Tag Archives: Supply Chain

Checklist

2020 FSC Episode 4 Wrap: FDA: There’s a Strong Business and Public Health Case for Better Traceability

By Maria Fontanazza
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Checklist

One year ago the FDA held an at-capacity public meeting to discuss its latest initiative, the New Era of Smarter Food Safety. At the time, the agency was planning to release the blueprint for the New Era in the spring of 2020. In fact, the FDA was just days away from unveiling it when the COVID-19 pandemic hit in March. The blueprint was put aside and it was all hands on deck, as the agency worked with the food industry to ensure companies continued operating, as they were deemed a part of America’s critical infrastructure. From there, the agency navigated through uncharted waters with the food industry and its stakeholders. It signed an MOU with USDA in an effort to prevent disruptions at FDA-regulated food facilities and address shortages of PPE, disinfection and sanitation supplies. It announced that it would conduct remote inspections and extended the comment period for the Laboratory Accreditation Program Proposed Rule. It released a COVID-19 food safety checklist with OSHA to help guide companies through employee health, social distancing, and the operational issues that have entered into play as a result of the pandemic. Food companies and the supply chain were facing an enormous challenge.

“I always thought we had one of the best food systems in the world… by and large we have an amazing food system,” said Frank Yiannas deputy commissioner for food policy and response during last week’s keynote address at the 2020 Food Safety Consortium Virtual Conference Series. “We just experienced the biggest test on the food system in 100 years. Have we passed the test? I don’t think anyone would say we scored 100%… but by and large we passed the test.” Yiannas added that COVID-19 has exposed some strengths and weaknesses in the food system as well. He also emphasized a point that he has been driving home throughout the pandemic: “The virus that causes COVID-19 is not a virus that is transmitted by food. It is a respiratory virus and generally transmitted in very different ways.”

The FDA released the blueprint for the New Era of Smarter Food Safety, which incorporated some lessons learned from COVID-19, in July. Traceability is a big part of agency’s new era initiative, and the pandemic further put a spotlight on the need for better tracking and tracing in the food industry. And under FSMA, FDA is required to “establish a system that will enhance its ability to track and trace both domestic and imported foods”. In working to meet this requirement, FDA proposed the FSMA rule on food traceability last month.

Yiannas said the proposed rule has the potential to lay the foundation for meaningful harmonization and called aspects of the proposed rule game changing. It establishes two critical components that are the leading edge of food traceability: It defines critical tracking events (i.e., what are the types of events in the food system that required those events to be kept) and key data elements (i.e., the data elements that must be captured at those critical tracking events). “These two things are big ideas for traceability,” said Yiannas. “They will allow us to harmonize how traceability is to be done, allow us to scale and allow for greater interoperability.” The proposed rule also creates a traceability list that identifies foods based on a risk-ranking model for food tracing.

FDA is encouraging comments on the proposed rule and is holding three meetings (November 6, November 18 and December 2) to discuss the proposed traceability rule. “We are going to create the final rule together,” said Yiannas.

As part of a special offering, Episode 4 has been made available for viewing on demand for free. Register to view the on-demand recording.

Susanne Kuehne, Decernis
Food Fraud Quick Bites

Hot on Food Fraudsters’ Heels

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

The Institute of Global Food Security at Queen’s University Belfast successfully identifies food fraud in the ever more complex food supply chain by developing and applying reliable analytical tests. Chris Elliott, professor of food safety and founder of the Institute, points out a two-tier approach of untargeted analysis and targeted analysis. Tier One is low cost and easy-to-use with 80–90% reliability. The second tier of highly sophisticated analytical methods, like mass spectrometry, gas chromatography and others, can identify a food item with a 99.999% certainty. These analytical methods combined with correct data are able to identify even details like type of fish, country of origin of a food item, added ingredients, and much more.

Resource

  1. Professor Chris Elliott. (August 13, 2020). “Reliable targeted analysis solutions to fight food fraud.” The Scientists’ Channel.
Tom Gosselin, DNV GL
FST Soapbox

Time to Get More Value From Social Audits

By Tom Gosselin
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Tom Gosselin, DNV GL

If global supply chains were considered complex before COVID-19, it’s hard to imagine what we’d call them now. Is there a single business operating exactly as it did before the pandemic?

All the more surprising, when survival would seem to be the top priority, pre-pandemic risk factors are not only alive and well, but they also actually outweigh coronavirus as strategic business concerns. In fact, COVID-19 didn’t even make the top five risk factors in the World Economic Forum’s 2020 Risk Report.

In its analysis of the WEF report, consulting firm Ernst and Young stated the following:

“While the risk of a pandemic was noted as important in the report, and something for which we are unprepared globally, it was not identified as one of the top five risks in terms of likelihood or impact in the 2020 survey. High-impact and highly probable risks, such as climate change, biodiversity loss and water crises, are just as present now as they were before the pandemic started . . .”

In our experience, some pre-pandemic business trends have actually gone from “warm and fuzzy” to red hot in spite of, or perhaps even due to, the COVID chaos. One prime example is in the case of social audits.

Social audits have been increasingly used over the past decade to evaluate corporate social responsibility and, indeed, the ethical conduct of entire supply chains. We’ve worked extensively with some of the biggest names in consumer electronics to conduct hundreds of social audits among component suppliers of all sizes. These assessments are mandatory, not by law, but by business policy. The vast scope reflects the importance—and business value—of operational factors that go beyond pure economics, whether it’s related to labor practices, health and safety, or environment.

A growing number of organizations strongly believe that social responsibility and profits are not mutually exclusive; they are in fact enablers of one another—but only if you commit to mining the full value of these programs. Think of it like data mining. Within any large body of information, you can almost always find hidden value. If you know how to look and have the proper tools. In the case of social auditing, the tools are the insights and methods employed by the auditing teams.

This is such a vital concept that we have designed its social auditing process to exceed even what the Responsible Business Alliance requires in its code of conduct. As a baseline, like every other auditor, we first look for nonconformities, which are the most serious issues requiring immediate attention. We also report “observations”, a second level of findings that speaks to things that are suboptimal but are not out of compliance, per se. That’s where it usually stops. This is the mentality of fault finding. And it has defined social auditing for a long time.

We can, and do, break that mold. Taking another critical step to ask, “what’s going right?”, provides an extra level of inquiry that probes for opportunities embedded in the fabric of the way things work. It could be an unrecognized best practice, something that people have been doing but nobody took the time, or had the awareness, to document and share. Often times, it’s something frontline workers have done as a response to an unexpected development, like a pandemic that makes you work from home.

In one service-based organization, we found that the sudden shift to working from home led to an unwelcomed rise in cases of domestic violence. We discovered this during audits of pay rates and working hours. The company was able to develop an innovative response, establishing a framework of verbal signals that workers now use to communicate stress or threat. In another instance, while auditing a large industrial company for workplace safety, we found that employees were using a shortcut to avoid a required safety measure. By probing and asking questions in a non-accusatory way, those same workers recommended a very simple workaround to the workaround—thereby restoring the safety measure without adding complexity to the task.

The key to all of this is mindset. Not just ours (the auditors), but the client organization’s as well. You must be willing to broaden the very idea of “compliance.” Sometimes, things that are out of spec are that way for a reason. Rather than lump every outlier as a flaw, you should look beneath the surface and see if there’s a good reason for it. That doesn’t automatically mean nonconformities are suddenly something else. But if you are only looking for problems, that’s all you’re going to find.

Megan Nichols
FST Soapbox

Four Influential Technologies Changing Food Manufacturing

By Megan Ray Nichols
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Megan Nichols

Some impressive technologies are not only impacting the food industry right now but will also have a huge impact in the future. As their use grows to be more prevalent, the industry will change to be smarter and more efficient, with continued improvements across the board.

1. AI and Advanced Robotics

While artificial intelligence and advanced robotics are two distinct technologies, they are frequently paired together. AI, and the data it digests, is used to command robots, allowing them to be more precise, more intelligent and more aware.

Most robots on their own are capable of completing only repetitive and clearly defined tasks. Throw something unique into the mix and they’ll either fumble or fail. However, when governed by data-based intelligence solutions like AI or machine learning, those robots become something incredibly advanced.

In the food industry, machinery and robots are leveraged to improve operations, further maintaining quality and efficiency, at affordable costs. They often work alongside human laborers to augment or enhance processes. They come with several unexpected benefits as well, such as much-improved safety for workers, faster and higher product output and consistent, reliable quality.

For example, JBS, one of the world’s largest meatpacking firms, deployed robotic butchers within its plants. The robots were used to slice more challenging meats, which reduced workplace injuries.

2. Automation

Automation stands alongside AI and advanced robotics, even incorporating those technologies to create a streamlined system. As of 2017, 73% of surveyed companies in the food and beverage manufacturing industry either had or were in the process of establishing automation within their facilities.

Many systems are designed to replace or enhance repetitive tasks, boosting their speed and accuracy, to significantly improve output, without incurring a loss in quality. It’s not just about hardware, like swapping a human laborer for a robot. It’s also achieved through software. Think supply chain management solutions that help plan for various events and experiences without human input.

When many of these technologies are used side-by-side, it strengthens their application and usability. As is true of advanced robotics, for example, AI can also be used to create more intelligent automation platforms. Instead of carrying out rote or simple tasks, they can be programmed to react and engage through any number of parameters. The system might slow production, for instance, based on a decrease in product demand. Or, it might swap to an alternate component or ingredient because of a shortage somewhere.

With the right controls and support, automation technologies are game-changing. With the global population growing and demands increasing more with each year, food manufacturers will look to streamline their operations and boost output in any way possible, and automation will be a go-to.

3. Digital Twins

Digital twins in food manufacturing are essentially simulated copies or a virtual representation of a physical system. That definition might seem confusing, but think of it as a clone that can be manipulated for testing and analytics.In other words, it is a twin of the actual system and information, in every sense of the word, albeit one that is more versatile and less vulnerable. It allows manufacturers and distributors to run simulations by feeding specific information into the system to identify patterns, recognize outcomes and much more.

As the systems and controls supporting the field become smarter and more digitized, digital twins in food manufacturing will find their way into product development, testing, post-production, distribution and nearly every other facet of the industry. It will become an integral component to not only understand what’s happening in the market but also for keeping up with the ebb and flow of supply and demand.

4. Blockchain

Even well before the pandemic, people had become much more conscious about the foods they consume. They want to know the origin of their goods and whether they’ve been sourced using safe, healthy and environmentally friendly methods. The problem with such demands is that, until recently, there haven’t been many solutions for increased visibility within the food supply chain.

Growing concerns for health are now a priority, and visibility is an absolute must. Blockchain technology is the answer, providing precisely the kind of visibility, efficiency, controls and collaboration that consumers want.

With this food manufacturing technology in place, someone could trace a head of lettuce back to its initial seeding. They can see who grew the plants and where, and which methods they used to mature the crop. Then, they can follow its journey to the store shelf.

How is such a thing possible? It all has to do with the technology. In its simplest form, Blockchain is a digital ledger or complete and digitized record of a particular data set. The data that goes in is added to something called a block, and as more is added, it is tacked on to the end of that block to create a long, linked record. Every bit of information is visible across the entire chain, hence the name blockchain.

Walmart is using the technology to track potential food contamination outbreaks. It empowers them to not just find the source but also find the many branches involved — like where goods might have been shipped and who may have purchased them.

Food Manufacturing Technology for the Future

While each food manufacturing technology discussed here is incredibly influential and will have a direct impact on the future of the industry, they are not the only solutions making waves. Some additional examples include:

  • Drones and automated delivery vehicles
  • 3-D printing for edible goods
  • Smart or precision agriculture
  • High-tech packaging
  • Smarter waste disposal and recycling

The takeaway is that technology is vastly improving the operational efficiency of the food supply chain, from farmers and manufacturers to the retail stores featuring goods on their shelves. There’s no right or wrong buy-in, as any one of these technologies can be used to streamline separate processes. The biggest challenge will be deciding what to upgrade first, especially when it comes to delivering high-quality, fresh goods in a prompt manner.

Sudip Saha, Future Market Insights
FST Soapbox

Five Trends Defining the Food Industry Post-COVID

By Sudip Saha
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Sudip Saha, Future Market Insights

Food retailers and the entire food and beverage (F&B) industry are now operating very differently than they did some six months ago. The pandemic has brought immense shifts in supply chains, imposed new hazard controls, and—perhaps most importantly—turned consumer preferences upside down.

To accommodate these changes, food manufacturers, retailers, restaurants and others stepped up to innovate and secure the continuity of their services. But now, as many industries begin to drop the notion of ever going back to what once was, it’s time we started thinking about how many of the newly introduced processes will stick around for the long-term.

What will be the main trends defining the food industry as a whole post-COVID?

Adopted Habits Aren’t Going Anywhere

The pandemic brought radical changes to our everyday lives, and it’s clear that many of the newly adopted behaviors won’t disappear overnight. Consumers will continue to rely on grocery retailers to keep them both fed and healthy while expecting minimum disruptions and a high respect for safety regulations—both in terms of handling and the state of delivered products.

Take-home grocery sales grew by 17% between April and July, breaking the record for the fastest period of growth since 1994. Online grocery shopping also gained popularity while managing to engage entirely new demographics. Some 10% of baby boomers now say they would buy more groceries online once the pandemic is over—compared to 34% of Gen Xs and 40% of millennials.

Due to consumer hyper-awareness of safety and sanitation, the whole food industry will continue to be defined by safety practices. Sanitizing common surfaces like keyboards, door handles, tables and chairs regularly will remain the norm. Beyond “manual” rules such as the mandatory use of facemasks, requirements such as regular health checks could boost the adoption of technology across the industry—transforming not only customer-facing interactions but also the processes behind the curtain.

Technology as an Enabler

Every crisis sparks innovation, and the food industry has certainly proved this thesis. Technology has become the ultimate aide, enabling interactions that would otherwise be impossible. These include contactless ordering, payments and pickup—processes that are likely to stick around even beyond COVID-19.

At the same time, the pandemic accelerated the usage of innovations that previously struggled to become mainstream. This includes virtual tipping jars or mobile order-and-pay, such as the options introduced by fast-food giants including McDonald’s, Subway, KFC, and Burger King.

There’s an obvious appetite for F&B companies to further incorporate technology. For example, the Coca-Cola Company is rolling out a touchless fountain experience that can be used with a smartphone for contactless pouring. Heineken, on the other hand, turned to virtual tech to launch a new product—a cardboard topper for multipack beer that will eliminate plastic from millions of cans. With travel restrictions hindering the mobility of engineers, the company leveraged virtual technology to install the new machinery needed at its Manchester-based factory.

But it’s not just solitary innovations; the market has already seen new AI-based technologies that help food businesses better manage risk in their workforce. Food manufacturing, distribution and provision require many different touchpoints; by predicting, monitoring and testing the health and safety of the workers involved in these processes, companies can ensure they keep their operations running, even if another wave of COVID-19 hits. Solutions like these will be crucial when looking to add another layer of safety that goes beyond mandatory governmental regulations.

Food Safety Revamped

Even though COVID-19 is transmitted through airborne respiratory droplets, and the risk of contracting the virus through food is low, people around the world are concerned about the possibility. After all, 40% of people are more careful about washing unpackaged fruit and vegetables than before the pandemic.

The pandemic has already made societies rethink various established concepts, such as wet markets or the consumption of wild animals. The pandemic could, therefore, lead to changed behaviors, and newly imposed rules such as formalizing small and micro food enterprises, provisions for direct sales by farmers, leveraging technology to ensure safety, and investments in a more robust food infrastructure altogether.

Such changes could also irreversibly affect street food—a sector that is bound to feel the hit of COVID-19. Particularly in countries with diverse street food culture, one of the emerging trends will be the rise of gourmet street food brands that can provide both great taste and high hygiene standards.

Food Sustainability to the Forefront

2020 will be a year of reckoning for the world’s food systems. The pandemic exposed the flaws of the global food supply chain that continues to be highly centralized and operating on a just-in-time basis. This is why we have seen panic food runs, urgent supply shortages and high amounts of food waste as many businesses were shut down overnight. In developing countries, several agencies expect that a “hunger pandemic” and a doubling of people starving could happen unless serious action is taken.

As we rethink the underlying principles of the food industry such as safety and supply, other concepts such as transparency and visibility into product sourcing and manufacturing also come into the spotlight. Consumers across the globe are more likely to prioritize offerings that are healthy and locally sourced than they were before COVID-19.

Food produced with the overuse of chemicals in monoculture cropping systems and large-scale animal farming significantly impact the availability of natural resources and cause substantial greenhouse gas emissions. Added to that, practices like industrial animal farming that operate with large numbers of livestock in confined spaces are a breeding ground for viruses, and have been linked to prior outbreaks such as the outbreak of swine flu in 2009. They also enable the spread of antibiotic-resistant organisms due to the common overuse of antibiotics administered to prevent infections caused by cramped living conditions.

Consumers are increasingly aware of this: Nearly 25% of Americans are now eating more plant-based food. As we move forward, diverse food companies are likely to tap into this trend, resulting in great opportunities for plant-based, nutritious, local, and even healthy DIY meals and products. For example, an Australian food producer has recently announced the launch of a new proprietary product range that will offer the first vegan ready-to-drink protein shakes on the Australian market.

A New Way of Dining

The restaurant market has been one of the direct victims of the pandemic but has shown impressive elasticity in adapting to the new realities. Many businesses have introduced service extensions such as deliveries and take-outs, as well as pop-up grocery stores. Enjoying great popularity, some of these options will stick around far beyond the pandemic.

However, there’s a counterforce hindering significant expansion: The simple fact that many consumers discovered a new joy in cooking. A recent study notes that 54% of Americans are now cooking more than they were before the pandemic, with 35% saying that they “enjoy cooking more now than ever.” But at the same time, 33% of consumers say they’re getting more takeout than before the pandemic. This implies that the post-pandemic normal will likely see a shift toward eating at home more often, whether that means cooking or takeout and delivery.

Therefore, restaurants are likely to continue diversifying their services, experiment with food bundles and DIY meal kits, or even luxurious in-home chef visit experiences as an alternative to high-end restaurant dining.

The past crises have shown that economic uncertainty is directly linked to changes in demand for private-label and value brands. After the 2008 financial crisis, 60% of U.S. consumers were more interested in reasonably priced products with core features than in higher-priced, cutting-edge products. So while luxury dining is not completely disappearing, it could take on other aspects.

In Denmark, for example, a two-Michelin star restaurant is moving to serve burgers. In China, a country that many look to as the model for the post-COVID world, there has also been a clear push toward more affordable dining as well. Hot pot and barbecue venues have been thriving, particularly among customers in their 20s and 30s. Many fine dining restaurants, on the other hand, have started offering affordable lunch menus or have cut prices to correspond to the current value-conscious behaviors.

It’s clear that the future of food retail and the F&B industry will be significantly marked by the pandemic. Its prolonged nature will also cause the newly adopted habits to become further solidified—and many processes will adapt to match them. For example, while contactless deliveries were accelerated in the past months, businesses are working hard to make them as efficient as convenient as possible, making it unlikely that such investments would be erased overnight, once COVID-19 is no longer a threat.

Checklist

2020 FSC Episode 1 Wrap: Food Defense & Food Safety Culture Go Hand-in-Hand

By Maria Fontanazza
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Checklist

Yesterday marked the beginning of the 2020 Food Safety Consortium Virtual Conference Series. Episode 1 featured Food Defense Foundational Planning Elements: Strategies, Insights and Best Practices. Led by Jason Bashura, senior manager, global defense at PepsiCo, food defense experts from manufacturing, retail and the government shared different perspectives on the FSMA Intentional Adulteration rule; how to develop a food defense plan; the key role that food safety culture plays in food defense; education and training; and establishing awareness of and combating various threats to the food supply, including the insider threat.

Especially eye-opening was the information presented by Robert Norton, Ph.D. of Auburn University about the threats against the food supply (a “target-rich environment”) and the range of adversaries and their motivation for disrupting the food supply.

Summer of 2020: Hot Topics Include FDA Inspections, Records Retention, and New Technology Era

By Food Safety Tech Staff
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10

Is Food-Grade always Food-Safe?

9

Important Restaurant Food Storage Safety Tips You Need to Know

8

How a History of Slow Technology Adoption Across Food Supply Chains Nearly Broke Us

7

FDA Unveils Blueprint for New Era of Smarter Food Safety

6

FDA, CDC Investigating Multistate Cyclospora Outbreak Involving Bagged Salads

5

COVID-19 Leads Food Companies and Meat Processors to Explore AI and Robotics, Emphasize Sanitation, and Work from Home

4

FDA Announces Inspections Will Resume…Sort Of

3

Sustainability Strategies for the Food Industry

2

Top Three Visibility Challenges in Today’s Food Supply Chain

1

The COVID-19 Record Retention Conundrum

Karen Everstine, Decernis
Food Fraud Quick Bites

Adulteration of Botanical Ingredients

By Karen Everstine, Ph.D.
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Karen Everstine, Decernis

Botanical ingredients are important to the food and beverage industries as well as the dietary supplements industry. Botanicals are plants or specific plant parts (leaves, roots, bark, berries, etc.) that are used for particular properties. These properties can be therapeutic or related to color, flavor or other attributes. Botanicals include extracts such as Ginkgo biloba, saw palmetto, and elderberry as well as herbs and spices used in cooking, essential oils, pomegranate juice and extracts, and olive oil. There is a substantial overlap between botanical products used in the herb and supplement industries and those used in foods and beverages. Many “conventional” foods and beverages include botanical extracts or other ingredients to advertise a therapeutic effect.

In 2014, FDA issued a final guidance for industry related to labeling of liquid dietary supplements (vs. beverages). FDA noted, in their rationale for the guidance, two trends:

“First, we have seen an increase in the marketing of beverages as dietary supplements, in spite of the fact that the packaging and labeling of many liquid products represent the products as conventional foods. Products that are represented as conventional foods do not meet the statutory definition of a dietary supplement…and must meet the regulatory requirements that apply to conventional foods.

Second, FDA has seen a growth in the marketplace of beverages and other conventional foods that contain novel ingredients, such as added botanical ingredients or their extracts. Some of these ingredients have not previously been used in conventional foods and may be unapproved food additives. In addition, ingredients that have been present in the food supply for many years are now being added to beverages and other conventional foods at levels in excess of their traditional use levels or in new beverages or other conventional foods. This trend raises questions regarding whether these ingredients are unapproved food additives when used at higher levels or under other new conditions of use. Some foods with novel ingredients also bear claims that misbrand the product or otherwise violate the FFDCA.”

The American Botanical Council (ABC) has been publishing information on the safe, responsible and effective use of botanicals since 1988, including the quarterly journal HerbalGram and a book of herb monographs The ABC Clinical Guide to Herbs. In order to help combat the increasing problem of adulteration in the industry, the Botanical Adulterants Prevention Program (BAPP) was launched in 2010 by ABC along with the American Herbal Pharmacopeia and the University of Mississippi National Center for Natural Products Research. The goal of BAPP is to educate members of the herbal and dietary supplement industry about ingredient and product adulteration through the publication of documents such as adulteration bulletins and laboratory guidance documents. The information in these documents helps ensure the identity, authenticity and safety of botanicals along the supply chain.

Karen Everstine will be discussing food fraud during the 2020 Food Safety Consortium Virtual Conference Series | An example of the Botanical Adulterants Prevention Bulletin for cranberry is seen in Figure 1. It includes a description of the species that can be labeled as cranberry in the United States, a brief description of the marketplace, information on potential adulterants in cranberry fruit extract and other cranberry products, and guidance on analytical methods to test cranberry products for adulteration.

Cranberry adulteration, Botanical Adulterants Bulletin
Figure 1 courtesy of Decernis and the Botanical Adulterants Bulletin.

Decernis has been working with the Botanical Adulterants Prevention Program (BAPP) to integrate links to their expert content into the Food Fraud Database (FFD). This will ensure our users can better develop ingredient specifications, manage risk, and protect their consumers by leveraging this content for food fraud and herbal ingredient fraud prevention. We are currently incorporating three types of BAPP documents into FFD:

  • Adulterants Bulletins. Information and links to these documents will be entered as Inference records in FFD. We are extracting ingredient and adulterant names (including Latin names as synonyms) from the document, assigning “Reasons for Adulteration,” and providing a link to the full document on the BAPP website.
  • Adulteration Reports. Information and links to these documents will also be entered as Inference records in FFD. We are extracting ingredient and adulterant names from the document, assigning “Reasons for Adulteration,” and providing a link to the full document on the BAPP website.
  • Laboratory Guidance documents. Information and links to these documents will be entered as both method record and inference records in FFD. We are extracting ingredient and adulterant names from the document, assigning “Reasons for Adulteration,” and providing a link to the full document on the BAPP website.

Decernis analysts are currently integrating this content into FFD, which will be uploaded to the system between now and early September.

Pratik Soni, Omnichain
Retail Food Safety Forum

Top Three Visibility Challenges in Today’s Food Supply Chain

By Pratik Soni
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Pratik Soni, Omnichain

To say that COVID-19 has been disruptive would be putting it mildly. The pandemic’s sudden and seismic impact has brought major upheaval across industries—the food industry and its supply chain included.

There was the initial panic buying that drove upticks in consumer demand for which few manufacturers and grocers were prepared, resulting in widespread product shortages. With restaurants closed, distributors and suppliers were left with considerable excess inventory—most of which ended up as waste and losses. Inside production sites and plants, many had to try and maintain their output with a reduced workforce, even as demand continued to climb. Meanwhile, some plants unfortunately have had to shut down operations on account of employees testing positive for COVID-19.

In the time since the outbreak, the food supply chain has stabilized to an extent. Store shelves are continuously being replenished with products. Restaurants have started reopening with new health and safety measures. Yet even as the industry takes gradual steps toward recovery, the underlying problem that led to the magnitude of COVID-19’s impact persists: Lack of visibility. There was lack of visibility into supply and demand and what was happening upstream and downstream across the supply chain, which prevented timely, proactive action to optimize operations in face of disruption.

Looking ahead, participants across the food supply chain will need enhanced end-to-end visibility so that they can work together to get ahead of the curve. As part of gaining this visibility, they will need the transparent exchange of information and cohesive collaboration to adapt especially as the food industry continues to see shifts in consumer behavior and the marketplace in the wake of COVID-19—particularly in the following three key areas.

Food Distribution

While food producers have been working tirelessly to keep grocery store shelves and restaurant kitchens well stocked, there continues to be fluctuating availability on certain products, such as eggs, dairy, poultry and meat. This has led distributors and suppliers to increase their prices when selling these goods to stores and restaurants, who have had to then pass the additional costs on to consumers through their own price increases and surcharges, respectively. One report from CoBank, a cooperative bank part of the Farm Credit System, notes there could be as much as a 20% increase in the price of pork and beef this year due to supply issues.1 Many grocers have also implemented purchase limitations on consumers to combat shortages.

These downstream implications stem largely to uncertainty in the supply chain, with stores and restaurants unsure about available supply upstream and when they can expect to receive shipments. But if there was clearer visibility and transparency between production, distribution, transportation, food service and retail, then all parties could better anticipate and plan for supply shortages or delays. For instance, if a meat processing plant has to temporarily close due to cases of COVID-19, they can immediately communicate to the rest of the supply chain so that parties downstream can readily find alternative sources and minimize any necessary price inflations or other implications to consumers.

Consumer Demand

Even with the reopening of restaurants, people will likely choose to cook more of their meals at home. It was a trend that began with restaurant closures and will continue for the foreseeable future as consumers remain cautious of dining out. While this may bring tough times ahead for the food service industry, the grocery sector is seeing a huge lift in business. Research from restaurant management platform Crunchtime shows that, towards the end of June, restaurants were only seeing 64.5% of their pre-COVID-19 sales levels.2 At the same time, a study by Brick Meets Click and Mercatus reveals U.S. online grocery sales reached a record $7.2 billion in June, up nearly 10% over May.3

For food companies and brands, growth in the grocery sector has presented a challenge in the way of demand planning and forecasting. I’ve personally spoken with several company executives who have seen significant upticks in orders from their grocery channel partners—an increase for which they didn’t forecast—and are now struggling to adjust production levels accordingly to avoid the risk of excess production that would lead to unnecessary costs, wastes and losses. In such instances, real-time visibility into transactional activity and stock levels at the retail level would help production planners improve the accuracy of their forecasts and enable them to think steps ahead before orders come in and thereby optimally balance supply with demand. Stores would remain well stocked and the supply chain could flow in a more efficient and profitable way for all participants.

Food Handling

Without question, public health is the number one priority right now. Participants at each point in the food supply chain today need to communicate with each other, as well as to consumers, that they’re following best practices for social distancing, disinfecting and other precautions. It’s not to prevent the possible transfer of the virus via actual products, as the FDA notes there is currently no evidence of transmission through food or packaging. But rather, it’s to build greater confidence in the food supply chain—that everyone is doing their part to support individual and collective health and safety, which in turn prevents possible facility closures or other case-related bottlenecks that would inhibit consistent supply to the market.

There also has to be confidence that, amid these countermeasures for COVID-19, companies are still upholding their commitments to food safety, integrity and proper handling. What can support that confidence is data—shared data from every point in a product’s journey from source to shelf. The data should be transparent and available to all supply chain participants as well as immutable so that it is tamperproof and fully traceable should there be any problem, such as mislabeling or a foodborne illness. The data ultimately holds everyone accountable for their role in ensuring a safe food supply chain.

To achieve the level of visibility outlined above, the food industry will have to break away from legacy processes involving the siloed management of operational systems and databases. Instead, the disruption seen during COVID-19 and ongoing shifts in the marketplace should encourage companies to consider digital transformation and technologies that can enable a more cohesive and nimble food supply chain. These are technologies like blockchain, which provides a decentralized, distributed ledger to publish and share data in real time. Moreover, artificial intelligence that can leverage incoming real-time data to guide next-best actions, even when the unexpected occurs. Personally, I always return to the notion that the supply chain is a team sport. You need visibility to know what each team member is doing on the field and how to align everyone on a gameplay. The digital solutions available today offer that visibility and insight, as well as the agility to pivot as needed to obstacles along the journey from source to shelf.

References

  1. Taylor, K. (May 6, 2020). “The American meat shortage is pushing prices to unprecedented heights — here’s how it could affect your grocery bill.” Business Insider.
  2. Maze, J. (July 7, 2020). “As the coronavirus resurges, restaurant sales start slowing again.” Restaurant Business.
  3. Perez, S. (July 6, 2020). “US online grocery sales hit record $7.2 billion in June.” TechCrunch.
LIMS, Laboratory information management system, food safety

How Advanced LIMS Brings Control, Consistency and Compliance to Food Safety

By Ed Ingalls
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LIMS, Laboratory information management system, food safety

Recent food scandals around the world have generated strong public concerns about the safety of the foods being consumed. Severe threats to food safety exist at all stages of the supply chain in the form of physical, chemical and biological contaminants. The current pandemic has escalated the public’s concern about cross contamination between people and food products and packaging. To eliminate food risks, manufacturers need robust technologies that allow for reliable monitoring of key contaminants, while also facilitating compliance with the ISO 17025 standard to prove the technical competence of food testing laboratories.

Without effective data and process management, manufacturers risk erroneous information, compromised product quality and regulatory noncompliance. In this article, we discuss how implementing a LIMS platform enables food manufacturers to meet regulatory requirements and ensure consumer confidence in their products.

Safeguarding Food Quality to Meet Industry Standards

Food testing laboratories are continually updated about foodborne illnesses making headlines. In addition to bacterial contamination in perishable foods and ingredient adulteration for economic gains, chemical contamination is also on the rise due to increased pesticide use. Whether it is Salmonella-contaminated peanut butter or undeclared horsemeat inside beef, each food-related scandal is a strong reminder of the importance of safeguarding food quality.

Food safety requires both preventive activities as well as food quality testing against set quality standards. Establishing standardized systems that address both food safety and quality makes it easier for manufacturers to comply with regulatory requirements, ultimately ensuring the food is safe for public consumption.

In response to food safety concerns, governing bodies have strengthened regulations. Food manufacturers are now required to ensure bacteria, drug residues and contaminant levels fall within published acceptable limits. In 2017, the ISO 17025 standard was updated to provide a risk-based approach, with an increased focus on information technology, such as the use of software systems and maintaining electronic records.

The FDA issued a notice that by February 2022, food testing, in certain circumstances, must be conducted in compliance with the ISO 17025 standard. This means that laboratories performing food safety testing will need to implement processes and systems to achieve and maintain compliance with the standard, confirming the competence, impartiality and consistent operation of the laboratory.

To meet the ISO 17025 standard, food testing laboratories will need a powerful LIMS platform that integrates into existing workflows and is built to drive and demonstrate compliance.

From Hazard Analysis to Record-Keeping: A Data-Led Approach

Incorporating LIMS into the entire workflow at a food manufacturing facility enables the standardization of processes across its laboratories. Laboratories can seamlessly integrate analytical and quality control workflows. Modern LIMS platforms provide out-of-the-box compliance options to set up food safety and quality control requirements as a preconfigured workflow.

The requirements set by the ISO 17025 standard build upon the critical points for food safety outlined in the Hazard Analysis and Critical Control Points (HACCP) methodology. HACCP, a risk-based safety management procedure, requires food manufacturers to identify, evaluate and address all risks associated with food safety.

LIMS, laboratory information management system
LIMS can be used to visualize control points for HACCP analysis according to set limits. Graphic courtesy of Thermo Fisher Scientific.

The systematic HACCP approach involves seven core principles to control food safety hazards. Each of the following seven principles can be directly addressed using LIMS:

  • Principle 1. Conduct a hazard analysis: Using current and previous data, food safety risks are thoroughly assessed.
  • Principle 2. Determine the critical control points (CCPs): Each CCP can be entered into LIMS with contamination grades assigned.
  • Principle 3. Establish critical limits: Based on each CCP specification, analytical critical limits can be set in LIMS.
  • Principle 4. Establish monitoring procedures: By defining sampling schedules in LIMS and setting other parameters, such as frequency and data visualization, procedures can be closely monitored.
  • Principle 5. Establish corrective actions: LIMS identifies and reports incidents to drive corrective action. It also enables traceability of contamination and maintains audit trails to review the process.
  • Principle 6. Establish verification procedures: LIMS verifies procedures and preventive measures at the defined CCPs.
  • Principle 7. Establish record-keeping and documentation procedures: All data, processes, instrument reports and user details remain secured in LIMS. This information can never be lost or misplaced.

As food manufacturers enforce the safety standards set by HACCP, the process can generate thousands of data points per day. The collected data is only as useful as the system that manages it. Having LIMS manage the laboratory data automates the flow of quality data and simplifies product release.

How LIMS Enable Clear Compliance and Optimal Control

Modern LIMS platforms are built to comply with ISO 17025. Preconfigured processes include instrument and equipment calibration and maintenance management, traceability, record-keeping, validation and reporting, and enable laboratories to achieve compliance, standardize workflows and streamline data management.

The workflow-based functionality in LIMS allows researchers to map laboratory processes, automate decisions and actions based on set criteria, and reduce user intervention. LIMS validate protocols and maintain traceable data records with a clear audit history to remain compliant. Data workflows in LIMS preserve data integrity and provide records, according to the ALCOA+ principles. This framework ensures the data is Attributable, Legible, Contemporaneous, Original and Accurate (ALCOA) as well as complete, consistent and enduring. While the FDA created ALCOA+ for pharmaceutical drug manufacturers, these same principles can be applied to food manufacturers.

Environmental monitoring and quality control (QC) samples can be managed using LIMS and associated with the final product. To plan environmental monitoring, CCPs can be set up in the LIMS for specific locations, such as plants, rooms and laboratories, and the related samples can then be added to the test schedule. Each sample entering the LIMS is associated with the CCP test limits defined in the specification.

Near real-time data visualization and reporting tools can simplify hazard analysis. Managers can display information in different formats to monitor critical points in a process, flag unexpected or out-of-trend numbers, and immediately take corrective action to mitigate the error, meeting the requirements of Principles 4 and 5 of HACCP. LIMS dashboards can be optimized by product and facility to provide visibility into the complete process.

Rules that control sampling procedures are preconfigured in the LIMS along with specific testing rules based on the supplier. If a process is trending out of control, the system will notify laboratory personnel before the product fails specification. If required, incidents can be raised in the LIMS software to track the investigation of the issue while key performance indicators are used to track the overall laboratory performance.

Tasks that were once performed manually, such as maintaining staff training records or equipment calibration schedules, can now be managed directly in LIMS. Using LIMS, analysts can manage instrument maintenance down to its individual component parts. System alerts also ensure timely recalibration and regular servicing to maintain compliance without system downtime or unplanned interruptions. The system can prevent users from executing tests without the proper training records or if the instrument is due for calibration or maintenance work. Operators can approve and sign documents electronically, maintaining a permanent record, according to Principle 7 of HACCP.

LIMS allow seamless collaboration between teams spread across different locations. For instance, users from any facility or even internationally can securely use system dashboards and generate reports. When final testing is complete, Certificates of Analysis (CoAs) can be autogenerated with final results and showing that the product met specifications. All activities in the system are tracked and stored in the audit trail.

With features designed to address the HACCP principles and meet the ISO 17025 compliance requirements, modern LIMS enable manufacturers to optimize workflows and maintain traceability from individual batches of raw materials all the way through to the finished product.

Conclusion

To maintain the highest food quality and safeguard consumer health, laboratories need reliable data management systems. By complying with the ISO 17025 standard before the upcoming mandate by the FDA, food testing laboratories can ensure data integrity and effective process management. LIMS platforms provide laboratories with integrated workflows, automated procedures and electronic record-keeping, making the whole process more efficient and productive.

With even the slightest oversight, food manufacturers not only risk product recalls and lost revenue, but also losing the consumers’ trust. By upholding data integrity, LIMS play an important role in ensuring food safety and quality.