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Wound debridement, when systematically performed, may be as important as off-loading in reducing the prevalence of chronic inflammatory by-products in a wound and thus in converting a chronic wound into an acute one. Although it has been suggested that aggressive surgical debridement of wounds may be beneficial, there have been few, if any, technical descriptions of this aspect of therapy. It is therefore the purpose of this article to describe the general principles, process, and technique of outpatient surgical debridement of noninfected, nonischemic neuropathic diabetic foot wounds performed at the authors’ institutions. The authors hope to foster further discussion leading to improvement in the process and the prevalence of such debridement. (J Am Podiatr Med Assoc 92(7): 402-404, 2002)
Diabetic Foot Infections
Time to Change the Prognostic Concept
Patients with diabetic neuropathy are subject to ulcerations that may be complicated by infection and gangrene, with subsequent risk of amputation. It is the job of the foot specialist to identify and manage these problems early to avoid the unfortunate complication of amputation regardless of the presenting condition of the patient’s limb. We shed light on the hypothesis that suggests that infection and gangrene in a diabetic patient aggravate the degree of ischemia (microvascular, macrovascular, or both) already present enough to endanger the viability of the surrounding tissues unless urgent drainage with decompression and debridement of the necrotic sloughs is performed, with consequent reduction of tissue pressure and improvement in circulation to the area. We present cases with severe infections leading to gangrene and ischemia, which were improved following surgical management with consequent improvement in tissue viability. In these cases, we demonstrate that immediate treatment of the wound despite the delayed presentation of the patients resulted in limb salvage with much less soft-tissue loss than expected before treatment. (J Am Podiatr Med Assoc 99(5): 454–458, 2009)
Addressing pressure reduction in the treatment of diabetic foot wounds is a critical component of therapy. The total-contact cast has proven to be the gold standard of treatment because of its ability to reduce pressure and facilitate patient adherence to the off-loading regimen. Removable cast walkers have proven to be as effective as total-contact casts in pressure reduction, but this has not translated into equivalent time to healing. A simple technique to convert the removable cast walker into a device that is not as easily detached from the lower extremity, thereby encouraging the use of this device over a 24-hour period, is presented in this article. The procedure involves wrapping the cast walker with cohesive bandage or plaster of Paris. In the authors’ opinion, this technique addresses many of the disadvantages of the total-contact cast, resulting in an adequate compromise in this aspect of care. (J Am Podiatr Med Assoc 92(7): 405-408, 2002)
It is important to have a full appreciation of lower-extremity anatomical relationships before undertaking diabetic foot surgery. We sought to evaluate the potential for communication of the flexor hallucis longus (FHL) tendon with other pedal tendons and plantar foot compartments at the master knot of Henry and to provide cadaveric images and computed tomographic (CT) scans of such communications. Computed tomography and subsequent anatomical dissection were performed on embalmed cadaveric limbs. Initially, 5 to 10 mL (1:4 dilution) of iohexol and normal saline was injected into the FHL sheath as it coursed between the two hallux sesamoids. Subsequently, CT scans were obtained in the axial plane using a multidetector CT scanner with sagittal and coronal reformatted images. The limbs were then dissected for specific evaluation of the known variable intertendinous connections between the FHL and flexor digitorum longus (FDL) and quadratus plantae (QP) muscles. One cadaver demonstrated retrograde flow of contrast into the four individual tendons of the FDL, with observation of a large intertendinous slip between the FHL and FDL on dissection. Another cadaver demonstrated contrast filling in the QP with an associated intertendinous slip between the FHL and QP on dissection. These results indicate that the master knot of Henry (the location in the plantar aspect of the midfoot where the FHL and FDL tendons decussate, with the FDL passing superficially over the FHL) has at least the potential to serve as one source of communication in diabetic foot infections from the medial plantar compartment and FHL to the central and lateral compartments via the FDL and to the rearfoot via the QP.
Background: Comparing the dynamic pedobarographic patterns of individuals is common practice in basic and applied research. However, this process is often time-consuming and complex, and commercially available software often lacks powerful visualization and interpretation tools.
Methods: We propose a simple method for displaying pixel-level pedobarographic deviations over time relative to a so-called reference pedobarographic pattern. This novel method contains four distinct automated preprocessing stages: 1) normalization of pedobarographic fields (for foot length and width), 2) temporal normalization, 3) a pixel-level z-score–based calculation, and 4) color coding of the normalized pedobarographic fields. Group and patient-level comparisons were illustrated using an experimental data set including diabetic and nondiabetic patients.
Results: The automated procedure was found to be robust and quantified distinct temporal deviations in pedobarographic fields.
Conclusions: The advantages of the novel method cover several domains, including visualization, interpretation, and education.
After resection of bone or amputation, postoperative stump breakdown occurs frequently. Furthermore, the altered mechanics with ambulation are difficult to control with bracing and orthoses alone. During the past 10 years, the peroneus brevis tendon has been transferred to various locations in the foot after resection of the fifth metatarsal base in an effort to provide continued balance between the supinatory and pronatory forces needed for a steady gait. In patients who have had a peroneus brevis tendon transfer, the rate of postoperative ulceration and the need for further bony resection is minimal. Analysis of the biomechanical influences and effects of different anatomical placements of the transferred tendon reveals the importance of transfer of the peroneus brevis tendon. (J Am Podiatr Med Assoc 94(6): 594–603, 2004)
