During the last 30 years in our skin allergy department, we have had the opportunity to examine female patients with a history of intolerance to specific cosmetic products and who were shown to have hypersensitivity to nickel in patch tests. However, searching for nickel in the products used by the patient has yielded positive results only exceptionally.1

A clear history of intolerance to metals is recorded in each case,2,3 and this finding is consistent with past relevance for nickel. Hypothetically, transfer of metal ions to the face via the fingers after contact with nickel-releasing metal objects (eg, coins,4 keys, and mobile phones5) would account for the symptoms of itching, stinging, and, in persons who are highly sensitized to nickel, the occasional finding of erythema.

The objectives of the present study were as follows: first, to confirm the transfer of nickel from coins to the fingers; and, second, to verify whether nickel can be transferred from the fingers to the face.

A tape stripping method was developed to study the presence of nickel on the skin surface.6 Tape stripping involves the use of common adhesive tape not only to verify release of nickel from coins, but also to show that the nickel present on the patient's fingers7 can be transferred to the cheeks after a specific period of time. A roll of transparent adhesive tape (Niceday) measuring 19mm×33m was used to perform tape stripping, first on €1 and €2 coins and then directly on the fingers and cheeks.

The tape was cut into strips measuring approximately 5cm, which were then applied to the coins up to 10 times. The process was repeated until approximately of 1g adhesive tape was collected in a clean, sterile plastic container (Deltalab Barcelona). A blank control was created by cutting strips of tape, which were collected in another container until approximately the same weight of tape was obtained. All the samples of adhesive tape were collected in clean, sterile plastic containers until analysis.

The first test to verify release of nickel using tape stripping showed that the values obtained for the tape that had no contact with the coins were significantly lower (0.127ppm) than those of the samples used in coin stripping (53.61ppm) (Table 1).

Our findings show that contact with nickel on the fingers can lead to concentrations that are sufficiently high to cause allergic contact dermatitis via allergen transport in patients with nickel hypersensitivity. We can therefore confirm that tape stripping is a suitable method for monitoring release of nickel and that very low initial levels of nickel on the adhesive tape make it a useful material in this process.

We also confirmed transfer of nickel by contact from coins to fingers and that the nickel concentrations found are similar to those reported by other authors.10

Furthermore, we confirmed transfer of nickel from the coins to the cheeks via the fingers and showed that the differences were statistically significant. Patients 4 and 7 had increased levels of nickel on their fingers and cheeks, respectively, compared with baseline, possibly owing to contact with metal objects outside the present study that were not reported when the history was taken at inclusion. Although our study is considerably limited by its small sample size, the results are statistically significant and leave no doubt about nickel transfer and, therefore, the potentially harmful effects for susceptible individuals.

In conclusion, we show that rapid tape stripping is an easy and efficient method of demonstrating transfer of nickel via contact with coins that can be extended to other objects likely to contain nickel. This transfer could explain how dermatitis-like symptoms can be triggered on the face of very sensitive patients10 through contact with fingers exposed to nickel-releasing objects, even if these symptoms (stinging, itching) are often subjective.

The authors declare that they have no conflicts of interest.