Search Results
Few scientific data are available on the effectiveness of commonly used modalities for reducing pressure at the site of neuropathic ulcers in persons with diabetes mellitus. The authors' aim was to compare the effectiveness of total contact casts, half-shoes, rigid-soled postoperative shoes, accommodative dressings made of felt and polyethylene foam, and removable walking casts in reducing peak plantar foot pressures at the site of neuropathic ulcerations in diabetics. Using an in-shoe pressure-measurement system, data from 32 midgait steps were collected for each treatment. There was a consistent pattern in the devices' effectiveness in reducing foot pressures at ulcer sites under the great toe and ball of the foot. Removable walking casts were as effective as or more effective than total contact casts. Half-shoes were consistently the third most effective modality, followed by accommodative dressings and rigid-soled postoperative shoes.
Orthotic management is helpful in the treatment of most orthopedic conditions involving the rearfoot, including plantar fasciitis, Achilles tendon disorders, posterior tibial tendon dysfunction, flatfoot, ankle sprains, and problems associated with diabetes, arthritis, and equinus disorders. A review of the effectiveness of orthoses in the treatment of these conditions is presented here. An in-depth analysis of the orthotic management of plantar fasciitis and a critical review of foot orthoses for the pronated foot are presented. Also discussed are the rationale and effectiveness of the tension night splint in the treatment of plantar fasciitis, orthotic devices for the different stages of posterior tibial tendon dysfunction, and the various categories of orthoses for off-loading the diabetic foot. The modern ankle brace, the effectiveness of prefabricated versus prescription foot orthoses, and recent developments in the ankle-foot orthosis are also reviewed.
Foot ulcerations are one of the most common and dangerous complications associated with chronic diabetes mellitus. Many studies have focused on neuropathy, in conjunction with elevated ground reactive forces, as the principal cause of these ulcerations. The authors discuss the mechanical cause of diabetic ulcerations at the cellular level. It is hypothesized that increased rate of tissue deformation associated with foot slap secondary to progressive motor neuropathy is the actual culprit, and not the magnitude of local pressure applied. The authors present a cellular model that shows that high rates of tissue deformation may result in elevated intracellular calcium concentrations, which may lead to cellular death, while comparable loads gradually applied do not. Furthermore, there is no significant difference in the response observed at 5 psi and 10 psi. Based on these findings, it is hypothesized that techniques such as ankle foot orthoses, which control the velocity of foot strike, may be useful in treating diabetic foot ulcerations.
This retrospective study reviewed the culture results of 112 admissions to a multidisciplinary diabetic foot care team with a primary diagnosis of infected diabetic pedal ulceration. An average of 1.5 +/- 0.9 species per patient (P < 0.0001) were isolated. Eighty-nine percent of wounds cultured grew two or fewer organisms. Anaerobic species were isolated in only 5% of all cultures. Of these isolates, the distinction between anaerobic colonization and true anaerobic infection is made. Results suggest that aggressive early hospitalization, coupled with aggressive intraoperative debridement, may yield less microbiologically complex infections that may be controlled with less expensive narrow spectrum antibiotic therapy. Diagnosis of the infected pedal ulceration of a patient with diabetes is a clinical one. If this diagnosis is combined with appropriate surgical intervention, microbiologic correlation, and antimicrobial therapy, the result may be a less complex hospital course and improved outcome.
The diabetic patient is at high risk for developing long-term medical complications including serious foot problems with potential loss of limb. With today's growing awareness of the importance of curtailing overall health care costs, the importance of comprehensive diabetic patient education programs is academic. It is demonstrated that a multidisciplinary approach to diabetic care management, with foot care assessment encompassing early preventive measures, can serve as a model for other Veterans Affairs Medical Centers to follow. Foot screenings can individualize specific foot problems and provide an understanding of risk factors to prevent complications. Patients with diabetes or peripheral vascular disease and, especially those individuals at risk of foot ulceration, are referred to the appropriate clinic for ongoing management to prevent amputation. Patient education is considered most effective when it is encouraged throughout a diabetic patient's medical care, and it becomes a part of lifestyle habits.
BACKGROUND:Diabetic foot ulceration is a severe complication of diabetes characterized by chronic inflammation and impaired wound healing. This study aims to evaluate the effect of a medical device gel based on Adelmidrol + Trans traumatic acid in the healing process of diabetic foot ulcers. METHODS: Thirty-seven diabetic patients with foot ulcers of mild/moderate grade were treated with the gel applied daily for 4 weeks on the affected area. The following parameters were evaluated at baseline and weekly: a) wound area, measured drawing a map of the ulcer then calculated with Photoshop6 tools, b) clinical appearance of the ulcer, assessed recording the presence/absence of dry/wet necrosis, infection, fibrin, neoepithelium, exudate, redness, granulation tissue. RESULTS: Topical treatment led to progressive healing of diabetic foot ulcers with a significant reduction of the wound area and an improvement in the clinical appearance of the ulcers. No adverse events treatment-related were observed. CONCLUSIONS: The results of this open-label study show the potential benefits of Adelmidrol + Trans traumatic acid topical administration to promote re-epithelialization of diabetic foot ulcers. Further studies need to confirm the observed results.
Abstract
People suffering from diabetes are at risk of developing foot ulcerations, which, if left untreated, could also lead to amputation. Monitoring of the foot temperature can help in the prevention of these foot complications, and various studies have shown that elevated temperatures may be indicative of ulceration. Over the years there have been various devices that were designed for foot temperature monitoring, both for clinical and home use. The technologies used vary from infrared (IR) thermometry, liquid crystal thermography (LCT), IR thermography and a vast range of analogue and digital temperature sensors that were incorporated in different measurement platforms. All these systems are able to collect thermal data from the foot, some being able to acquire data only when the foot is stationary and others being able to acquire from the foot in motion, which can give a more in-depth insight to any emerging problems. The aim of this review is to evaluate the available literature related to the technologies used in these systems, outlining the benefits of each and what further developments may be required to make the foot temperature analysis more effective.
Vertical plantar forces are known to be a major precipitating factor in the development of foot pathology. It is also postulated that shear forces are important in the pathogenesis of foot ulcers in patients with diabetes mellitus. Various materials are used in insoles designed to reduce forces on the foot. While many foam materials have been tested for their ability to dissipate vertical forces, few studies have tested the effect of these materials on shear forces. This study assessed the effectiveness of five different materials in reducing plantar shear forces and compared two new gel materials with three of the more conventional foam materials. Four subjects were tested while walking over a force platform with one of the five materials taped to the surface. Peak force, impulse, and resultant shear force data were analyzed. The gel materials were significantly better than the foam materials at reducing shear forces. Thus the use of gel materials in insoles may be indicated for the reduction of plantar shear forces on the diabetic foot.
Spinal stenosis, involving pressure on either the central spinal cord or nerve root exiting the spinal canal, can cause a variety of symptoms in the lower extremities. A classic symptom is that of neurogenic claudication, involving leg pain and weakness brought on by walking. The pain is relieved by sitting or lying down, not by standing and resting as would be seen in arterial insufficiency-induced claudication. Other symptoms of spinal stenosis can involve paresthesia, weakness or cramping in one or both extremities, rest pain, or burning pain, and are commonly misdiagnosed as peripheral neuropathy, especially in patients with diabetes. Symptoms are often chronic, frequently missed, or misdiagnosed in the medical community, and may cause severe disability or reduction in the quality of life. Spinal stenosis is in some patients the unidentified cause of failure of treatment of foot and leg pain. Podiatric physicians, who focus on the patient's lower extremities, are in a unique position to be able to identify spinal stenosis and facilitate appropriate treatment. The authors provide current information regarding symptoms of spinal stenosis, a guide to diagnosis including the anatomical etiologies, and a basic understanding of treatment.