Sebastiaan van der Bent scite author profile

Background: A variety of side effects following the tattooing of the skin were reported over the years. Analytical studies showed that some tattoo inks contain harmful compounds. Methods: We presented six patient cases with cutaneous malignancies in tattooed skin and performed an extensive literature research. Results: Two patients with black ink tattoos that were diagnosed with malignant melanoma raises the number of described cases to 36 patients. One of the patients developed an immunologic reaction limited to the tattoo area after treatment with a targeted immune therapy. In the other patient, the malignancy (malignant melanoma) was fatal. Basal cell carcinoma was seen in four patients with tattoos containing varying ink colors (black, green, red). This increased the number of described patient cases to 18. Although some ink components and their cleavage products have carcinogenic properties, epidemiological evidence for a causative correlation fails. Further epidemiologic studies on tattoos and malignancies, as well as on the appearance of naevi in tattoos, are necessary. Determining the type of mutation might be helpful to separate sun-induced tumors from skin cancers due to other pathogenic mechanisms.

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Histopathology of Red Tattoo Reactions

Bent¹,

Oyen²,

Rustemeyer³

et al. 2020

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Background: Despite popularity of tattoos, complications may occur. In particular, red tattoo reactions due to allergic reactions are the most frequent chronic tattoo reactions. However, little is known about its histopathology and underlying pathomechanisms.Objective: The aim of this article is to analyze the histopathology of red tattoo reactions for diagnostic purposes and to acquire more insight into pathogenesis.Methods: A retrospective cross-sectional study was conducted by reviewing the histopathology of 74 skin biopsies of patients with allergic red tattoo reactions. Histopathological findings, such as inflammation patterns, inflammatory cells and pigment depth and color, were semi-quantified with an in-house validated scoring system by 2 independent senior investigators.Results: Histiocytes and lymphocytes were both present in .93%.Histiocytes were the predominant inflammatory cells in 74.3%, but well-defined granulomas were mostly absent (78.0%). Eosinophils were uncommon (8.1%) The predominantly histiocytic reaction combined with interface dermatitis was the main inflammation pattern (37.9%). Most biopsies showed more than one reaction pattern. Interface involvement was observed in 64.8%, despite the intended depth of standard tattoo procedures, in which pigment is placed deeper, in the upper-and mid-dermis. Statistical analyses showed a significant association between inflammation severity and pigment depth (P = 0.024). In 6 cases (8.1%) pigments could not be retrieved histologically. Conclusions:In this cohort we demonstrated that cutaneous reactions to red tattoo ink are frequently characterized by the combination of dermal predominantly histiocytic infiltrates and epidermal interface dermatitis. Allergic reactions to red tattoo pigments probably represent a combination of a subtype IVa and IVc allergic reaction. Clinicians should be aware of the specific histopathology of these reactions and therefore the importance of taking a diagnostic skin biopsy.

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Tattoo Pigment Identification in Inks and Skin Biopsies of Adverse Reactions by Complementary Elemental and Molecular Bioimaging with Mass Spectral Library Matching

et al. 2022

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Tattooing has become increasingly popular throughout society. Despite the recognized issue of adverse reactions in tattoos, regulations remain challenging with limited data available and a missing positive list. The diverse chemical properties of mostly insoluble inorganic and organic pigments pose an outstanding analytical challenge, which typically requires extensive sample preparation. Here, we present a multimodal bioimaging approach combining micro X-ray fluorescence (μXRF) and laser desorption ionization-mass spectrometry (LDI-MS) to detect the elemental and molecular composition in the same sample. The pigment structures directly absorb the laser energy, eliminating the need for matrix application. A computational data processing workflow clusters spatially resolved LDI-MS scans to merge redundant information into consensus spectra, which are then matched against new open mass spectral libraries of tattoo pigments. When applied to 13 tattoo inks and 68 skin samples from skin biopsies in adverse tattoo reactions, characteristic signal patterns of isotopes, ion adducts, and in-source fragments in LDI-MS 1 scans yielded confident compound annotations across various pigment classes. Combined with μXRF, pigment annotations were achieved for all skin samples with 14 unique structures and 2 inorganic pigments, emphasizing the applicability to larger studies. The tattoo-specific spectral libraries and further information are available on the tattoo-analysis.github.io website.

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Quantification of cutaneous allergic reactions using 3D optical imaging: A feasibility study

Blanken

Bent

Liberton

et al. 2019

Skin Research and Technology

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Use of reconstructed human skin and IL-18 to determine the skin sensitization potency of red and black tattoo inks

et al. 2018

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