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The timely and accurate noninvasive assessment of peripheral arterial disease is a critical component of a limb preservation initiative in patients with diabetes mellitus. Noninvasive vascular studies can be useful in screening patients with diabetes for peripheral arterial disease. In patients with clinical signs or symptoms, noninvasive vascular studies provide crucial information on the presence, location, and severity of peripheral arterial disease and an objective assessment of the potential for primary healing of an index wound or a surgical incision. Appropriately selected noninvasive vascular studies are important in the decision-making process to determine whether and what type of intervention might be most appropriate given the clinical circumstances. Hemodynamic monitoring is likewise important after either an endovascular procedure or a surgical bypass. Surveillance studies, usually with a combination of physiologic testing and imaging with duplex ultrasound, accurately identify recurrent disease before the occurrence of thrombosis, allowing targeted reintervention. Noninvasive vascular studies can be broadly grouped into three general categories: physiologic or hemodynamic measurements, anatomical imaging, and measurements of tissue perfusion. These types of tests and suggestions for their appropriate application in patients with diabetes are reviewed. (J Am Podiatr Med Assoc 100(5): 406–411, 2010)
Endovascular therapy has increasingly become the initial clinical option for the treatment of lower-extremity peripheral arterial occlusive disease not only for patients with claudication but also for those with critical limb ischemia. Despite this major clinical practice paradigm shift, the outcomes of endovascular therapy for peripheral arterial disease are difficult to evaluate and compare with established surgical benchmarks because of the lack of prospective randomized trials, incomplete characterization of indications for intervention, mixing of arterial segments and extent of disease treated, the multiplicity of endovascular therapy techniques used, the exclusion of early treatment failures, crossover to open bypass during follow-up, and the frequent lack of intermediate and long-term patency and limb salvage rates in life-table format. These data limitations are especially problematic when one tries to assess the outcomes of endovascular therapy in patients with diabetes. The purpose of the present article is to succinctly review and objectively analyze available data regarding the results of endovascular therapy in patients with diabetes. (J Am Podiatr Med Assoc 100(5): 424–428, 2010)
Dosing Activity and Return to Preulcer Function in Diabetes-Related Foot Ulcer Remission
Patient Recommendations and Guidance from the Limb Preservation Consortium at USC and the Rancho Los Amigos National Rehabilitation Center
Diabetes-related foot ulcers are a leading cause of global morbidity, mortality, and health-care costs. People with a history of foot ulcers have a diminished quality of life attributed to limited walking and mobility. One of the largest concerns is ulceration recurrence. Approximately 40% of patients with ulcerations will have a recurrent ulcer in the year after healing, and most occur in the first 3 months after wound healing. Hence, this period after ulceration is called “remission” due to this risk of reulceration. Promoting and fostering mobility is an integral part of everyday life and is important for maintaining good physical health and health-related quality of life for all people living with diabetes. In this short perspective, we provide recommendations on how to safely increase walking activity and facilitate appropriate off-loading and monitoring in people with a recently healed foot ulcer, foot reconstruction, or partial foot amputation. Interventions include monitored activity training, dosed out in steadily increasing increments and coupled with daily skin temperature monitoring, which can identify dangerous “hotspots” prone to recurrence. By understanding areas at risk, patients are empowered to maximize ulcer-free days and to enable an improved quality of life. This perspective outlines a unified strategy to treat patients in the remission period after ulceration and aims to provide clinicians with appropriate patient recommendations based on best available evidence and expert opinion to educate their patients to ensure a safe transition to footwear and return to activity.
Precise comprehensive imaging of arterial circulation is the cornerstone of successful revascularization of the ischemic extremity in patients with diabetes mellitus. Arterial imaging is challenging in these patients because the disease is often multisegmental, with a predilection for the distal tibial and peroneal arteries. Occlusive lesions and the arterial wall itself are often calcified, and patients with ischemic complications frequently have underlying renal insufficiency. Intra-arterial digital subtraction angiography, contrast-enhanced magnetic resonance angiography, and, more recently, computed tomographic angiography have been used as imaging modalities in lower-extremity ischemia. Each modality has specific advantages and shortcomings in this patient population, which are summarized and contrasted in this review. (J Am Podiatr Med Assoc 100(5): 412–423, 2010)
Throughout our medical training, we are taught how to manage patients who present with symptoms: perform a clinical examination, make a diagnosis, and develop a management plan. However, virtually no time is spent on teaching us how to manage patients who have no symptoms because they have lost the ability to feel pain, that is, patients with peripheral neuropathy. The lifetime incidence of foot ulceration in people with diabetes has been estimated to be as high as 25%, and a variety of contributory factors result in a foot being at risk for ulceration. Most important among these factors is peripheral neuropathy, or the loss of the ability to feel pain, temperature, or pressure sensation in the feet and lower legs. Up to 50% of older type 2 diabetic patients have evidence of sensory loss, putting them at risk for foot ulceration. If we are to succeed in reducing the high incidence of foot ulcers, regular screening for peripheral neuropathy is vital in all patients with diabetes. Those found to have any risk factors for foot ulceration require special education and more frequent review, particularly by podiatric physicians. The key message is, therefore, that neuropathic symptoms correlate poorly with sensory loss and that their absence must never be equated with lack of risk of foot ulceration. If we are to succeed in reducing the high incidence of foot ulceration and particularly recurrent ulceration, we must realize that with loss of pain there is also diminished motivation in the healing and prevention of injury. (J Am Podiatr Med Assoc 100(5): 349–352, 2010)
Motivational Interviewing by Podiatric Physicians
A Method for Improving Patient Self-care of the Diabetic Foot
Foot ulceration and lower-extremity amputation are devastating end-stage complications of diabetes. Despite agreement that diabetic foot self-care is a key factor in prevention of ulcers and amputation, there has only been limited success in influencing these behaviors among patients with diabetes. While most efforts have focused on increasing patient knowledge, knowledge and behavior are poorly correlated. Knowledge is necessary but rarely sufficient for behavior change. A key determinant to adherence to self-care behavior is clinician counseling style. Podiatrists are the ideal providers to engage in a brief behavioral intervention with a patient. Motivational interviewing is a well-accepted, evidence-based teachable approach that enhances self-efficacy and increases intrinsic motivation for change and adherence to treatment. This article summarizes some key strategies that can be employed by podiatrists to improve foot self-care. (J Am Podiatr Med Assoc 101(1): 78–84, 2011)
Challenges of Distal Bypass Surgery in Patients with Diabetes
Patient Selection, Techniques, and Outcomes
Surgical revascularization of the lower extremity using bypass grafts to distal target arteries is an established, effective therapy for advanced ischemia. Recent multicenter data confirm the primacy of autogenous vein bypass grafting, yet there remains significant heterogeneity in the utilization, techniques, and outcomes associated with these procedures in current practice. Experienced clinical judgment, creativity, technical precision, and fastidious postoperative care are required to optimize long-term results. The diabetic patient with a critically ischemic limb offers some specific challenges; however, numerous studies demonstrate that the outcomes of vein bypass surgery in this population are excellent and define the standard of care. Technical factors, such as conduit and inflow/outflow artery selection, play a dominant role in determining clinical success. An adequate-caliber, good-quality great saphenous vein is the optimal graft for distal bypass in the leg. Alternative veins perform acceptably in the absence of the great saphenous vein, whereas prosthetic and other nonautogenous conduits have markedly inferior outcomes. Graft configuration (reversed, nonreversed, or in situ) seems to have little effect on outcome. Shorter grafts have improved patency. Inflow can be improved by surgical or endovascular means if necessary, and distal-origin grafts (eg, those arising from the superficial femoral or popliteal arteries) can perform as well as those originating from the common femoral artery. The selected outflow vessel should supply unimpeded runoff to the foot, conserve conduit length, and allow for adequate soft-tissue coverage of the graft and simplified surgical exposure. This review summarizes the available data linking patient selection and technical factors to outcomes and highlights the importance of surgical judgment and operative planning in the current practice of infrainguinal bypass surgery. (J Am Podiatr Med Assoc 100(5): 429–438, 2010)
Surgical intervention for chronic deformities and ulcerations has become an important component in the management of patients with diabetes mellitus. Such patients are no longer relegated to wearing cumbersome braces or footwear for deformities that might otherwise be easily corrected. Although surgical intervention in these often high-risk individuals is not without risk, the outcomes are fairly predictable when patients are properly selected and evaluated. In this brief review, we discuss the rationale and indications for diabetic foot surgery, focusing on the surgical decompression of deformities that frequently lead to foot ulcers. (J Am Podiatr Med Assoc 100(5): 369–384, 2010)
Toe and Flow
Essential Components and Structure of the Amputation Prevention Team
At the end of an anatomical peninsula, the foot in diabetes is prone to short- and long-term complications involving neuropathy, vasculopathy, and infection. Effective management requires an interdisciplinary effort focusing on this triad. Herein, we describe the key factors leading to foot complications and the critical skill sets required to assemble a team to care for them. Although specific attention is given to a conjoined model involving podiatric medicine and vascular surgery, the so-called toe and flow model, we further outline three separate programmatic models of care—basic, intermediate, and center of excellence—that can be implemented in the developed and developing world. (J Am Podiatr Med Assoc 100(5): 342–348, 2010)