Tag Archives: recalls

Manuel Orozco, AIB International
FST Soapbox

Detecting Foreign Material Will Protect Your Customers and Brand

By Manuel Orozco
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Manuel Orozco, AIB International

During the production process, physical hazards can contaminate food products, making them unfit for human consumption. According to the USDA’s Food Safety and Inspection Service (FSIS), the leading cause of food recalls is foreign material contamination. This includes 20 of the top 50, and three of the top five, largest food recalls issued in 2019.

As methods for detecting foreign materials in food have improved over time, you might think that associated recalls should be declining. To the contrary, USDA FSIS and FDA recalls due to foreign material seem to be increasing. During the entire calendar year of 2018, 28 of the 382 food recalls (7.3%) in the USDA’s recall case archive were for foreign material contamination. Through 2019, this figure increased to approximately 50 of the 337 food recalls (14.8%). Each of these recalls may have had a significant negative impact on those brands and their customers, which makes foreign material detection a crucial component of any food safety system.

The FDA notes, “hard or sharp foreign materials found in food may cause traumatic injury, including laceration and perforation of tissues of the mouth, tongue, throat, stomach and intestine, as well as damage to the teeth and gums”. Metal, plastic and glass are by far the most common types of foreign materials. There are many ways foreign materials can be introduced into a product, including raw materials, employee error, maintenance and cleaning procedures, and equipment malfunction or breakage during the manufacturing and packaging processes.

The increasing use of automation and machinery to perform tasks that were once done by hand are likely driving increases in foreign matter contamination. In addition, improved manufacturer capabilities to detect particles in food could be triggering these recalls, as most of the recalls have been voluntary by the manufacturer.

To prevent foreign material recalls, it is key to first prevent foreign materials in food production facilities. A proper food safety/ HACCP plan should be introduced to prevent these contaminants from ending up in the finished food product through prevention, detection and investigation.
Food manufacturers also have a variety of options when it comes to the detection of foreign objects from entering food on production lines. In addition to metal detectors, x-ray systems, optical sorting and camera-based systems, novel methods such as infrared multi-wavelength imaging and nuclear magnetic resonance are in development to resolve the problem of detection of similar foreign materials in a complex background. Such systems are commonly identified as CCPs (Critical Control Points)/preventive controls within our food safety plans.

But what factors should you focus on when deciding between different inspection systems? Product type, flow characteristics, particle size, density and blended components are important factors in foreign material detection. Typically, food manufacturers use metal and/or x-ray inspection for foreign material detection in food production as their CCP/preventive control. While both technologies are commonly used, there are reasons why x-ray inspection is becoming more popular. Foreign objects can vary in size and material, so a detection method like an x-ray that is based on density often provides the best performance.

Regardless of which detection system you choose, keep in mind that FSMA gives FDA the power to scientifically evaluate food safety programs and preventive controls implemented in a food production facility, so validation and verification are crucial elements of any detection system.

It is also important to remember that a key element of any validation system is the equipment validation process. This process ensures that your equipment operates properly and is appropriate for its intended use. This process consists of three steps: Installation qualification, operational qualification and performance qualification.

Installation qualification is the first step of the equipment validation process, designed to ensure that the instrument is properly installed, in a suitable environment free from interference. This process takes into consideration the necessary electrical requirements such as voltage and frequency ratings, as well as other factors related with the environment, such as temperature and humidity. These requirements are generally established by the manufacturer and can be found within the installation manual.

The second step is operational qualification. This ensures that the equipment will operate according to its technical specification. In order to achieve this, the general functions of the equipment must be tested within the specified range limits. Therefore, this step focuses on the overall functionality of the instrument.

The third and last step is the performance qualification, which is focused on providing documented evidence through specific tests that the instrument will performs according to the routine specifications. These requirements could be established by internal and industry standards.

Following these three steps will allow you to provide documented evidence that the equipment will perform adequately within the work environment and for the intended process. After completion of the equipment validation process, monitoring and verification procedures must be established to guarantee the correct operation of the instrument, as well procedures to address deviations and recordkeeping. This will help you effectively control the hazards identified within our operation.

There can be massive consequences if products contaminated with foreign material are purchased and consumed by the public. That’s why the development and implementation of a strong food safety/ HACCP plan, coupled with the selection and validation of your detection equipment, are so important. These steps are each key elements in protecting your customers and your brand.

Alex Kinne, Thermo Fisher Scientific
In the Food Lab

Ensuring Food Safety in Meat Processing Through Foreign Object Detection

By Alex Kinne
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Alex Kinne, Thermo Fisher Scientific

The USDA estimates that foodborne illnesses cost more than $15.6 billion each year. However, biological contamination isn’t the only risk to the safety and quality of food. Food safety can also be compromised by foreign objects at virtually any stage in the production process, from contaminants in raw materials to metal shavings from the wear of equipment on the line, and even from human error. While the risk of foreign object contamination may seem easy to avoid, in 2019 alone the USDA reported 34 food recalls, impacting 17 million pounds of food due to ‘extraneous material’ which can include metal, plastic and even glass.

When FSMA went into effect, the focus shifted to preventing food safety problems, necessitating that food processors implement preventive controls to shift the focus from recovery and quarantine to proactive risk mitigation. Food producers developed Hazard Analysis and Critical Control Point (HACCP) plans focused on identifying potential areas of risk and placement of appropriate inspection equipment at these key locations within the processing line.

Metal detection is the most common detection technology used to find ferrous, non-ferrous, and stainless steel foreign objects in food. In order to increase levels of food safety and better protect brand reputation, food processors need detection technologies that can find increasingly smaller metal foreign objects. Leading retailers are echoing that need and more often stipulate specific detection performance in their codes of practice, which processors must meet in order to sell them product.

As food processors face increased consumer demand and continued price-per-unit pressures, they must meet the challenges of greater throughput demands while concurrently driving out waste to ensure maximum operational efficiencies.

Challenges Inherent in Meat Metal Detection

While some food products are easier to inspect, such as dry, inert products like pasta or grains, metal foreign object detection in meat is particularly challenging. This is due to the high moisture and salt content common in ready-to-eat, frozen and processed, often spicy, meat products that have high “product effect.” Bloody whole muscle cuts can also create high product effect.

The conductive properties of meat can mimic a foreign object and cause metal detectors to incorrectly signal the presence of a physical contaminant even when it is nonexistent. Food metal detectors must be intelligent enough to ignore these signals and recognize them as product effect to avoid false rejection. Otherwise, they can signal metal when it is not present, thus rejecting good product and thereby increasing costs through scrap or re-work.

Equipping for Success

When evaluating metal detection technologies, food processors should request a product test, which allows the processor to see how various options perform for their application. The gold standard is for the food processor to send in samples of their product and provide information about the processing environment so that the companies under consideration can as closely as possible simulate the manufacturing environment. These tests are typically provided at no charge, but care should be taken upfront to fully understand the comprehensiveness of the testing methodologies and reporting.

Among the options to explore are new technologies such as multiscan metal detection, which enables meat processors to achieve a new level of food safety and quality. This technology utilizes five user-adjustable frequencies at once, essentially doing the work of five metal detectors back-to-back in the production line and yielding the highest probability of detecting metal foreign objects in food. When running, multiscan technology allows inspectors to view all the selected frequencies in real time and pull up a report of the last 20 rejects to see what caused them, allowing them to quickly make appropriate adjustments to the production line.

Such innovations are designed for ease of use and to meet even the most rigorous retailer codes of practice. Brands, their retail and wholesale customers, and consumers all benefit from carefully considered, application-specific, food safety inspection.

Ensuring Safety

The food processing industry is necessarily highly regulated. Implementing the right food safety program needs to be a top priority to ensure consumer safety and brand protection. Innovative new approaches address these safety concerns for regulatory requirements and at the same time are designed to support increased productivity and operational efficiency.

Recall

Undeclared Allergens, Bacterial Contamination Top Q1 2020 Recalls

By Food Safety Tech Staff
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Recall

The COVID-19 crisis has led to supply chain management challenges for food manufacturers and processors, ingredient suppliers and vendors, and regulators. In its Q1 2020 Recall Index, experts from Stericycle advise that companies use this time to take a closer look at their supply chain processes and reevaluate their recall plan.

Watch two complimentary on-demand webinars: COVID-19 in the Food Industry: Enterprise Risk Management and the Supply Chain |
COVID-19 in the Food Industry: Mitigating and Preparing for Supply Chain Disruptions“Companies in the food industry have their work cut out for them during this outbreak and for months after,” the report states. “But the key is to focus intensely on the basics. It’s too easy to assume food safety protocols and quality controls are followed as strictly and uniformly as they always are. Use this time wisely to recheck your supply chain, review your food-safety processes and update your recall plan.”

FDA Recalls: Notable Numbers (Q1 2020)

  • 141 recalls affecting more than 8.8 units
  • Undeclared allergens: 39.7% of recalls. The top cause of recalls for the 11th consecutive quarter
  • Bacterial contamination: 58.1% of recalls by number of impacted units
  • Nearly 20% of fresh and processed food recalls impacted products distributed nationwide

USDA Recalls: Notable Numbers (Q1 2020)

  • 6 recalls impacting 22,500 pounds of product
    • More than half of recalled pounds were a result of lack of inspection
  • Recalls dropped nearly 79%
  • Undeclared allergens: 4 recalls
Food Safety Consortium

2020 Food Safety Consortium Converted to Virtual Event Series

By Food Safety Tech Staff
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Food Safety Consortium

With the COVID-19 pandemic continuing to take a toll on live events, Innovative Publishing Company, Inc. has made the careful decision to convert the Food Safety Consortium, which historically has taken place in Schaumburg, IL, to a virtual conference. This move takes into consideration Illinois’ COVID-19 plan to reopen its economy, which is a Five-Phase Plan. Phase 5 occurs when groups larger than 50 (conferences and conventions specifically mentioned) will be allowed. The state enters Phase 5 only when a vaccine or an effective treatment is in place. The decision to take the Food Safety Consortium virtual is based on the Illinois reopening plan, along with considering the safety and well being of staff, attendees, speakers and sponsors.

Every Thursday, beginning on September 10 through November 12, the Food Safety Consortium Virtual Conference Series will host two presentations and two sponsored Tech Talks, followed by a panel discussion with attendees. Food Safety Tech is the media sponsor.

“This will be much more than a bunch of webinars. We are excited to offer a virtual platform that facilitates greater human interaction,” says Rick Biros, president of Innovative Publishing and director of the Food Safety Consortium. “Whether it’s a random connection in a hotel lobby, a stroll by a booth at a trade show, or a seat next to a new friend in a learning session, we recognize that human connection is important for events. That’s why we’ve invested in new tools for the FSC Conference Virtual Platform to ensure those discussions, discoveries and connections can go on whether our event is offline or online. The new platform provides attendees with a way to keep track of live sessions, connect with sponsors and engage with peers, all in a familiar way. It will also include an event App that offers interactive features.”

Frank Yiannas, FDA deputy commissioner for food policy and response, will remain a keynote speaker, with the new presentation date to be announced.

Call for Abstracts

We are accepting abstracts for participation in the Food Safety Consortium Virtual Series. On the Submit an Abstract page, select Food Safety Consortium 2020 in the drop-down menu.

Categories include:

  • Food safety
  • Food defense
  • Food integrity
  • Food safety supply chain management
  • Lessons learned COVID-19
  • Regulatory compliance
  • Facility design
  • C-suite executive forum

Tech Talk Sponsorship

Companies that are interested in sponsoring a 10-minute technical presentation during the series can also submit their abstract through the portal. For pricing information, contact IPC Sales Director RJ Palermo.

Innovative Publishing has also converted the Cannabis Quality Conference to a virtual event. More information is available at Cannabis Industry Journal.

About Food Safety Tech

Food Safety Tech publishes news, technology, trends, regulations, and expert opinions on food safety, food quality, food business and food sustainability. We also offer educational, career advancement and networking opportunities to the global food industry. This information exchange is facilitated through ePublishing, digital and live events.

About the Food Safety Consortium Conference and Expo (The live event)

Food companies are concerned about protecting their customers, their brands and their own company’s financial bottom line. The term “Food Protection” requires a company-wide culture that incorporates food safety, food integrity and food defense into the company’s Food Protection strategy.

The Food Safety Consortium is an educational and networking event for Food Protection that has food safety, food integrity and food defense as the foundation of the educational content of the program. With a unique focus on science, technology and compliance, the “Consortium” enables attendees to engage in conversations that are critical for advancing careers and organizations alike. Delegates visit with exhibitors to learn about cutting-edge solutions, explore three high-level educational tracks for learning valuable industry trends, and network with industry executives to find solutions to improve quality, efficiency and cost effectiveness in the evolving food industry.

John McPherson, rfxcel
FST Soapbox

Clear Waters Ahead? The Push for a Transparent Seafood Supply Chain

By John McPherson
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John McPherson, rfxcel

The seafood supply chain handles 158 million metric tons of product every year, 50% of which comes from wild sources. Operating in every ocean on the planet, the industry is struggling to figure out how to overcome the numerous obstacles to traceability, which include unregulated fishing, food fraud and unsustainable fishing practices. With these and other problems continuously plaguing the supply chain, distributors and importers cannot consistently guarantee the validity, source or safety of their products. Furthermore, there are limits to what a buyer or retailer can demand of the supply chain. Niche solutions abound, but a panacea has yet to be found.

In this complex environment, there are increasing calls for better supply chain management and “catch to plate” provenance. One problem, however: The industry as a whole still regards traceability as a cost rather than an investment. There are signs this attitude is changing, however, perhaps due to pressure from consumers, governments and watchdog-type organizations to “clean up” the business and address the mounting evidence that unsustainable fishing practices cause significant environmental problems. Today, we’ve arrived at a moment when industry leaders are being proactive about transparency and technologies such as mobile applications and environmental monitoring software can genuinely help reform the seafood supply chain.

A Global Movement for Seafood Traceability

There are several prominent examples of the burgeoning worldwide commitment to traceability (and, by default, the use of new technologies) in the seafood supply chain. These include the Tuna 2020 Traceability Declaration, the Global Tuna Alliance, and the Global Dialogue on Seafood Traceability. Let’s focus on the latter to illustrate the efforts to bring traceability to the industry.

The Global Dialogue on Seafood Traceability. The GDST, or the Dialogue, is “an international, business-to-business platform established to advance a unified framework for interoperable seafood traceability practices.” It comprises industry stakeholders from different parts of the supply chain and civil society experts from around the world, working together to develop industry standards to, among other things, improve the reliability of information, make traceability less expensive, help reduce risk in the supply chain, and facilitate long-term social and environmental sustainability.

On March 16, 2020, the Dialogue launched its GDST 1.0 Standards, which will utilize the power of data to support traceability and the ability to guarantee the legal origin of seafood products. These are guidelines, not regulations; members who sign a pledge commit themselves to bringing these standards to their supply chains.

GDST 1.0 has two objectives. First, it aims to harmonize data standards to facilitate data sharing up and down the supply chain. It calls for all nodes to create Electronic Product Code Information Services (EPCIS) events to make interoperability possible (EPCIS is a GS1 standard that allows trading partners to share information about products as they move through the supply chain.). Second, it defines the key data elements that trading partners must capture and share to ensure the supply chain is free of seafood caught through illegal, unreported and unregulated (IUU) fishing and to collect relevant data for resource management.

Why Transparency Is Critical

By now it’s probably clear to you that the seafood sector is in dire need of a makeover. Resource depletion, lack of trust along the supply chain, and the work of global initiatives are just a few of the factors forcing thought leaders in the industry to rethink their positions and make traceability the supply chain default.

However, despite more and more willingness among stakeholders to make improvements, the fact is that the seafood supply chain remains opaque and mind-bogglingly complex. There are abundant opportunities for products to be compromised as they change hands over and over again across the globe on their journey to consumers. The upshot is that the status quo rules and efforts to change the supply chain are under constant assault.

You may ask yourself what’s at stake if things don’t change. The answer is actually quite simple: The future of the entire seafood sector. Let’s look at a few of the most pressing problems facing the industry and how transparency can help solve them.

Illegal, unreported, and unregulated fishing. IUU fishing includes fishing during off-season breeding periods, catching and selling unmanaged fish stocks, and trading in fish caught by slaves (yes, slaves). It threatens the stability of seafood ecosystems in every ocean.

According to the Food and Agriculture Organization of the United Nations, IUU fishing accounts for as much as 26 million tons of fish every year, with a value of $10–23 billion. It is “one of the greatest threats to marine ecosystems” and “takes advantage of corrupt administrations and exploits weak management regimes.” It occurs in international waters and within nations’ borders. It can have links to organized crime. It depletes resources available to legitimate operations, which can lead to the collapse of local fisheries. “IUU fishing threatens livelihoods, exacerbates poverty, and augments food insecurity.”

Transparency will help mitigate IUU fishing by giving buyers and wholesalers the ability to guarantee the source of their product and avoid seafood that has come from suspect sources. It will help shrink markets for ill-gotten fish, as downstream players will demand data that proves a product is from a legal, regulated source and has been reported to the appropriate government agencies.

International food fraud. When the supply for a perishable commodity such as seafood fluctuates, the supply chain becomes vulnerable to food fraud, the illegal practice of substituting one food for another. (For seafood, it’s most often replacing one species for another.) To keep an in-demand product flowing to customers, fishermen and restaurateurs can feel pressure to commit seafood fraud.

The problem is widespread. A 2019 report by Oceana, which works to protect and restore the Earth’s oceans, found through DNA analysis that 21% of the 449 fish it tested between March and August 2018 were mislabeled and that one-third of the establishments their researchers visited sold mislabeled seafood. Mislabeling was found at 26% of restaurants, 24% of small markets, and 12% of larger chain grocery stores. Sea bass and snapper were mislabeled the most. These results are similar to earlier Oceana reports.

Consumer health and food safety. It’s difficult to guarantee consumer health and food safety without a transparent supply chain. End-to-end traceability is critical during foodborne illness outbreaks (e.g., E. coli) and recalls, but the complex and global nature of the seafood supply chain presents a particularly daunting challenge. Species substitution (i.e., food fraud) has caused illness and death, and mishandled seafood can carry high histamine levels that pose health risks. Consumers have expectations that they are eating authentic food that is safe; the seafood industry has suffered from a lack of trust, and is starting to realize that the modern consumer landscape demands transparency.

Why Seafood Traceability Supports the Whole Supply Chain

Most seafood supply chain actors are well-intentioned companies. They regard themselves as stakeholders of a well-managed resource whose hardiness and survival are critical to their businesses and the global food supply chain. Many have implemented policies that require their buyers to verify—to the greatest extent possible—that the seafood they procure meets minimum standards for sustainability, safety and quality.

This kind of self-regulation has been an important first step, but enforcing such standards has been hampered by the lack of validated traceability systems in a digital supply chain. Of course, it costs money to implement these systems, which has been a sticking point, but industry leaders are starting to realize the value of the investment.

Suppliers. A key benefit of traceability for suppliers (i.e., processors and manufacturers) is that it allows them to really protect their business investments. Traceability achieves this because it demonstrates to consumers and trading partners that suppliers are doing things the correct way. Traceability also gives them better control over their supply chains and improves the quality of their product—other important “indicators” for consumers and trading partners.

These advantages also create opportunities for suppliers to build their brand reputations. For example, they can engage with consumers directly, using traceability data to explain that they are responsible stewards of fish populations and the environment and that their products are sustainably sourced and legitimate.

The bottom line is that suppliers that don’t modernize and digitize their supply chains probably won’t be able to stay in business. This stark realization should make them embrace traceability, as well as adopt practices that comply with the regulations that govern their operations. And once they “get with the program,” they should also be more inclined to follow initiatives and guidelines such as the GDST 1.0 Standards. This will invariably create more trust with their customers and partners.

Brands (companies) and distributors. These stakeholders also have a lot to gain from traceability. In a nutshell, they can know exactly what they’re purchasing and have peace of mind about the products’ origins, sustainability, and legitimacy. Like suppliers, they can readily comply with regulations, such as the U.S. Seafood Import Monitoring Program (SIMP), a risk-based traceability effort that requires importers to provide and report key data about 13 fish and fish products identified as vulnerable to IUU fishing and/or seafood fraud.

And, of equal importance to their own fortunes, brands and distributors can use traceability to bolster their reputations and build and solidify their relationships with customers. Being able to prove the who, what, when, where, how, and why of the products they’re selling is a powerful branding and communications tool.

The end of the supply chain: Retailers, food service groups/providers, and consumers. High-quality products with traceable provenance mean retailers and food service companies will have better supply chain control and more “ammunition” to protect their brands. As with the stakeholders above, they’ll also garner more customer loyalty. For their part, consumers will know where their seafood comes from, be assured that their food is safe, feel good about being responsible buyers, and be inclined to purchase only products they can verify.

Transparency, Technology, Trust and Collaboration

The seafood industry is at a critical point in its very long history. It’s not a new story in business: Adapt, adopt and improve or face the consequences—in this case, government penalties, sanction from environmental groups, consumer mistrust and abandonment, and decreased revenues or outright failure.

There is one twist to the story, however: What the industry does now will affect more than just its own interests. The health of all fish species, the environment, and the future of the food supply for an ever-growing population hang in the balance.

But as we’ve demonstrated, there is good news. Supply chain transparency, driven by international initiatives and new technologies, is catching on in the industry. Though companies still struggle to see transparency as an investment, not a cost, their stances seem to be softening, their attitudes changing. The writing is on the wall.

The message I want to end with is that supply chain stakeholders should know that transparency is attainable—and it needn’t be painful. Help is available from many quarters, from government and global initiatives like the GDST to consumers themselves. Working with the right solution provider is another broad avenue leading to supply chain transparency. Technology is at the point now that companies have solid options. They can integrate their current systems with new solutions. They can consider replacing outdated and expensive-to-operate systems with less complicated solutions that, in the long run, do more for less. Or they can procure an entirely new supply chain system that closes all the gaps and jumps all the hurdles to transparency.

Whatever path the industry decides follow, the time to act is now.

Eddie Hall, Vital Vio
FST Soapbox

How Automated Technology is Transforming Sanitation in Plant Operations

By Eddie Hall
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Eddie Hall, Vital Vio

Food safety remains a top-of-mind concern for food manufacturers, especially considering some of the top recalls in 2019 were caused by bacteria contamination—including Listeria and E. coli. Every aspect of the plant operation, from maintenance to executives, to junior staff and quality control, holds both responsibility and concern in producing safe food. Unfortunately, there’s a lot at stake when plant operations’ sanitation programs run into issues, which can cause health threats.

While the rapid explosion of new innovations complements our daily lives in efficiency and convenience, plant operations may find difficulty in keeping up-to-speed with new technology such as robotics, drones and automated applications. When facilities’ equipment becomes more and more outdated, it poses food safety challenges around cleaning, maintenance and upgrades.

Luckily, in some cases, innovation is becoming much easier to deploy. Opportunities abound for food processing plants to integrate new technologies into their operations to deliver significant returns on investment while simultaneously enhancing sanitation, safety and production efficiency on the plant floor.

The Dangers with Today’s Practices

There are many pitfalls with older, more traditional cleaning techniques. In a place where cleanliness is critical to food safety and public health around the world, the industry understands sanitation means more than just scrubbing, mopping and wiping. While these are important daily practices to be done around the processing plant, there are still concerns on whether this kind of intermittent cleaning is truly enough to keep surfaces completely sanitized—knowing that continuous cleaning around the clock seems impractical in any facilities.

Unfortunately, there are many areas, some very hard to reach, for bacteria and other pathogens to live and spread around a processing plant. Zone 1, which holds the conveyor belt and other common high-touch points, consistently comes into contact with food, chemicals and humans. However, for processors to reduce the likelihood of contaminated food, they must consider areas outside of Zone 1 as well—including employee break rooms, hallways and bathrooms—to implement automated sanitation technologies. Additionally, the most common food contaminants, such as Listeria, Salmonella and E. coli, are usually invisible to the naked eye. Therefore, plants need to employ automated technology to continuously kill microscopic bacteria, mold and fungi to prevent regrowth and ensure clean food and equipment.

Looking to New Tech to Fight Germs

When looking to upgrade a plant operation facility, automated technology should be top-of-mind. Automated food production technologies solve two main problems: Food safety and sanitation efficiency. Wash-down robotic systems work to prevent food contamination, while other automated robots complete tasks on the production floor such as packaging, transporting and lifting. With the CDC estimating that roughly one in six Americans suffer from foodborne illnesses, the need for improved sanitation design is integral.

In today’s age, there are several ways to achieve heightened cleanliness by incorporating automation and robotics into production lines. Slicers, dicers and cutters are manufactured with hygienic design in mind. Smart cleaning equipment can automatically store various cleaning steps. Data tracking applications can monitor sanitation steps and ensure all boxes are checked throughout the cleaning program.

Incorporating antimicrobial LED lighting ensures sanitation is truly integrated into the facility’s design—working continually 24/7 to kill and prevent bacteria, and its growth while also serving a dual purpose of both antimicrobial protection and a proper source of illumination. As is the case with this type of technology, once these lights are installed, it becomes an easy, hands-free way of reducing labor, chemicals and, in many cases, work stoppages.

According to Meticulous Research, the global food automation market is expected to be worth $14.3 billion by 2025. With automation set to explode, it’s important for leaders in the food and beverage industry to take advantage of safety tech innovations to advance sanitation around the processing plant. Facility upgrades to improve, enhance and automate sanitation could impact food manufacturers in the long-term by decreasing costs, preventing recalls, improving brand value, gaining consumer trust, minimizing risk and impacting the bottom line.

GREG BALESTRIER, Green Rabbit
Retail Food Safety Forum

Solving Food Safety Challenges in Today’s eCommerce Driven World

By Greg Balestrieri
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GREG BALESTRIER, Green Rabbit

Think about this number for a second: Consumers spent more than $19 billion on online grocery in 2019. While this is still a small segment of the overall $800 billion U.S. grocery market, more consumers than ever before are turning to eCommerce for the fulfillment and delivery of perishable goods, positioning the grocery delivery market to grow dramatically, especially as companies like Amazon continue to innovate in this area.

Adding to this, a recent survey found that 68% of consumers feel the freshness of perishable items is the number one quality they look for in online grocery retail. This is where things become complicated, as shipping perishables introduces an entirely new set of quality challenges for eCommerce brands. This is hindering the market from reaching its full potential until the biggest problem is solved: Ensuring food safety and freshness in every order.

This is a double-edged sword for retailers, grocers and CPGs: Interest in their service is taking off, but it takes just one package of spoiled meat or wilted vegetables to potentially lose a customer to a competitor—or even worse, get someone sick.

Today, spoilage and food safety issues are primarily driven by breakdowns in the cold chain, and it only takes one mishap to affect the quality of food throughout the rest of the delivery lifecycle. To achieve optimal freshness and keep customers happy, grocers, retailers and their trusted partners need to focus on three primary food freshness factors: Temperature, storage and packaging.

Controlling each of these issues starts at the warehouse.

Freshness Starts at the Warehouse

For most parcels, such as clothing, books and other commonly ordered goods, temperature control is rarely an issue. However, facilities that store perishable foods have a constant component to manage—temperature fluctuation.

According to the NRDC, cooling and refrigeration inconsistency is one of the biggest contributors to food spoilage and waste. This is because every food item has a definable maximum shelf life, and storing them at less than optimal or constantly changing temperatures can exacerbate and drastically shorten its timeline.

Mistakes with heightened temperatures on items like meat and poultry can also lead to bacteria growth and foodborne illnesses. In fact, the CDC estimates that 48 million people get sick, 128,000 are hospitalized and 3,000 die from foodborne diseases each year in the United States, putting a spotlight on how seriously food safety issues need to be taken.

The Need for Proper Rotation Processes

First expiration, first out (FEFO) is a motto all organizations should live by when stocking inventory. In addition, it is a critical process when working to avoid the food spoilage crisis. It may come as a surprise, but not all distribution centers have this type of rotation system in place. This means organizations could send spoiled food to consumers because an item was pushed to the back of a refrigerator during the re-stocking process and unknowingly shipped passed its expiration date. Not only does this create massive amounts of food waste, tarnish a brand and eat into a company’s profits by replacing low margin products, but consuming a spoiled food item can also be detrimental to one’s health.

While it helps to keep these types of costly errors in mind, as warehouse operations grow, there’s no possible way to manually scale this system.

Luckily, breakthroughs in cold chain technology have produced automated solutions that help organizations track everything from expiration dates to potential recalls. These types of technology support the entire cold chain lifecycle and ensure that warehouses and their grocery partners have the visibility they need to ensure freshness from fulfillment to the customer’s doorstep.

However, when the product is ready to leave the warehouse, it’s arguably about to enter the hardest portion of the cold chain lifecycle: Delivery.

Key Considerations for Packaging

For fragile items, packaging is all about keeping the item protected from drops and damage, but for food the focus should be on keeping the item fresh and at optimum temperatures throughout the duration of transit.

Given many grocers outsource delivery, they have little interest in whether food spoils, mainly because they are unaware of the package contents and are more focused on getting the item to the right location fast and effectively.

Yet there are many obstacles that need to be addressed during the last leg of delivery. What is the temperature in the delivery vehicle? If no one is home or at the office, will the package spoil outside in the heat?

For perishables, it is imperative that spoilage rates, delays in shipping schedules and unattended delivery scenarios are important factors in determining the amount of cold pack and protective stuffing that goes into the package. If these factors are not considered, customers could return to spoiled, melted or even crushed perishables.

Getting Food Fast and Fresh

Today, grocers and retailers are bullish on building out omnichannel food initiatives. However, balancing brick and mortar locations while developing profitable and efficient online delivery systems is often more than one organization can take on. While there are trusted partners designed to support eCommerce fulfillment and delivery, few are purpose-built to handle perishable foods.

Either way, in order to see wide-scale adoption of online grocery initiatives, grocers, retailers and ecosystem partners need to start prioritizing the key temperature, storage and packaging considerations and challenges associated shipping perishable foods. Acknowledging these challenges and implementing solutions for them will not only keep your products and deliveries fresh, but they will also keep customers coming back for more.

Susanne Kuehne, Decernis
Food Fraud Quick Bites

Germany’s Food Warning Website

By Susanne Kuehne
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Susanne Kuehne, Decernis
Food fraud, Germany
Find records of fraud such as those discussed in this column and more in the Food Fraud Database. Image credit: Susanne Kuehne

Unapproved ingredients and allergens, whether added intentionally or unintentionally, were the third largest reason for recalls in Germany last year, behind microbiological contamination and impurities from foreign matter. The German food warning system by the BVL (Bundesamt fuer Verbraucherschutz und Lebensmittelsicherheit) is accessible by the public and provides detailed information of warnings considering food and beverages. The warnings issued per year are growing steadily, from 100 warnings in 2015 to 161 in 2017 to 198 warnings in 2019.

Resource

  1. WirtschaftsWoche (January 10, 2020) “Um Rueckruf wird gebeten”. Retrieved from WirtschaftsWoche3, 2020. Original source Bundesamt fuer Verbraucherschutz und Lebensmittelsicherheit
Lab grown meat

How Plant-Based Foods Are Changing the Supply Chain

By Maria Fontanazza
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Lab grown meat

The plant-based meat market is anticipated to be worth more than $320 million in the next five years, according to a report released last summer by Global Market Insights. As the popularity of meat-alternative products continues to rise, new challenges are being introduced to supply chain management. Joe Scioscia, vice president of sales at VAI explains some of these hurdles and proposes how technology can help.

Food Safety Tech: Is the growing popularity of plant-based foods introducing hazards or challenges to the supply chain?

Joe Scioscia, VAI
“The growing popularity of plant-based foods has presented a new set of challenges for the supply chain,” says Joe Scioscia of VAI.

Joe Scioscia: The growing popularity of plant-based foods has presented a new set of challenges for the supply chain, especially considering many of these organic items are being introduced by traditionally non-organic retailers. Impossible Foods received FDA approval for its plant-based burger in 2019, showing just how new the plant-based movement is to the industry.

Obviously, the organic supply chain and produce suppliers have long followed regulations for handling produce, such as temperature controls, cargo tracking, and supply and demand planning software, so the produce could be tracked from farm to table and in the case of a recall, be traced back to the source. But for meat alternatives that are combining multiple plant-based ingredients, organizations in the supply chain who are handling these products
have new food safety concerns. Considerations on how to store and process meat alternatives, how to treat each ingredient in the product and, most importantly, how to determine temperature controls or the source of contamination are all discussions the food industry is currently having.

FST: How are plant-based foods changing the dynamic of the supply chain from a food safety perspective?

Scioscia: The food supply chain has changed dramatically in recent years to become more complex, with food items traveling farther than ever before, containing more ingredients and required to follow stricter regulations. Many of the changes to the supply chain are for the better—organic and plant-based alternatives offer health benefits for consumers and are a move towards a more sustainable future. But the reality is that the supply chain isn’t quite there yet. Suppliers, retailers and producers at every part of the supply chain need to work together to ensure transparency and food safety compliance—including for plant-based products. Foodborne illnesses are still a real threat to the safety of consumers, and these same consumers are demanding transparency into the source of their food and sustainable practices from brands. All of these considerations are what’s making this next era of the food industry more complicated than ever before.

Because food safety compliance is always top of mind in the food industry to keep consumers safe, this new and complex supply chain has required companies to rely heavily on technology solutions to ensure plant-based products are equally as safe to consume as non-organic alternatives. These same solutions are also helping supply chains become more transparent for customers and streamline food processes to build a more sustainable future.

FST: What technologies can food companies and retailers use to better manage the supply chain risk while supporting the increased consumer demand for meat alternatives?

Scioscia: Utilizing a centralized software system is one tool many food suppliers and distributors can use to better visualize, trace and process products in the supply chain—including for plant-based alternatives. Having access to a central platform for business data to track assets and ensure food safety regulations are being met allows for companies to optimize processes and cut unnecessary costs along the way.

Heading into 2020, many organizations in the food supply chain are also looking at new applications like IoT, automation, and blockchain as ways to curb food safety issues. The FDA has taken steps to pilot blockchain and AI programs to better track drugs and food products, in conjunction with major food brands and technology companies. Other organizations are following suit with their own programs and many are looking at these solutions to improve their food tracking efforts. It’s clear technology has the most potential to make it easier on the industry to comply with food safety regulations while meeting customer demands for plant-based alternatives and organic options—all the while building a sustainable supply chain for the future.

Production line, NiceLabel

Farm-to-Fork Transparency: How Digitized Labeling Can Prevent a Major Allergen Recall

By Lee Patty
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Production line, NiceLabel

For consumers and brands alike, the damaging impact of mislabeling or neglecting to clearly outline an allergen can be colossal. Therefore, to prevent a health and business disaster, best practices around allergen labeling must be top of mind. Luckily, technology can help, and the farm-to-fork transparency provided by a centralized and digitized modern label management system can ensure organizations improve responsiveness and accuracy while reducing costs beyond those saved by mitigating recalls.

No one wants to face a recall, but have you done enough to prevent one from happening to you? More than 650 food products were recalled last year in the United States alone. And one of the leading causes might just be the easiest to prevent: Undeclared allergens.

According to the Q2 2019 Stericycle Recall Index, undeclared allergens are the leading cause of U.S. food recalls, accounting for 48.4% of food recalls from the FDA and 62.9% of food pounds recalled by the USDA. This statistic becomes more alarming considering that roughly 11% of US adults have a food allergy, according to JAMA.

Enacted in 2004, the Food Allergen Labeling and Consumer Protection Act (FALCPA) stipulates that all packaged food regulated under the Federal Food Drug and Cosmetic Act (FFD&C) comply by listing major food allergens. “Major allergens” refers to milk, eggs, fish, shellfish, tree nuts, peanuts, wheat, and soybeans, and for nuts and shellfish, the species must be declared.

For brands, the damaging impact of mislabeling or neglecting to clearly outline an allergen can be colossal, resulting in costly recalls or litigation. However, the impact to consumers can be even greater when one small mistake can cause serious illness, or worse, death. To prevent a health and business nightmare, best practices around allergen labeling must be top of mind.

However, with constantly changing legislation, this can be easier said than done. For instance, in a move that outpaced the FDA, Illinois issued a state law requiring sesame labeling. And in the UK, Natasha’s Law was recently introduced, requiring companies to label all food ingredients on fresh pre-packaged food after 15-year-old Natasha Ednan-Laperouse died of a sesame allergy from a sandwich that didn’t list all the ingredients.

The need for optimal allergen labeling is clear, so how can organizations ensure allergens are clearly labeled on their products and meet existing standards while preparing for future requirements?

Though the underlying principle behind a clear label is simple, the process of designing such labels can be multifaceted and difficult to streamline—especially if labels are designed, printed and managed by separate users across a franchise or store network. And this challenge is multiplied further when products reach across international boundaries. But technology can help, and the farm-to-fork transparency provided by a centralized and digitized modern label management system can ensure organizations improve responsiveness and accuracy while reducing costs beyond those saved by mitigating recalls.

Disorganized Sprawl: A Major Hurdle to Effective Labeling

When implemented properly, modern label management can cost-effectively centralize labeling, reducing inefficiencies and human error. However, before this can happen, there are a few common roadblocks that may make standardizing the labeling process challenging.

One issue may be a sprawl of legacy equipment that is not integrated into a cohesive network. For instance, a legacy labeling system may only support certain label printers while certain manufacturers of direct marking equipment may only support their own propriety brand of printers. In another sense, a lack of standardization can also make it difficult to efficiently integrate labeling with other business solutions like manufacturing execution systems (MES) and enterprise resource planning (ERP) systems.

A damaging impact of sprawl is adoption of a wide range of different labeling applications across various facilities. This will result in inconsistent label formatting, the need to create the same label multiple times, and the need to accommodate different systems and printers. Consequences of this may be a lack of centralized storage when everything is saved locally, complex user training encompassing many software programs, an increased burden on IT, and a great deal of extra administration and human intervention to maintain and update labels.

Another problem with a disorganized ecosystem for labeling is that quality assurance inevitably suffers because tracing a label’s history or implementing standardized approval processes can be difficult or impossible. To accurately track labeling, it’s necessary to have a production log stating where and when labels were produced and who produced them. Having such a log and using it effectively requires centralization or else it can become difficult to track different versions or enforce universal approval processes for altering templates.

Implementing Modernized Labeling to Improve QA

Modern label management systems can help suppliers and manufacturers standardize and control marking packaging or label production across an entire organizational ecosystem. These solutions feature a central, web-based document management system and provide a reliable storage space for label templates and label history. This will enable changes and updates to be tracked centrally, so local facilities can access uniform and accurate templates to produce labels.

An ideal label management system can also interface with a multitude of direct marking and labeling printers, even if they are from different manufacturers, and it can integrate labeling and direct marking with a business system’s master data, which eliminates manual data entry errors. This decreases upfront capital expenditures in more costly efforts to standardize equipment, provides a system that is easy to integrate with partners, saves costs generated from having to discard product or rework labels, and increases a company’s ability to implement unified, organization-wide labeling processes.

Centralized Labeling is Easily Delivered Through Cloud

To many, the thought of migrating legacy labeling to a centralized system or investing a large sum of resources into centralizing labeling may seem inordinate or daunting. However, cloud technology makes migrating to a modern label management system feasible for organizations of all sizes.

With the cloud, designing labels and ensuring quality assurance becomes far more accessible. Additionally, the software-as-a-service (SaaS) model doesn’t require the capital investments or operations and maintenance upkeep associated with costly IT infrastructure and is easily scalable depending on business needs. This is a game changer for small to medium sized businesses who can now benefit from a centralized labeling system because of the cloud.

The Benefits of a “Single-source-of-truth”

In addition to other benefits, integrating a modern label management solution with other business systems allows users to access a “single-source-of-truth.” This allows for enforceable, specific user roles with logins for each user as well as traceability and transparency across all factories that produce products. The traceability from being able to monitor a “single-source-of-truth” is a critical component to farm-to-fork transparency because it can provide an accurate production log overviewing label versions and changes, so companies can pinpoint the locations and causes of labeling inaccuracies and fix them instantly.

A modern label management system also enables organizations to nimbly respond to new regulatory requirements because alterations only need to be made in one location, new templates can be previewed before going to production, and nutrition and allergen functionality can be easily formatted so that it is clear and stands out to the consumer. This increases labeling consistency and accuracy, and saves time when rules change and when new products need to be incorporated during a merger or acquisition.

Futureproofing and Ensuring Consumer Safety with Allergen Labeling

In today’s world, food and beverage manufacturers must rise to the challenge of changing regulations while meeting the call of shifting customer demands and integrating themselves within greater business ecosystems and extended supply chains. In the case of allergen labeling, this may mean preparing labels for different countries, which have varying standards for labeling allergens like sesame, royal jelly, bee pollen, buckwheat and latex, or ensuring labels can be altered quickly when new products are rolled out or when bodies like the FDA revamp standards.

Companies that implement modern label management solutions position themselves to adapt to competition and regulations quickly, implement solutions that can easily be integrated with partners in a supply chain, and streamline quality control. This can help improve productivity, reduce labeling errors, increase collaboration, and prevent product recalls. But most importantly, it helps ensure the safety of consumers everywhere.