Birch Pollen Allergy Clinical Trial
Official title:
Comparison of the Influence of Different Skin Conditions on the Allergic Skin Reactivity to Epicutaneous Allergen Exposure
The objectives of this monocentric investigator initiated exploratory clinical trial is to
optimize allergen delivery across the epidermal barrier. The cornified outer epidermal
layers represent the main barrier towards entry into the viable epidermal layers. In the
latter we aim to target the allergen for uptake by professional antigen presenting cells,
called Langerhans cells. At the same time as little allergen as possible should be delivered
to the dermis. The latter contains a high density of sensitized mast cells eliciting local
reactions and also a high density of blood vessels which could lead to systemic distribution
of allergen and therefore to systemic allergic reactions.
In birch pollen allergic individuals we will compare different methods of preparing the skin
before application of the allergen. We will subsequently apply titrated allergen doses to
the prepared skin areas to determine at which dose we start observing mast cell
degranulation manifesting as hives.
This will allow for determination of the maximal tolerated allergen dose for each skin
preparation method.
The skin preparation methods compared will be:
- Single pricking with prick lancet (Entaco LTD., Redditch, Worcestershire, UK,
distributed by Stallergenes®).
- Tape stripping with conventional adhesive Tape (Tesa-film®).
- Microchanneling with Micro Needle Patch (Micro Skin System, 3M®). The methods are
strongly connected to routine diagnostics of allergies with low risk associated.
The clinical trial protocol has been submitted to the local Ethics Committee.
This comparison of skin preparation methods and the determination of the maximal tolerated
allergen dose will help us to further improve epicutaneous allergen immunotherapy, which has
the potential to make allergen specific immunotherapy not only considerably shorter and
safer, but also more convenient for patients. Skin preparation by microneedle patches is
significantly less painful than conventional injection and can be self administered. This
should help improve the acceptance of allergen specific immunotherapy, as well as treatment
compliance.
BACKGROUND INFORMATION The prevalence of allergic diseases has been continuously increasing,
reaching a prevalence of up to 30% in industrialized countries. In Switzerland, about 2
million people are affected by IgE-mediated allergies as reported by the Swiss Center for
Allergy, Skin and Asthma and the Swiss Society for Allergology and Immunology (SSAI). By
subcutaneous injections of gradually increasing allergen doses, conventional subcutaneous
SIT (SCIT) is found to reduce the inappropriate T-helper (Th) 2 responses and IgE
production. Due to the risk of systemic allergic side effects, the typical therapy duration
of 3-5 years and the requirement of 50-80 injections, patient acceptance of SCIT is low and
less than 5% of allergy patients choose to undergo SCIT. A recently rediscovered route of
allergen administration is via the epidermis in a procedure called epicutaneous
immunotherapy (EPIT).
The skin is an attractive administration route for immunotherapy being both easily
accessible as well as playing an important role in the immune system consisting of
keratinocytes, Langerhans cells (LC), dermal dendritic cells (DC). A major challenge in EPIT
is to overcome the physiological barrier function of the skin. In order to deliver the
allergen to the immunological effector cells in the skin, the allergen must be transported
through the outermost keratinized layer of the epidermis, called the stratum corneum. The
stratum corneum is 10-20μm thick and impermeable for molecules greater than 500 Da.
Proteins, such as allergens, do not passively permeate across the skin and therefore
enhancement strategies are needed to enable this transfer. Advances in microtechnology might
contribute to improve the situation by allowing for the miniaturization of mechanics and
structures. As the stratum corneum is only 10-20μm thick, it has been proposed by Henry et
al., that microneedles as small as a few tens to a few hundreds of microns, could be used to
penetrate the stratum corneum.
Such new methods of overcoming the skin barrier raise the question of the influence of
different types of skin injury patterns on the allergic skin reactivity. Namely, how
important is the role of the exposed area (microneedles), the depth of injury (skin
pricking) and the keratinocyte activation. This physiological question is in the focus of
this study.
PRODUCTS In order to investigate the physiological reactions concerning different skin
conditions and allergen exposition the following products/techniques have been chosen for
the purpose of inducing different skin conditions in a reproducible way.
Prick lancet:
For the pricking skin preparation, sterile prick lancets for 1mm point skin testing will be
used: prick lancet, produced by Entaco LTD., Redditch, Worcestershire, UK and distributed by
Stallergenes®. They are used for allergy diagnostics in daily routine.
Adhesive tape:
For the tape stripping skin preparation a conventional tape will be used (Tesafilm®).
Microneedle array:
To induce a large number of microchannels with a maximal depth of 150μm into the cornea
layer,the solid Microstructured Transdermal System (sMTS) by 3M® will be used. This system
is a small patch of 351 tiny needles, which is on the market in the US and is intended for
preparing the skin for transdermal application of topical dermatology products.
Epicutaneous allergen solution:
For the epicutaneous administration four ten-fold serial dilutions (10 HEP, 1 HEP, 0.1 HEP
and 0.01HEP/ml) of registered allergen extracts of birch pollen (Betula verrucosa)
(Soluprick®, ALK-Abelló A/S, Hørsholm, Denmark) will be used as in everyday allergy
diagnostic practice. Histamine as positive control will be used at 10 mg/ml and a solution
containing only the excipients will serve as negative control.
This is an open-label physiological investigation of the allergic skin reactivity to
epicutaneous allergen exposition in allergic patients comparing different methods of skin
preparation. The focus of the study is on the skin preparation and not on the specific
allergen or allergy, but for reasons of homogeneity a single allergic disease, birch pollen
allergy was chosen as the basis for the testing. In order to evaluate the effects of the
different skin preparation techniques an intra-individual comparison of the skin reactivity
in terms of the immediate phase I reaction to serial dilutions of birch pollen extracts was
chosen. The serial dilution approach allows a dose dependent effect evaluation and
determination of the mean allergen concentration yielding similar skin reactions - thus
differences will be explained mainly by the different skin preparation allowing a
quantitative comparison of these techniques.
HYPOTHESIS We will determine which of the three different skin preparation techniques uses
higher protein concentration of allergen preparation (Ch10) eliciting a wheal area of the
same size as histamine 10 mg/ml will be calculated.
The Null hypothesis therefore would be:
Ch10 is not significantly different between the three skin preparation techniques.
;
Endpoint Classification: Pharmacodynamics Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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