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Advances in dermatology and venereology Acta Dermato-Venereologica
Effects of Film Dressings on Itch Hypersensitivity Using Murine Dry Skin Models
Tomoyuki IWANAGA 1, 2 #, Mitsutoshi TOMINAGA 1 #, Yui HIRATA 2, Hironori MATSUDA 1, Tomomasa SHIMANUKI 2, Hideoki OGAWA 1, 3 and Kenji TAKAMORI 1, 4 *
1
Institute for Environmental and Gender Specific Medicine, Juntendo University Graduate School of Medicine, 2-1-1 Tomioka, Urayasu, Chiba 279-0021, 2 R & D laboratories, Pola Pharma Inc., 560 Kashio-cho, Totsuka-ku, Yokohama, Kanagawa, 3 Atopy( Allergy) Research Center, Juntendo University Graduate School of Medicine, Tokyo 113-8421, and 4 Department of Dermatology, Juntendo University Urayasu Hospital, Chiba, Japan. * E-mail: ktakamor @ juntendo. ac. jp
#
These authors contributed equally to this work. Accepted Jun 26, 2018; Epub ahead of print Jun 29, 2018
Atopic dermatitis( AD) is characterized by chronic cutaneous inflammation and dryness with skin barrier dysfunction. Chronic and intractable itch in patients with AD markedly diminishes their quality of life( 1, 2). Low-threshold mechanical stimuli, such as wool fibres, are irritants to the skin of patients with AD( 3). This phenomenon is known as alloknesis( touch-evoked itch)( 4), and the hypersensitivity results in an itch-scratch cycle, which causes refractory AD( 5). The number of epidermal nerve fibres in patients with AD is higher than in healthy individuals, and a reduction in intraepidermal nerve fibres by psoralen and ultraviolet A( PUVA) therapy improves both pruritus and dermatitis scores in patients with AD( 6). Topical treatment of the nerve repulsion factor semaphorin 3A significantly reduced intraepidermal nerve density, which suppressed scratching behaviour and improved dermatitis scores in AD model NC / Nga mice induced by Dermatophagoides farina body ointment( 7). Therefore, intraepidermal nerve fibres are a likely pathogenic factor for itch hypersensitivity, including alloknesis in AD( 8), but conventional treatments for alloknesis are limited. Therefore, it is necessary to develop preventative and therapeutic approaches for alloknesis in AD.
Film dressings are transparent sheets coated with an adhesive, and some are thin enough( several 10 µ m) to be almost invisible on the skin and do not interfere with tactile transmission. They are used for wound treatment to provide an appropriately moist environment and act as a barrier to contamination. However, it is unclear whether film dressings prevent epidermal hyper-innervation or alloknesis in dry skin-based diseases, such as AD. This study evaluated 2 different thicknesses of film dressings; Tegaderm™( TDM, 24 µ m; 3M Japan, Tokyo, Japan) and Perme Roll™ Lite( PMR, 8 µ m; Nitto, Tokyo, Japan), using 2 murine dry skin models for evaluation of epidermal hyper-innervation or alloknesis efficacies.
MATERIALS AND METHODS
All animals were housed in the experimental animal facility of Juntendo University Graduate School of Medicine, and all animal procedures were approved by the Animal Care and Use Committee of Juntendo University Graduate School of Medicine. The study conformed to the National Institute for Health guidelines for animal research.
The protocol for induction of epidermal hyper-innervation of male ICR mice( 10 weeks old; SLC Japan, Shizuoka, Japan) by cutaneous barrier disruption has been described previously( 9). A 20-mm square of TDM, PMR, or nothing( positive control) was applied to an acetone-treated area immediately after 5 min of acetone treatment, and distilled water-treated mice were used as a negative control( n = 6 per group). Skin samples were taken after an additional 48 h, and the nerve fibres in 20- µ m cryosections were stained immunohistochemically using rabbit anti-protein gene product 9.5( PGP9.5, 1:400 dilution; Enzo Life Sciences Inc., NY, USA).
The protocol for the alloknesis assay by cutaneous barrier disruption has been described previously( 4). Briefly, a cotton soaked with a mixture of acetone and diethylether( 1:1) was applied to the rostral section of the shaved back of C57BL / 6NCrSlc mice( 10 weeks old; SLC Japan, Shizuoka, Japan) for 15 s, followed immediately by applying distilled water for 30 s( AEW treatment), and the negative control group was treated only with distilled water for 45 s, twice daily for 8 days. On the day after the last AEW treatment, 5 separate innocuous mechanical stimuli were applied using a von Frey filament( 0.7 mN; DanMic Global, CA, USA) to the AEW- or water-treated site to determine the sections suitable for alloknesis assessment( AEW; n = 12, water; n = 4). Next, we applied TDM, PMR, or nothing( positive control) with a diameter of 8 mm on the right or left rostral section( alloknesis spot) of the AEW-treated site on the day after 8 days of AEW treatment( n = 8 per group). The evaluation sites of each group were assigned equally on the left and right( Table SI 1). An alloknesis score with a maximum score of 10 was evaluated immediately after application of the film dressings.
RESULTS
Epidermal hyper-innervation model. The numbers of PGP9.5-immunoreactive nerve fibres in and penetrating into the epidermis were significantly increased in the acetone-treated group( Fig. 1a, b, e, f). Both the number of nerve fibres in, and penetrating into, the epidermis were significantly decreased by TDM or PMR treatment( Fig. 1c – f).
Alloknesis model. The AEW- or water-treated site was divided into 9 sections( Fig. S1a 1). Alloknesis scores on the right or left rostral section of the AEW-treated site were significantly higher than those on the same sections of the water-treated site and on the other 7 sections of the AEWtreated site( Fig. S1b 1). TDM or PMR with a diameter of 8 mm was applied on the alloknesis spot of the AEW-treated site on the day after 8 days of AEW treatment( Fig. S1c 1). TDM and PMR application significantly prevented induction of alloknesis on the right or left rostral section of the AEW-treated site Fig. S1d 1).
1 https:// www. medicaljournals. se / acta / content / abstract / 10.2340 / 00015555-2998 doi: 10.2340 / 00015555-2998 Acta Derm Venereol 2018; 98: 902 – 903
This is an open access article under the CC BY-NC license. www. medicaljournals. se / acta Journal Compilation © 2018 Acta Dermato-Venereologica.