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Processed cheese

Processed cheese is a food product prepared by grinding one or more natural cheeses into small particles, mixing them with an emulsifying agent, and heating the blend to form a homogeneous, plastic mass that can be molded into various shapes such as blocks, slices, or spreads. This process, regulated by the , requires the mixture to be heated to at least 150°F for not less than 30 seconds, ensuring and stability, with mandatory emulsifiers like or limited to no more than 3% of the total weight. Optional ingredients may include water, salt, cream, acids for flavoring, colors, and preservatives such as , while composition standards specify moisture content (typically up to 43% for single-variety products) and milkfat levels (at least 47% of solids). The origins of processed cheese trace back to early 20th-century innovations aimed at preserving cheese and reducing waste, with initial developments in around 1911 by Walter Gerber and Fritz Stettler, who used Emmentaler cheese and for emulsification. In the United States, revolutionized the industry by patenting a method in 1916 for producing processed cheese in tins, which addressed spoilage issues during transportation and storage, leading to its first commercial production in 1915 and widespread adoption by 1917 when Kraft supplied it to the U.S. military during . Kraft's company further advanced the product in the with patents for emulsifying salts and loaf packaging, expanding into varieties like in 1928, which solidified processed cheese's role in . Production involves shredding natural cheeses—often young varieties like Cheddar or Colby—melting them at temperatures between 70°C and 88°C depending on the category, and incorporating emulsifying salts to create a stable oil-in-water that prevents separation and ensures uniform melting. Distinct from natural cheese, which relies on microbial for development and can vary in and , processed cheese offers consistent quality, extended without for months, and versatility in applications like sandwiches, sauces, and . Categories include pasteurized process cheese (higher fat, lower ), process cheese food (with added nonfat for creamier ), and cheese spreads (higher for spreadability), each governed by specific FDA standards for and labeling.

Definition and Basics

Definition

Processed cheese is a manufactured by blending one or more natural cheeses into a homogeneous mass through the addition of emulsifying salts, followed by heating and , often with the incorporation of other ingredients such as , , , or preservatives. The standard formulation, as defined by regulatory standards, involves comminuting (grinding) the cheese base and mixing it with emulsifying agents—such as or phosphates—at levels not exceeding 3% by weight of the finished product, then heating the mixture to at least 150°F (66°C) for a minimum of 30 seconds to form a smooth, plastic mass. Key characteristics of processed cheese include its uniform texture, extended due to , smooth melting properties, and resistance to fat and water separation during heating. These attributes arise from the emulsification process, which stabilizes the protein-fat matrix and prevents the common in unprocessed cheeses. Unlike cheeses, which develop their qualities through variable processes of , , pressing, and aging—leading to diverse textures, flavors, and inconsistencies—processed cheese undergoes structural alteration via heat and emulsifiers to ensure consistency and predictability in performance. Processed cheese is commonly available in basic forms such as solid blocks, pre-sliced portions, soft spreads, or canned varieties, facilitating its use in a range of applications from sandwiches to sauces.

Production Process

The production of processed cheese begins with the selection of cheeses, such as cheddar or colby, chosen for their varying degrees of maturity to achieve the desired profile and texture in the final product. These cheeses are then ground into small particles using industrial grinders or mills to facilitate even blending and melting. Next, emulsifying salts, typically or at 2-3% by weight of the total , are added along with optional ingredients like , solids, preservatives, or colorants to enhance stability and consistency. The ground cheese and additives are mixed in cookers or blenders to form a preliminary blend. The is then heated to 80-90°C under continuous agitation in jacketed kettles or scraped-surface cookers, transforming it into a homogeneous molten while pasteurizing the product. This step, lasting 4-15 minutes depending on the product type, ensures the emulsifiers disperse the fats effectively, as briefly referenced in the role of preventing separation. Following heating, the molten mass undergoes homogenization using high-shear mixers or inline homogenizers to achieve even fat distribution and a smooth texture, minimizing the risk of separation during storage. Finally, the hot product is pumped into fillers for into forms such as loaves, pre-sliced portions, or jars, often under aseptic or oxygen-free conditions to promote shelf without for extended periods. Industrial equipment integral to includes grinders for initial preparation, cookers for , homogenizers for refinement, and automated fillers for efficient .

History

Invention and Early Development

Prior to the formal invention of processed cheese, cheesemakers engaged in informal practices of blending and melting various natural cheeses for culinary purposes, such as in traditional dishes like Swiss fondue, German Kochkäse, French cancoillotte, and , though these methods lacked systematic emulsification and focused on immediate consumption rather than preservation. These early techniques involved simple heating and mixing without additives to stabilize the mixture, often resulting in inconsistent textures and limited . The breakthrough in processed cheese occurred in in 1911, when Walter Gerber and Fritz Stettler developed the first stable product by grinding Emmentaler cheese, heating it with emulsifying salts like , and allowing it to solidify into a homogeneous block. This innovation addressed persistent spoilage problems in natural cheeses during long-distance transport, particularly for exports to warmer climates where mold and rapidly degraded quality. The method extended significantly by preventing separation and enabling uniform melting, marking the shift from ad hoc blending to a reproducible industrial process. In the United States, early adoption followed closely with James L. Kraft's 1916 patent (US Patent No. 1,186,524) for a preservation method involving heating ground to sterilize it and sealing it in cans or glass jars, which produced a shelf-stable product suitable for military and civilian distribution. This built on the Swiss technique but emphasized and packaging to combat spoilage in bulk shipments, laying the groundwork for processed cheese variants.

Commercialization and Spread

The commercialization of processed cheese accelerated during when, in 1917, J.L. Kraft & Bros. Company began supplying canned processed cheese to the U.S. military, providing six million pounds that year due to its extended and suitability for rations. This military contract significantly boosted demand and established processed cheese as a reliable, scalable product beyond local markets. In the and , Kraft expanded through strategic acquisitions, including the 1928 purchase of the Phenix Cheese Corporation, which strengthened its position in and other dairy lines, leading to the formation of Kraft-Phenix Cheese Corporation. The company introduced sliced processed cheese varieties in the mid-, enhancing convenience for consumers, and by 1930, processed cheese accounted for approximately 14-20% of U.S. cheese production as Kraft captured around 40% of the overall domestic cheese market. The 1950s marked further innovations in product formats, with Kraft launching (initially as Kraft De Luxe Process Slices) in 1950, offering pre-sliced, ready-to-use portions that aligned with the era's growing demand for convenience foods amid . In 1956, the Clearfield Cheese Company introduced the first individually wrapped cheese slices using a patented hot-process wrapping method, enabling portion control and extended freshness, which revolutionized and . These developments, including shelf-stable variants, supported the rise of processed cheese in fast-paced lifestyles. Processed cheese spread globally post-World War II, influenced by U.S. military presence and aid programs that introduced it to , where adoption grew through American-style chains. In , companies like incorporated processed cheese into products, facilitating market entry via established dairy networks. Similar patterns emerged in through multinational expansions and urbanization-driven demand for affordable, versatile dairy. By 2025, processed cheese represented about 10% of the global cheese market, valued at roughly USD 20 billion within a total cheese sector exceeding USD 200 billion.

Composition and Chemistry

Ingredients

Processed cheese is formulated primarily from natural cheeses as the base component, which typically comprise 51 to 100 percent of the final product by weight, depending on the specific type. These natural cheeses, such as cheddar, , or Colby, are ground or shredded to facilitate mixing and processing into a homogeneous mass. Emulsifying salts are essential additives that ensure the stability and texture of the product, usually added at 2 to 3 percent by weight of the finished product, with a regulatory maximum of 3 percent of the weight of the finished product. Common examples include , , , and sodium pyrophosphate, which help bind calcium ions from the cheese proteins and promote fat emulsification during heating. In variants like pasteurized process cheese food, dairy additives such as , nonfat milk solids, , or are incorporated to adjust moisture content and flavor, with the natural cheese comprising at least 51 percent by weight, moisture not exceeding 44 percent, and milkfat at least 23 percent by weight. For pasteurized process cheese spreads, similar dairy additives are used, comprising up to 49 percent by weight, with moisture between 44 and 60 percent and milkfat at least 20 percent by weight. For pasteurized process cheese, these additives are limited, such as or milkfat not exceeding 5 percent by weight, to preserve a higher cheese content with milkfat at least 47 percent in the solids and moisture not over 40 percent. Additional components include preservatives like (up to 0.2 percent) or (up to 0.3 percent) to inhibit mold growth, natural colorants such as for uniform appearance, and flavor enhancers like spices or enzyme-modified cheese. In lower-cheese-content variants classified as processed cheese products under FDA guidelines, oils may replace some fats to reduce costs or alter nutritional profiles, though these must meet minimum standards for and while declaring all non-dairy ingredients on labels. All formulations must comply with FDA regulations ensuring at least 51 percent natural cheese in process cheese food and related products, with milkfat in the solids not less than 47 percent for standard process cheese.

Emulsification and Processing Chemistry

Emulsifying salts play a crucial role in the chemistry of processed cheese by acting as calcium chelators, which bind to calcium ions in the cheese matrix and facilitate their removal. This process converts the insoluble calcium paracaseinate into soluble sodium paracaseinate through , where sodium ions (Na⁺) replace calcium ions (Ca²⁺) in the micelles, thereby preventing protein aggregation and maintaining a smooth texture. The key reaction can be represented as: \text{Emulsifier} + \text{Ca-caseinate} \rightarrow \text{Na-caseinate} + \text{Ca-emulsifier complex} This solubilization enhances the emulsifying properties of the caseins. During processing, the fats and proteins in the mixture form a stable oil-in-water emulsion upon heating, where solubilized caseins adsorb onto the surface of fat globules to stabilize the dispersion. The pH is typically adjusted to 5.8–6.2 to optimize emulsion stability, as this range minimizes free oil separation and supports the ionic interactions necessary for a homogeneous structure. Heating to 80–90°C induces partial denaturation of whey proteins, which promotes homogenization of the fat phase without causing curdling, thanks to the protective action of the emulsifying salts. The resulting stability of processed cheese is further ensured by the hydrated of emulsifiers on fat globules, which prevent syneresis—the separation of from the cheese —by maintaining and electrostatic repulsion between particles. This coating mechanism inhibits coalescence of fat globules and , contributing to the product's extended and uniform consistency.

Properties

Advantages

Processed cheese offers an extended compared to many natural cheeses, typically around 6 months when stored refrigerated at 4–8 °C, due to that inactivates microorganisms, emulsification that stabilizes the product, and packaging that prevents recontamination. This stability reduces spoilage risks and enables broader distribution without rapid deterioration, making it suitable for commercial packaging and transport. One key functional advantage is its superior melting behavior, where processed cheese achieves a uniform melt without oiling off, separation, or curdling, unlike natural cheeses that often exhibit fat leakage or inconsistent flow during heating. Emulsifying salts stabilize the protein-fat matrix, ensuring smooth texture in applications like sauces, grilled cheese sandwiches, or fondue, enhancing culinary reliability. This property stems from the emulsification chemistry that promotes even heat distribution and prevents phase separation. Processed cheese provides batch-to-batch consistency in flavor, , and color, as the blending and heating standardizes variations inherent in natural cheese production, such as differences in ripening or milk quality. Colorants and additives further ensure uniform appearance across productions, supporting predictable consumer experiences. Economically, processed cheese manufacturing utilizes lower-quality natural cheese, trimmings, or surplus stocks as base ingredients, lowering costs while enabling efficient scaling. The streamlined production— involving grinding, mixing, and heating—reduces labor and time compared to artisanal natural cheese aging, contributing to overall cost efficiency. Its versatility allows easy portioning into uniform slices, blocks, or spreads, facilitating use in convenience foods like sandwiches, snacks, or ready-to-eat products without additional preparation. This format supports quick assembly in food service and , appealing to fast-paced consumer demands.

Disadvantages

Processed cheese is frequently criticized for its reduced flavor complexity compared to natural cheeses, as the emulsification and heating processes homogenize and diminish the nuanced aromas and tastes developed through microbial and enzymatic aging in traditional varieties. This results in a profile often described as bland or lacking depth, necessitating the addition of flavor enhancers like enzyme-modified cheeses to mimic more authentic notes. The high content of additives, including emulsifying salts such as sodium citrates and phosphates added at 1–3% by weight, can significantly alter the , producing textures that range from overly soft and gummy to unnaturally firm, deviating from the natural creaminess of unprocessed cheese. Additionally, processed cheese typically contains elevated sodium levels, averaging 1,242 mg per 100 g across various brands, which contributes to a salty dominance that overshadows subtler flavors. This industrial approach also fosters a of processed cheese as "fake" or inferior, particularly among higher-income consumers and artisanal cheese enthusiasts who view it as a lower-quality substitute lacking the craftsmanship and of traditionally produced varieties. During , the high-temperature of sterilized processed cheese leads to some nutrient degradation, including a 3–10% loss of essential like , , and due to Maillard reactions, alongside reductions in vitamins A, B1, B6, B9, and C, and decreased calcium and . While these losses are minimal for key minerals overall, they represent a in nutritional inherent to the heat-intensive emulsification steps.

Varieties

Types of Processed Cheese

Processed cheese is classified into distinct types primarily based on its , including the proportion of natural cheese, moisture content, added ingredients, and processing techniques, as established by regulatory standards like those in the U.S. (CFR) Title 21, Part 133. These categories distinguish products that meet specific criteria for being labeled as "cheese" from those that incorporate additional or non-dairy components, ensuring for consumers regarding product quality and makeup. Pasteurized process cheese is the foundational type, composed primarily of one or more natural cheeses without non-dairy fillers or significant non-cheese additions (limited or milkfat to less than 5% by weight of the finished product), featuring a content of at least 47% in the solids and a moisture content not more than 43% (with variety-specific limits, such as not more than 40% for cheddar or colby blends and exceptions up to 51% for ). It is produced by grinding and heating natural cheeses (such as cheddar or colby) with emulsifying agents like to create a homogeneous, meltable mass, without additional dairy solids beyond minor amounts of . This type exemplifies high cheese purity and is represented by products like . Pasteurized process cheese food incorporates at least 51% natural cheese by weight, supplemented with ingredients such as , , or nonfat to achieve a softer, more spreadable texture, with a moisture content up to 44% and a minimum milkfat content of 23% by weight. The addition of these components differentiates it from pure cheese, allowing for greater versatility while still requiring emulsification and processing to form a uniform product. Pasteurized process cheese spread contains at least 51% natural cheese by weight, with higher moisture levels from more than 44% up to 60% and stabilizers like to maintain its semi-liquid consistency suitable for dipping, alongside a minimum milkfat content of 20%. It builds on the cheese food by permitting sweeteners, higher water content, and emulsifiers, resulting in a product that is more fluid and often used in snack applications, such as cheese dips. Cold pack cheese is blended from natural cheeses without the application of , preserving a fresher profile compared to heated varieties, and is not pasteurized, with and fat contents mirroring those of the base natural cheeses (typically ≤43% and ≥47% fat in solids). This type relies on mechanical and mixing at ambient temperatures, often including or spices, but excludes emulsifiers or additives beyond the cheeses themselves. Imitation or analog cheese deviates significantly by containing insufficient cheese to meet standards (typically <51%) , substituting fats or oils for fat, and thus does not qualify as true processed cheese under FDA standards of identity. These products must be labeled as "" if they resemble and substitute for real cheese but are nutritionally inferior, often using plant-based ingredients to mimic texture and flavor without meeting cheese composition requirements.

Regional Variations

In the United States, processed cheese is predominantly characterized by individually wrapped slices known as , with serving as the iconic example since their introduction in 1935 as pre-sliced portions designed for easy melting on burgers and high-volume consumption in and household settings. These slices typically feature a bright yellow color from added , a moisture content not more than 44%, and at least 23% milkfat by weight, ensuring uniform meltability for applications like cheeseburgers, where they dominate market preferences for convenience and consistency. By the , had become a staple, with annual production supporting widespread use in , reflecting the country's emphasis on portable, durable dairy products. In , processed cheese often takes the form of creamier spreads tailored to milder palates, exemplified by France's , launched in 1921 by the using a blend of real cheeses like Comté and melted with milk for a smooth, spreadable texture that appeals to families and children. Similarly, in the , Dairylea, produced by Mondelēz , offers pasteurized processed cheese spreads in portions or triangles, heated and blended for a creamy consistency without artificial colors, positioning it as the top processed cheese brand for snacks and toast. These products emphasize subtle, less tangy flavors compared to natural cheeses, with Dairylea noted for its insipid yet comforting fattiness that caters to everyday European snacking habits. Such spreads have expanded across the continent, prioritizing portability and mild taste profiles suited to diverse culinary integrations like sandwiches and crackers. In , particularly , processed cheese features sweeter and softer varieties adapted for local preferences, with QBB—produced by Rokko Butter Co., Ltd., since 1958—leading the market through products like Baby Cheese, a top-selling bite-sized option, and Cheese Dessert lines that blend with flavors such as , , and seasonal fruits for a creamy, dessert-like indulgence. These softer, sweeter formulations, including hybrids between cheese and , account for a high proportion of Japan's processed cheese consumption, which rose 5% in households during 2020 amid stable overall demand. QBB's offerings are frequently incorporated into snacks like onigiri, where the mild, spreadable texture complements rice-based foods, reflecting Japan's integration of processed cheese into convenience-oriented cuisine with over 200 million units of bite-sized varieties sold annually. In , especially , processed cheese adaptations include queso fundido-style melts that prioritize stretchy, pourable textures for appetizers, often using blends like or asadero processed for optimal melting in dishes topped with chorizo or peppers, distinguishing them from thinner American-style dips. Canned formats, such as ready-to-heat queso sauces, are prevalent for their shelf stability in tropical climates, with brands like Chef-mate offering bulk options that maintain creaminess without , suiting the region's demand for convenient, heat-resistant products in everyday cooking. In and , processed cheese mirrors U.S. styles in sliced and spreadable forms but incorporates more sheep and bases to align with local traditions and tastes. This , the largest of its kind in , emphasizes mixed-milk processing to yield softer textures suited to regional preferences, contributing to enhanced flavor nuances.

Culinary Uses

Common Applications

Processed cheese slices are widely used in sandwiches and burgers due to their quick and uniform melting properties, which provide a smooth, gooey texture without separating during . For instance, they are commonly placed on cheeseburgers to envelop the in a creamy layer as it cooks, or layered into Philly cheesesteak sandwiches for even coverage and enhanced flavor. This meltability stems from the emulsification process, allowing processed cheese to maintain consistency at high temperatures. In dips and sauces, processed cheese excels for its stability when heated, preventing oil separation and ensuring a smooth consistency ideal for queso dips and nacho cheese. Products like are frequently melted with additions such as or to create creamy spreads that remain pourable even after cooling and reheating, making them suitable for serving over tortilla chips or as a base for party appetizers. These applications leverage the cheese's ability to form a stable , avoiding the curdling common with natural varieties. For snacks, processed cheese is packaged in convenient formats like individually wrapped slices for lunchboxes or aerosol cans such as for portable consumption during camping or on-the-go eating. These options provide a quick, no-prep source of protein and flavor, often enjoyed straight from the package or paired with crackers. Industrially, processed cheese serves as a reliable base for products like boxed mixes, where it is formulated into powdered or sauce forms for consistent reconstitution and coverage in ready-to-prepare meals. It is also applied as a topping for pizzas, offering uniform melt and stretch that ensures even distribution without clumping during large-scale production. In baking, processed cheese is added to casseroles to achieve a cohesive , as in broccoli cheese casseroles where blocks like are melted into a and baked with and toppings, preventing separation that might occur with natural cheese. This makes it suitable for dishes requiring prolonged oven time, such as layered bakes or gratins.

Cultural Significance

Processed cheese emerged as an iconic symbol of American fast food and convenience culture in the , aligning with the postwar boom in diners, drive-ins, and quick-service meals. Brands like , first introduced in 1950, provided a uniform, meltable topping for burgers and hot dogs, embodying the era's drive for efficiency and accessibility in everyday eating. Its role extended to school cafeterias, where it featured in staples like cheeseburgers and sandwiches, offering an economical source of protein amid expanding public programs. This integration reinforced processed cheese's status as a hallmark of mid-century American ingenuity and mass consumption. U.S. exports of processed cheese profoundly influenced global diets after , as aid programs and military distributions introduced it to and , reshaping practices. In postwar , American processed cheese arrived via recovery initiatives like the Marshall Plan's food shipments, familiarizing consumers with its convenience amid rationing's end. In , particularly , it fused with native dishes, as seen in cheese-topped and —a blending with American-style processed cheese and meats, born from U.S. military influences. These adaptations highlight processed cheese's evolution into a staple of international , bridging convenience with cultural innovation. Controversies surrounding processed cheese center on its in contexts, where enthusiasts decry its emulsifiers and uniformity as diluting the of natural cheeses. In and artisanal circles, it faces scrutiny for prioritizing shelf stability over flavor depth, fueling broader discussions on industrialization. As a response, processed cheese has gained traction, incorporating certified and reduced additives to reconcile with cleaner-label demands among discerning . By 2025, processed cheese continues to undergo reformulation amid consumer backlash against ultra-processed foods, with plant-based alternatives emerging to meet for vegan and sustainable options in culinary applications like melts and sauces. Economically, processed cheese has democratized access in developing regions by lowering costs through scalable , bolstering global and nutrition. Valued at USD 20,542 million in , the market reflects its role in affordable protein delivery, with annual global cheese —where processed variants form a key segment—exceeding 21 million metric tons. This scale underscores its impact on emerging economies, from feeding programs to street foods. In , "" frequently symbolizes processed uniformity, invoked in media to critique or nostalgize mass-produced aspects of U.S. society. From films portraying roadside diners to satirical commentary on , it evokes standardized comfort, as in references to its role in emblematic dishes like the , which itself represents American excess and innovation.

Nutrition and Health

Nutritional Profile

Processed cheese offers a nutrient-dense profile typical of products, with variations depending on the specific type, such as pasteurized process cheese versus cheese food or spreads. A standard 28g serving (approximately one slice) provides about 100 calories, derived primarily from fats and proteins. In terms of macronutrients, it contains roughly 5g of protein, 8.5g of total fat (including 5g of ), and 1-2g of carbohydrates, contributing to its role as a convenient source of similar to natural cheeses. Micronutrients are notable, particularly calcium at around 200mg per serving (15% of the based on a 1,300mg reference intake), along with for bone health and for vision and immune support; is present at moderate levels, supporting formation. Many varieties are fortified with (providing 10-15% per serving), enhancing calcium absorption. Other components include 400-500mg of sodium (17-22% , elevated due to processing) and about 25mg of , with cheese spreads generally featuring higher moisture content and slightly lower . Overall, the nutritional aligns closely with natural cheese in protein and calcium delivery but incorporates additional sodium from emulsifying agents. These values are drawn from USDA FoodData Central analyses, and processed cheese options often include fewer synthetic additives while maintaining a comparable profile.

Health Considerations

Processed cheese provides bioavailable calcium that supports health by aiding in bone mineralization and maintenance. The high-quality protein content in processed cheese, derived from its base, contributes to muscle maintenance and repair through essential . A 2023 and of prospective studies found that cheese consumption, including processed varieties, is associated with neutral to moderate benefits for risk when consumed in moderation, such as 40 grams per day or more. However, the elevated levels of in processed cheese can contribute to increased LDL , raising the risk of cardiovascular issues. Its high sodium content may exacerbate by promoting fluid retention and elevated . Certain dietary emulsifiers used in processed foods have been linked in recent research to potential disruptions in the gut , fostering and metabolic alterations. Additives and preservatives in processed cheese, such as benzoates or sulfites, can trigger allergic reactions in sensitive individuals, manifesting as , swelling, or respiratory symptoms. Unlike natural cheeses, processed varieties typically lack content due to and additive processes that eliminate live beneficial . Health organizations recommend limiting processed cheese to 1-2 servings daily—approximately 1.5 ounces per serving—to mitigate risks from and sodium while retaining nutritional benefits. Opting for low-sodium variants can further reduce concerns. Processed cheese is often suitable for those with , as processing reduces levels to minimal amounts. In the long term, there is no strong linking moderate processed cheese intake within a balanced to adverse health outcomes, though excessive consumption as part of ultra-processed foods is associated with increased risk due to high caloric density and poor nutrient profile.

Regulation and Labeling

United States

In the , the (FDA) establishes standards of identity for processed cheese under 21 CFR Part 133, ensuring that products meet specific compositional requirements to bear certain names. Pasteurized process cheese must be prepared by comminuting and mixing one or more natural cheeses with approved emulsifying agents, heated to at least 150°F for 30 seconds. It requires a minimum milkfat content of 47% on a dry basis (with exceptions for at 43% and Gruyère at 45%), and moisture not exceeding 43% for most varieties (or 40% for Cheddar, washed , Colby, or granular types). Only specific emulsifiers, such as , , , and sodium aluminum phosphate, are permitted, limited to 3% by weight of the finished product. Pasteurized process cheese food, a related category, must contain at least 51% cheese by weight, with no more than 44% moisture and at least 23% milkfat. Products that do not meet these standards, such as those with less than 51% cheese or additional non-dairy ingredients like , fall outside the standards of identity and are classified as "pasteurized process cheese products," which are unregulated but must still comply with general and labeling laws. For example, is labeled as a "pasteurized prepared cheese product" because it includes whey protein concentrate and other additives that prevent it from qualifying as cheese food. Labeling requirements mandate that products meeting the standards be named "pasteurized process cheese" or "pasteurized process cheese food," with the full name appearing prominently on the principal display panel. processed cheese products, made primarily from non-dairy sources like oils, must be labeled "imitation" to distinguish them from dairy-based versions, per FDA rules on simulated foods. facts panels are required, disclosing sodium , which can be high in processed cheese due to added salts and emulsifiers. The FDA enforces these standards for products in interstate commerce, with inspections focusing on compliance with composition, adulteration, and misbranding provisions under the Federal Food, Drug, and Cosmetic Act. The U.S. Department of Agriculture (USDA) provides supplementary oversight through its Agricultural Marketing Service for grading and commodity specifications, particularly for federally purchased processed cheese used in programs like meals. Emulsifying phosphates remain limited to 3% in approved forms, with no specific additive limit changes in , though ongoing FDA reviews of food additives emphasize safety assessments. Misuse of the term "cheese" has led to enforcement actions and litigation, including a 2002 FDA warning to Kraft requiring Velveeta's reclassification from "cheese spread" to "cheese product" due to non-compliant ingredients. In the 2010s, class action lawsuits targeted labeling claims on processed cheese products, such as allegations of misleading "natural" or "real cheese" descriptors, though many were dismissed for lack of deception under FDA standards.

United Kingdom and Europe

In the European Union, processed cheese is regulated under Regulation (EC) No 1333/2008 on food additives, which defines it as a product obtained by melting and emulsifying cheese or mixtures of cheese and other dairy ingredients, with permitted emulsifying salts such as sodium citrates (E331) used at quantum satis levels to ensure stability without separation. This framework distinguishes processed cheese from preparations with non-dairy content through labeling requirements. Limits on additives include phosphate-based emulsifiers permitted up to 20 g/kg (20,000 mg/kg) expressed as P₂O₅. Following , the has retained these rules through the , ensuring continuity in composition and additive standards for processed cheese while emphasizing origin labeling for cheese bases, particularly those protected under (PDO) schemes like Farmhouse Cheddar. The enforces requirements for clear declaration of emulsifiers, colors, and other additives on labels, in line with retained Regulation () No 1169/2011 on food information to consumers. Products not qualifying as cheese must use qualifying terms to avoid misleading consumers. Compared to the , and regulations permit higher levels of emulsifying salts (up to 20 g/kg versus 3% in the US), reflecting differences in additive use. policies in the region also promote reduced-fat processed cheese variants, aligning with broader nutritional guidelines. In 2023, the advanced updates through the proposed Packaging and Packaging Waste Regulation (PPWR), introducing sustainability measures such as mandatory recyclability targets and restrictions on single-use plastics for , including processed cheese products, to support goals by 2030. As of 2025, EFSA continues reviewing phosphate safety, with no new limits for processed cheese yet.

Other Regions

In Canada, the Canadian Food Inspection Agency (CFIA) oversees processed cheese standards under the Food and Drug Regulations (FDR), which closely align with U.S. categories for composition and safety but incorporate unique requirements such as bilingual (English and French) labeling on all packaging to comply with the Official Languages Act. For the processed cheese food category, products must contain at least 51% cheese on a dry weight basis, achieved by comminuting and emulsifying natural cheeses with permitted additives like emulsifying salts, while ensuring and levels prevent microbial growth in low-acid formulations. In and , Food New Zealand (FSANZ) regulates processed cheese under Standard 2.5 of the Australia New Zealand Food Standards Code, emphasizing compliance with dairy export protocols to support the region's significant production and trade. Emulsifiers, including salts like , are permitted under Schedule 15 with applicable maximum permitted levels or , while the standards permit variants made from or sheep milk alongside cow's , provided they meet microbiological and compositional criteria for melting and emulsification processes. Across , national standards vary but often prioritize import safety amid growing processed cheese consumption; in , the Japanese Agricultural Standards (JAS) under the Ministry of Agriculture, Forestry and Fisheries (MAFF) govern dairy processing, allowing non-dairy fats up to 40% in cheese analogues to facilitate while mandating strict under the Food Sanitation Act. In , the National Food Safety Standard GB 25192-2022 for processed cheese requires a minimum 50% cheese content from compliant sources like GB 5420, but permits up to 40% non-dairy fats in formulations, with additional focus on contaminant limits for imported products; this has coincided with a rise in certifications in 2024, driven by demand in Muslim-majority markets like and , where brands such as obtained approvals to expand exports. In , particularly as a key member, the Southern Common Market () harmonizes regulations through Grupo Mercado Común () resolutions, such as GMC Res. 26/12 on products, establishing compositional standards for processed cheese, including limits typically around 40-60% , with allowances for higher- variants in humid conditions. These frameworks allow looser restrictions on additives like stabilizers and preservatives compared to stricter standards, enabling the development of tropical-stable products that resist melting and spoilage in high-heat environments, as supported by 's National Agency of Sanitary Surveillance (ANVISA) adaptations. Internationally, the Commission provides voluntary global guidelines through standards like CXS 287-1978 for processed cheese, recommending at least 51% of the derived from cheese in core formulations to promote and , though adoption varies by country—many regions adapt these baselines to local needs without full implementation. This framework influences non-Western regulations by emphasizing emulsifier limits and hygiene, facilitating harmonization in export-oriented markets.

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