Search Results
Decreasing Amputation Rates in Patients with Diabetes Mellitus
An Outcome Study
The lower-extremity amputation rate in people with diabetes mellitus is high, and the wound failure rate at the time of amputation is as high as 28%. Even with successful healing of the primary amputation site, amputation of part of the contralateral limb occurs in 50% of patients within 2 to 5 years. The purpose of this study was to provide valid outcome data before (control period) and 18 months after (test period) implementation of a multidisciplinary team approach using verified methods to improve the institutional care of wounds. Retrospective medical chart review was performed for 118 control patients and 116 test patients. The amputation rate was significantly decreased during the test period, and the amputations that were required were at a significantly more distal level. No above-the-knee amputations were required in 45 patients during the test period, compared with 14 of 76 patients during the control period. These outcome data suggest that unified care is an effective approach for the patient with diabetic foot problems. (J Am Podiatr Med Assoc 92(8): 425-428, 2002)
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)
The Achilles tendon of the patient with Charcot’s foot neuroarthropathy has significantly altered physical properties compared with a normal tendon. Twenty-nine Achilles tendons from patients with Charcot’s foot (n = 20) and non-Charcot’s foot controls (n = 9) were loaded onto a biomechanical testing instrument. The biomechanical properties of the Charcot and control tendons were determined and the tendons were evaluated for differences in ultimate tensile strength and elasticity (Young’s modulus). Biomechanical test data show that there is a significant difference in ultimate tensile strength and elasticity between tendons of patients with Charcot’s foot and those of non-Charcot’s controls. The term diabetic tendo Achillis equinus is introduced as a new finding in diabetic neuroarthropathy. (J Am Podiatr Med Assoc 95(3): 242–246, 2005)
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)
Background: High peak plantar pressures predispose to foot problems and may exacerbate existing conditions. For podiatric physicians to make educated recommendations to their patients, it is important and necessary to begin to look at different shoes and how they affect peak plantar pressure.
Methods: To determine how flip-flops change peak plantar pressure while walking, we compared peak plantar pressures in the same test subjects wearing flip-flops, wearing athletic shoes, and in bare feet. Ten women with size 7 feet and a body mass index less than 25 kg/m2 were tested with an in-shoe pressure-measurement system. These data were collected and analyzed by one-way analysis of variance and computer software.
Results: Statistically significant results were obtained for nine of the 18 comparisons. In each of these comparisons, flip-flops always demonstrated higher peak plantar pressures than athletic shoes but lower pressures than bare feet.
Conclusion: Although these data demonstrate that flip-flops have a minor protective role as a shock absorber during the gait cycle compared with pressures measured while barefoot, compared with athletic shoes, they increase peak plantar pressures, placing the foot at greater risk for pathologic abnormalities. (J Am Podiatr Med Assoc 98(5): 374–378, 2008)
Background
Insoles are commonly used to assist in the prevention of diabetic neuropathic foot ulceration. Insole replacement is often triggered only when foot lesions deteriorate, an indicator that functional performance is comprised and patients are exposed to unnecessary ulcer risk. We investigated the durability of insoles used for ulcer prevention in neuropathic diabetic feet over 12 months.
Methods
Sixty neuropathic individuals with diabetes were provided with insoles and footwear. Insole durability over 12 months was evaluated using an in-shoe pressure measurement device and through repeated measurement of material depth at the first metatarsal head and the heel seat. Analysis of variance was performed to assess change across time (at issue, 6 months, and 12 months).
Results
Analyses were conducted using all available data (n = 43) and compliant data (n = 18). No significant difference was found in the reduction of mean peak pressure tested across time (P < .05). For both sites, significant differences in insole depth were identified between issue and 6 months and between issue and 12 months but not between 6 and 12 months (P < .05). Most insole compression occurred during the initial 6 months.
Conclusions
Visual material compression does not seem to be a reliable indicator of insole usefulness. Frequency of insole replacement is best informed by a functional review of effect determined using an in-shoe pressure measurement system. These results suggest that insoles for diabetic neuropathic patients can be effective in maintaining peak pressure reduction for 12 months regardless of wear frequency.
Background
Ankle position sense may be reduced before the appearance of the clinical manifestation of diabetic peripheral neuropathy. This is known to impair gait and cause falls and foot ulcers. Early detection of impaired ankle proprioception is important because it allows physicians to prescribe an exercise program to patients to prevent foot complications.
Methods
Forty-six patients diagnosed as having type 2 diabetes mellitus and 22 control patients were included in the study. Presence of neuropathy was assessed using the Michigan Neuropathy Screening Instrument (MNSI). Level of foot care awareness was determined using the Nottingham Assessment of Functional Footcare (NAFF). Joint position sense was measured using a dynamometer.
Results
Mean absolute angular error (MAAE) values were significantly higher in the neuropathy group compared with the control group (P < .05). Right plantarflexion MAAE values were significantly lower in the group without neuropathy compared with the group with neuropathy (P < .05). No correlation was found between MAAE values (indicating joint position sense) and age, educational level, disease duration, glycemic control, NAFF score, and MNSI history and examination scores in the groups with and without neuropathy (P > .05). Educational level and disease duration were found to be correlated with NAFF scores.
Conclusions
Increased MNSI history scores and increased deficits in ankle proprioception demonstrate that diabetic foot complications associated with reduced joint position sense may be seen at an increased rate in symptomatic patients.
Background:
Metabolic disorders are known to alter the mechanical properties of tendons. We sought to evaluate the prevalence of asymptomatic Achilles tendon enthesopathic changes in patients with type 2 diabetes mellitus (T2DM) without peripheral neuropathy.
Methods:
We recruited 43 patients with T2DM and 40 controls. Neuropathy was excluded with the Michigan Neuropathy Scoring Instrument. Bilateral ultrasonography of the Achilles tendon enthesis was performed.
Results:
Patients with T2DM had a higher prevalence of hypoechogenicity (26.7% versus 2.5%; P = .0001), entheseal thickening (24.4% versus 8.7%; P = .007), and enthesophytes (74.4% versus 57.5%; P = .02). No differences were found in the number of patients with erosions (1.2% versus 0%; P > .99), cortical irregularities (11.6% versus 3.7%; P = .09), bursitis (5.8% versus 3.7%; P = .72), or tears (2.3% versus 1.2%; P > .99). The mean ± SD sum of abnormalities was higher in patients with T2DM (1.5 ± 1.1 versus 0.7 ± 0.6; P < .0001), as was the percentage of bilateral involvement (72.1% versus 45.0%; P = .01). Mean ± SD thickness did not differ between patients and controls (4.4 ± 1.1 mm versus 4.2 ± 0.8 mm; P = .07).
Conclusions:
According to our data, there is an elevated prevalence of asymptomatic Achilles tendon enthesopathic changes in patients with T2DM independent of peripheral neuropathy.
Background:
We developed a prototype of a novel thermochromic liquid crystal (TLC)–coated fabric with an extended temperature range and enhanced sensitivity. By incorporating color and pattern recognition into the fabric, rapid determination of the underlying pedal temperature is facilitated. The purpose of this study was to evaluate the accuracy of the TLC fabric as a potential diagnostic aid for identifying complications in the high-risk foot.
Methods:
The hands of 100 individuals were used to compare the mean maximum temperatures indicated by the fabric versus standard thermal camera images. Findings were statistically analyzed using a paired t test, with significance defined as P < .05.
Results:
Except for the tip of the thumb and regions in the palm, there were no statistically significant differences between mean maximum temperatures measured with the thermal camera and those detected with the TLC fabric. Minor differences were relatively consistent in all nine regions of the hand and were not considered to be clinically significant.
Conclusions:
Using direct visual analysis, we demonstrated that a novel TLC fabric could accurately map temperatures in the palmar surface of the hand. The findings support the continued development of a temperature-sensitive sock that can be used in the home to monitor for temperature changes that may indicate the onset of complications in the high-risk foot.
Background
Foot self-care is key in preventing morbidity in high-risk diabetic patients. Motivational interviewing (MI) is an approach to encourage behavior change by patients that can be used in medical settings. The goal was to explore how podiatric physicians promote self-care in such patients and whether they use MI techniques.
Methods
We conducted a 19-question online survey of US-based practicing podiatric physicians. Most answers were on a 5-point scale. The MI index was the sum of answers to five relevant questions.
Results
Of 843 podiatric physicians, 86% considered foot self-care to be very important for high-risk diabetic patients, and 90% felt that it was their role to discuss foot self-care with them; 49% felt that they had training and were successful in promoting behavior change, but most were definitely (38%) or possibly (46%) interested in learning more. Only 24% of respondents scored at least 15 of 20 on the MI index. Higher MI scores were associated with more face time and more time discussing foot self-care but were not related to podiatric physicians' age, sex, geographic location, percentage of time in surgery, or years in practice. Reported barriers to counseling were lack of reimbursed time and poor patient engagement.
Conclusions
Most podiatric physicians view self-care behavior among high-risk diabetic patients and their role in promoting it as very important; most feel already proficient, but only a few demonstrate MI skills; most are willing to learn more. Success in behavioral counseling, such as MI, is likely to require more time and may be encouraged by a move from fee-for-service to outcome-based reimbursement.