Hyperhidrosis Clinical Trial
Official title:
Hyperhidrosis of the Residual Limb in Patients With Amputations: Developing a Treatment Approach, Aims 1 and Aim 2
The objective is to establish an evidence base for a hyperhidrosis treatment algorithm in amputees. This project will address a problem that has troubled Service members, Veterans, and civilians with amputations for decades, impacting satisfaction with prosthetic use, residual limb skin health, and negatively affecting quality of life. Prior research in this area has been limited and insufficient. The Investigators are confident that improving the evaluation and treatment of residual limb hyperhidrosis will reduce the secondary health consequences of amputation and will lead to improved quality of life. This will be accomplish by completing the following specific aims. Aim 1: Test the validity of the Minor iodine-starch test in amputees. Hypothesis: The iodine-starch test is a valid diagnostic tool of hyperhidrosis and can be useful for the identification of focal areas of sweating on a residual limb Aim 2: Test the effectiveness of a prescription strength topical antiperspirant (Aluminum Chloride 20%) on hyperhidrosis of the residual limb. Hypothesis: Aluminum Chloride will be more effective at controlling sweating than placebo
One objective of the Prosthetic Outcomes Research Award (PORA) is to improve the understanding of secondary health effects on Service members and Veterans who have undergone limb amputation and to advance the adoption and implementation of evidence-based interventions. The investigators will address the important secondary health problem of excessive residual limb sweating (hyperhidrosis) in amputees. Successful use of a prosthesis requires a stable interface between the residual limb and the prosthetic socket. Maintaining healthy skin, therefore, is paramount. However, the closed environment necessary to provide this stable interface also creates an environment that may lead to a multitude of skin problems. Amputees regularly deal with skin problems such as sweating, eczematous itching and redness, infections, and mechanical problems such as blisters and open wounds. Hyperhidrosis is the single most reported problem. Hyperhidrosis is reported in up to 70% of amputee and is associated with reduced quality of life, reduced prosthetic fit and function, decreased satisfaction with their prosthesis and skin irritation. The investigators own published findings reveal that 66% of prosthetic users (both veteran and civilian) experienced residual limb sweating that interfered with activities of daily living. Sweating was rated as most bothersome in warm weather or with vigorous activity, and the efficacy of treatment strategies was generally reported to be poor. Despite the frequency and impact of hyperhidrosis in amputees, there is a lack of evidence based guidelines for evaluating and treating this problem. A number of knowledge gaps exist, including no clear standard for assessing the burden of sweating in amputees, and no evidence base from which to inform treatment decisions for either simple or more elaborate interventions. There is no universally accepted standard for assessing the burden and precise location of sweating in amputee patients. Among the several subjective scales of hyperhidrosis severity in the dermatology literature, the most commonly used and rigorously validated one is the Hyperhidrosis Disease Severity Scale (HDSS). The HDSS provides a qualitative measure for the severity of the patient's condition based on the extent to which hyperhidrosis affects daily activities. The HDSS is simple to administer and scored as follows: Hyperhidrosis Disease Severity Scale Condition: Score 1. My sweating is never noticeable and never interferes with my daily activities 2. My sweating is tolerable but sometimes interferes with my daily activities 3. My sweating is barely tolerable and frequently interferes with my daily activities 4. My sweating is intolerable and always interferes with my daily activities In the general hyperhidrosis patient population (non-amputee), the HDSS exhibits moderate to strong correlations with other quality of life and disease impact metrics, as well as with gravimetric sweat production. A 1 point improvement on the HDSS correlates with a 50% reduction in sweat production, while a 2 point improvement correlates with an 80% reduction in sweat production. The investigators survey data shows the HDSS correlates well with amputees' perception of the impact of sweating on their prosthesis fit and function, and is therefore a valid outcome measure in the amputee population. While the HDSS gives a global, patient-reported outcome of the significance of hyperhidrosis in the patient's life, it does not inform the treating clinician on the precise location of the problem. Dermatologists treating hyperhidrosis of other regions (i.e. axillary, palmar, plantar) use the Minor iodine-starch test to identify the area of hyperhidrosis in order to guide subsequent treatments. This test consists of an application of iodine, which is allowed to dry and then dusted with cornstarch. Sweat will react with the iodine and starch and produce a black/purple color. While this test is primarily used to identify the areas of hyperhidrosis, a grading scale has been proposed for test interpretation and monitoring response to treatments. There is scant literature describing the iodine-starch test in amputees and the investigators early experience suggests that it is insufficient to simply apply iodine and starch on a residual limb without then donning the patient's prosthesis. It appears necessary to recreate the environment that produces the excessive sweating by donning the prosthesis and ambulating. It is not known, however, what method is safe and effective, without causing harm to the patient's skin and/or prosthetic materials. As part of the scope of the research proposed herein, the investigators have done pilot work with 9 subjects and 11 amputation sites, utilizing the iodine-starch test under a variety of conditions to assess which method is most feasible to allow the patient to use their prosthesis in the test. Preliminary results suggest that plastic wrap is adequate to protect the prosthesis from significant iodine stain and does not cause new skin irritation, but is more often viewed as uncomfortable. It also appears to induce a very rapid and diffuse pattern sweating, raising concern for creating too much of a false positive effect. A prosthetic sheath appears to protect the liner from dense stain, though some light iodine stain has been observed to seep onto the liner in some cases. This method, though, is generally viewed as comfortable to the patient, does not cause new skin irritation, and does produce a positive test after 10 - 15 minutes of walking in focal areas more consistent with the patient's described experience with sweat and sweat location. The investigators believe that applying the iodine-starch combination, donning a prosthetic sheath, the patient's own prosthesis, followed by a period of ambulation is the best method for future studies. Beyond the assessment of hyperhidrosis, treatment guidelines for this problem have not been rigorously applied to amputees. In the dermatology literature, guidelines recommend using a topical antiperspirant such as Aluminum Chloride (AlCl) as first line treatment. For axillary hyperhidrosis, treatment success with AlCl (defined as a post treatment HDSS score of 1, has varied from 33% to 72% in clinical trials). However, in the amputee population, there are no published clinical trials describing the effectiveness or tolerability of a topical treatment, and if it is ineffective or intolerable, when to consider another option such as botulinum toxin injections, which are generally considered as second line treatment. The investigators found through a survey that 50% of respondents had tried either an over the counter or prescription strength antiperspirant. Of those respondents having tried such an agent, nearly 50% reported them to have no efficacy, and only about 20% reported them to be completely or mostly effective. Clearly this data has limitations, due to subject recall bias, and is not the product of an intervention study. It does, however, illustrate that a majority of amputees may not have satisfactory options to treat this problem. There have been a few case reports and/or case series reporting the use of botulinum toxin to treat this problem in amputees. While these preliminary reports suggest that botulinum toxin is an effective treatment option, they are limited by the fact that the intervention was tried on such a small number of patients. Kern et al used botulinum toxin type B (BTX-B) in 9 patients while Charrow et al. used botulinum toxin type A (BTX-A) in 8 patients. Both reported good effectiveness in treating hyperhidrosis but neither utilized a validated method to determine effectiveness, nor did the subjects fail a topical treatment prior to botulinum toxin treatment. Further, there is no published literature describing the best way to localize botulinum toxin application for amputee hyperhidrosis. In considering the feasibility of widespread adoption of botulinum toxin as a treatment for amputee hyperhidrosis, one of the biggest barriers could be the large surface area involved that needs to be treated. Dermatologists use the iodine-starch test to identify the hyperhidrotric area that will be targeted with the botulinum toxin injection. For palmar, axillary, and plantar hyperhidrosis, it is recommended that every patient be assessed with this method. A single case study has reported the successful use of the iodine-starch test to help identify hyperhidrotic areas on a residual limb. However, it has not been well studied to know if the iodine-starch test can be utilized in amputees to identify potential sites for injection, or even if the pattern of sweating can be demonstrated to be a focal, not a global, problem. If the iodine-starch test can be used successfully in amputees, it could help direct botulinum toxin injections to a focused area, rather than an entire residual limb. This could have significant impact on the overall tolerability of the procedure and the willingness of both patients and providers to implement it in usual clinical care. ;
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