How medical-grade silicone can transform transdermal drug delivery

14 October 2020 (Last Updated October 19th, 2020 16:44)

Sponsored by Elkem Silicones Sponsored by Visit Company
How medical-grade silicone can transform transdermal drug delivery

Delivering therapeutic drugs by applying substances to the skin is a practise that dates back thousands of years, but is has only been since the 1970s that we have better understood how to permeate the outer layer of the skin to make transdermal substances a viable drug delivery solution. Now that we understand that certain drugs can get through the skin and enter into systemic circulation, development and approval of Transdermal Drug Delivery Systems (TDDS) has continued to grow.

Transdermal patches are devices that are placed on the skin in order to deliver medication into the bloodstream. They can be used for various applications, including pain management, hormone treatment and nicotine patches. Key advantages include the non-invasive nature of delivering medication into the body gradually and painlessly, as well as being easy to use, without the need for injections or regularly swallowing pills. Dosage is carefully controlled as medication is delivered as small-size Active Pharmaceutical Ingredient (API) molecules over long periods of time.

The usage of TDDS is expected to grow significantly and quickly in the coming years, with an estimated compound annual growth rate of 4.5% to reach market revenues of $7.1 billion by 2023.  This increase is predominantly driven by an ageing population and the correlating rise of chronic diseases that require regular intake of precisely-dosed medications, as well as the rising prevalence of chronic and infectious diseases in developing countries.

Advancements in the pharmaceutical industry and TDDS technologies have enabled an increasing number of medications and larger molecules to be delivered transdermally. Additionally, industry 4.0 has introduced technological solutions such as smart patches that enable patients and healthcare workers to monitor the effectiveness of treatment.

Another important area of development is the selection and configuration of support materials, such as the adhesives, which are key factors when it comes to TDDS performance since they’re playing the critical interface role between the patient body and the device.

TDDS support materials: what are the challenges?

TDDS adhesion is critical. Poor surface contact or not adhering for the necessary length of time will significantly impact the delivery or dosage of the drug being administered. Furthermore, patches that need to be frequently replaced or reapplied means continually disturbing the patient and potentially higher medical costs. In some cases, if a patch falls off and is lost, it can be dangerous for people who come into contact with it. When selecting a material, manufacturers must be mindful of tack, peel adhesion and cohesive strength properties. Silicone solutions not only offer good adhesive properties, but they can be worn for a long period of time without causing skin irritation.

Another challenge is the compatibility between the drug and the silicone adhesive. To ensure that the patient receives correct amount of drug over time, manufacturers must decide between pressure-sensitive adhesives (PSA) based on their specific properties. Silicone PSA have proven to be an effective solution, which can be customised as either standard or amine compatible, in addition to Polyaddition Silicone PSA and solventless Soft Skin Adhesives (SSA).

The third challenge is defining the appropriate drug release profile. A material that offers excellent adhesion properties and drug compatibility is still not going to be effective if the drug cannot leave the interior of the TDDS to be released to the patient. A number of factors impact drug release, including material matrix composition (such as diffusion or dissolution properties), drug solubility and system construction.

The nature of the silicone that the manufacturer chooses has a significant impact on the effectiveness of the drug release mechanism. Typically, the fastest release is seen with silicone products with lower crosslinking densities, such as SSA or PSA. The bigger the mesh size, the higher the drug diffusion coefficient, and therefore the faster the drug release rate. With this in mind, manufacturers must choose the most suitable material based on the release profile that they desire, the molecule weight of the drug being administered, and drug concentration.

Given these challenges, manufacturers are faced with the decision to choose materials that tick every box: adhesive and non-irritable, drug compatibility, and the appropriate release profile. For this, experts in silicone need to be consulted.

Introducing Elkem Silicones for transdermal drug delivery

Elkem Silicones works closely with customers in various industries across the globe to provide innovative silicone solutions. So far, they have served industries ranging from agriculture to electronics, chemicals and healthcare.

Silicones have been used for years in the wound care industry for its innocuity and adhesion properties. Under its Sibione™ brand, Elkem designs healthcare grade, skin contact grades, which is used for applications such as advanced wound dressings.

According to Elkem’s healthcare business development manager Caroline Moine: “We start with raw materials and we develop new formulations for different applications in the medical field. We have different technologies, from very hard elastomers such as liquid silicone rubbers to soft elastomers or adhesive gels and PSAs.”

Going forward, Elkem is working towards building partnerships with pharmaceutical companies to improve the way transdermal patches operate. By embracing silicone solutions, manufacturers can improve the drug delivery ability of transdermal patches and the duration that they can be worn.

“Silicone offers good adhesion to skin and a good release profile, but it also has lower skin irritation. It’s safer for the patients and can be worn for longer,” Moine explains.

“Elkem offers strong support from our teams in terms of quality regulation, but we also focus on technical support because we really want to partner with companies to develop the right solution for them. We often say that we are developing with a personal touch because we want to find the solution that fits perfectly the customers’ needs.”

Elkem has designed a comprehensive e-book that explains their silicone materials and configurations, as well as the benefits that they offer to pharmaceutical scientists in designing transdermal patches. To download it now, fill in the contact form below this article.

Free Whitepaper

Silicones for Transdermal Patches - The main considerations when using silicones for your transdermal patch

In this white paper, Elkem Silicones studies the application of transdermal drug delivery systems (TDDS) – specifically patches – and how the use of silicone in the patch production can assist with the delivery and patient comfort. While silicone hasn’t until very recently been considered for this use, this white paper shows that it may be perfectly suited for this purpose.

Drug release is essential in optimising the chosen medicine, and compatibility between the adhesive and the drug enables the patient to receive a precise amount of drug over time.

To see the study conclusion and read more benefits of the use of silicone in TDDS, please follow the link to download the white paper.

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