODS

A Danish register-based, nationwide population-based matched cohort study was conducted. During 1995-2018, we identified 1,602 patients with diabetes with Charcot foot and matched them on sex and date of diagnosis of diabetes with 16,296 patients with diabetes without Charcot foot. We used logistic regression to estimate odds ratios (ORs) with 95% CIs for fracture and osteoporosis. Information about exposure, outcome, and comorbidities was retrieved from the Danish National Patient Register.

RESULTS

Diabetes patients with Charcot foot had higher risk of fractures compared with those without Charcot foot (i.e., ORs for any fracture, lower-leg fracture, foot fracture, and osteoporotic fracture were 1.8 [95% CI 1.6-2.0], 2.4 [2.0-2.8], 2.9 [2.6-3.3], and 1.3 [1.1-1.4], respectively). Furthermore, patients with diabetes with Charcot foot had higher risk of osteoporosis compared with the patients without Charcot foot, with an OR of 1.3 (95% CI 1.1-1.5).

CONCLUSIONS

Patients with diabetes with a Charcot foot have an increased risk of fractures and osteoporosis compared with patients with diabetes without a Charcot foot.

Effect of peripheral neuropathy on bone mineral density in adults with diabetes: A systematic review of the literature and meta-analysis

INTRODUCTION

Peripheral neuropathy occurs in two thirds of patients with diabetes mellitus (DM). It can lead to severe pathological changes in the feet, and it increases the risk of fracture more than any other diabetic complication. The objective of this review is to analyze available literature on the effect of peripheral neuropathy on BMD of the foot, spine, or hip. We hypothesize that the presence of diabetic neuropathy leads to lower BMD in adults with diabetes.

METHODS

Original studies investigating the effects of diabetic neuropathy on bone density were searched for inclusion in this systematic review. Studies were eligible if they met the following criteria: 1) participants included adults with either Type 1 DM or Type 2 DM; 2) Method used for the diagnosis of neuropathy described in the manuscript 3) DXA scan, ultrasound, or CT scan was used to measure proximal femur, spine, or foot bone mineral density were reported, and 4) bone parameters were analyzed based on the presence and absence of neuropathy.

RESULTS

Among the 5 studies that met eligibility criteria, 4 did not find a significant effect of neuropathy on BMD. One study showed a significant negative impact of neuropathy on calcaneal BMD in patients with type 1 diabetes. The meta-analysis did not show a significant effect of peripheral neuropathy on BMDs of proximal femur, spine, and calcaneus in diabetic adults.

CONCLUSION

Our study shows no evidence that peripheral neuropathy affects bone density or bone turnover in DM. However, this conclusion should be taken with caution since only a very limited number of studies were available for inclusion in the analysis and included both type 1 and type 2 DM patients. Improved measures of peripheral neuropathy and more advanced imaging technologies are needed to better assess the effect of diabetes on bone health.

Relationships within and between lower and upper extremity dysfunction in people with diabetes

INTRODUCTION

Diabetes mellitus (DM) is associated with systemic musculoskeletal system impairments suggesting concurrent development of lower and upper extremity musculoskeletal problems. This study aims to examine relationships between lower and upper extremity function in people with DM.

METHODS

Sixty people with type 2 DM and peripheral neuropathy [mean (standard deviation); 67(6) years old, DM duration 14(10) yrs] completed the following measures: 1) Self-reports of function: Foot and Ankle Ability Measure (FAAM; higher = better function) and Shoulder Pain and Disability Index (SPADI; lower = better function), 2) Range of motion (goniometry): ankle dorsiflexion and shoulder flexion, and 3) Strength: unilateral heel rise power (UHR, 3D kinetics) and hand grip dynamometry. Pearson correlations examined associations between lower and upper extremity measures, p < .05.

RESULTS

Forty of 60 (67%) reported pain/disability in both the foot/ankle and shoulder and 95% of study participants had some limitation in foot or shoulder function. Significant between extremity correlations: FAAM and SPADI (r = -0.39), ankle dorsiflexion and shoulder flexion range of motion (r = 0.35), and UHR and hand grip strength (r = 0.40). Significant within extremity correlations: FAAM and UHR (r = .47) and SPADI with shoulder flexion (r = -0.44).

CONCLUSION

Upper and lower extremity inter- and intra-relationships indicate systemic musculoskeletal impairments in people with DM. Healthcare practitioners should consider the potential for concurrent and disabling musculoskeletal problems in people with DM.

The role of genetic factors and monocyte-to-osteoclast differentiation in the pathogenesis of Charcot neuroarthropathy

Charcot neuroarthropathy is a chronic, progressive condition of the skeletal system that affects some patients with diabetic neuropathy. It results in progressive destruction of bones of the foot and disorganisation of pedal joints and ligaments. Effective prevention and treatment for Charcot neuroarthropathy remain a challenge. Currently, there are no reliable repeatable markers to identify patients with diabetes who are at higher risk of developing Charcot neuroarthropathy. The pathogenesis underlying the development of Charcot neuroarthropathy also remains unclear. In this review, we provide an overview of the history, prevalence, symptoms, risk factors, diagnostics and treatment of Charcot neuroarthropathy. We also discuss the potential for OPG and RANKL gene variants to act as predictive markers for the development of Charcot neuroarthropathy. Finally, we summarise the latest research on the role of monocyte-to-osteoclast differentiation in the development of acute Charcot neuroarthropathy.

Bone Mineral Density in Diabetes Mellitus Foot Patients for Prediction of Diabetic Neuropathic Osteoarthropathic Fracture

BACKGROUND

Diabetic neuropathic osteoarthropathy (DNOAP) is known as debilitating diabetes complications. The aim of study is to compare bone mineral density (BMD) among diabetic foot and DNOAP, and investigate the impact of BMD proceeded from diabetic foot to DNOAP.

METHODS

A DNOAP group (subgroup A and subgroup B) and control group were examined for this study. Subgroup A (n=21) were patients diagnosed with DNOAP with the development of new foot and ankle fractures, whereas subgroup B (n=4) were patients being managed with the diabetic foot before a diagnosis of DNOAP. BMD was also evaluated before the diagnosis. Control group (n=30) was diabetic foot patients without DNOAP. The demographic data, clinical and radiologic data, comorbidities, and BMD were compared for each group. And optimal BMD score was reviewed to predict fractures in neuropathic arthropathy.

RESULTS

BMD was significantly lower in DNOAP group (group A and B) compared with control group. Also neuropathic arthropathy group showed poor radiological results. After comparisons of 2 group lumbar and femur BMD was significantly different, but logistic regression analysis revealed that low femur T-score could be risk predictors of the condition. Base on the data of group B and control group, the cut-off point for predicting foot and ankle fracture-related with DNOAP was -1.65 of femur BMD.

CONCLUSIONS

Low BMD shows greater incidence in foot and ankle fracture patients associated with neuropathic arthropathy. A femur T score can be a risk predictor of diabetic neuropathic arthropathy for diabetic foot patients.

Charcot Neuroarthropathy Advances: Understanding Pathogenesis and Medical and Surgical Management

Understanding new theories of the epidemiology of Charcot neuroarthropathy is practice changing. Treatment of Charcot neuroarthropathy is evolving from a passive approach to one that sees the urgency of proactive, early recognition, thereby avoiding the cascading events that lead to the complex, limb-threatening deformities. Preventive medicine is the most efficient at avoiding severe deformity, with prolonged offloading and immobilization as the current mainstay of treatment. However, with recent advancements in medical and surgical modalities, this may become the treatment of the past as clinicians begin to favor medical management and early surgical intervention.

Peripheral Neuropathy as a Component of Skeletal Disease in Diabetes

PURPOSE OF REVIEW

The goal of this review is to explore clinical associations between peripheral neuropathy and diabetic bone disease and to discuss how nerve dysfunction may contribute to dysregulation of bone metabolism, reduced bone quality, and fracture risk.

RECENT FINDINGS

Diabetic neuropathy can decrease peripheral sensation (sensory neuropathy), impair motor coordination (motor neuropathy), and increase postural hypotension (autonomic neuropathy). Together, this can impair overall balance and increase the risk for falls and fractures. In addition, the peripheral nervous system has the potential to regulate bone metabolism directly through the action of local neurotransmitters on bone cells and indirectly through neuroregulation of the skeletal vascular supply. This review critically evaluates existing evidence for diabetic peripheral neuropathy as a risk factor or direct actor on bone disease. In addition, we address therapeutic and experimental considerations to guide patient care and future research evaluating the emerging relationship between diabetic neuropathy and bone health.

Teriparatide (recombinant human parathyroid hormone [1-34]) increases foot bone remodeling in diabetic chronic Charcot neuroarthropathy: a randomized double-blind placebo-controlled study

BACKGROUND

Currently, there is no consensus regarding the medical treatment of chronic Charcot neuroarthropathy (CN) of foot, except for effective off-loading. Because tarsal bones are predominantly trabecular, teriparatide may improve the macroarchitecture of foot bones in chronic CN.

METHODS

People with diabetes and chronic CN were randomized to receive either 20 μg teriparatide or placebo subcutaneous daily for 12 months. Thirty-eight patients were screened and data were analyzed for 20. The maximum standardized uptake (SUV_max ) value of ¹⁸ F-FDG PET/CT the region of interest, bone turnover markers and foot bone mineral density BMD were determined. The primary outcome measure was change in SUV_max g/ml.

RESULTS

Mid-foot was the most common region involved. After 12 months, SUV_max increased from 30.6 ± 14.7 to 37.7 ± 18.0 (P = 0.044) in the teriparatide group, but decreased from 27.6 ± 12.2 to 22.9 ± 10.4 with placebo (P = 0.148). The estimated treatment difference (ETD) was 11.9 ± 4.3 (95% CI 2.9, 20.8; P = 0.012). Similarly, P1NP increased with teriparatide (19.8 ± 5.5; P = 0.006) but decreased with placebo (-5.1 ± 3.8 ng/mL; P = 0.219); ETD was 24.8 ± 6.6 (95% CI 10.8, 38.8; P < 0.001) and CTX increased in both the teriparatide and placebo groups. Foot BMD increased by 0.06 ± 0.04 g/cm² (P = 0.192) with teriparatide, but decreased by -0.06 ± 0.08 g/cm² with placebo (P = 0.488; intergroup comparison, P = 0.096).

CONCLUSION

Teriparatide increases foot bone remodeling by an osteoanabolic action in people with CN.

Trauma in the Diabetic Limb

Poorly controlled diabetes with comorbid manifestations negatively affects outcomes in lower extremity trauma, increasing the risk of short-term and long-term complications. Management strategies of patients with diabetes that experience lower extremity trauma should also include perioperative management of hyperglycemia to reduce adverse and serious adverse events.

Bone Mineral Density in Type 2 Diabetes Patients with Charcot Arthropathy

INTRODUCTION

Charcot arthropathy is one of the disabling diabetes complications. There are enigmatic areas concerning its underlying pathophysiology and risk predictors. Osteoporosis and local osteopenia have been postulated to have a role in Charcot arthropathy development, but it is still controversial.

BACKGROUND

The study aims to compare bone mineral density among type 2 diabetics with and without Charcot arthropathy.

METHODS

Two groups with type 2 diabetes participated in this study; Group I [30] patients with Charcot arthropathy while Group II [30] patients without charcot arthropathy. All patients underwent full clinical examination and complete history taking with special emphasis on foot problems. Laboratory investigations were done that included fasting blood sugar, postprandial blood sugar, glycosylated hemoglobin, serum calcium, serum phosphorus, and alkaline phosphatase. All patients underwent MRI for both feet and dual energy X-ray absorptiometry scan of the lumbar spine and femur. The demographic data, clinical data, the presence or absence of comorbidities and bone mineral density were compared for both groups.

RESULT

Bone mineral density was significantly lower in Group I than Group II with median lumber T score (-0.15, 1.99 p <0.001), median Femur T score (0.050, 2.400, p <0.001). Group I showed higher propensity for hypertension, neuropathy, micro-albuminuria with peripheral arterial disease (23.33 %) compared to Group II (p <0.001). Multiple logistic regression analysis revealed that female gender and low femur bone mineral density can be risk predictors of the condition.

CONCLUSION

Bone mineral density is lower in patients with Charcot arthropathy with female gender and Femur T score as risk predictors. Peripheral arterial disease shows greater incidence in Charcot patients than was previously reported.

Long-term effects on the progress of neuropathy after diabetic Charcot foot: an 8.5-year prospective case–control study

Objective

Charcot foot is a severe complication to diabetes mellitus, associated with diabetic neuropathy. Any long-term effects of a Charcot foot on the progress of neuropathy are still largely unexplored. The objective was to investigate whether a previous Charcot foot had any long-term effects on the progress of neuropathy.

Results

An 8.5-year follow-up case–control study of 49 individuals with diabetes mellitus, 24 of whom also had Charcot foot at baseline visit in 2005–2007. Neuropathy was assessed with a questionnaire, biothesiometry, heart rate variability and venous occlusion plethysmography. Of the 49 baseline participants, 22 were able to participate in the follow-up. Twelve had passed away in the meantime. Heart rate variability was unchanged in both groups; from 9.7 to 7.2 beats/min (p = 0.053) in the Charcot group, and 14.3 to 12.6 beats/min (p = 0.762) in the control group. Somato-sensoric neuropathy showed no difference between baseline and follow-up in the Charcot group (from 39.1 to 38.5 V) (p = 0.946), but a significantly worsened sensitivity in the control group (from 25.1 to 38.9 V) (p = 0.002). In conclusion, we found that any differences in somatic or cardial autonomic neuropathy present at baseline had disappeared at follow-up after 8.5 years.

Electronic supplementary material

The online version of this article (10.1186/s13104-018-3253-5) contains supplementary material, which is available to authorized users.

A review of bone metabolism and developments in medical treatment of the diabetic Charcot foot

Charcot foot is a rare but severe, and possibly limb-threatening, complication to neuropathy and diabetes mellitus. The current treatment consists of long-term off-loading, and has a large negative impact on the patient's life. Much research has gone into understanding the condition and its biochemical mechanisms, however, the underlying pathogenesis of a Charcot foot is not yet fully understood. In the recent decades several key advances in our understanding of the Charcot foot have been made, both in regards to the changes in bone metabolism and structure an acute Charcot foot can cause, and to the molecular pathways involved in this. This review summerizes the available research into the bone metabolism around a Charcot foot, with an emphasis on the biochemical profile. The existing data regarding attempts at medical treatment is also reviewed, including novel trials targetting specific inflammatory pathways upregulated in the acute diabetic Charcot foot.

Bone mineral density and markers of bone turnover and inflammation in diabetes patients with or without a Charcot foot: An 8.5-year prospective case-control study

BACKGROUND AND AIMS

Charcot foot is a rare but severe complication to diabetes and peripheral neuropathy. It is still unclear if an acute Charcot foot has long-term effects on the bone metabolism. To investigate this, we conducted a follow-up study to examine if a previously acute Charcot foot has any long-term effects on bone mineral density (BMD) or local or systemic bone metabolism.

METHODS

An 8.5-year follow-up case-control study of 44 individuals with diabetes mellitus, 24 of whom also had acute or chronic Charcot foot at the baseline visit in 2005-2007, who were followed up in 2015 with DXA scans and blood samples.

RESULTS

21 of the 44 baseline participants participated in the follow-up. There were no difference in the change in total hip BMD from baseline to follow-up in either the Charcot or the control group (p = 0.402 and 0.517), and no increased risk of osteoporosis in the previous Charcot feet either. From baseline to follow-up, there was a significant difference in the change in levels of fsRANK-L in the Charcot group, but not in the control group (p = 0.002 and 0.232, respectively). At follow-up, there were no differences in fsRANK-L between the groups. The fsRANK-L/OPG ratio also significantly decreased from baseline to follow-up in the Charcot group (3.4 versus 0.5) (p = 0.009), but not in the control group (1.3 versus 1.1) (p = 0.302).

CONCLUSION

We found that diabetes patients with an acute Charcot foot have an elevated fsRANK-L/OPG ratio, and that the level decreased from baseline to follow-up to be comparable to the level in diabetes patients without previous or current Charcot foot. We found no permanent effect of an acute Charcot foot on hip or foot BMD.

Diabetic Neuropathy and Gait: A Review

Diabetic peripheral neuropathy (DPN) is a major sequela of diabetes mellitus and may have a detrimental effect on the gait of people with this complication. DPN causes a disruption in the body's sensorimotor system and is believed to affect up to 50% of patients with diabetes mellitus, dependent on the duration of diabetes. It has a major effect on morbidity and mortality. The peripheral nervous system controls the complex series of events in gait through somatic and autonomic functions, careful balancing of eccentric and concentric muscle contractions and a reliance on the sensory information received from the plantar surface. In this literature review focussing on kinetics, kinematics and posture during gait in DPN patients, we have identified an intimate link between DPN and abnormalities in gait and demonstrated an increased risk in falls for older patients with diabetes. As such, we have identified a need for further research on the role of gait abnormalities in the development of diabetic foot ulceration and subsequent amputations.

Immobilization-induced osteolysis and recovery in neuropathic foot impairments

BACKGROUND

Neuropathic foot impairments treated with immobilization and off-loading result in osteolysis. In order to prescribe and optimize rehabilitation programs after immobilization we need to understand the magnitude of pedal osteolysis after immobilization and the time course for recovery.

OBJECTIVE

To determine differences in a) foot skin temperature; b) calcaneal bone mineral density (BMD) after immobilization; c) calcaneal BMD after 33-53weeks of recovery; and d) percent of feet classified as osteopenic or osteoporotic after recovery in participants with neuropathic plantar ulcers (NPU) compared to Charcot neuroarthropathy (CNA).

METHODS

Fifty-five participants with peripheral neuropathy were studied. Twenty-eight participants had NPU and 27 participants had CNA. Bilateral foot skin temperature was assessed before immobilization and bilateral calcaneal BMD was assessed before immobilization, after immobilization and after recovery using quantitative ultrasonometry.

RESULTS

Before immobilization, skin temperature differences in CNA between their index and contralateral foot were markedly higher than NPU feet (3.0 degree C versus 0.7 degree C, respectively, p<0.01); BMD in NPU immobilized feet averaged 486±136mg/cm², and CNA immobilized feet averaged 456±138mg/cm², p>0.05). After immobilization, index NPU feet lost 27mg/cm²; CNA feet lost 47mg/cm² of BMD, p<0.05. After recovery, 61% of NPU index feet and 84% of CNA index feet were classified as osteopenic or osteoporotic.

CONCLUSIONS

There was a greater osteolysis after immobilization with an attenuated recovery in CNA feet compared to NPU feet. The attenuated recovery of pedal BMD in CNA feet resulted in a greater percentage of feet classified as osteoporotic and osteopenic.

Bone disease in diabetes: another manifestation of microvascular disease?

Type 1 and type 2 diabetes are generally accepted to be associated with increased bone fracture risk. However, the pathophysiological mechanisms of diabetic bone disease are poorly understood, and whether the associated increased skeletal fragility is a comorbidity or a complication of diabetes remains under debate. Although there is some indication of a direct deleterious effect of microangiopathy on bone, the evidence is open to question, and whether diabetic osteopathy can be classified as a chronic, microvascular complication of diabetes remains uncertain. Here, we review the current knowledge of potential contributory factors to diabetic bone disease, particularly the association between diabetic microangiopathy and bone mineral density, bone structure, and bone turnover. Additionally, we discuss and propose a pathophysiological model of the effects of diabetic microvascular disease on bone, and examine the progression of bone disease alongside the evolution of diabetes.

Foot bone density in diabetes may be unaffected by the presence of neuropathy

AIMS

Neuropathies are common complications of diabetes and are proposed to influence peripheral bone, principally via an altered vascular supply. This study aimed to determine the relationship between subtypes of neuropathy and vascular reactivity on foot bone density in people with diabetes.

METHODS

A case-control observational design was utilised with two groups: those with diabetic peripheral large fibre neuropathy (n=23) and a control group with diabetes but without neuropathy (n=23). Bone density in 12 foot bones was determined with computed tomography scanning. Additionally, post-occlusive reactive hyperemia, presence of small fibre neuropathy and heart rate variability were determined. T-tests and hierarchical regression were used to examine the relationships among the variables.

RESULTS

No difference in foot bone density was found between those with and those without large fibre neuropathy. Furthermore, no association between heart rate variability or reactive hyperemia and bone density was found. Small fibre neuropathy was associated with increased cuboid trabecular bone density (p=0.006) with its presence predictive of 14% of the variance.

CONCLUSIONS

This study found no clear association between presence of diabetic neuropathies and foot bone density. Furthermore, vascular reactivity appears to have no impact on bone density.

Sarcopenia and body composition in diabetic Charcot osteoarthropathy

BACKGROUND

Treatment of Charcot osteoarthropathy (COA) requires restricted walking and offloading for several months, which lead to fat re-distribution and increased sarcopenia.

OBJECTIVES/AIM

To investigate whether subjects with COA have an altered body composition compared to controls.

METHODS

Cross-sectional case-control study of people with diabetes with acute or chronic Charcot osteoarthropathy, matched with otherwise healthy people with diabetes. A total of 49 subjects (distribution ~1:1) had a total body DXA-scanning, measuring appendicular lean mass, android/gynoid and truncal/total body fat distribution ratios.

RESULTS

Sarcopenia frequency was higher in the total population with diabetes overall (9-40%), compared to normal materials. Using two different models for correlating appendicular lean mass to sarcopenia, there were no differences in sarcopenia-rates between the groups (P=0.413 and 0.948 respectively). There was no significant difference in lean tissue mass between the affected and the unaffected leg in the immobilised subject group (P=0.830). The average fat percentage was (29.4-37.7%) in the population with diabetes, compared to a matching background population (24.5-31.9%), whereas there were no significant differences found between the groups (P=0.065). Neither truncal/total fat percent nor android/gynoid fat percent ratios showed differences between the groups.

CONCLUSION

To our knowledge, this is the first published dataset investigating body composition in subjects with Charcot osteoarthropathy. The study population of diabetics were more fat and sarcopenic than normal subjects, whereas no statistically significant impact of Charcot osteoarthropathy was found.

Surgical management of Charcot neuroarthropathy

BACKGROUND

Charcot neuroarthropathy is one of the more devastating complications of diabetes. It is a progressive, destructive condition that is characterized by acute fracture, dislocation, and joint destruction in weight-bearing neuropathic foot. In its acute phase, it is often misdiagnosed and can lead to several deformities such as ulcerations and amputation. Early diagnosis and management is, therefore, imperative to avoid rapid progression.

OBJECTIVES

Review current literature on the diagnosis and management of diabetic patients with Charcot neuroarthropathy.

STUDY DESIGN

Narrative review.

METHODS

Particular attention is directed to the role of surgical management in achieving long term osseous stability and alignment so that appropriate footwear and bracing are possible.

CONCLUSION

Charcot neuroarthropathy is a serious and potentially limb-threatening lower extremity late complication of diabetes. Correct timing, adequate fixation and a long post-operative weightbearing period are key to optimizing reconstructive surgery.

CLINICAL RELEVANCE

Primary care providers who treat diabetic patients should be cognizant of the possible complication among patients with diabetic neuropathy of which includes Charcot neuroarthropathy. In this paper, discussion is provided on a rational approach to functional limb salvage with various surgical techniques when non-operative management fails.

The effect of diabetic neuropathy on foot bones: a systematic review and meta-analysis

AIMS

It is proposed that diabetic neuropathy may affect peripheral bone. Direct innervation of bone as well as neural control over its vascular supply and muscular influences may be affected by diabetes-induced peripheral neuropathies. Associated changes to bone may contribute to the occurrence of foot bone pathology in this population. This systematic review aims to examine the literature related to the effect of diabetic neuropathy on foot bones.

METHODS

Studies examining relationships between neuropathy and indicators of bone health (e.g. bone mineral density) in populations with diabetes were sought. Relevant publications were obtained from searches in MEDLINE, CINAHL and Embase in the period up to March 2013. Meta-analysis was performed using a random effects model in the statistical package Stata version 12.1.

RESULTS

Ten studies met the inclusion criteria and were included in the narrative synthesis. All studies were cross-sectional or case-control in design. Four of the 10 included studies found results indicating poorer bone health in those with diabetes and neuropathy compared with those with diabetes without neuropathy. Seven of the 10 studies were able to be included in a meta-analysis. The mean pooled effect was -0.36 (95% CI -0.76 to 0.04; P = 0.08), indicating a non-significant trend towards poorer bone health in those with diabetic neuropathy.

CONCLUSIONS

We did not find a significant relationship between presence of neuropathy in those with diabetes and poorer peripheral bone health. However, methodological limitations of the included studies mean further research is required to investigate this theoretical relationship.

An overview of the Charcot foot pathophysiology

Charcot arthropathy of the foot is a rare but devastating complication of diabetes that remains to be a challenging issue for the foot and ankle surgeons. Charcot foot fails to be an obvious diagnostic option that comes to mind, even in a pathognomonic clinical appearance. The rarity of the disorder, more common pathologies that mimic the condition, and the self-limiting prognosis deviate the clinician from the right diagnosis. The clinical challenges in the diagnosis of Charcot foot require in-depth investigations of its enigmatic nature to establish useful guidelines. Yet, this goal seems to be beyond reach, without a holistic view of the immense literature concerning the pathophysiology of the disorder. The primary objective of this article is to put together and review the recent advancements about the etiology and intrinsic mechanisms of diabetic Charcot foot.

Developing an evidence-based clinical pathway for the assessment, diagnosis and management of acute Charcot Neuro-Arthropathy: a systematic review

BACKGROUND

Charcot Neuro-Arthropathy (CN) is one of the more devastating complications of diabetes. To the best of the authors' knowledge, it appears that no clinical tools based on a systematic review of existing literature have been developed to manage acute CN. Thus, the aim of this paper was to systematically review existing literature and develop an evidence-based clinical pathway for the assessment, diagnosis and management of acute CN in patients with diabetes.

METHODS

Electronic databases (Medline, PubMed, CINAHL, Embase and Cochrane Library), reference lists, and relevant key websites were systematically searched for literature discussing the assessment, diagnosis and/or management of acute CN published between 2002-2012. At least two independent investigators then quality rated and graded the evidence of each included paper. Consistent recommendations emanating from the included papers were then fashioned in a clinical pathway.

RESULTS

The systematic search identified 267 manuscripts, of which 117 (44%) met the inclusion criteria for this study. Most manuscripts discussing the assessment, diagnosis and/or management of acute CN constituted level IV (case series) or EO (expert opinion) evidence. The included literature was used to develop an evidence-based clinical pathway for the assessment, investigations, diagnosis and management of acute CN.

CONCLUSIONS

This research has assisted in developing a comprehensive, evidence-based clinical pathway to promote consistent and optimal practice in the assessment, diagnosis and management of acute CN. The pathway aims to support health professionals in making early diagnosis and providing appropriate immediate management of acute CN, ultimately reducing its associated complications such as amputations and hospitalisations.

Effect of immobilization, off-loading and zoledronic acid on bone mineral density in patients with acute Charcot neuroarthropathy: a prospective randomized trial

BACKGROUND

Bisphosphonates are commonly used as an adjuvant in the management of acute Charcot neuroarthropathy (CNA), although the clinical efficacy of the treatment is controversial. The aim of the present study is to investigate the effect of immobilization and zoledronic acid on bone mineral density (BMD) changes during the treatment of acute CNA.

METHODS

Thirty-five patients with acute midfoot CNA were randomly assigned to treatment with either zolendronic acid or placebo. BMD of the lumbar spine and both hips was measured at baseline and after six months of treatment.

RESULTS

Comparison between BMD at presentation and at 6 months demonstrated a significant fall in BMD in the placebo group at the CNA-affected femoral neck (-3.2%, p=0.016) and in the CNA-free hip (-1.2%, p=0.026). Conversely, a significant rise in BMD was observed in the zolendronic acid group at all measured areas of the CNA-free hip.

DISCUSSION AND CONCLUSIONS

Immobilization and off-loading does not lead to marked disuse osteoporosis in patients with acute CNA after 6 months of treatment. Treatment with zoledronic acid led to a statistically significant increase in hip BMD compared to placebo.

The effects of diabetes mellitus and diabetic nephropathy on bone and mineral metabolism in T2DM patients

AIM

To assess the effects of both diabetes mellitus and diabetic nephropathy on bone mineral metabolism in patients with type 2 diabetes mellitus (T2DM).

METHODS

Serum osteocalcin (BGP), serum alkaline phosphatase (ALP), bone-specific alkaline phosphatase (BAP), 24-h urinary hydroxyproline (HOP), blood and urine calcium (Ca), phosphate (P) levels and bone mineral density (BMD) were assessed and compared in 30 patients with T2DM (group D), 25 T2DM patients with nephropathy (group DN) and 27 nondiabetic control subjects (group C).

RESULTS

Compared with the nondiabetic controls, patients in both groups D and DN had decreased serum osteocalcin (BGP) and bone mineral density (BMD) while serum alkaline phosphatase (ALP) and urinary hydroxyproline (HOP) were increased. Decrease in BGP was not correlated with ALP (r = -0.1, P<0.37). Within both diabetes groups (group D and group DN), no significant change in BAP is observed, however group DN showed higher level of BGP, higher level of HOP and lower BMD than group D. Urine calcium was increased in both group D and DN with group D having higher levels than group DN. In DN patients had increased circulating phosphate and decreased urinary excretion of phosphate, while decreased circulating phosphate and increased urinary excretion phosphate are seen in group D patients.

CONCLUSION

Patients with T2DM show an imbalance of bone mineral metabolism, and co-existence of nephropathy tends to aggravate this. Serum osteocalcin and 24-h hydroxyproline may be considered useful biochemical markers for monitoring possible bone mineral metabolism disorder in T2DM patients.

Peripheral and central bone mineral density in Charcot's neuroarthropathy compared in diabetic and nondiabetic populations

BACKGROUND

This prospective study was performed to compare calcaneal and lumbar bone mineral density (BMD) in individuals with and without diabetes mellitus. We compared bone density with the time from onset of Charcot's neuroarthropathy (CN) in patients with unilateral, nonoperative, reconstructive-stage CN. The final purpose was to investigate the role that sex, age, and serum vitamin D level may have in osseous recovery.

METHODS

Thirty-three individuals were divided into three groups: controls and patients with diabetes mellitus with and without CN. Peripheral instantaneous x-ray imaging and dual-energy x-ray absorptiometry were performed.

RESULTS

The calcaneal BMD of patients with diabetes mellitus and CN was lower than that of the control group (P < .01) but was not significantly lower than that of patients with diabetes mellitus alone. There was no statistically significant difference in lumbar T-scores between groups. Women demonstrated lower BMD than did men (P = .02), but patients 60 years and older did not demonstrate significantly lower BMD than did patients younger than 60 years (P = .135). A negative linear relationship was demonstrated between time and BMD in patients with CN.

CONCLUSIONS

The results of this study suggest that lumbar BMD does not reflect peripheral BMD in patients with diabetes mellitus and reconstructive-stage CN. This study has clinical implications when reconstructive osseous surgery is planned in patients with CN.

Duration of off-loading and recurrence rate in Charcot osteo-arthropathy treated with less restrictive regimen with removable walker

OBJECTIVE

Recent literature on acute diabetic Charcot osteoarthropathy (CA) reports unusually long periods of off-loading. Data suggest that this might increase the re-currence rate. Subsequently we evaluated the influence of duration of off-loading on the risk of required re-casting.

RESEARCH DESIGN AND METHODS

In this retrospective consecutive series from 2000 to 2005, 56 people with diabetes and an acute Charcot foot were included. The inclusion criteria were an initial persistent temperature difference more than 2°C between the two feet, oedema, and typical hot spots on a bone scintigram, radiology, and a typical clinical course. Treatment was off-loading in a removable cast and 2 crutches. In-door walking was allowed. Gradually augmented weight bearing was prescribed when the skin temperature difference had decreased to a level less than 2°C and edema had subsided. Re-casting was required for immediate exacerbation during re-load as well as for recurrence - defined as new swelling and skin temperature difference of more than 2°C in the same foot occurring after a stable interval of at least one month after full weight bearing.

RESULTS

The duration of off-loading for all patients was 141±21 days (mean±SD). Three patients (5%) were re-casted immediately for exacerbation after re-load and 7 patients (12 %) after recurrence of the CA. Duration of re-casting was 79±44 days. The primary period of off-loading was not statistically significantly different for those not requiring versus those requiring re-casting: 142±24 days compared to 134±41 days. Neither were the differences in demographic data, metabolic regulation, BMI or localization of CA.

CONCLUSIONS

Patients with risk of exacerbation or recurrence of CA could not be identified in the present study and there was no relation to the duration of off-loading. Nevertheless off-loading periods with immobilisation should be kept as short as possible, due to other side effects. This can be obtained by early gradual augmented re-loading.

Sympathetic neuropathy in diabetes mellitus patients does not elicit Charcot osteoarthropathy

AIM

The aim of the study was to determine the degree of neuropathy (autonomic and somatic) in patients with diabetes mellitus with or without Charcot osteoarthropathy (CA).

METHODS

Forty-nine patients with diabetes mellitus type 1 or 2 were investigated. The patient population of interest was the patients with acute Charcot foot (n=17) or chronic Charcot foot (n=7). The inclusion criterion for an acute Charcot foot was a temperature difference of more than 2° between the two feet, oedema of the affected foot, typical hotspots in a bone scintigram and a typical clinical course. In addition, patients with first toe amputation (n=5), a high-risk group for development of CA, and two control groups consisting of diabetes patients with (n=9) or without somatic neuropathy (n=11) were investigated. Regional blood flow in the feet was measured by venous occlusion plethysmography. Quantitation of somatic neuropathy was done by the Neuropathy Disability Score and modified Neuropathy Symptom Score. Quantitation of autonomic neuropathy was done by measurements of local venoarteriolar sympathetic axon reflex in the feet and of heart rate variability during deep breathing and orthostatic challenge.

RESULTS

The patients with acute Charcot foot and first toe amputation had an increased blood flow in the affected foot and weakened but not absent venoarteriolar sympathetic axon reflex. In the other patient groups, a normal venoarteriolar sympathetic axon reflex in the feet was found.

CONCLUSIONS

Peripheral sympathetic neuropathy is not likely to be the pathophysiologic mechanism behind the hyperemia in the foot during an acute attack of CA. The hyperemia is more likely secondary to local inflammatory events.

Review: The diabetic bone: a cellular and molecular perspective

With the increasing worldwide prevalence of diabetes the resulting complications, their consequences and treatment will lead to a greater social and financial burden on society. One of the many organs to be affected is bone. Loss of bone is observed in type 1 diabetes, in extreme cases mirroring osteoporosis, thus a greater risk of fracture. In the case of type 2 diabetes, both a loss and an increase of bone has been observed, although in both cases the quality of the bone overall was poorer, again leading to a greater risk of fracture. Once a fracture has occurred, healing is delayed in diabetes, including nonunion. The reasons leading to such changes in the state of the bone and fracture healing in diabetes is under investigation, including at the cellular and the molecular levels. In comparison with our knowledge of events in normal bone homeostasis and fracture healing, that for diabetes is much more limited, particularly in patients. However, progress is being made, especially with the use of animal models for both diabetes types. Identifying the molecular and cellular changes in the bone in diabetes and understanding how they arise will allow for targeted intervention to improve diabetic bone, thus helping to counter conditions such as Charcot foot as well as preventing fracture and accelerating healing when a fracture does occur.

Limb salvage in an unstable ankle fracture of a diabetic patient with Charcot arthropathy

The treatment of ankle fractures in the presence of diabetes mellitus can be difficult because of a higher complication rate with this subset of the population. When peripheral neuropathy is present at the time of trauma, there is an increased risk of developing Charcot arthropathy, a limb-threatening complication that often creates breakdown, instability, and chronic ulceration of the limb. The authors present a case report of a diabetic patient who sustained an unstable ankle fracture with subsequent neuroarthropathic event that required multiple surgical procedures for salvage of the limb.