Lithium gluconate in the treatment of seborrhoeic dermatitis: a multicenter, randomised, double-blind study versus placebo

ARTICLE

Seborrhoeic dermatitis is a benign chronic dermatitis affecting 3 to 10% of the general population [1], which mainly affects young male adults. Its symptoms associate at various levels erythema, desquamation, pruritus, burning and stretching. Because of a predominant localisation to the face and scalp, it may have an important psychological impact. Moreover, stress often increases the lesions.

The main topical treatments of seborrhoeic dermatitis are corticosteroids and antifungals. But there is concern about their long-term safety, corticosteroids inducing frequent relapses when stopped and antifungals being irritant for the face when used for a long period or on severe dermatitis. The efficacy of lithium treatment, first observed in psychotic patients [2], has been investigated in several placebo-controlled trials [3-6], which mainly showed a significant improvement of erythema and desquamation after 4 weeks of treatment. However, the majority of these studies have been performed on a limited number of patients and give a response rate including partial and complete remissions indiscriminately, without the possibility of evaluating the percentage of complete remission alone, which is the effective goal of the treatment. In order to answer this question, we performed a multicenter, double-blind, randomised study comparing the efficacy and safety of 8% lithium gluconate ointment with placebo in moderate to severe seborrhoeic dermatitis.

Methods

Patients

Patients aged between 18 and 65 years with a facial seborrhoeic dermatitis for at least two months and presenting at inclusion both a moderate or severe erythema and desquamation were eligible, providing they gave their written inform consent. Exclusion criteria were any cutaneous diseases requiring a specific topical treatment of the face (atopic dermatitis, psoriasis...), general or local lithium therapy, facial topical or oral immediate release corticosteroids since less than 2 weeks and slow release corticosteroids since less than 2 months.

Method

This multicenter, randomised, double-blind, placebo-control, study had an eight-week duration. At inclusion (D0), patients were randomly allocated to either 8% lithium gluconate ointment or to a matching placebo, which was the vehicle, to be applied twice a day for 8 weeks (D0 to D56), after facial wash with a neutral liquid soap provided with the trial treatment. Assessments, performed at inclusion (D0) and after 4 (D28) and 8 (D56) weeks, included a quotation of the objective dermatitis symptoms, erythema and desquamation, a counting of comedones and microcysts, an evaluation of the skin oiliness and an evaluation by the patient of functional signs like pruritus, stretching and burning. The clinical and functional symptoms were rated by the investigator as absent (0), slight (1), moderate (2) or severe (3). Each patient was always evaluated at each visit by the same investigator. The opinion of the patients was required with a similar rating for functional symptoms. Skin sampling was performed at inclusion to assess Malassezia furfur presence and at the end of the treatment in parasitology by scraping. And a blood sampling to assess creatinine (13 patients in each group) and lithium levels (45 patients in each group) was performed at all visits in several centres. Additionally, at D28 and D56, the patients were to assess the trial treatment efficacy and cosmetic properties on 100 mm Visual Analogue Scales (VAS).

Compliance was assessed by questioning the patient. The study was conducted according to the Helsinki Declaration (Hong Kong revision 1989) and to the rules of European Good Clinical Practices. The protocol and consent form were approved by a National Ethics Committee.

The main efficacy criterion was the rate of patients showing a complete remission of erythema and desquamation at D28 and D56. Complete remission was defined as complete disappearance of both erythema and desquamation; partial remission was defined as the persistence of slight (score 1) erythema and/or desquamation, all other cases were considered as no response to treatment. Secondary efficacy criteria included rating of objective and functional symptoms, evaluation of treatment effect and cosmetic properties by the patient on VAS. Safety was assessed on adverse event monitoring.

The sample size calculation for this study was based on an expected success rate of 25% in the placebo group and an expected difference of 25% in success rates between the two treatment groups, with a two-sided * level of 0.05 and a power of 0.80, which gives a sample size of 57 evaluable patients per group. Efficacy was assessed on the intent-to-treat (ITT) population, which included all randomised patients who had the disease under study, applied the treatment at least once and had at least one efficacy evaluation after baseline. There was no per-protocol analysis scheduled. Safety was assessed on all patients who took at least one dose of the study treatment.

All categorical variables were compared between groups for each time-point using the Fisher's exact test. Continuous variables were analysed at each time-point using Student's T tests for treatment effect comparison.

Results

Patients

Of 129 patients who entered the study, 66 were randomised to lithium gluconate and 63 to placebo. Twenty-two patients did not complete the study, 10 in the lithium group and 12 in the placebo group. Six patients were lost to follow-up (4 allocated to lithium and 2 to placebo). Six patients, 3 in each group, discontinued for adverse event. Five patients discontinued for treatment failure (2 allocated to lithium and 3 to placebo), 3 for protocol violation (1 allocated to lithium and 2 to placebo) and 2 placebo patients withdrew their consent. Drop-out rates did not differ among treatment groups.

Out of the 129 enrolled patients, 5 (3 allocated to lithium and 2 to placebo) had no data available after D0 and were excluded from all efficacy analyses. Another patient allocated to lithium did not have the correct inclusion criteria and was excluded from the efficacy analyses. Finally, 123 patients were taken into account for the efficacy analyses, 62 patients allocated to lithium and 61 to placebo.

As expected, the majority of patients were male, and rather young. There were no significant differences in demography, baseline characteristics, medical history and clinical examination among the 2 treatment groups (Table I).

Figure 1 show the results of the study. The comparison between treatments was consistently and significantly in favour of 8% lithium gluconate ointment, with a rate of complete remission of 11% and 29.1% and an overall remission rate (complete and partial) of 74% and 90.9% after respectively 4 and 8 weeks. In the placebo group, only 5.1% and 3.8% of complete remission were noted after 4 and 8 weeks of treatment with a global response of respectively 47.4% and 54.7%.

The secondary efficacy criteria analyses confirmed these findings (Fig. 2): with a significant improvement of erythema, desquamation and burning in the lithium group as compared to placebo as of the 4th week of treatment. For pruritus and stretching, the difference was significant only after 8 weeks of treatment. The skin oiliness similarly improved in the two treatment groups without any difference.

The compliance to treatment was good and similar in the 2 groups.

As shown in Figure 3, the treatment efficacy assessed by the patient on a VAS was also in favour of lithium with a satisfaction reaching 65.8 ± 26.6 mm after 4 weeks and 75.1 ± 23.6 mm after 8 weeks for lithium group and respectively 52.1 ± 30.7 mm and 56.5 ± 31.6 for the placebo group. The quality of application was assessed as significantly better in the placebo group, with a constant satisfaction of average 80 mm as compared to 65 mm in the control group. After 8 weeks, Malassezia furfur was still present in the 2 groups without any significant difference with 30% positive samples in the lithium group and 40% in the placebo group, compared to 41% and 57% respectively at inclusion.

No serious adverse event was reported during the study. Nineteen patients reported adverse events, 8 (12%) allocated to lithium and 11 (17.5%) allocated to placebo. Except for two patients from the placebo group, who reported headaches for one and lombalgia for the other one, not related to the treatment, all reported events concerned the skin. In the lithium and placebo groups, burning was reported by respectively 4 (6%) and 5 (8%) patients, erythema by 2 (3%) and 3 (5%) patients and pruritus by 1 patient in each group. Six patients prematurely withdrew for these cutaneous adverse events: 3 in the lithium group (1 patient experienced erythema, another had new lesions appearing and a third had a suspected erythematous lupus not confirmed) and 3 in the placebo group (1 patient reported erythema and burning, another reported itching and erythema and a third reported burning).

There was no comedogenic effect noted with lithium salts.

Serum lithium level, measured in an average of 45 patients in each group, significantly increased from 2.76 µg/l at baseline to 4.48 µg/l at D28 and 4.15 µg/l at D56 in the lithium group and remained unchanged at 2.6 µg/l in the placebo group. Creatininaemia, measured in 13 patients in each group, remained unchanged.

Discussion

This study shows that lithium gluconate ointment is an effective and safe therapy for seborrhoeic dermatitis, with 29.1% of complete remission after 8 weeks of treatment and a global score including partial remission of 90%. To our knowledge, this is the second [7] published study taking into account the complete remission of erythema and desquamation. This point appears of interest, because it allows us to appreciate the real efficiency of the molecule and to answer the hopes of the patient which are not a partial remission.

The tolerance of the product was good, stretching and pruritus which were the most frequent adverse events were mainly mild to moderate. No cutaneous side effects as reported with the use of systemic lithium in psychiatric disorders were noted: mainly papulo squamous changes, induction of psoriasisform lesions, acne or pustulous lesions. The exact mechanism of action of lithium gluconate in seborrhoeic dermatitis still remains unknown. Interestingly, it appears different from systemic lithium which has been shown in psychiatric patients [8] to increase the production of inflammatory cytokines (TNF* and IL6). Indeed, with the topical application of lithium, an anti-inflammatory effect is noted. Some hypotheses can be put foward. It could act by inhibiting Malasezzia furfur which colonizes the cutaneous lesions. Indeed, in vitro [9, 10] it has been shown that lithium salt could inhibit the proliferation of Malassezia furfur at concentrations similar to those used in seborrhoeic dermatitis. This inhibiting effect on Malassezia furfur would be mainly related to an inhibition by lithium salts of the production of free fatty acids necessary to the growth of Malassezia furfur [11]. However, in this study, the percentage of positive samplings remains similar both before and after treatment in both the lithium group and in the placebo group. Lithium gluconate could also act by an anti-inflammatory activity by inhibiting the production of arachidonic acid [12] which is the first step inducing the production of leucotrienes and prostaglandines. In vitro [13, 14], it has been shown that lithium salts inhibited the production of prostaglandins E1, E2 and thromboxane B2. Concerning the increase of lithium serum after 1 month of treatment in our study, remaining stable after 2 months of treatment, it indicates that 8% lithium gluconate ointment is able to go through the skin, however the increase to 4.4 µg/l remains very far from the toxic level which is 9000 µg/l and finally remains very low compared with patients treated by systemic lithium.

CONCLUSION

This study confirms the benefit of 8% gluconate lithium ointment in the treatment of seborrhoeic dermatitis of the face. In the future, the next step will be to compare this treatment with a topical treatment usually used in this affection, that is corticosteroids or topical antifungals.

Acknowledgements

Participating investigators: J.-.J Guilhou, N. Basset-Seguin, O. Dereure, CHU Montpellier; O. Bayrou, Hôpital Rothschild (Paris); C. Beylot, CHU Bordeaux; J.-M. Bonnetblanc, CHU Limoges; P. Celerier, CHU Le Mans; G. Guillet, B. Sassolas, CHU Brest; B. Guillot, CHU Nîmes; P. Humbert, Hôpital St-Jacques, Besançon; D. Lambert, C. Morvan, CHU Dijon; P. Lauret, X. Balguerie, Hôpital Charles-Nicolle, Rouen; D. Leroy, L. Machet, CHU Tours; P. Plantin, CH Quimper.

This work has been supported by Labcatal (Montrouge, France).

Article accepted on 30/7/02

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