Chapter 1. Understanding Skin and Drug Delivery

Chapter 2. How to Optimize Drug Delivery in Dermatology?

Chapter 3. Dermatological Applications of Drug Delivery Systems

Chapter 4. Drug Delivery-Associated Dermatological Technologies and Techniques

Chapter 5. Microneedling and Drug Delivery

Chapter 6. Intense Pulsed Light and Drug Delivery

Chapter 7. Fractional Non-Ablative Laser and Drug Delivery

Chapter 9. Switched and Drug Delivery

Chapter 10. Radiofrequency, Infra-red and Others Technologies for Drug Delivery

Chapter 11. Drug Delivery in the Treatment of Alopecia

Chapter 12. Digital Microneedling and Drug Delivery

Chapter 13. Active Agents in Injectable Drug Delivery

Chapter 14. Microinfusion of Drugs into the Skin (MMP®) & Drug Delivery

Chapter 15. Protocols for Drug Delivery

Célia Luiza Petersen Vitello Kalil, MD, PhD, is the director of the Célia Kalil Dermatological Clinic at Porto Alegre (RS), Brazil. She holds a PhD in Medical Sciences from the Federal University of Rio Grande do Sul, Porto Alegre, Brazil and is volunteer Preceptor of the Federal University of Fronteira Sul - Passo Fundo, Rio Grande do Sul, Brazil. 

Dr. Kalil is a member of the Brazilian Society of Dermatology and of Dermatological Surgery; Past president of the Brazilian Society of Dermatology – Regional Rio Grande do Sul - Brazil (1997-2000); Delegate of the Brazilian Society of Dermatology - since 2001; International Fellow Member of the American Academy of Dermatology; Member of the European Academy of Dermatology and Venerologie; Member of the Ibero-Latin American College of Dermatology and Member of Academy of Cosmetic Dermatology.

Valéria Campos, MD is a visiting Professor of Dermatology and Laser at Jundiaí Medical School, Brazil and member of the Brazilian Society of Dermatology. She holds Master’s in Medical Sciences from the University of São Paulo, Brazil and is specialist in Laser and Dermatology at Harvard Medical School.

Skin accounts for approximately 15% of an adult’s total body weight, with a surface of about 2m². It provides an entry and exit barrier to various substances, offers effective protection against harmful substances, microorganisms and ultraviolet radiation, and is also paramount in immunology and body homeostasis, preventing dehydration and loss of essential minerals.

The topical route has a number of advantages over oral and parenteral routes: no first-pass metabolism, greater convenience resulting in better treatment compliance, lower side-effect frequency, and prompt dosing cessation if required. However, the stratum corneum allows penetration of only 1 to 5% of substances applied topically, making this application route much less efficient. Lipophilic and small molecules (up to 500 Da) can cross the stratum corneum, since keratinocytes are covered by a lipid matrix, while it is virtually impossible for hydrophilic and large drugs to cross intact, normal skin, which means that passive topical delivery is restricted. To address this, techniques have been developed aimed at optimizing drug skin penetration by means of chemical, mechanical and physical methods, such as adding permeating active agents and using occlusion, iontophoresis, microneedling, lasers and intense pulsed light, and it is now possible to deliver medication to different skin layers or transdermally to the systemic circulation.

Drug delivery is a hot topic in dermatology, with a Pubmed search generating 203431 articles. Offering a detailed review of this emerging therapeutic option, including the various methods available, this unique book guides physicians and doctors in selecting the correct technologies, technique and products for each patient.