Global recurrence rates in diabetic foot ulcers: A systematic review and meta‐analysis

Fu, Xue‐Lei; Ding, Hui; Miao, Weiwei; Mao, Chun-Xing; Zhan, Minqi; Chen, Honglin

doi:10.1002/dmrr.3160

Cited by 93 publications

(65 citation statements)

References 86 publications

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“…Looking only at studies from which raw data are available, the non-recurrence probability at one year is 0.74 and 0.70, translating to 26% and 30% recurrence (personal communication S. Bus and B. Petersen) [3,24]. Moreover, two recent studies which enrolled their patients immediately upon healing their index ulcer, report one year incidences almost identical to ours [25,26]. The effect described above attenuates when comparing the 5-year incidence in our study with the available literature [1,8,10].…”

Section: Discussion Of Findings and Comparison To Previous Studiessupporting

confidence: 58%

Cumulative long-term recurrence of diabetic foot ulcers in two cohorts from centres in Germany and the Czech Republic

Ogurtsova

Morbach

Haastert

et al. 2021

Diabetes Research and Clinical Practice

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Section: Discussion Of Findings and Comparison To Previous Studiessupporting

confidence: 58%

Cumulative long-term recurrence of diabetic foot ulcers in two cohorts from centres in Germany and the Czech Republic

Ogurtsova

Morbach

Haastert

et al. 2021

Diabetes Research and Clinical Practice

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“…However, this measurement is affected by the presence of both macrovascular and microvascular disease and neuropathy. It can be used to predict wound healing and amputation but there is no standardization of the technique, there is high variation in the repeatability of the measurement within and between individuals, it is less reliable in the presence of oedema and results vary from laboratory to laboratory …”

Section: Methods For Assessment Of Microangiopathy In the Diabetic Footmentioning

confidence: 99%

Microangiopathy: Is it relevant to wound healing in diabetic foot disease?

Sharma

Schaper

Rayman³

2019

Diabetes Metabolism Res

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Chronic diabetic complications – both microvascular and macrovascular – have become serious health issues with their increasing prevalence paralleling the dramatic rise of the diabetic population worldwide. Of these complications, foot disease is a major cause of morbidity and mortality, consuming more health care resource than all other complications combined. Diabetic polyneuropathy and peripheral vascular disease constitute the two main risk factors, with trauma and foot infection being the most important initiating factors and contributors to delayed healing. Intracellular oxidative stress mediated by hyperglycaemia along with hypertension, dyslipidaemia and smoking constitute the main pathological processes in the aetiology of both macrovascular and microvascular disease. Whilst the former remains the major cause of overall mortality in diabetes, the role of microangiopathy in the pathogenesis of diabetes foot disease and its contribution to delayed wound healing in diabetes has yet to be fully understood and indeed continues to be debated. This article will review the key findings to date on structural and functional microvascular abnormalities in the diabetic foot skin and consider their contribution to impaired would healing.

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“…Diabetic foot ulcers are a costly public health concern, with a large proportion leading to amputation or infection; DFUs are also associated with a reduced quality of life . The lifetime risk of developing a DFU is 15‐25% . However, once ulcerated, DFU recurrence rates are 40% within the first year and up to 65% after 5 years post‐healing .…”

Section: Introductionmentioning

confidence: 99%

The role of foot pressure measurement in the prediction and prevention of diabetic foot ulceration—A comprehensive review

Chatwin

Abbott

Boulton

et al. 2019

Diabetes Metabolism Res

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The predominant risk factor of diabetic foot ulcers (DFU), peripheral neuropathy, results in loss of protective sensation and is associated with abnormally high plantar pressures. DFU prevention strategies strive to reduce these high plantar pressures.Nevertheless, several constraints should be acknowledged regarding the research supporting the link between plantar pressure and DFUs, which may explain the low prediction ability reported in prospective studies. The majority of studies assess vertical, rather than shear, barefoot plantar pressure in laboratory-based environments, rather than during daily activity. Few studies investigated previous DFU location-specific pressure. Previous studies focus predominantly on walking, although studies monitoring activity suggest that more time is spent on other weight-bearing activities, where a lower "peak" plantar pressure might be applied over a longer duration.Although further research is needed, this may indicate that an expression of cumulative pressure applied over time could be a more relevant parameter than peak pressure. Studies indicated that providing pressure feedback might reduce plantar pressures, with an emerging potential use of smart technology, however, further research is required. Further pressure analyses, across all weight-bearing activities, referring to location-specific pressures are required to improve our understanding of pressures resulting in DFUs and improve effectiveness of interventions.

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Global recurrence rates in diabetic foot ulcers: A systematic review and meta‐analysis

Cited by 93 publications

References 86 publications

Cumulative long-term recurrence of diabetic foot ulcers in two cohorts from centres in Germany and the Czech Republic

Cumulative long-term recurrence of diabetic foot ulcers in two cohorts from centres in Germany and the Czech Republic

Microangiopathy: Is it relevant to wound healing in diabetic foot disease?

The role of foot pressure measurement in the prediction and prevention of diabetic foot ulceration—A comprehensive review

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