Microneedles

Microneedles (MNs) are micron-scaled medical devices used to administer vaccines, drugs, and other therapeutic agents. The use of microneedles is known as microneedling. Microneedles are usually applied through even single needle or small arrays, called microneedle patch or microarray patch. The arrays used are a collection of microneedles, ranging from only a few microneedles to several hundred, attached to an applicator, sometimes a patch or other solid stamping device. The height of each needle ranges from 25μm to 2000μm. The arrays are applied to the skin of patients and are given time to allow for the effective administration of drugs.

While microneedles were initially explored for transdermal drug delivery applications, their use has been extended for the intraocular, vaginal, transungual, cardiac, vascular, gastrointestinal, and intracochlear delivery of drugs. Microneedles are also used in disease diagnosis, and collagen induction therapy. Although the concept of microneedling was first introduced in the 1970s, its popularity has surged due to its effectiveness in drug delivery and its cosmetic benefits.

Known for its minimally invasive and precise nature, microneedling is an easier method for physicians as microneedles require less training to apply and because they are not as hazardous as other needles, making the administration of drugs to patients safer and less painful while also avoiding some of the drawbacks of using other forms of drug delivery, such as risk of infection, production of hazardous waste, or cost.

Microneedles are constructed through various methods, usually involving photolithographic processes or micromolding. These methods involve etching microscopic structure into resin or silicon in order to cast microneedles. Microneedles are made from a variety of material ranging from silicon, titanium, stainless steel, and polymers. A variety of MNs types (solid, hollow, coated, hydrogel) has been developed to possess different functions. Some microneedles are made of a drug to be delivered to the body but are shaped into a needle so they will penetrate the skin. The microneedles range in size, shape, and function but are all used as an alternative to other delivery methods like the conventional hypodermic needle or other injection apparatus. Stimuli-responsive microneedles are advanced devices that respond to environmental triggers such as temperature, pH, or light to release therapeutic agents. The research on MNs has led to improvements in different aspects, including instruments and techniques, yet adverse events are possible in MNs users.