
In this soundbite video from the April 2025 ADVENT Forum in Lisbon, Portugal, Dr. Brian Kim describes the dynamic neuroimmune interactions in chronic pruritic skin diseases, emphasizing how type 2 cytokines and sensory nerves actively influence both itch perception and tissue inflammation.

In this exclusive video interview, Dr Amy Paller discusses two topics: 1) The importance of CCL17 (TARC) as a biomarker in pediatric patients with AD, and 2) How IL-4 and IL-13 contribute to skin barrier dysfunction in AD.

Understand the drivers of lung function decline in chronic obstructive pulmonary disease (COPD), including chronic inflammation, key risk factors, and the impact on patient well-being .

In this video clip from the EAACI 2024 symposium, Dr. Mullol discusses the challenge of defining active nasal disease using an endoscope.

Dr. Backer discusses assessing remission in CRSwNP by evaluating the patient's sense of smell in this video clip from the EAACI 2024 symposium.

Watch this short video to learn how type 2 inflammation, skin barrier dysfunction, and neurosensitization contribute to chronic itch and the itch-scratch cycle in atopic dermatitis
Examine underlying type 2 inflammation as a driver of airway hyperresponsiveness in patients with asthma.

Dr. Klaus Rabe, MD, PhD, discusses the key inflammatory processes in patients with COPD and their implications for patient care.
Explore how type 2 inflammation drives the production of eosinophils in severe asthma.
Explore how type 2 inflammation drives the production of FeNO in severe asthma
Professor Sarina Elmariah highlights the multifaceted role of IL-4 and IL-13 in driving dermal fibrosis in prurigo nodularis, which leads to persistent scarring and dyspigmentation that significantly contribute to patients' embarrassment, anxiety, depression, and self-esteem.

In this soundbite video from the April 2025 ADVENT Forum in Lisbon, Portugal, Dr. Brian Kim explores the histaminergic and nonhistaminergic mechanisms of itch, highlighting how type 2 cytokines like IL-4 serve as central orchestrators of neuronal sensitization and immune–nervous system cross-talk.