Friday, February 28, 2020
As consumer interest in sustainable alternatives to fossil-based plastics continues to grow and food and beverage companies set goals to reduce their environmental footprint, the use of biobased plastics in food packaging is expanding. Revenue for the U.S. biobased plastics manufacturing sector was $177.9 million annually, according to a 2018 report prepared for U.S. Department of Agriculture (USDA), titled,An Economic Impact Analysis of the U.S. Biobased Products Industry.[1]The report also estimates a 4.5% grow rate for the sector over the five years from 2018 through 2023.
The total production volume of bio-based building blocks and polymers (worldwide) was 7.5 million tons in 2018, or about 2% of the production volume of petrochemical polymers, with a growth rate of 4% expected through 2023, according to a report by Nova-Institute GmbH.[2]The potential for significant growth is much higher, but low oil prices and a lack of political support are hampering growth, notes the report.
Examples of the use of biobased plastics in food packaging include Snickerscandy bars with a bio-based film wrapper made from potato starch by-products that were introduced by Mars in 2016 and the soon-to-be-available 20-ounce size Dansani water bottles made with up to 50% of renewable plant-based and recycled PET material beginning in mid-2020. The Coca-Cola Company first launched recyclable bottles made partially from plants (PlantBottle) in 2009 and expanded access to the PlantBottle IP in early 2019 to encourage industry-wide adoption. The new bottle, referred to as HybridBottle, includes recycled PET material in addition to the plant-based material.[3]
Other uses of biobased plastics in food contact articles include bags; containers for fruit, vegetables, eggs and meat; bottles for soft drinks and dairy products; flexible packaging; and coffee pods. Biobased plastics also have been used in food service ware, such as bowls, cups, and straws.
Like most materials that are intended to be used to package or otherwise in contact with food, biobased materials are also subject to the regulatory requirements imposed by several jurisdictions throughout the world. This article will focus on the requirements related to obtaining regulatory approval of biobased food contact materials (FCMs) in the U.S. and the European Union (EU), safety considerations, and future considerations.
Well begin with some definitions. Biobased means related to or based out of natural, renewable, or living sources. Biodegradable means capable of being broken down naturally to basic elemental components (water, biomass, and gas) with the aid of microorganisms. Compostable plastics are a subset of biodegradable plastics that biodegrade under specified conditions and timeframes.
Several international standards are available to determine compostability of plastic packaging. The European Committee for Standardization, standard EN 13432, Requirements for packaging recoverable through composting and biodegradation, is a harmonized European standard and is linked to the EU Directive on Packaging and Packaging Waste (94/62/EC). In the U.S., American Society for Testing and Materials standard ASTM 6400, Standard Specification for Labeling of Plastics Designed to be Aerobically Composted in Municipal of Industrial Facilities, is cited in various regulations. For example, California requires that food and beverage containers labeled as compostable must meet the ASTM D6400 standard.
An important distinction exists between biobased plastics and bioplastics. European Bioplastics defines bioplastics as a plastic material that is either biobased OR biodegradable OR both. On the other hand, biobased plastics are plastics manufactured from renewable biomass, such as vegetable oil, cornstarch, pea starch, and microbiota. Accordingly, a product can be both biobased and biodegradable, but it can also be biobased and not biodegradable, or biodegradable and not biobased.
Bio-based food contact materials (BBFCMs) are derived from biological renewable resources (animal or plant biomass) that consist of polymers directly extracted or removed from biomass, produced by chemical synthesis using renewable bio-based monomers, or produced by microorganisms or genetically modified bacteria, according to the 2019 report,Bio-Based Materials For Use In Food Contact Applications.[4]
The first bioplastics were developed from traditional agricultural resources, such as sugarcane, soy protein, starch, and cellulose. Within this group are polymers directly extracted from biomass and polymers produced by chemical synthesis using renewable biobased monomers. For example, polylactic acid (PLA), which is commonly used as a base material or coating in food packaging, is produced through the polymerization of lactic acid, which can be derived from the fermentation of agri-food wastes such as sugar beets or sugarcane.
PLA exhibits barrier properties comparable to fossil-based plastics, such as low-density polyethylene (PP) and polyethylene (PE), and has been used as a replacement for them, although it has the disadvantage of being more expensive to produce. The first generation of bioplastics also includes polymers produced by microorganisms or microbial fermentation, such as polyhydroxyalkanoate (PHA) and poly-3-hydroxybutyrate.
The second generation of bioplastics that are beginning to be introduced are made from raw materials such as food byproducts, wood, and sawdust, explained Patrick Krieger, Plastics Industry Association, in an interview for the 2018 USDA report mentioned above. He added that the next or third generation of bioplastics, many of which currently are in the laboratory stage, will come from algae and other organisms that are not associated with the production of food. Another area of research is the production of strains of microbes through genetic engineering that can improve yields of biobased polymers.
While biobased plastics offer a myriad of benefits related to sustainability, there are some concerns related to end-of-life issues. A potential disadvantage arising from the use of BBFCMs is the need to ensure effective segregation from fossil-based materials to enable their effective recycling, suggests Fera in the UK Report. For example, the presence of small quantities of PLA can prevent recycling of PET into a transparent product suitable for re-use in food and drink applications. Also, bioplastics produced from polymer blends that include biobased fillers may be difficult to recycle or may adversely affect the existing recycling stream.
Generally speaking, biobased plastics are required to comply with the same regulations with respect to food safety as fossil-based plastics.
In the U.S., the Federal Food, Drug and Cosmetic Act, 21 U.S.C. Section 301, et seq., provides that any substance, the intended use of which, is reasonably expected to become a component of food (e.g., migrates from packaging into food) must be authorized for such use by the U.S Food and Drug Administration (FDA) through a food additive regulation or in the case of packaging and other food contact materials, a Food Contact Notification (FCN), or the substance must be generally recognized as safe (GRAS), or used in accordance with a sanction or approval issued prior to 1958 by either the U FDA or USDA, among other potentially available exemptions and exclusions.
Polymers cleared for food-contact use through food additives petitions are listed in Title 21 of the Code of Federal Regulations (C.F.R.), Part 177, "Indirect Food Additives: Polymers." This part is further divided by types of polymers. Polymers and other food contact substances can also be cleared through an FCN. FCNs are proprietary and only may be relied on by the notifier/manufacturer and its customers.
For plastic packaging materials, FDA regulations generally clear the final polymer, not unreacted starting materials. There are, however, some exceptions where FDA permits certain starting reactants to be used to make a finished polymer. For example, in Part 175.300, "Resinous and polymeric coatings," FDA lists cleared precursor materials since these substances are typically complex and often cross-linked compounds.
In addition, any food-packaging material intended to come in contact with food must comply with FDA's Good Manufacturing Practices (GMP) regulation, found in Title 21 C.F.R. Section174.5. GMP requirements apply to both the use level of an additive as well as to its purity. This means that additives may only be used in an amount necessary to achieve their function or purpose and may not contain impurities at levels sufficiently high as to result in the adulteration of food.
In the EU, the Plastics Regulation, (EU) No. 10/2011, governs the use of plastic materials and articles intended to contact food. It applies to the plastic layers in all multilayer food-contact articles. This regulation includes a positive list of permissible monomers and other starting substances, additives (other than colorants), and some polymer production aids. In contrast to U.S. regulations, the EU Plastics Regulation does not include limits on co-reactants or use levels for starting materials, temperature restrictions, specification of single versus repeated use and food types for specific substances.
Anyone can petition to add a new monomer or additive to the Plastics Regulation's positive list. These petitions are first reviewed by the European Food Safety Authority (EFSA), which will issue a formal opinion on the safety of the substance when intended for use with food and any limitations that should be observed. Once EFSA has issued an opinion, finding a proposed use of a substance to be safe, the European Commission (EC), provided it concurs with the opinion, will add the substance to the list through an amendment to the regulation.
Finally, all FCMs in the EU must comply with the safety criteria set forth in Framework Regulation (EC) No. 1935/2004, which specifies that that food contact materials and articles may not transfer their constituents to food in quantities that could endanger human health, bring about an unacceptable change in the composition of the food, or bring about a deterioration in the organoleptic characteristic of the food. All food-contact materials must also comply with the Good Manufacturing Practice Regulation, (EC) No 2023/2006.
While certain biobased polymers have been cleared in the U.S. and the EU, such as PHA, there are a number of regulatory issues that need to be considered for new materials or new applications for existing materials. For example, when preparing a submission to obtain clearance of the material, what are the appropriate food simulants to be used to estimate the potential for migration? Likewise, how do you prove to authorities (and to customers) that the substance is stable for an intended application that involves a specific type of food or temperature range?
Also, in some instances, it may be necessary to demonstrate the suitable purity of product with respect to the potential presence of organic matter, such as cellular debris. Possible contamination with naturally produced contaminants (e.g., mycotoxins and algal biotoxins) may also need to be considered. Also, possible contamination with organic compounds (e.g., dioxins and polychlorinated phphenyls) or inorganic compounds (e.g., lead and arsenic), nitrates, pesticide and veterinary medicines residues, and plant toxins may need to be evaluated. In addition, depending on the feedstock and processing conditions, process contaminates such as acrylamide could be formed due to Maillard reactions occurring when complex biomaterials such as food are heated.
Additional questions could result from the inclusion of nanoscale materialsto improve barrier function and to achieve similar or better shelf lifein biobased packaging. There could also be questions about the genetically modified microbial strains, if they are used, to produce the biobased plastic. The UK Food Standards Agency (FSA) report points out that, to date, there have not been any studies that address the presence of genetically modified materials present in the biomass used for the production of BBFCMs.
Another regulatory consideration concerns the use of alternative fiber sources in biobased food packagingan area that is being investigated in both the U.S. and the EU. A potential application for fiber is the addition of bamboo to a polymer backbone for products such re-usable cups. Regulators in the EU are currently considering the use of bamboo in contact with food. With respect to other fiber sources, in the U.S., pulp is listed as generally recognized as safe (GRAS) under 21 C.F.R. Section186.1673 for food packaging uses, including paper production. It is defined as soft, spongy pith inside the stem of a plant such as wood, straw, sugarcane, or other natural plant sources, and therefore gives wide latitude in the potential candidates that could be available for use as alternative pulp sources. In the EU, untreated wood flour and fibers are cleared as additives in the Plastics Regulation. However, in all of these cases, the suitable purity/safety demand of the regulations are still applicable.
Conclusion
The report,Bio-Based Materials for Use In Food Contact Applications, was the result of a review commissioned by the FSA on potential risks and other unintended consequences of replacing fossil-based plastic food contact materials with BBFCMs. The key findings from the study are summarized below.
While the current use of BBFCMs is low, the UK report predicts that their use will grow significantly in response to consumer pressures, manufacturer demand, and increased levels of industrial production. Also contributing to the growth of biobased plastic are new regulations that encourage movement toward sustainable products, especially in the EU, and the development of biobased polymers with increased performance benefits, such as ones that can be used in lighter weight bottles that can hold carbonated pressure longer. Finally, increased demand for biobased products is likely to drive down production costs.
*This article is reprinted with the permission ofFood Safety magazine. It first appeared in theFebruary/March 2020 issue.
[1]The report is available at:https://www.biopreferred.gov/BPResources/files/BiobasedProductsEconomicAnalysis2018.pdf.
[2]See Nova-Institute GmbH press release at:http://news.bio-based.eu/2018-was-a-very-good-year-for-bio-based-polymers-several-additional-capacities-were-put-into-operation/.
[3]The Coca-Cola Company issued a press release on August 13, 2019, on the new HybridBottle, that can be found here:https://www.coca-colacompany.com/press-center/press-releases/dasani-takes-steps-to-reduce-plastic-waste.
[4]This report was prepared by Fera Science Limited (Fera) for the UK Food Standards Agency and is available here:https://www.food.gov.uk/sites/default/files/media/document/bio-based-materials-for-use-in-food-contact-applications.pdf.
Read more from the original source:
Biobased Plastics and the Sustainability Puzzle - The National Law Review
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