
Editorial
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Despite its increasing prevalence, severity, and mortality, Diabetic foot syndrome (DFS) still remains an unaddressed critical issue. The management of DFS is adequately performed only in few centers, and clinical outcomes vary, depending on the possibility of patients to access optimal standards of care. To focus on the critical aspects of the management of DFS in Italy with the purpose of suggesting arguments that might have a more general audience, to improve the quality of therapy and accessibility to optimal care, we have written this article.
We hypothesized that foot infections secondary to a puncture wounds (PWs) have a worse prognosis concerning infection-related mortality, recurrence of the infection, and healing than those secondary to a chronic ulcer. We conducted a prospective study consisting of 200 patients with moderate-to-severe diabetic foot infections. The cohort consisted of 155 men (77.5%) and 45 women (22.5%). The mean age of the patients was 59 years (standard deviation 12.2). Puncture wounds were the cause of the infection in 107 patients (53.5%) and a chronic ulcer was the cause in 93 patients (46.5%). One hundred and eleven patients (55.5%) had moderate and 89 (44.5%) had severe infections. Osteomyelitis was more frequently found in chronic ulcers (71%) than in PWs (44.9%),
The aim of this nonsystematic mini review was to discuss serum levels of zinc in subjects with diabetic foot ulcers (DFUs). Most studies have reported low zinc levels in subjects with DFUs. Furthermore, there is some evidence that oral zinc supplementation may have a positive and beneficial impact on DFUs healing. Nonetheless, findings have so far not provided definitive answers. More studies are needed to clarify the role of zinc and its supplementation in this setting.
Skin transplantation is a traditional and well-established method of repairing skin loss, especially deep second-degree postburn wounds. Complications often happen amid the healing process, including necrosis and skin contracture, which has raised widespread concern from patients and doctors. Since the first recorded medical application of botulinum toxin for strabismus, accumulating evidence has enclosed all-round potential of botulinum toxin, more than aesthetic management. In recent decades, botulinum toxin also has been revealed to improve the prognosis of skin grafts. This literature review aims to briefly summarize the history and latest advances of its use for skin transplantation.
Negative pressure wound therapy (NPWT) is a widely used and effective treatment for managing complex wounds. This document discusses how NPWT can be used in wound care in an updated way. The updated scenario on NPWT provides a concise overview of the current state of NPWT and its implications in clinical practice. It highlights recent developments in NPWT, as well as the advancements in this field. As part of NPWT, vacuum-assisted closure is used and negative pressure is applied to the wound bed. It discusses the key components and mechanisms. In addition to improving wound healing, NPWT also reduces infection rates and improves patient comfort, among other benefits. In addition, this document discusses the specific indications and contraindications of NPWT, as well as the types of wounds that can be treated with NPWT, including diabetic foot ulcers, pressure ulcers, and traumatic wounds. The document emphasizes the importance of choosing patients appropriately and assessing wounds to ensure optimal outcomes. In addition, it provides evidence-based guidelines and clinical recommendations on NPWT. In addition to reviewing the latest research findings supporting NPWT in a variety of clinical settings, it also discusses randomized controlled trials and systematic reviews. In addition, it discusses the potential complications and challenges associated with NPWT, including pain, bleeding, and device malfunction. The purpose of this document is to shed light on the role of NPWT in wound care management by providing an updated scenario. NPWT can be incorporated into clinical practice by healthcare professionals if they understand its principles, benefits, indications, and limitations. Healthcare providers can optimize patient outcomes and improve wound healing in diverse patient populations by staying abreast of the latest advancements in NPWT.
Effective treatment of diabetic foot ulcers (DFUs) involves a multidisciplinary treatment plan to promote wound healing and prevent complications. Given the lack of consensus data on the factors affecting patient adherence, a systematic review was performed to identify and classify factors according to the WHO Dimensions of Adherence to Long-Term Therapies.
Six hundred and forty-three articles from PubMed, Embase, and Scopus were reviewed. The inclusion criteria included qualitative and quantitative studies which discussed factors affecting patient adherence to DFU treatment, had study populations that comprised patients with either prior history of or existing DFU, and had either prior history of DFU treatment or were currently receiving treatment. Factors, and associated measures of adherence, were extracted and organized according to the WHO Dimensions of Adherence to Long-Term Therapies.
Seven quantitative and eight qualitative studies were included. Eleven patient-related factors, seven condition-related factors, three therapy-related factors, five socioeconomic factors, and five health system-related factors were investigated by the included studies. The largest proportion of factors studied was patient-related, such as patient insight on DFU treatment, patient motivation, and patient perception of DFU treatment. There was notable overlap in the range of discussed factors across various domains, in the socioeconomic (including social support, income, social and cultural acceptability of DFU therapy, cost) and therapy-related domains (including duration of treatment, offloading footwear, and reminder devices). Different studies found that specific factors, such as gender and patients having a low internal locus of control, had differing effects on adherence on different cohorts.
Current literature presents heterogeneous findings regarding factors affecting patient adherence. It would be useful for future studies to categorize factors as such to provide more comprehensive understanding and personalized care to patients. Further research can be done to explore how significant factors can be addressed universally across different cohort populations in different cultural and socioeconomic contexts.
Despite medical and technological advancements, foot amputations continue to rise. Thus, the effort of diabetic foot management should be toward prevention and early diagnosis. Healthcare professionals need to be trained, equipped, and supported with adequate resources to be able to identify and deliver appropriate foot care. Every effort should be made to minimize the impact of complications and to ensure prompt access to care for everyone. Artificial intelligence and smart technology could provide a significant opportunity to improve efficiency in diabetes care, which may reduce diabetic foot complications. The possible potential of the new technologies which are emerging together with their current developing applications for diabetic foot care are suggested. A call for immediate change in diabetes foot screening guidelines is imperative to save limbs and lives.
Diabetic neuropathy is a common complication of diabetes; yet its pathophysiology is still incompletely understood and until today, there is no specific treatment against it. In the two 2023 large congresses on diabetes (American Diabetes Association, ADA, European Association for the Study of Diabetes, EASD), several high-level studies have been presented. They have attempted to delineate the pathophysiology of DN, the characteristics of affected patients, and future potential treatments. We herein review the presented studies on diabetic neuropathy at these diabetes congresses and discuss the needs for future research on this topic.
Despite many improvements have been achieved, diabetic foot disease (DFD) remains a clinical, social, and economic burden. In the last years, DFD showed an evolution of its characteristics with an increase of the ischaemic/neuro-ischaemic foot in comparison to the pure neuropathic foot. Simultaneously, there was and increased incidence of concomitant cardiovascular co-morbidities, which influences the higher fragility of patients with DFS. Peripheral arterial disease (PAD) in subjects with diabetic foot seems to show a more aggressive pattern, being more distal and difficult to treat. Untreatable PAD remains the unmet need for clinicians and the main risk factor of major amputation in patients with diabetic foot ulcers. Authors aimed to describe the evolution of diabetic foot patients in the last two decades, describing also the current and future treatment which may improve outcomes in the next generations.
The aim of this review article was to discuss impact of diabetic foot ulcers (DFUs) on employment status and work productivity. We performed a literature search from 2000 to 2023 in PubMed, Scopus, Google Scholar and in national repositories. The major work outcomes studied were presenteeism and absenteeism. Many DFUs patients had a poor social and educational background. Overall, DFUs patients experienced increased loss of productivity in their workplaces: either they had to be absent more working hours than average or they faced increased difficulty in meeting their daily requirements. The total loss in productivity is estimated to exceed almost one-third of anticipated working time, while 15 to 34.3% of DFUs patients expressed concerns about severe changes in their working environment, attributed directly to their condition. More than 1 out of 5 DFUs patients (ranging from 20 to 31.7%) were even confronted with overall job loss and unemployment. Amputations had an even more marked negative effect. In conclusion, DFUs negatively affect employment status and work productivity. Therefore, we need more studies with large participant numbers to increase our experience and to explore potential measures to mitigate these adverse effects.
The skin, as the body's largest organ, plays vital roles in sensory functions, temperature regulation, and protection against pathogens and injuries. Skin wounds, which disrupt its integrity, can result from various factors, including diseases such as diabetes. Diabetic foot ulcers are a severe complication of diabetes, often leading to amputations. This systematic review explores the therapeutic potential of silver nanoparticles in the management of diabetic ulcers.
Seven studies published between 2016 and 2023 were included in this review. Also, 4 studies were included in the meta-analysis. These studies investigated the application of silver nanoparticles, primarily in dressing forms, for diabetic ulcer treatment. A systematic search strategy was employed, and the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines were followed.
The results show that silver nanoparticles do not have a significant difference in improving DFU healing rates. SilvrSTAT Gel, a dressing containing silver nanoparticles, outperformed traditional dressings, leading to a substantial percentage of ulcers healing within weeks. Comparative studies also indicated that silver nanoparticles were at least as effective as alternative treatments, such as nano-chitosan dressings, and showed potential for combination therapy with growth factors.
This review underscores the promise of silver nanoparticles, a nanotechnology-based approach, in accelerating the healing of diabetic ulcers while providing antimicrobial benefits. Despite some limitations, including variations in treatment regimens and a lack of long-term outcome data, these findings show there is no clinical evidence for using Nanosilver for the healing process of DFU.
Silver nanoparticles currently do not have sufficient clinical evidence for healing the DFU; however, in some studies, they had noticeable effects on the rate of wound healing.
Chronic wounds remain a significant clinical challenge both for those affected and for healthcare systems. The treatment is often comprised and complex. All patients should receive wound care that is integrated into a holistic approach involving local management that addresses the underlying etiology and provides for gold standard therapy to support healing, avoid complications and be more cost effective. There have been significant advances in medicine over the last few decades. The development of new technologies and therapeutics for the local treatment of wounds is also constantly increasing. To help standardize clinical practice with regard to the multitude of wound products, the M.O.I.S.T. concept was developed by a multidisciplinary expert group. The M stands for moisture balance, O for oxygen balance, I for infection control, S for supporting strategies, and T for tissue management. Since the M.O.I.S.T. concept, which originated in the German-speaking countries, is now intended to provide healthcare professionals with an adapted instrument to be used in clinical practice, and a recent update to the concept has been undertaken by a group of interdisciplinary experts to align it with international standards. The M.O.I.S.T. concept can now be used internationally both as an educational tool and for the practical implementation of modern local treatment concepts for patients with chronic wounds and can also be used in routine clinical practice.
Nanohydrogel wound healing refers to the use of nanotechnology-based hydrogel materials to promote the healing of wounds. Hydrogel dressings are made up of a three-dimensional network of hydrophilic polymers that can absorb and retain large amounts of water or other fluids. Nanohydrogels take this concept further by incorporating nanoscale particles or structures into the hydrogel matrix. These nanoparticles can be made of various materials, such as silver, zinc oxide, or nanoparticles derived from natural substances like chitosan. The inclusion of nanoparticles can provide additional properties and benefits to the hydrogel dressings. Nanohydrogels can be designed to release bioactive substances, such as growth factors or drugs, in a controlled manner. This allows for targeted delivery of therapeutics to the wound site, promoting healing and reducing inflammation. Nanoparticles can reinforce the structure of hydrogels, improving their mechanical strength and stability. Nanohydrogels often incorporate antimicrobial nanoparticles, such as silver or zinc oxide. These nanoparticles have shown effective antimicrobial activity against a wide range of bacteria, fungi, and other pathogens. By incorporating them into hydrogel dressings, nanohydrogels can help prevent or reduce the risk of infection in wounds. Nanohydrogels can be designed to encapsulate and release bioactive substances, such as growth factors, peptides, or drugs, in a controlled and sustained manner. This targeted delivery of therapeutic agents promotes wound healing by facilitating cell proliferation, reducing inflammation, and supporting tissue regeneration. The unique properties of nanohydrogels, including their ability to maintain a moist environment and deliver bioactive agents, can help accelerate the wound healing process. By creating an optimal environment for cell growth and tissue repair, nanohydrogels can promote faster and more efficient healing of wounds.
Chronic wounds have long been a significant public health concern, but the true impact of these wounds is unknown since research designs and measuring techniques vary, leading to inconsistent estimates. The definition of a wound is a loss of epithelial continuity caused by damage to the tissue. The following conditions can cause chronic wounds: panniculitis, pyoderma gangrenosum, traumatic, neurological, metabolic, hematologic, neoplastic, or infection-related. The growing global incidence of diabetes and the aging population necessitate greater attention to chronic wounds. Regrettably, it is sad that significant healthcare institutions have overlooked wound research. The study of health-related illnesses and occurrences in particular populations, including their distribution, frequency, and determinants, and the application of this research to control health problems.
We aim to evaluate the efficacy of local antibiotic delivery systems in patients with diabetic foot osteomyelitis (DFO).
The Web of Science, PubMed, and Embase databases were searched for relevant publications until March 2024. All studies evaluating the efficacy of local antibiotic delivery systems in patients with DFO were included. We calculated pooled risk ratio (RR) with 95% CIs for binary outcomes and mean difference (MD) for continuous outcomes. The Cochrane's risk of bias tool and methodological index for non-randomized studies (MINORS) assessment were used to evaluate the quality of studies.
A total of 9 studies with 491 patients were included in this analysis. The overall healing rate in antibiotic group was 0.85 (95% CI: 0.67, 0.97). Healing rates were significantly higher in the antibiotic group compared to the control group (RR: 1.18, 95% CI: 1.01, 1.38). Furthermore, recurrence rates and amputation rates have no significantly difference between the antibiotic group and the control group (RR: 0.30, 95% CI: 0.04, 2.12 and RR: 0.22, 95% CI:0.03, 1.91), along with no significantly difference in healing time and hospital stays(MD: −7.87, 95% CI: −20.81, 5.07 and MD:−2.33, 95% CI:−5.17, 0.50). No obvious publication bias was observed in the funnel plot (Egger's test,
Our meta-analysis found that diabetic foot osteomyelitis patients treated with local antibiotic delivery systems had better healing rates than the control group. However, no significant differences were found in healing time, recurrence, hospital stays, or amputation rates. Larger randomized controlled trials are necessary in the future.
To evaluate the efficacy of stem cell therapy from different sources on the ankle-brachial index, wound closure percentage, and wound closure time in the treatment of diabetic foot ulcers (DFUs).
A literature search was conducted in PubMed, Embase, Cochrane Library's Central Register of Controlled Trials, and Web of Science, extending through June 29, 2023. Quality evaluation was done using the Cochrane's bias risk assessment tool (RoB 2.0). Employing a Bayesian approach, the statistical computations was executed with the JAGS software, leveraging the gemtc 0.8-2 and rjags 4-10 libraries, within the R environment 4.1.2. The included interventions came from peripheral blood, bone marrow, placenta, umbilical cord blood, adipose tissue, or others.
A preliminary search identified 2286 articles, of which 23 randomized controlled trials met the inclusion criteria and were ultimately included. The analysis findings indicated that mesenchymal stem cells derived from the umbilical cord (HUCMSCs) led to a notable enhanced the ankle-brachial index in patients with DFUs compared to standard treatment (MD: 0.2; 95% CI [0.01, 0.36]). HUCMSCs were found to be the optimal therapeutic approach for enhancing the ankle-brachial index (SUCRA = 82.7%). Research on the wound closure percentage revealed that compared to platelet-rich plasma (PRP), processed microvascular tissue (PMVT), peripheral blood stem cells (PBSCs), microfragmented adipose tissue (MFAT), autologous bone marrow-derived stem cell therapy (ABMSCT), adipose-derived stem cells (ASCs), and dehydrated human umbilical cord allograft (EpiCord), Huoxue Shengji Decoction (HXSJD) + ABMSCT (H_Group_hematopoietic) significantly increased the wound closure percentage in DFU patients (
This study employed a network meta-analysis method, combining direct and indirect comparisons, to analyze the latest clinical data and concluded that umbilical cord mesenchymal stem cells and the combination of HXSJD + autologous bone marrow hematopoietic stem cell treatment as adjunctive therapies for DFUs may have beneficial effects. Future research needs to focus on this.
Foot ulcerations are one of the most common complications of diabetes and one of the major initial causes of amputations. The formation of biofilms on wounds significantly contributes to infections and delayed healing. While existing methods for identifying these biofilms have limitations, there is a need for a convenient tool for its clinical application. This literature review aimed to address the problem with current clinical biofilm identification in wound care and a proposal for biofilm-detection-based wound care in diabetic foot ulcer patients. Identifying biofilms is particularly vital due to the absence of typical signs of infection in DFUs. However, current approaches, although effective, often prove invasive and technically intricate. The wound blotting technique, involving attaching a nitrocellulose membrane and subsequent staining, presents an alternative that is swift and non-invasive. Research highlights the applicability of wound blotting with alcian blue staining in clinical scenarios, consistently producing sensitive outcomes. By addressing the critical need for early biofilm detection, wound blotting holds promise for enhancing DFU management and contributing to strategies aimed at preventing amputations.
Artificial Intelligence (AI) is revolutionizing medical writing by enhancing the efficiency and precision of healthcare communication and health research. This review explores the transformative integration of AI in medical writing, highlighting its dual role of enhancing efficiency while maintaining the crucial elements of human expertise. AI technologies, including natural language processing and AI-driven literature review tools, have significantly advanced, facilitating rapid draft generation, literature summarization, and consistency in medical documentation. Key applications include aiding study design, enhancing content drafting, and optimizing literature reviews through specific AI tools. Moreover, this review delves into practical applications of AI in the context of lower extremity wounds, specifically ischemic leg ulcers, demonstrating how AI can streamline the synthesis of relevant literature. While AI presents notable advantages, it also raises ethical concerns, such as potential biases and data privacy issues, highlighting the need for human oversight in the writing process. A proposed future framework suggests that AI could take over routine tasks, allowing medical writers to devote more attention to analytical and ethical aspects. Additionally, there is a strong need for further research on the cost-effectiveness of both clinical trials utilizing AI interventions and the incorporation of AI in medical writing. Ultimately, balancing the integration of AI in medical writing promises to improve both healthcare communication and health research, ensuring the production of high-quality, patient-centric and research-focused content.
Foot ulcers represent a major complication in patients with diabetes and are often challenging for clinicians. Distinguishing between infected and non-infected diabetes foot ulcers (DFUs) can prevent many irreversible injuries such as inappropriate antibiotic therapy, amputation, and even death. Procalcitonin (PCT) has been proposed in the diagnosis of infection and osteomyelitis in diabetes foot ulcers. The present study aimed to compare PCT levels between patients with and without infected diabetes foot ulcer (IDFU).
This review searched three databases including PubMed, Web of Science, and Scopus to identify all articles reporting PCT levels in two groups of infected diabetes foot ulcer (IDFU) and non-infected diabetes foot ulcer (NIDFU). Quality has been assessed using the NIH tool. The pooled mean difference (MD) of PCT level between groups was estimated by random effect meta-analysis. In addition, The PRISMA 2020 statement has been used to update guidelines for reporting present systematic reviews.
Twenty-three studies were eligible for meta-analysis, of which data from 2412 people was extracted. Pooled estimation of PCT level was significantly higher in IDFU patients compared with NIDFU patients (MD = 0.25 ng/l, 95% CI: 0.14-0.37). According to the meta-analysis results, PCT level was not significantly higher in patients with Osteomyelitis compared with those without Osteomyelitis (MD = 0.59 ng/l, 95% CI: −0.19, 1.38, I2 = 98.5%).
Since the results of the present study showed higher PCT levels in patients with IDFU compared to those without, it can be suggested that procalcitonin might be applied as an additional biomarker for the differentiation of NIDFU from IDFU. It needs more evidence to conclude about the role of PCT in terms of osteomyelitis and amputation.
Chronic wounds are prevalent globally at endemic proportions. The common features associated with chronic wounds are prolonged inflammatory phase, infection with multidrug-resistant (MDR) bacteria, and subsequent biofilm formation. The present randomized-controlled trial (RCT) study was undertaken on chronic wounds of ≥6 weeks longer duration using customized phages to evaluate the efficacy and safety of bacteriophage therapy.
The study was conducted from December 2021 to August 2023. Thirty patients in each of the arms (placebo and bacteriophage) were recruited with chronic wounds. The patients, both arms, received the conventional treatment of wound debridement, local antiseptics, and local and systemic antibiotics at the discretion of the treating surgeon. However, before applying the customized bacteriophage cocktail or placebo, the wound surface was thoroughly washed to remove the residual antiseptics. The phage cocktails or placebo were applied on alternate days. The wounds were evaluated using the Bates-Jensen Wound Assessment Tool for the progress of wound healing.
A total of 93.3% of the wound became sterile in 39 days (median sterility time), followed by complete healing by the end of 90 days in the phage group. Contrary to this, 83.3% of those on placebo therapy remained colonized by original bacteria or additional new bacteria without healing for up to 90 days.
With the well-designed RCT, we could conclude that customized bacteriophage therapy using bacteriophage cocktails will definitely cure the chronic wound, irrespective of age, sex, diabetes status, and infection by MDR bacteria.
Diabetic foot (DF) represents a severe complication of diabetes mellitus, imposing substantial psychological and economic burdens on affected individuals. This investigation sought to assess the therapeutic efficacy of stem cell interventions in the management of DF complications. A comprehensive systematic search across PubMed, Embase, CINAHL, Scopus, and the Cochrane library databases was conducted to identify pertinent studies for meta-analysis. Outcome measures encompassed ulcer or wound healing rates, amputation rates, angiogenesis, ankle–brachial index (ABI), and pain-free walking distance. Dichotomous outcomes were expressed as risk differences (RDs) with 95% confidence intervals (CIs), while continuous data were articulated as standardized mean differences (SMDs) with corresponding 95% CIs. Statistical analyses were executed using RevMan 5.3 and Open Meta, with bootstrapped meta-analysis conducted through OpenMEE software. A total of 20 studies, comprising 24 arms and involving 1304 participants, were incorporated into the meta-analysis. The findings revealed that stem cell therapy exhibited superior efficacy compared to conventional interventions in terms of ulcer or wound healing rate [RD = 0.36 (0.28, 0.43)], pain-free walking distance [SMD = 1.27 (0.89, 1.65)], ABI [SMD = 0.61 (0.33, 0.88)], and new vessel development [RD = 0.48 (0.23, 0.78)], while concurrently reducing the amputation rate significantly [RD = –0.19 (–0.25, −0.12)]. Furthermore, no statistically significant difference in adverse events was observed [RD −0.07 (–0.16, 0.02)]. The Grading of Recommendations, Assessment, Development, and Evaluation assessment indicated varying levels of evidence certainty, ranging from very low to moderate, for different outcomes. Bootstrapping analysis substantiated the precision of the results. The meta-analysis underscores the significant superiority of stem cell therapy over conventional approaches in treating DF complications. Future investigations should prioritize large-scale, randomized, double-blind, placebo-controlled, multicenter trials, incorporating rigorous long-term follow-up protocols. These studies are essential for elucidating the optimal cell types and therapeutic parameters that contribute to the most effective treatment strategies for DF management.
This study was designed to evaluate the efficiency of the combination of autologous platelet-rich plasma gel (APG) and Manuka honey gauze in the treatment of Stages 3–4 pressure injury of older adults. Patients were divided into four groups: Manuka honey gauze and APG (M + A), Manuka honey gauze (M), APG (A), and a control group (C). Different treatments were given, then wound bed coverage with granulation tissue, wound size reduction, and Pressure Ulcer Scale for Healing (PUSH) score were examined. Paraffin-embedded sections of wound tissues were analyzed and wound swab cultures were assessed. Kruskal–Wallis test and Mann–Whitney
Type 2 diabetes is a significant global health concern. It often causes diabetic foot ulcers (DFUs), which affect millions of people and increase amputation and mortality rates. Despite existing guidelines, the complexity of DFU treatment makes clinical decisions challenging. Large language models such as chat generative pretrained transformer (ChatGPT), which are adept at natural language processing, have emerged as valuable resources in the medical field. However, concerns about the accuracy and reliability of the information they provide remain. We aimed to assess the accuracy of various artificial intelligence (AI) chatbots, including ChatGPT, in providing information on DFUs based on established guidelines. Seven AI chatbots were asked clinical questions (CQs) based on the DFU guidelines. Their responses were analyzed for accuracy in terms of answers to CQs, grade of recommendation, level of evidence, and agreement with the reference, including verification of the authenticity of the references provided by the chatbots. The AI chatbots showed a mean accuracy of 91.2% in answers to CQs, with discrepancies noted in grade of recommendation and level of evidence. Claude-2 outperformed other chatbots in the number of verified references (99.6%), whereas ChatGPT had the lowest rate of reference authenticity (66.3%). This study highlights the potential of AI chatbots as tools for disseminating medical information and demonstrates their high degree of accuracy in answering CQs related to DFUs. However, the variability in the accuracy of these chatbots and problems like AI hallucinations necessitate cautious use and further optimization for medical applications. This study underscores the evolving role of AI in healthcare and the importance of refining these technologies for effective use in clinical decision-making and patient education.
This study was conducted to determine the effect of health literacy on diabetes self-efficacy and foot self-care in type II diabetics. This descriptive correlational study was conducted with 187 people. The research was conducted between 01 June 2021 and 31 December 2021 in a province located in the southeastern region of Turkey. Non-probability purposive sampling was used as the sampling method. An introductory information form, and the Turkish Health Literacy Scale-32 (THLS-32), Diabetes Self-Efficacy Scale and Diabetes Foot Self-Care Behavior Scale (DFSBS) were used in the study. Data were evaluated with frequency, percentage, mean, and correlation analyses using SPSS 25 software. It was determined that the participants had a low education level and were of advanced age, and that the feet of most of the patients were not examined and there were no wounds on their feet. The health literacy level of 57.8% of the participants was found to be insufficient. The mean THLS-32 score was 22.50 ± 10.65, the Diabetes Self-Efficacy Scale mean score was 72.83 ± 11.84, and the Diabetes Foot Self-Care Behavior Scale mean score was 22.60 ± 5.44. It was determined that there was a relationship between the THLS-32 and Diabetes Self-Efficacy score of those with type II diabetes, and that as health literacy increased, diabetes self-efficacy increased (
Cellulitis, an inflammatory disease of the skin and subcutaneous tissue caused by bacterial agents, frequently causes lower-extremity wounds. Many new biomarkers have been introduced to aid the diagnosis of inflammatory diseases. In this study, we aimed to evaluate the risk of recurrence of lower-extremity cellulitis wounds and the factors determining the need for hospitalization. Demographic characteristics and underlying diseases of the patients, white blood cell count, neutrophil, lymphocyte, monocyte, neutrophil, lymphocyte, lymphocyte and monocyte counts at admission, white blood cell count at admission, platelet count, total protein, albumin, erythrocyte sedimentation rate, C-reactive protein (CRP), procalcitonin level, neutrophil-to-lymphocyte ratio (NLR), lymphocyte-to-monocyte ratio (LMR), platelet-to-lymphocyte ratio (PLR), and CRP/albumin ratio were evaluated. Of the 132 patients with lower extremity cellulitis wounds, the median age was 56 years (range, 20-96 years), and 88 (66.7%) were male. Diabetes mellitus was the most commonly associated systemic disease. The most common symptom (97%) was a rash. Of the patients, 80 (60.6%) were hospitalized and 52 (39.4%) were treated as outpatients. Seventeen (12.9%) patients had recurrent cellulitis. While comorbidities and increased lesion size increased the risk in patients with recurrent cellulitis, median platelet count (
Diabetic foot ulcer is a serious and common complication of diabetes that often leads to significant morbidity and even amputation if not properly treated. Current treatment options, such as wound dressing, have limitations in promoting efficient healing. There is a need for effective interventions that can expedite the healing process and enhance the time required for complete healing.
This prospective single-blinded randomized control trial studied diabetic mellitus type 2 patients with ulcer in their second-degree feet from February 2019 to February 2023 in the Diabetic Foot Center, King Fahad Specialist Hospital Al Qassim-KSA.
This study involved 120 patients with a mean age of 59.64 ± 10.21. And 63% to 52.5% of them were males and 57% to 47.5% were females. The mean healing time was about 12.76 ± 4.08 days. Cases were divided into 4 equal groups with altered treatment procedures: honey alone, hydrogel alone, honey, and hydrogel combination alternately (3 intervention groups), and fucidin ointment or cream alone (1 control group), with 30 participants in each group. We revealed that the mean healing times for honey alone, hydrogel alone, and honey and hydrogel alternately were 12.20, 13.97, and 10.83 days, respectively. While it was 14.03 days in the control Fucidin ointment or cream [significantly
From the findings of the present study, we noticed that faster healing time among diabetic foot cases could be accomplished by treatment with a combination of honey and hydrogel alternately. Therefore, this therapy is effective in reducing the risk of diabetic foot ulcers.
This study aims to determine the awareness of diabetic retinopathy in patients hospitalized for diabetic foot ulcers, examine their clinical and demographic characteristics, and evaluate their treatment needs. In this prospective study, 62 consequent patients with diabetic foot ulcers who were hospitalized for further treatment in Diabetic Foot Department between June and August 2023 were subjected to ophthalmological examinations. Detailed anterior and posterior segment examinations were performed. Clinical and demographic characteristics and HbA1c levels were recorded. Thirty-nine patients (62.9%) were male and 23 (37.1%) were female. The mean age was 61 ± 11.4 years. The patients had diabetes mellitus (DM) for an average of 19.2 ± 9.6 years. The average HbA1c value of the patients was 9 ± 2.3%. Minor amputation was performed in 35 of 62 patients (56.5%) during treatment. Thirty-one patients (50%) were unaware of the risk of diabetic retinopathy. Of those “unaware” 31 patients, 26 (83.9%) had diabetic retinopathy. Diabetic retinopathy was detected in 57 patients (91.9%) and 3-month interval ophthalmological follow-up screening was recommended for 77 eyes. Eighty percent of the patients never had ophthalmological examination. Intravitreal (IV) injection was performed in 44 eyes, panretinal photocoagulation (PRP) in 2 eyes, and intravenous injection + PRP + vitreoretinal surgery in one eye. Diabetic foot ulcers and diabetic retinopathy are often accompanied by each other. Patients should be informed about this and strongly encouraged to undergo routine ophthalmological examinations, especially when they have advanced diabetic foot disease. Diabetic foot surgeons should keep in mind that a poor eye cannot detect diabetic foot problems.
For this retrospective study, we analyzed the sub-ulcer foam sclerotherapy technique in patients with venous leg ulcer (VLU).
This study included 134 patients treated with sub-ulcer foam sclerotherapy at the Oulu University Hospital vascular outpatient clinic from January 2012 to December 2021. All included patients received sub-ulcer foam sclerotherapy as part of the treatment strategy for superficial venous insufficiency. Compression therapy and local wound care were organized for VLU treatment. A follow-up visit was scheduled for one month after the sub-ulcer foam sclerotherapy. Change in ulcer size, local (skin necrosis, infection) or systemic (deep vein thrombosis, pulmonary embolism) complications, and time to ulcer healing were monitored. The occurrence of major limb-related complications (amputation, surgical revision) was monitored for one year postoperatively.
One month after sub-ulcer treatment, ulcers were smaller or completely healed in 108 (81%) patients. Ulcer healing was completed in 123 (92%) patients at one year and 131 (98%) patients at two years. Complications were recorded in four (3%) patients, three (2%) who were diagnosed with erysipelas requiring antibiotic treatment and one (1%) patient diagnosed with local dermatitis. During the one-year follow-up, no major limb-related complications (surgical revisions or amputations) arose.
Sub-ulcer foam sclerotherapy may be a feasible addition to superficial vein reflux elimination in patients with VLU and a low risk for complications.
The objective of this study is to assess the efficacy of decompression nursing based on biomechanical principles in managing recurrent diabetic plantar ulcers.
Sixty-seven patients experiencing recurrent diabetic plantar ulcers who sought medical attention at Huadong Hospital Affiliated to Fudan University between January 2021 and December 2022 were selected as participants for this study. The participants underwent biomechanics-based decompression nursing. We compared pre-intervention and post-intervention data to assess the differences in relevant observational indexes.
Post-intervention, patients showed significant improvements in foot comfort scores and adherence to pressure reduction behavior compared with their pre-intervention status, with statistical significance (
Biomechanics-based decompression nursing demonstrates effective facilitation of wound healing, yielding expeditious recovery, enhanced comfort, and a reduced incidence of recurrence.
Colostrum has been shown to be suitable for oral and/or topical applications. Colostrum decreases the amount of discharge from wounds and also accelerates healing, leading to a decrease in the number of dressings. In this study, 40 patients with chronic non-healing wounds were divided into two groups, considering the inclusion and exclusion criteria. Group I included 15 patients with conventional dressings, and Group II included 25 patients with added topical colostrum dressings. All patients were assessed at the time of presentation and after 21 days. The results of the present study indicate that colostrum powder dressings may be used as an adjunct in the management of chronic non-healing wounds.
Chronic wounds, including diabetic ulcers, posttraumatic ulcers, and pressure sores, present a significant challenge in healthcare due to their complex nature and resistance to conventional treatments. This retrospective observational study aimed to evaluate the efficacy of an ointment containing hyaluronic acid and collagenase in treating such wounds.
The study included 70 patients with various chronic wounds treated in our clinic from January 1, 2020, to October 1, 2023. The patients were selected according to specific inclusion and exclusion criteria, and comprehensive baseline data was collected. The treatment involved the application of a hyaluronic acid and collagenase ointment, followed by regular follow-up and data analysis.
Significant improvements in wound bed scores (WBS) were observed, with a reduction in healing times for all types of wounds. High patient satisfaction rates were reported, along with efficient debridement and notable pain reduction. Diabetic ulcers showed the most significant improvement in terms of healing time and WBS.
Hyaluronic acid and collagenase ointment demonstrated promising results in the treatment of chronic wounds. This treatment may offer a valuable addition to current wound care practices, particularly in challenging cases such as diabetic ulcers. More research is recommended, including randomized controlled trials, to validate these findings.
Refractory diabetic foot ulcer (rDFU) and osteomyelitis (diabetic foot osteomyelitis [DFO]) are a major problem in people with diabetes. Often resulting from multidrug-resistant polymicrobial infection, these may result in amputation or nonhealing ulcers. In this nonrandomized open-label study, we looked at the outcome of treatment with rifampicin in patients with nonhealing diabetic foot ulcers.
Patients with DFUs (n = 67, n = 55 with DFO) unresponsive to conventional antimicrobial therapy for >3 months (rDFU) were taken as the study group. All patients received rifampicin for a minimum of 3 months (maximum 6 months if DUFs did not heal after 3 months) in addition to standard antibiotics and compared with similar kind of DFUs (n = 68, n = 55 DFO) who formed the control group, treated with conventional antimicrobial therapy. Patients were followed up for 12 months. Healing of DFU at 6 months and amputation were primary endpoints of the study.
In total, 43 patients (64.2%) in the rifampicin group healed at 3 months and another 4 patients healed when rifampicin was continued for 6 months (n = 47, 70.1%). In the control group, 11 patients healed at 3 months (16.2%) and 25 patients healed at 6 months (36.8%). In total, 14 patients (20.9%) in the study group and 29 patients (42.6%) in the control group had to undergo minor amputation. Comparison between the rate of healing at 3 and 6 months and minor amputation between the study group and control group showed statistically significant results (
Rifampicin used in conjunction with other standard poly-microbial therapy in refractory complex diabetic foot ulcer unresponsive to standard antimicrobial therapy, can significantly improve wound healing as well as decrease the need for amputation in addition to standard of care.
The aim of the present study was to evaluate effects of curcumin-polyethylene glycol loaded on chitosan-gelatin nanoparticles (C-PEG-CGNPs) on healing of methicillin-resistant
This study compared the outcome of an innovative in-shoe pressure and temperature measuring device as an adjunct to standard clinical care for diabetic foot versus standard clinical care alone. It included 88 participants with Type 2 diabetes mellitus with a history of one or more plantar foot ulceration who were already using prescription orthoses. These were randomly divided into the control group (
Plasminogen (Pg) is currently considered a master regulator of wound healing, but the molecular mechanisms of its efficacy in improving impaired closure of chronic skin ulcers in type 2 diabetes patients remain unclear. Here, we investigated wound healing effects of autologous plasma-derived Pg in diabetes patients with chronic foot ulcers and evaluated Pg-induced changes in levels of key protein markers related to wound repair. Type 2 diabetes patients with chronic wounds of lower extremities were included in the study and received topical applications of Pg in a dose of 1.0 mg/mL every 2 days during 20 days, in addition to the standard wound management treatment. Patients treated only according to conventional protocol served as a control. Wound closure rates were monitored by digital planimetry of wound areas. Plasminogen supplementary treatment significantly accelerated relative wound closure as compared with diabetes patients from the control group (24 ± 4 days vs 120 ± 17 days, respectively,
Diabetic foot ulcers (DFUs) are a serious complication of diabetes mellitus. Clinical data from the use of ReGenerating Tissue Agents (RGTA) technology in patients with DFUs are scarce. The objective of this randomized controlled study was to evaluate the efficacy of RGTA technology in the management of DFUs. Patients with chronic, neuroischemic diabetic foot ulcers were randomized 1:1 to the control group, that received the standard of care, and to the intervention group, that additionally received RGTA twice per week. The duration of the intervention was 12 weeks. Skin biopsies for histological and immunohistochemical analyses from a sample of participants were also performed. About 31 patients completed the study. Five (31.2%) patients in the intervention group achieved complete healing at the end of the intervention period versus 0 patients in the control group (
Treatment of chronic wounds has been shifted to traditional approaches due to surge in antibiotic resistance. Wounds that fail to heal satisfactorily may result in the amputation of the organ. In this research work, cinnamon oil (CO) and aloe vera (AV) that have been traditionally used as antibacterial agents are combined in a unique gel (COVA) and its antibacterial activity has been evaluated through
Vascular pythiosis is a dreadful vascular infection that presents as a chronic leg ulcer. To distinguish this infectious disease from atherosclerotic occlusion of the lower limb, we investigated the imaging appearance and presence of thick and irregular arterial wall enhancement, named crusty thrombosed arterial sign, on computed tomography images in cases with vascular pythiosis infection of lower extremities. In this study, 13 cases of vascular pythiosis of lower extremities with available images from 2016 to 2022 were reviewed and the presence of crusty thrombosed arterial signs, segments of vascular involvement, and radiological findings of hematologic disease, including hepatosplenomegaly and bone changes were recorded. Crusty arterial sign with long segmental arterial involvement was found in all cases. All cases had hepatomegaly and abnormal spleen, either splenomegaly or splenectomy, found in 12 cases (92.3%). Six cases (46.1%) had thalassemic bone changes. We proposed the pathognomonic radiologic sign of vascular pythiosis: the crusty thrombosed arterial sign, which manifested as diffusely thick and irregular arterial wall enhancement along long arterial thrombosis without skip lesions. Other associated findings included splenomegaly, splenectomy, and thalassemic bone changes. These radiologic findings facilitated the diagnosis of vascular pythiosis, particularly in cases of atypical presentation or unreliable clinical context.
To examine the association between skeletal muscle mass index (SMI) and lower extremity ulcer (LEU) risk, and to develop and externally validate a prediction model incorporating SMI.
We analyzed NHANES 1999–2004 data and validated findings in a hospital-based cohort. LEUs included diabetic foot, venous, arterial, and pressure ulcers. SMI was calculated from DXA-derived appendicular lean mass. Logistic regression assessed SMI–LEU associations; restricted cubic splines tested non-linearity. LASSO identified predictors for a nomogram, evaluated using AUC, calibration, and decision curve analysis (DCA).
Among 7194 participants, lower SMI quartiles were associated with higher LEU odds (Q1: OR = 1.74, 95% CI 1.06-2.86; Q2: OR = 1.76, 95% CI 1.03-3.03 vs Q4). No non-linear association was observed. The final model (SMI group, marital status, smoking, diabetes, CKD, RBC) showed acceptable discrimination (AUC: 0.618 training; 0.682 validation) and acceptable calibration, although its clinical applicability remains limited.
Lower SMI showed an independent association with increased LEU risk, and the exploratory model incorporating SMI and clinical factors provides preliminary evidence for its potential use in future risk assessment research.
People with a history of diabetic foot ulcers (DFUs) experience diminished health-related quality of life and are at a 40% annual risk of DFU recurrence. Due to a fear of DFU recurrence, people in DFU remission participate less in physical activity and moderate-intensity exercise when compared to people with diabetes who have not had wounds. There is novel evidence to suggest that too little activity during DFU remission contributes to only low magnitudes of repetitive tissue loading creating a higher susceptibility to skin trauma during inadvertent high-activity bouts. Conversely, a hasty return to too much activity could lead to rapid recurrence. There is now high-level evidence from multiple meta-analyses to indicate that home-based foot temperature monitoring, coupled with activity modification and daily inspection of the feet for impending signs of ulceration, could reduce the risk of ulcer recurrence by 50%. There is little evidence, however, to guide the decision-making regarding the appropriate quantity and frequency of physical activity during DFU remission and the acceptability from the patient perspective. This has resulted in limited uptake of this novel intervention in clinical practice. Earlier, we proposed that activity can be dosed for people in foot ulcer remission, just like insulin or medication is dosed. Here, we describe a patient-centered approach to implementing home foot temperature monitoring coupled with daily foot checks and dosage-based return to physical activity in a patient in DFU remission, including his perspective. We believe using such an approach could maximize ulcer-free days in remission, thereby improving quality of life.
Among specific skin manifestations of systemic lupus erythematosus such as leukocytoclastic vasculitis, and vasculopathy, the development of leg ulcers is rare and frequently seen in patients with antiphospholipid antibody positivity. Here we report the rapid healing of a leg ulcer without antiphospholipid antibody positivity in a patient with lupus in response to anticoagulant therapy. As in our case, when immunosuppressive agents are inadequate in lupus patients who develop leg ulcers, it may be beneficial to support the treatment with anticoagulants.
Diabetic Foot Syndrome is a complex and challenging clinical condition associated with high risk of mortality and lower limb amputation. The distal lesions represent the epiphenomenon of this syndrome and request a multidisciplinary care and an appropriate therapeutic path to ensure their healing. This case report describes the management of burns in a patient with type 2 diabetes mellitus, end stage renal disease and Diabetic Foot Syndrome. The lesions were treated with autologous epidermal skin graft until healing. Products that stimulate or replace extracellular matrix, which has a central role in wound healing, can be consider in the treatment of burns and offer a simpler and less disabling reconstructive possibility for the patient.
Chronic lower leg ulcers (LLUs) are a very common and associated with a high subjective and economic burden. They can be caused by a variety of factors. We have observed a common clinical feature in patients suffering from LLUs, which ultimately proved to be basal cell carcinomas (BCCs). We have nicknamed this sign “the pink doughnut sign.” The pink doughnut sign can aid in the early recognition of such BCCs, which is crucial to prevent unnecessary suffering, treatment costs, and poor local outcomes.