Knee-High Devices Are Gold in Closing the Foot Ulcer Gap: A Review of Offloading Treatments to Heal Diabetic Foot Ulcers

Lazzarini, Peter A; Jarl, Gustav

doi:10.3390/medicina57090941

Cited by 17 publications

(29 citation statements)

References 117 publications

(428 reference statements)

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“…Pressure offloading aims to reduce high plantar tissue stress and has been found to be critical to achieve timely and complete DFU healing [ 1 , 9 , 11 ]. To do this effectively, offloading should maximise the desirable effects (benefits) of reducing high plantar tissue stress; whilst also minimising any undesirable effects (risks), such as adverse events and high costs [ 10 , 12 , 13 ]. Various offloading treatments have been used clinically, including offloading devices, footwear and corrective surgery [ 12 , 14 ].…”

Section: Introductionmentioning

confidence: 99%

Australian guideline on offloading treatment for foot ulcers: part of the 2021 Australian evidence‐based guidelines for diabetes‐related foot disease

Fernando

Horsley

Jones

et al. 2022

Journal of Foot and Ankle Research

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Background Pressure offloading treatment is critical for healing diabetes-related foot ulcers (DFU). Yet the 2011 Australian DFU guidelines regarding offloading treatment are outdated. A national expert panel aimed to develop a new Australian guideline on offloading treatment for people with DFU by adapting international guidelines that have been assessed as suitable to adapt to the Australian context. Methods National Health and Medical Research Council procedures were used to adapt suitable International Working Group on the Diabetic Foot (IWGDF) guidelines to the Australian context. We systematically screened, assessed and judged all IWGDF offloading recommendations using best practice ADAPTE and GRADE frameworks to decide which recommendations should be adopted, adapted or excluded in the Australian context. For each recommendation, we re-evaluated the wording, quality of evidence, strength of recommendation, and provided rationale, justifications and implementation considerations, including for geographically remote and Aboriginal and Torres Strait Islander peoples. This guideline, along with five accompanying Australian DFU guidelines, underwent public consultation, further revision and approval by ten national peak bodies (professional organisations). Results Of the 13 original IWGDF offloading treatment recommendations, we adopted four and adapted nine. The main reasons for adapting the IWGDF recommendations included differences in quality of evidence ratings and clarification of the intervention(s) and control treatment(s) in the recommendations for the Australian context. For Australians with plantar DFU, we recommend a step-down offloading treatment approach based on their contraindications and tolerance. We strongly recommend non-removable knee-high offloading devices as first-line treatment, removable knee-high offloading devices as second-line, removable ankle-high offloading devices third-line, and medical grade footwear as last-line. We recommend considering using felted foam in combination with the chosen offloading device or footwear to further reduce plantar pressure. If offloading device options fail to heal a person with plantar DFU, we recommend considering various surgical offloading procedures. For people with non-plantar DFU, depending on the type and location of the DFU, we recommend using a removable offloading device, felted foam, toe spacers or orthoses, or medical grade footwear. The six new guidelines and the full protocol can be found at: https://diabetesfeetaustralia.org/new-guidelines/. Conclusions We have developed a new Australian evidence-based guideline on offloading treatment for people with DFU that has been endorsed by ten key national peak bodies. Health professionals implementing these offloading recommendations in Australia should produce better DFU healing outcomes for their patients, communities, and country.

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Section: Introductionmentioning

confidence: 99%

Australian guideline on offloading treatment for foot ulcers: part of the 2021 Australian evidence‐based guidelines for diabetes‐related foot disease

Fernando

Horsley

Jones

et al. 2022

Journal of Foot and Ankle Research

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“…Previous reviews in the area have found that NRKHDs reduce more PP than other offloading treatments by incorporating more key mechanical features, such as customized insoles/foot-device interfaces, rocker-bottom soles, controlled ankle motion, and higher cast walls/struts preferably extending up to the knee. 20 These features typically also reduce foot and ankle joint movements [21][22][23] and subsequent horizontal shear forces by using the contact surfaces as loadbearing surfaces. 24 In addition, restricted ankle movement will necessitate strategies of reducing mobility and/or increasing requirements on the contralateral limb.…”

Section: Reduction Of Pp and Shear Stress At The Dfumentioning

confidence: 99%

“…51,55 Existing knee-high offloading devices can be hot to wear. 20 Already, 3D-printed ankle fracture casts and cervical orthoses with improved ventilation have been designed to improve patient comfort 56,57 which could easily be translated to offloading device design. Hence, it may be possible to create a personalized device from a 3D scan that is lighter, has improved ventilation, and effectively reduces plantar tissue stresses.…”

Section: Advanced Manufacturing Enables Personalized Device Designsmentioning

confidence: 99%

Personalized Offloading Treatments for Healing Plantar Diabetic Foot Ulcers

Jarl

Rusaw

Terrill

et al. 2022

J Diabetes Sci Technol

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Background: Non-removable knee-high devices are the gold-standard offloading treatments to heal plantar diabetic foot ulcers (DFUs). These devices are underused in practice for a variety of reasons. Recommending these devices for all patients, regardless of their circumstances and preferences influencing their ability to tolerate the devices, does not seem a fruitful approach. Purpose: The aim of this article is to explore the potential implications of a more personalized approach to offloading DFUs and suggest avenues for future research and development. Methods: Non-removable knee-high devices effectively heal plantar DFUs by reducing plantar pressure and shear at the DFU, reducing weight-bearing activity and enforcing high adherence. We propose that future offloading devices should be developed that aim to optimize these mechanisms according to each individual’s needs. We suggest three different approaches may be developed to achieve such personalized offloading treatment. First, we suggest modular devices, where different mechanical features (rocker-bottom sole, knee-high cast walls/struts, etc.) can be added or removed from the device to accommodate different patients’ needs and the evolving needs of the patient throughout the treatment period. Second, advanced manufacturing techniques and novel materials could be used to personalize the design of their devices, thereby improving common hindrances to their use, such as devices being heavy, bulky, and hot. Third, sensors could be used to provide real-time feedback to patients and clinicians on plantar pressures, shear, weight-bearing activity, and adherence. Conclusions: By the use of these approaches, we could provide patients with personalized devices to optimize plantar tissue stress, thereby improving clinical outcomes.

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“…In addition, recommended exercises are those that help develop joint mobility and reduce plantar pressure. Another important measure is custom footwear, used for pressure relief and adapted to the patient’s lesion [ 14 , 15 ].…”

Section: Introductionmentioning

confidence: 99%

The Outcome of Surgical Treatment for the Neuropathic Diabetic Foot Lesions—A Single-Center Study

Bobircă

Smarandache

Bobircă

et al. 2022

Life

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The prevalence of diabetic foot complications is continuously increasing as diabetes has become one of the most important “epidemics” of our time. The main objective of this study was to describe the appropriate surgical intervention for the complicated neuropathic diabetic foot; the secondary goal was to find the risk factors associated with minor/major amputation and good or adverse surgical outcomes. This is an observational, retrospective study conducted between 1 January 2018 and 31 December 2019, which included 251 patients from the General Surgery Department at the Dr I. Cantacuzino Clinical Hospital in Bucharest with type II diabetes mellitus and neuropathic diabetic foot complications. The surgical conditions identified at admission were the following: osteitis (38.6%), infected foot ulcer (27.5%), gangrene (20.7%), infected Charcot foot (3.6%), non-healing wound (3.6%), necrosis (3.2%), and granulated wound (2.8%). We found that a minor surgical procedure (transmetatarsal amputation of the toe and debridement) was performed in 85.8% of cases, and only 14.2% needed major amputations. Osteitis was mainly associated with minor surgery (p = 0.001), while the gangrene and the infected Charcot foot were predictable for major amputation, with OR = 2.230, 95% CI (1.024–4.857) and OR = 5.316, 95% CI (1.354–20.877), respectively. Admission anemia and diabetic nephropathy were predictive of a major therapeutical approach, with p = 0.011, OR = 2.975, 95% CI (1.244–8.116) and p = 0.001, OR = 3.565, 95% CI (1.623–7.832), respectively. All the major amputations had a good outcome, while only several minor surgeries were interpreted as the adverse outcome (n = 24). Osteitis (45.8%) and admission anemia (79.2%) were more frequently associated with adverse outcomes, with p = 0.447 and p = 0.054, respectively. The complicated neuropathic diabetic foot requires a surgical procedure mainly associated with a good outcome.

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Knee-High Devices Are Gold in Closing the Foot Ulcer Gap: A Review of Offloading Treatments to Heal Diabetic Foot Ulcers

Cited by 17 publications

References 117 publications

Australian guideline on offloading treatment for foot ulcers: part of the 2021 Australian evidence‐based guidelines for diabetes‐related foot disease

Australian guideline on offloading treatment for foot ulcers: part of the 2021 Australian evidence‐based guidelines for diabetes‐related foot disease

Personalized Offloading Treatments for Healing Plantar Diabetic Foot Ulcers

The Outcome of Surgical Treatment for the Neuropathic Diabetic Foot Lesions—A Single-Center Study

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