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- Author or Editor: Heather R. Kimbriel x
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Maggot Therapy in “Lower-Extremity Hospice” Wound Care
Fewer Amputations and More Antibiotic-Free Days
We sought to assess, in a case-control model, the potential efficacy of maggot debridement therapy in 60 nonambulatory patients (mean ± SD age, 72.2 ± 6.8 years) with neuroischemic diabetic foot wounds (University of Texas grade C or D wounds below the malleoli) and peripheral vascular disease. Twenty-seven of these patients (45%) healed during 6 months of review. There was no significant difference in the proportion of patients healing in the maggot debridement therapy versus control group (57% versus 33%). Of patients who healed, time to healing was significantly shorter in the maggot therapy than in the control group (18.5 ± 4.8 versus 22.4 ± 4.4 weeks). Approximately one in five patients (22%) underwent a high-level (above-the-foot) amputation. Patients in the control group were three times as likely to undergo amputation (33% versus 10%). Although there was no significant difference in infection prevalence in patients undergoing maggot therapy versus controls (80% versus 60%), there were significantly more antibiotic-free days during follow-up in patients who received maggot therapy (126.8 ± 30.3 versus 81.9 ± 42.1 days). Maggot debridement therapy reduces short-term morbidity in nonambulatory patients with diabetic foot wounds. (J Am Podiatr Med Assoc 95(3): 254–257, 2005)
This study evaluated changes in pressure imparted to diabetic foot wounds using a novel negative pressure bridging technique coupled with a robust removable cast walker. Ten patients had plantar pressures assessed with and without a bridged negative pressure dressing on the foot. Off-loading was accomplished with a pressure-relief walker. Plantar pressures were recorded using two pressure-measurement systems. The location and value of peak focal pressure (taken from six midgait steps) were recorded at the site of ulceration. Paired analysis revealed a large difference (mean ± SD, 74.6% ± 6.0%) between baseline barefoot pressure and pressure within the pressure-relief walker (mean ± SD, 939.1 ± 195.1 versus 235.7 ± 66.1 kPa). There was a mean ± SD 9.9% ± 5.6% higher pressure in the combination device compared with the pressure-relief walker alone (mean ± SD, 258.0 ± 69.7 versus 235.7 ± 66.1 kPa). This difference was only 2% of the initial barefoot pressure imparted to the wound. A modified negative pressure dressing coupled with a robust removable cast walker may not impart undue additional stress to the plantar aspect of the foot and may allow patients to retain some degree of freedom (and a potentially reduced length of hospital stay) while still allowing for the beneficial effects of negative pressure wound therapy and sufficient off-loading. (J Am Podiatr Med Assoc 94(5): 456–460, 2004)
Cooling the Foot to Prevent Diabetic Foot Wounds
A Proof-of-Concept Trial
The etiology of neuropathic diabetic foot wounds can be summarized by the following formula: pressure × cycles of repetitive stress = ulceration. The final pathway to ulceration consists of an inflammatory response, leading to tissue breakdown. Mitigation of this response might reduce the risk of ulceration. This proof-of-concept trial evaluates whether simple cooling of the foot can safely reduce the time to thermal equilibrium after activity. After a 15-min brisk walk, the six nondiabetic volunteers enrolled were randomly assigned to receive either air cooling or a 10-min 55°F cool water bath followed by air cooling. The process was then repeated with the intervention reversed, allowing subjects to serve as their own controls. There was a rise in mean ± SD skin temperature after 15 min of activity versus preactivity levels (87.8° ± 3.9° versus 79° ± 2.2° F; P = .0001). Water cooling immediately brought the foot to a point cooler than preactivity levels for all subjects, whereas air cooling required an average of nearly 17 min to do so. Ten minutes of cooling required a mean ± SD of 26.2 ± 5.9 min to warm to preactivity levels. No adverse effects resulted from the intervention. We conclude that cooling the foot may be a safe and effective method of reducing inflammation and may serve as a prophylactic or interventional tool to reduce skin breakdown risk. (J Am Podiatr Med Assoc 95(2): 103–107, 2005)
Maggot debridement therapy is rapidly increasing in popularity at major diabetic foot and wound care centers worldwide. However, we are unaware of specific guidelines on the short-term storage of larvae. We sought to evaluate differences in maggot motility over time in larvae refrigerated versus those stored at room temperature. We also introduce a simple surrogate method for evaluating maggot vitality that may be useful for in vivo studies if validated in future works. We randomly selected ten larvae from the same shipment at ten different times in 9 days. Larvae were placed on a translucent acetate grid, and their total excursion in 30 sec was measured. This was converted into a Maggot Motility Index. In the refrigerated group, the index remained at or above 40 mm/min for approximately 60 hours from baseline, when there was a significant decrease. This same phenomenon occurred during the first 12 hours in the nonrefrigerated group. There were significant differences in motility between refrigerated and nonrefrigerated larvae immediately after baseline until day 8. Larvae are more practical for repeated clinical use if kept refrigerated between applications. (J Am Podiatr Med Assoc 94(4): 353–355, 2004)
Do US Veterans Wear Appropriately Sized Shoes?
The Veterans Affairs Shoe Size Selection Study
Poorly fitting footwear has frequently been cited as an etiologic factor in the pathway to diabetic foot ulceration. However, we are unaware of any reports in the medical literature specifically measuring shoe size versus foot size in this high-risk population. We assessed the prevalence of poorly fitting footwear in individuals with and without diabetic foot ulceration. We evaluated the shoe size of 440 consecutive patients (94.1% male; mean ± SD age, 67.2 ± 12.5 years) presenting to an interdisciplinary teaching clinic. Of this population, 58.4% were diagnosed as having diabetes, and 6.8% had active diabetic foot ulceration. Only 25.5% of the patients were wearing appropriately sized shoes. Individuals with diabetic foot ulceration were 5.1 times more likely to have poorly fitting shoes than those without a wound (93.3% versus 73.2%; odds ratio [OR], 5.1; 95% confidence interval [CI], 1.2–21.9; P = .02). This association was also evident when assessing only the 32.3% of the total population with diabetes and loss of protective sensation (93.3% versus 75.0%; OR, 4.8; 95% CI, 1.1–20.9; P = .04). Poorly fitting shoes seem to be more prevalent in people with diabetic foot wounds than in those without wounds with or without peripheral neuropathy. This implies that appropriate meticulous screening for shoe-foot mismatches may be useful in reducing the risk of lower-extremity ulceration. (J Am Podiatr Med Assoc 96(4): 290–292, 2006)