Dear Colleagues,

Despite the increasing development of therapeutic molecules and novel-targeted therapies, therapeutic progress remains modest for many prevalent and costly diseases (i.e., cancer, neurological disorders, cardiovascular diseases, etc.). The main obstacles are the non-specific delivery of drugs (related to drug formulation or physicochemical properties) and the presence of biological barriers (i.e., endothelial barriers, interstitial pressure, extracellular matrix, plasma membranes, etc.). These barriers thus limit the access of a drug to its molecular or cellular target, hence restraining their therapeutic efficacies. In addition, the majority of these therapeutic molecules induce significant side effects in healthy tissues. In this context, any targeted and active drug delivery method promoting increased drug bioavailability specifically in diseased tissues, while at the same time reducing healthy tissue side effects, remains a major challenge in pharmacotherapy.

Among all drug delivery methods, physical methods represent a promising approach for the safe and efficient delivery of therapeutic molecules in clinics. The better understanding of the action of physical forces (electric field, ultrasound, magnetic field, laser, etc.) at the tissue level has increased the interest of scientific and medical communities for the use of these physical methods alone or in combination with physically responsive particles (e.g., liposomes, bubbles, micelles) in drug delivery. These methods lead to the reversible permeabilization of vessels and/or targeted tissues, thus facilitating extravasation of drugs into permeabilized tissues and in turn enhancing their bioavailability. In addition, these physical forces can also induce the local release of drugs from nanoparticles through a mechanical and/or thermal stimulus in the target tissue. Hence, the delivery of drugs in the target tissue can be controlled spatially and temporally through focus and action on these physical forces. In comparison with other drug delivery methods, physical methods are a minimally invasive, easy to apply, and cost-effective method.

The present Special Issue in Pharmaceutics aims to gather a collection of research articles or reviews describing:

• Basic mechanisms (in vitro, ex vivo, in vivo) of physically mediated drug delivery;
• Proof-of-concept, preclinical, and clinical investigations;
• Pharmacokinetics and biodistribution aspects upon physically mediated drug delivery;
• Efficacy and safety aspects upon physically mediated drug delivery.

Below is an inclusive, but not exhaustive, list of various technologies that this Special Issue will cover: electric field; ultrasound; photoporation; magnetic field; hydrodynamic injection; biolistic; laser beam drug delivery; jet injection and plasma.

Prof. Jean-Michel Escoffre
Guest Editor

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• physical methods
• drug delivery
• physically responsive particles
• efficacy
• safety