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Five ways to achieve sustainable medical packaging

Hexagon shaped overlay

Five ways to achieve sustainable medical packaging

From individuals to large corporations, many today are looking for ways to switch to more sustainable products and processes. Eco-conscious packaging, which minimizes waste and prioritizes the use of recyclable and biodegradable materials, has become the new normal in much of our lives. However, when it comes to creating sustainable medical packaging, the industry faces a host of unique challenges.

Plastics manufacturers play a key role in creating sustainability by developing packaging options for medical device manufacturers and practitioners to implement. When tasked with designing innovative packaging solutions that can carefully account for the intricate needs of medical devices, it is easy to ask—is it possible to achieve sustainability in medical packaging? Our answer: Absolutely.

1. Reduce, reuse, recycle

Despite having industry-specific challenges to sustainability, the medical sector has several areas where classic sustainable choices can be made. In such a high-tech business, more generalized sustainability options can be overlooked, but they still contribute to a well-rounded approach. 

These kinds of policies can include:

  • Reducing any unnecessary packaging, including creating more strategic branding choices that minimize the quantity of packaging needed. 
  • Designing product lines that include reusable containers and ‘refill’ versions of the product to facilitate this reuse. 
  • Switching to recyclable or biodegradable material options for packaging to reduce the amount of landfill waste produced. 

The plastics industry has a particular stake in these policies. Traditional plastics are not biodegradable and their use causes pollution through both landfill contribution and microplastics contamination. To avoid these environmental consequences, there is a push toward a reduction in packaging quantity and the use of recyclable or biodegradable replacements for plastics. Because of this, the development of novel polymers and recycling methods are key to the future of plastic packaging. 

Experimentation in recent years has produced some interesting advances in plastic technology which could be utilized for sustainable medical packaging, such as:

The success of these technological advances relies heavily on their cost-effectiveness and scalability. The use of depolymerase enzymes for PET degradation has hit this barrier with enzymes such as leaf-branch compost cutinase, which denatures at high temperatures, limiting its scalability. Luckily, the development of new technologies like PET degrading super-enzymes, such as PET hydrolase (PETase), offers the promise of financially and environmentally sustainable scalability.

2. Develop sustainable sterile packaging

One of the key challenges to sustainability in medical packaging is its reliance on sterile packaging. Ensuring the sterility of contents is paramount to patient safety and cannot be compromised. Packaging needs to meet ISO standards of providing a sterile barrier. Because of this, plastics, which can be easily shaped and provide a fully sealed, waterproof, and non-reactive sterile environment, are an ideal material for sterile packaging.

Unfortunately, much of this packaging is single-use and not recycled, creating enormous amounts of waste. One 2022 study in a German hospital found that plastic packaging accounted for 16g of waste per patient per day. This massive consumption of plastic for packaging highlights how important it is to innovate in this area. 

However, the weight of creating sustainable medical packaging for sterile purposes does not lie only with the plastics industry. Manufacturers have pushed toward using recyclable plastics, but recycling efforts require the infrastructure to facilitate the use of these sustainable waste streams. For example, any packaging opened in a surgical theater after the operation has begun is required to go into the biohazard stream of waste. To recycle, the packaging must be opened into a separate waste bin, which is removed before the patient is in the theater. While this is possible in many cases, it requires medical practitioners to push for this kind of change within operating rooms.

With the recyclability of sterile packaging unlikely or impossible in some cases, plastics manufacturers can go further and reduce or replace plastic content where possible. This can be achieved by minimizing plastic packaging to only what is necessary or by developing bioplastic alternative materials including the following:

Starch Plant starches with added plasticizers are used to create either flexible or rigid pharmaceutical packaging with a controllable lifespan such as trays.
Cellulose Plant-based cellulose is used to create multiple bioplastics including cellulose acetate used in laboratories and the pharmaceutical industry.
Chitin/Chitosan Sourced from invertebrates or yeasts to create antimicrobial packaging, chitin can be deacetylated into its derivative, chitosan
Xylan Derived from plant cell walls and algae to create pharmaceutical packaging.
 
Protein Various plant and animal sources with modified side chains to create synthetic polymers used in packaging.

Trend analysis of these bioplastic alternatives shows that starch-based bioplastics have emerged as the frontrunner in journal and patent publications over the last 20 years (see figure below). Chitosan has also become increasingly popular, displaying an upward trend in the number of journal articles and patent publications. The development of bioplastics that are not petroleum-based and do not produce the same harmful waste product when burned in biohazard waste streams will play a key role in the future of sterile medical packaging.

3. Replace protective packing materials

While the overall aim of sustainable medical packaging is to reduce its quantity as much as possible, the transportation of delicate equipment usually requires large amounts of protective packing. Delicate or sensitive medical equipment is often expensive and occasionally irreplaceable, so ensuring it is packed safely for transportation is non-negotiable.

Since the quantity of packaging cannot be reduced, it is necessary here to make strategic sustainable material choices. The widespread use of polystyrene for this purpose produces landfill waste and microplastic contamination, but luckily there are sustainable packing options already in use that could be adopted by medical device manufacturers. Packing can largely be made of recycled or biodegradable materials with the use of paper bubble wrap, shredded cardboard, and biodegradable foam peanuts.

Packing material works primarily on the basis of volume and is unlikely to become contaminated by biohazards, so there is also room here for circularity within plastics manufacturing. If companies can find ways to reuse packing and recycle their high volumes of waste into new packing materials, they can create a much more sustainable life cycle for plastic-based packing.

This would require initiatives to reuse packing materials across the medical sector as well as the development of recycling pipelines within plastics manufacturing companies to create new packing and recycle the old. Packaging suppliers could develop closed-loop recycling of waste packaging from their own products into packing materials, increasing sustainability and creating new revenue streams.

4. Innovate temperature-controlled transportation

Packaging in the medical industry is not only for protection. Many items need to be transported in packaging that maintains a particular temperature. This is a major barrier to sustainable medical packaging due to the widespread use of unsustainable refrigeration methods and insulation materials.

Just as with packing materials, the sustainability of insulated packaging can be improved by the use of recyclable or biodegradable materials. Sustainability can be further increased by developing more effective insulating materials, which reduces the overall amount of insulation needed. Thus, the development of novel polymers to create both more effective and more environmentally friendly insulating material options could be an exciting opportunity for plastics manufacturers.

Sustainable insulating materials using either plastic alternatives, such as cardboard or plastics with a high recycling value, are starting to become available on the market, but there is still room for high-efficacy, sustainable, insulating materials tailored to meet the specific needs of the medical sector.

Along with insulation, cold chain distribution requires the use of temperature-controlled shipping services and freezers. Improved efficacy of insulation in packaging could increase the amount of time they can be stored outside of these, reducing the reliance on high-energy cost refrigeration.

5. Ensure life cycle sustainability

Materials use is only part of the story in achieving sustainable medical packaging. We must secure sustainability for the entirety of the material’s life cycle. During the development of recyclable or biodegradable polymers, plastics manufacturers need to take into account factors including:

  • Raw material scarcity.
  • Transportation.
  • Manufacturing energy consumption.
  • Recycling accessibility and byproducts.

For bioplastics, plant-based alternatives are popularly touted as fully sustainable. However, the use of starch, cellulose, xylan, chitin, and protein-based polymers needs to be underpinned by sustainable and renewable farming practices to supply these materials.

PLA (polylactic acids) plastics are created from plant starch and were originally advertised as compostable and carbon-neutral alternatives to plastic. Unfortunately, criticisms quickly grew surrounding the realistic sustainability of PLA, since it requires separating from other waste and transportation to special composting facilities. While PLA is technically decomposed in these facilities, the process is much more akin to recycling, making its life cycle similar to traditional plastics.

PLA’s story highlights the importance of the design process of new sustainable materials taking the entire life cycle into account. Ensuring the real-term sustainability of new materials will help to secure their value and popularity in the long term.

Is sustainable medical packaging achievable?

While plastics manufacturers have to overcome challenges with requirements for sterile, delicate, or temperature-sensitive medical products, there is a huge scope and opportunity for innovation. The development of new bioplastics and novel plastic recycling technologies opens the door to the sustainable future of medical packaging. When combined with initiatives from medical device manufacturers and practitioners designed to keep recycling and sustainability at the heart of packaging life cycles, these technologies could prove to be the path to a new, more sustainable future in the medical sector.

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