Release liners are a critical component in the overall development and performance of medical products such as transdermal drug delivery systems, medical devices, advanced wound care dressings and other pharmaceutical packaging products. Release liners must be selected to provide consistent release performance and inertness in the end-use application while meeting increasingly stringent performance and regulatory criteria in regards to quality, cleanliness, and purity. Careful evaluation and analysis are required to assure the proper release liner is selected for the drug or medical product under development.

Adhesive formulations can vary widely containing tackifiers, wetting aids, viscosity modifiers, fillers, and other additives, which can impact release performance. The drug loaded into the adhesive adds another layer of complexity and unknowns until the compatibility of pharmaceutical ingredients with the release liner materials is determined. Considering the many factors involved, the evaluation of several candidate release liners fit for a function is a recommended key step in the medical liner selection process.

Release liners provide several functions in medical device manufacturing and pharmaceutical packaging. They package and protect a wide range of products (Table 1). Liners are also process carriers enabling easier handling, converting, and assembly without the adhesive medical products sticking together.

Medical / Pharmaceutical Applications & Product Examples

Diagnostic & Point of Care

• Diagnostic  Test Strips (blood glucose, cholesterol, urinary tract infections)

• Point of Care / Diagnostic Devices

Drug Delivery & Pharmaceutical Packaging

• Transdermal Drug Delivery System (TDDS)

• Drug Loaded Monolithic Matrix

• Reservoir with Rate Controlling Membrane

• Transdermal / Medicinal Patch

• Transmucosal Drug Delivery System (TMDS)

• Buccal Mucosal System

• Oral Thin Films (OTF) / Oral Strips

• Pharmaceutical Packaging Tapes

Fixation, Surgical & Wound Care 

• Advanced Wound Dressing (extended wear, burn treatment, MVTR, etc.)

• Catheter Placement

• Incise / Ophthalmic Incise Films

• IV Holders

• Medical Fixation Tapes

• Ostomy Pouches / Components

• Surgical & Isolation Drapery

Medical Sensors & Electrodes

• Advanced Wound Dressing (extended wear, burn treatment, MVTR, etc.)

• Catheter Placement

• Incise / Ophthalmic Incise Films

• IV Holders

• Medical Fixation Tapes

• Ostomy Pouches / Components

• Surgical & Isolation Drapery

OTC / Consumer Healthcare

• Cosmetic Patches ( Face strips, acne pads, etc.)

• Eye Patches

• First Aid Bandages & Tape

• Hygiene Products (diapers, sanitary napkins, incontinence pads)

• OTC Therapeutic Patches

Process Carrier Liner

• Enables Handling, Conversion & Assembly of Pharmaceutical & Medical Products

Medical Liner Construction and Manufacturing

Release liners consist of a release coating on a plastic film, paper, or cloth substrate (Figure 4). Medical release liners typically utilize plastic film substrates. Medical release liners are manufactured on high-speed roll-to-roll or web coating machines under cleanroom environments to precise coating weights. After deposition onto the substrate, the release liner coating is dried or set using heat or UV light.

Plastic films and substrates used in medical release liners are typically polyester (PET), polyvinyl chloride (PVC), polyethylene (PE), polypropylene (PP), and various fabrics. The liner substrate should have sufficient mechanical properties (tensile strength, elongation percentage, and tear resistance) to avoid breaks during handling and converting processes. The film should cut cleanly during slitting, die-cutting, and other converting steps. Polyester and polyethylene substrates tend to have higher tear resistance. In addition, polyester and polyethylene carrier films are available in wider gauge ranges (92 to 1400 and 100 to 2300 gauge, respectively) compared to polystyrene and polyvinyl chloride films (~800 to 1000 gauge). The release liner substrate must have enough rigidity so patients or healthcare professionals can easily peel off the liner. Polyester tends to have better die-cutting and kiss-cutting performance compared to PVC, PP, and PE. Certain applications require consideration of additional properties such as thermoformability and optical transmission or clarity. For instance, the optical clarity of the release could be required to properly position a medicine-laden dressing over a wound or allow monitoring for an allergenic response. In some designs, a reservoir well needs to be created by thermoforming the substrate material. Polystyrene and polyvinyl chloride films are thermoformable. Polyester substrates have excellent smoothness and optical clarity. Table 2 summarizes the application suitability, thicknesses, and key properties of various films used in VERSIV^™ medical grade release liners.

Figure 4: Sketch of medical release liner construction. (Source: IEEE GlobalSpec)

Another important component in a release liner is the release coating, which provides the nonstick or release characteristics. Silicone and fluorosilicone are the mainstay release coatings for medical release liners. Release liners must have consistent coating thickness levels to avoid silicone skip (too thin) and over-coating of silicone (too thick). Coating thickness inconsistencies can cause dispensing, patch/device movement, and converting problems. The medical release liner must avoid pre-dispensing and retain the medical device or drug delivery product until manually peeled off.

Both UV-cured and thermal-cured release coatings are available. An ideal release coating should be slow to degrade and have a high degree of chemical stability and long shelf-life while maintaining consistent release properties over the lifetime of the medical product. UV-cured release coatings have a shelf-life and warranty of 12 months, while thermal-cured coatings have a shorter six-month shelf life and warranty. Both UV- and thermal-release coatings can produce optical clarity release liners. Release coatings can be solvent-based, water-based and solvent-free or 100 percent solid.

The release properties of a release liner can be adjusted from easy to moderate to tight. An easy-release liner can be removed by low peel force. A tight release requires a higher peel force value to remove the adhesive medical product. Numeric release or peel force values are given in force per length (g/in, cN/m, or N/m), determined by measuring peel force at a controlled peel rate (in/min, cm/min). Medical release liners are available with peel release levels ranging from 5 to 200 g/in. A differential release liner has release coatings on each side with different levels of release, which can be useful in a few more complex multilayer medical product constructions. Single-coated release liners are used in most medical applications such as transdermal drug delivery patches, wound care dressings, surgical tape, and electrodes. An easy release would be recommended in applications with a soft silicone gel adhesive or delicate drug-loaded adhesive to avoid damage to the gel or adhesive.

Since adhesives are viscoelastic materials, the stripping or peel rate can impact the effective release force. The release profile plots the release force for a series of peel rates. A flat release profile is usually desirable because the release force will be consistent with varying manufacturing processes or end-use peel forces. The adhesive used, peel speeds, temperature, time at temperature (Keil aging), and surface roughness can alter release properties. Every manufacturer has its own unique test methods and release-level designations, so it is advisable to stick with the same supplier throughout your selection process.

The adhesive should not be retained or transferred to the release coating, and the release coating should not transfer to the adhesive. Transfer could reduce the stickiness of the adhesive or impair drug delivery; the release coating must keep the adhesive tacky. In most applications, the release liner is discarded. Some medical applications may require reuse, repositioning, or reapplication such as sensors or TENS electrodes, so an adhesive-coated medical device may need to be peeled on and off the release liner.

Different release coatings are available depending on specific medical adhesives or drug-loaded adhesives. Silicone release coatings can be used with acrylic (polyacrylate), polyisobutene (PIB), and polyisoprene (synthetic rubber) adhesives. Silicone and soft silicone gel adhesives are increasingly used in medical device and wound dressing applications because they can provide a gentler action and less trauma on delicate skin or injured tissue. Silicone adhesives require a fluorosilicone release coating.

Drug Master File (DMF) and Compliance Factors

While a medical liner with the proper characteristics (film type, thickness, release level, etc.) can provide operational and technical success of a product, ensuring regulatory success is more complex and a medical product cannot go to market without regulatory approval and compliance. Release liners used in a medical product must meet food and drug contact regulations and standards (FDA CFR 177.160, USP, Ph.Eu., EDQM, etc.). Regulations restrict the purity or levels of contaminants such as monomer, metal, and solvent residuals to ppm concentrations (USP 467, Table 4). The release liner must also be devoid of animal-based raw materials, according to BSE/TSE requirements. The release liner should be able to go through EtO, UV, or thermal sterilization regimes to meet microbial limits without any property degradations. The release coating must not transfer, leach out additives or contaminate the drug-loaded adhesive, medicine in a reservoir, or monolithic matrix. The release liner must also prevent any leakage of medicine from a drug reservoir, and it must not extract or react with any of the medicine in a reservoir or within a monolithic matrix. Medical liners can also have additional compliance restrictions such as allergen-free, latex-free, REACH, phthalate-free and melamine-free.

A medical packaging product can have permitted status or a broader approval status. FDA approval indicates that the raw materials have actually been tested for compliance. Permitted materials have just been reviewed and deemed not to have any harmful effects for specific FDA categories. Medical release liners should have an FDA DMF (Type III Packaging) status for incorporation in a medical device or pharmaceutical packaging. A Drug Master File (DMF) contains documentation on the raw materials, formulation, processing, testing and analysis demonstrating that the medical release liner meets all of the FDA regulations and standards required. The Drug Master File contains proprietary information and remains confidential between the liner OEM and the FDA. Manufacturers incorporating a release liner into a medical product reference the liner DMF in their drug application to the FDA or notified body. The release liner OEM will provide the medical product manufacturer with a Letter of Authorization to reference the DMF numbered product in the drug application.

In addition, medical release liner manufacturers frequently undergo comprehensive audits of their facilities and quality management systems to assure their processes are compliant. Release liners are considered an inactive packaging product by the FDA, so a full GMP manufacturing is not required. However, medical release liners are manufactured in cleanrooms devoid of pest and microbial contamination sources.

Recommendations & Next Steps

Selecting a medical release liner involves multiple considerations. The release liner must have the strength to hold up to converting, handling and assembly during medical device manufacturing. The proper rigidity allows the release liner to be peeled off the pressure-sensitive adhesive easily. The specific release coating type depends on the adhesives and medicine as well as the desired release level. All medical release liners should have FDA DMF status. Utilizing a release liner without DMF status can hinder or derail the regulatory approval process for your medical product. Proper medical liner selection begins with sampling and testing several release liner samples in product assemblies using the actual adhesive or drug-loaded adhesive formulations.

Figure 6: Factors for medical release liner selection (Source: IEEE GlobalSpec)

After considering the multitude of complexities in the design, approval, and implementation of products using a medical liner, identifying a strong, experienced release liner OEM such as Saint-Gobain to work with early in the development process helps to maximize performance, reduce costs and troubleshoot problems.

Recommended steps for selecting a medical release liner include:

• Review adhesive or drug-loaded adhesive formulations with release liner supplier,
• Select FDA-approved medical liners with DMF status,
• Screen a wide swath of release liners before narrowing down candidate liners,
• Evaluate and test UV-silicone release systems first, since these liners have a longer shelf life,
• Have patience – the approval process for new drugs and medical devices is a long process (3 to 5 years).

A well-respected, established and reliable release liner with a broad offering and custom engineering capability can quickly respond and provide a solution to your medical liner implementation issues that can occur during product development. Once a medical release liner system is found that reliably delivers the performance required for your application, it is important to minimize product variability and maintain product quality by selecting a single release liner OEM such as Saint-Gobain. Read more in our Medical and Life Science Solutions Brochure.

This article was produced by IEEE GlobalSpec. Visit the Saint-Gobain Composite Solutions' Engineering360 page on IEEE GlobalSpec.