Primary hyperhidrosis is a common disease with an incidence of up to 2.8% in the United States (1). Excessive sudoresis negatively impacts quality of life (QOL) (2), and its resolution is linked to QOL improvement (3,4).

The most common sites of primary hyperhidrosis are the axillae, palms of the hands, soles of the feet and cranio-facial region; the vast majority of scientific papers describing primary hyperhidrosis have focused on these regions.

Excessive focal sweating elsewhere (e.g., the thorax, abdomen, back or groin) usually occurs after surgical sympathectomy (as compensatory hyperhidrosis); this condition may be reduced with the use of certain techniques (5), but it is still one of the most common causes of sweating in these areas.

A fraction of patients have a primary complaint of hyperhidrosis at less common sites (e.g., the back and groin), but they do not fulfill the criteria for compensatory hyperhidrosis (as they have never undergone an operation), secondary hyperhidrosis (as no clinical/pharmacological condition has been diagnosed) or generalized hyperhidrosis (as they do not sweat on the majority of their body surface). We studied patients in the former category (primary hyperhidrosis at less common sites).

Oxybutynin is an anti-muscarinic drug that was first associated with the resolution of hyperhidrosis in 1988 (6). Recently, specific therapy was reported (7,8) to be a good initial alternative for treating primary hyperhidrosis; such therapy has been used in plantar (9), axillary (10), palmar (11,12) and facial hyperhidrosis (13) and has been evaluated in a randomized, placebo-controlled trial (14). This therapy is an alternative for patients who are not good surgical candidates (either because of clinical limitations, such as age or co-morbidities, or because of the applicability/efficacy of sympathectomy in certain areas of the body).

Here, we report a case series of 20 patients with primary focal hyperhidrosis whose main complaint was associated with the less frequent sites of hyperhidrosis (e.g., the back or groin) and who have been treated with the anticholinergic oxybutynin for a median follow-up period of 385 days (range: 133 – 1526 days).

This investigation was a non-randomized, uncontrolled study; the data were retrospectively retrieved from our dedicated and prospective institutional protocol, which is standardized and has been in use at our facilities since 2001 for all patients with primary or compensatory hyperhidrosis.

From September 2007 to September 2013, 20 patients with a primary complaint of focal hyperhidrosis at the dorsum (n = 7), groin (n = 5), anterior thorax (n = 5), genitals (n = 1), thighs (n = 1), and abdomen (n = 1) were included in our pharmacological protocol using oxybutynin.

The inclusion criteria were as follows: patients with at least two follow-up visits, patients who underwent an extensive clinical investigation to exclude causes of secondary hyperhidrosis and patients with a detailed history of previous drug use. The exclusion criteria were as follows: contra indication to oxybutynin treatment (e.g., closed-angle glaucoma or intestinal obstruction), report of night sweats or climacterium and previous surgery involving the sympathetic system (including oncologic or other procedures in operative fields that could inadvertently include the sympathetic ganglia, such as open aortic surgery).

The patient demographics are summarized in Table1 and a detailed description is provided in Table2.

All subjects were treated following the same protocol. During the first week, they received 2.5 mg of oxybutynin once per day at bedtime. From days 8 to 21, they received 2.5 mg twice per day and from day 22 onward, they received 5 mg twice per day. If necessary, the total dose was increased up to 20 mg/day to balance the therapeutic and side effects. Oxybutynin was provided by the hospital pharmacy.

Three evaluations were performed for the purpose of this study. The first occurred before medication was given, the second occurred after six weeks of treatment and the final evaluation occurred at least 24 weeks following the initiation of the protocol (except for the patients who stopped treatment earlier because of side effects). The following information was evaluated: 1st) the patient's QOL was evaluated using a validated (and previously employed (15)) questionnaire for patients with hyperhidrosis (3) before pharmacological treatment (Appendix 1); 2nd) the patient's clinical improvement at the main site of hyperhidrosis was evaluated after six weeks; 3rd) the patient's QOL was evaluated after six weeks of oxybutynin treatment (Appendix 1); 4th) the patients' clinical improvement at the main and other sites of hyperhidrosis was evaluated at the final visit; and 5th) the patient's complaints of pharmacological side effects were evaluated after six weeks and at the final visit.

Patients completed the clinical improvement questionnaire according to their subjective perception of the improvement in sudoresis. They evaluated this improvement using a scale ranging from 0 to 10, in which 0 represented no improvement and 10 represented the absence of hyperhidrosis based on their own estimate. The improvement was recorded as null when the score was 0, slight when it was 1 to 4, moderate when it was 5 to 7 and great when it was 8 to 10.

The negative impact of hyperhidrosis on the patient's QOL before oxybutynin was classified into five different categories, calculated as the summed total score from the protocol. When the total scores were >83, 68-83, 52-67, 36-51 and 20-35, the QOL was considered very poor, poor, good, very good and excellent, respectively.

The QOL improvement after treatment was also classified into five different categories. When the totals were greater than 83, 68-83, 52-67, 36-51 and 20-35, the QOL was considered much worse, slightly worse, the same, slightly better and much better, respectively.

There were ten males and ten females. All patients were followed for at least four months. The median follow-up period was 385 days (range: 133 – 1526 days).

The most bothersome sites for hyperhidrosis were the back (Seven patients) followed by the groin (n = 5). Five patients reported that they were more uncomfortable with hyperhidrosis on the thorax. The second and third sites of hyperhidrosis for each patient are displayed in Table2.

QOL data before and six weeks after treatment are presented in Table1. Fifteen patients (75%) presented with a poor or very poor QOL before pharmacological therapy with oxybutynin. After six weeks, seventeen patients (85%) reported some improvement in QOL.

The improvements in sweating at the main site after six weeks and at the last visit are presented in Table3. After six weeks, 70% of the patients reported moderate/great improvement in sweating, while 80% (16 out of 20) reported moderate or great improvement in sweating at the last visit. At the second most disturbing site of hyperhidrosis, 88.9% (16 out of 18) of the cases showed moderate or great improvement.

Comparing the improvement at the six-week analysis with the last evaluation (Table3), 45% of patients remained in the same category of improvement, 15% “downgraded” and 40% improved over the course of the study. The change in sub-categories was not statistically significant (McNemar's test: p = 0.139).

Regarding side effects, no patients reported intestinal obstruction, urinary retention, or decreased visual acuity. Dry mouth was the most common complaint, as only four patients (20%) did not report some degree of dry mouth. Twelve subjects rated dry mouth as moderate/severe and two of these subjects stopped treatment because of this complaint. Two patients reported somnolence (which made both of them cease treatment), and one case of alleged heart palpitation/tachycardia was noted (the patient was not thoroughly investigated because she decided to stop the medication and did not want to try it again). In total, five patients ceased taking the medication.

Comparisons of dry mouth complaints after six weeks and at the last visit are shown in Table4; 85% of the patients remained in the same category (absent/light or moderate/severe) throughout the study period and 15% reported worsening of this symptom. The change in the sub-categories was not statistically significant (McNemar's test: p = 0.250).

It is estimated that there are up to 600-700 sweat glands/cm2 on the palms and soles, 350/cm2 on the forehead, 64/cm2 on the back and 60/cm2 on the thigh (16-18). This estimation correlates with epidemiological findings that palmar and plantar (along with axillary) hyperhidrosis are among the most common presentations (19).

Our service treats primary hyperhidrosis in a large number of patients. When we classify patients by their primary site complaint, we observe the following approximate figures: 500 patients with palmar, 400 with axillary, 100 with cranio-facial and 75 with plantar hyperhidrosis. In our service, we estimate that the incidence of primary sweating at uncommon sites is approximately 1.85%, which might be the reason for underreporting in the literature.

Maillard et al. (20) coined the term “primary extensive hyperhidrosis” for patients with at least three sites of excessive sweating, including both “typical” (hands and feet) and “unusual” sites (trunk and groin); however, the association of the primary complaint with “unusual” sites is not critical to their definition.

Focal primary hyperhidrosis at common sites (hands, armpits, feet and face) has been extensively studied, and different methods of treatment have been described (21), including topical therapy (22) (iontophoresis, botulin toxin and aluminum compounds), surgery (either excision of sweat glands in axillary hyperhidrosis (23), thoracic sympathectomy for upper limb/face sweating (24) or lumbar sympathectomy for plantar sudoresis (25) and pharmacological therapy with anticholinergics, such as oxybutynin (12), glycopyrrolate and clonidine (26).

Widespread sudoresis – also referred to as generalized hyperhidrosis, a condition that has not been precisely defined – is usually considered to be a secondary effect that is associated with drug side effects (or drug withdrawal) or with clinical conditions (e.g., menopause, pheochromocytoma, carcinoid syndrome, thyrotoxicosis, or diabetes mellitus) (18,27).

Primary focal sweating in uncommon sites, on the other hand, does not share the same profile. Local therapies (e.g., iontophoresis or aluminum compounds) do not have great applicability; botulin toxin may harbor a significant risk, as there have been case reports of clinical botulism after treatment for axillary and palmar hyperhidrosis (28). Additionally, the likelihood of contracting botulism is theoretically increased if a larger (e.g., abdominal) area is treated. Removal of sweat glands, which may be done in axillary hyperhidrosis, is not readily achievable at many other sites. Surgical sympathectomy is not considered routine for unusual sites and may aggravate hyperhidrosis in other locations (as observed with compensatory hyperhidrosis).

Nevertheless, our results indicate that this illness considerably affects QOL (75% presented poor/very poor QOL before treatment). This result is comparable to most studies that have assessed the impact of hyperhidrosis on QOL.

Oral systemic therapy appears to be an ideal solution for complaints that are not amenable to local/surgical therapy. Our group decided to study the effect of oxybutynin in clinical scenarios in which patients presented with a poor QOL due to excessive sweating. Our cohort presented an 85% improvement in QOL (using the Milanez de Campos scale, which has been used by other authors (15) for this purpose); these findings are similar to those achieved with certain treatments at typical sites, after which the QOL is usually greatly enhanced (3,11,29,30).

The QOL significantly improved after six weeks of treatment, which is similar to the improvement observed after the use of oxybutynin for common sites.

To evaluate the improvement in sweating, we relied on patient self-assessment, although objective measures are technically feasible with sudorometers (31) or with the Minor test (i.e., the starch-iodine test, in which a 2% iodine solution is applied to the hyperhidrotic area and allowed to dry; next, starch in powder form is subsequently applied to the area and the transformation from brown to dark purple demonstrates the area of sweating, which can be photographed and compared during follow-up visits). These results are available only at a specific time point instead of throughout the day. Hyperhidrosis is a bothersome – but not lethal – condition and the goal of treatment is the subjective amelioration of symptoms; thus, patient self-reporting is an adequate method for data collection.

When we compare the self-improvement after six weeks with the results of the last visit (Table3) after a median of 385 days, only 15% of patients “downgraded” their evaluation, which means that after one year, most patients tended to maintain a pharmacological response to hyperhidrosis. Gender did not appear to affect the outcomes, as the proportion of good responses did not differ between males and females. This finding is comparable to the outcomes after sympathectomy for palmar hyperhidrosis (32), in which the improvement was unrelated to gender.

Unfortunately, systemic therapy has its drawbacks: dry mouth was the most common side effect (12 patients reported moderate/severe dry mouth at the last visit) and led to two withdrawals from treatment. This dry mouth, although not statistically significant (McNemar's p = 0.25), tended to become worse in 15% of patients by the last visit when compared to the six-week follow up visit.

Other significant side effects that led to cessation of treatment were somnolence, which heavily interfered with daily activities in two patients and one complaint of palpitations and tachycardia associated with the medication. Although transient tachycardia has been reported in a case of oxybutynin poisoning at a dose of 100 mg (33), this is not a typical finding; other diagnoses should have been investigated, but the patient decided to stop the medication and never take it again.

Anticholinergics have been successfully used in compensatory hyperhidrosis (15), which has a different pathophysiological mechanism with a clinical presentation that is similar to that observed in our patients with primary hyperhidrosis at uncommon sites. Our study indicates that oxybutynin yields significant improvement in both self-perceived sweating and QOL in these patients, with a reasonably tolerable side effect profile. Additionally, this improvement is maintained over the long term.

Our retrospective analysis indicates that, even for patients who presented with hyperhidrosis at uncommon sites, there was a generally good response to oxybutynin and these results were longstanding. Obviously, such treatment must be performed only after extensive investigation to rule out secondary hyperhidrosis, which may be less common, but potentially more dangerous (e.g: pheocromocytomas, and B symptons associated with lymphomas).

Teivelis MP, Wolosker N, de Campos JR and Puech-Leão P were responsible for study conception and design as well as supervision. Teivelis MP, Wolosker and Krutman M participated in data acquisition, analysis and interpretation. Wolosker N, Teivelis MP, Krutman M and de Campos JR drafted the manuscript. Teivelis MP, Wolosker N, Krutman M, de Campos JR, Kauffman P and Puech-Leão P critically revised the manuscript for important intellectual content. Teivelis MP, Krutman M, and Kauffman P performed the statistical analysis. De Campos JR, Kauffman P and Puech-Leão P provided administrative, technical or material support. All authors have participated sufficiently in the work and take public responsibility for the appropriate portions of the content.