Tag Archives: proper

Priorities During the Pandemic: How to Run a Lab Under COVID-19

By Dr. Peter Krause, Udo Lampe
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During the COVID-19 pandemic, most testing laboratories have been classified as relevant for the system or as carrying out essential activities for national governments. Therefore, it is crucial to maintain activities and optimally assess the changes that are occurring, framed within the spread of the SARS-CoV-2 virus. Analytica Alimentaria GmbH, a testing laboratory with its headquarters in Berlin, Germany and a branch office in Almeria, Spain, decided to focus its management on the analysis of events and the options available, at the legal and employment level, to ensure continuity of activities and reducing, as much as possible, the damage for the parties involved: employees and company. Accredited by the International Accreditation Service (IAS) to ISO/IEC 17025:2017, Analytica Alimentaria GmbH is required to implement risk-based thinking to identify, assess and treat risks and opportunities for the laboratory. Since March 12, 2020 a crisis committee was established, formed by the six members of the company’s management, covering general management, human resources, direction of production, finance and IT. The committee meets every day and it intends to:

  • Minimize the risks of contagion
  • Be able to continue providing the service required by our clients
  • ensure that the company as a whole will survive the economic impact of the crisis
  • Take measures that are within the legality of both countries where the laboratory operates (Spain and Germany),
  • Manage internal and external communication related to the crisis

To achieve correct decision making, daily meetings of the committee were established, to review the situations that were presented day after day and the actions that should be carried out. Each decision was analysed in a prioritized, objective, collaborative and global way.

The basis of the lab’s action plan was a well-developed risk assessment. In addition to the risk of getting a droplet or smear/contact infection with the coronavirus SARS-CoV-2 (risk I) by contact with other people, psychological stress caused by changing working conditions (home office), contact options and information channels were also identified (risk II).

As a result of the risk assessment, the conclusion was that a mix of various measures is the best form of prevention:

  • Keep distance
  • Avoid “super spreader” events
  • Personal hygiene
  • Regular communication between managers and personnel about the current situation and possible scenarios

The risk assessment took both areas into account. The following assessment was developed together with an external specialist and focused on risk I:

Risk I Assessment Protective measures / hygiene plan
Organisation
Working hours and break arrangements High Limit the gathering of people and ensure a minimum distance:

  • Relocated work, break and mealtimes
  • Create fixed groups of shift-working staff
  • Time gap of 20 min. between the shifts
  • Enable home office wherever it is possible
Third party access Moderate Few but “well-known” visitors:

  • Reduce the number of visits and keep internal contacts to a minimum
  • Ensure the contact chain
  • Inform visitors about the internal rules and obtain written consent
Dealing with

suspected cases

High Isolation and immediate leave of the company:

  • Contactless fever measurement (in case of typical symptoms)
  • Leave the company or stay at home
  • If the infection is confirmed, find contact persons (including customers or visitors) and inform them about a possible risk of infection
Contact with other persons
Traffic route from home to work Moderate Avoid public transportation:

  • Take a car, bicycle or go by foot
  • Enable mobile work and teleworking
At work High Always keep a sufficient distance of 2.0 m from people:

  • If minimum distances cannot be maintained, wear protective masks or install physical barriers (acrylic glass)
  • Organize traffic routes so that minimum distances can be maintained (one-way routes, floor markings indicating a distance of 2 m)
  • Use digital meetings instead of physical ones
Sanitary facilities Moderate Remove virus-loaded droplet as often as possible:

  • Provide skin-friendly liquid soaps and towel dispensers
  • Shorten or intensify cleaning intervals
  • Hang out instructions for washing hands at the sink
  • Include instructions for proper hand-disinfection
Canteens, tea kitchens and break rooms High One person per 10 m² = minimum:

  • Reduce the number of chairs per table
  • Informative signs in every room, indicating the maximum number of permitted persons
Ventilation High Diluting or removing bioaerosols (1 µm virus-droplets):

  • Leave as many doors open as possible
  • Regular and documented shock ventilation every 30 minutes or more frequently, depending on the size of window
  • Operate ventilation and air-conditioning systems, since the transmission risk is classified as low here
Use of work equipment Moderate Use tools and work equipment for personal use:

  • Regular cleaning with changing use (PC, hand tools, coffee machine, …)
  • If possible, use gloves when using equipment for a larger number of users
Protective masks Moderate
  • Use of protective masks as an additional measure, indicating that this does not replace keeping distance
  • Recommend wearing masks in commonly used areas and explain that they do not protect yourself, but help to protect others
  • Give clear instructions (written and oral) on how to use a mask correctly and explain the use and purpose of different mask-types
  • Distribute masks freely

A number of guidelines and concrete measures addressing the risks related to health issues are already in place. Those health issues in risk group II are more closely related to the psychological effects of the crisis, however, are also more complex to mitigate. The key strategy is communication and, in particular, actively listening to all employees of the company.

Analytica’s robust company culture, based on values established in coordination with the whole staff, has been of significant help during the crisis. The some 150 staff members are organized by over 22 team coordinators. During the crisis, active communication has been intensified significantly. The crisis management team set up regular alignment meetings with all the coordinators and with individual persons with particular situations. This way, not only was it possible to explain the development of the crisis and the subsequent measures, the conversations with coordinators were also the most important source of information enabling the appropriate decisions. The coordinators, closely aligned and in sync with management, were then able to communicate with their team members with a high degree of confidence. One outcome of the communication was a measure that proved very effective in fortifying trust within the company: all measures and evaluations, as well as a chronological review, are published in a dynamic internal report and are made available, with full transparency, to all staff members. Besides the many individual and group alignment meetings (usually held by video conference), this has been a key measure to establish confidence and security within the company.

On the other hand, the company made a great effort to balance the effect of the general closure of kindergartens and schools in Spain and Germany. Each case where staff members were required to care for children at home was studied individually and agreements were established, adapting shifts and making use of time accounts, to allow childcare at home without significant loss of income.

The success of the measures is shown by the continuous work of both laboratories during the crisis. Besides the personal tragedy of a possible infection, the identified risk to the company has the consequence of a (partial) quarantine due to an infected person in contact with the staff and the consequent loss of work-power which might lead, in extreme cases, to a closure of the laboratory. According to the governmental regulation in Germany, if an infection occurs (confirmed by the health department), contact persons cat. 1 (more than 15 min. contact face to face) are identified and sent to quarantine. Other contact persons, e.g. contact persons cat. 2 (same room without face to face) must be identified quickly with the collaboration of the infected person and notified and, if necessary, sent in quarantine. In this case, there is a confirmed emergency plan that maintains the laboratory’s ability to work, defining replacements and alternative work-flow strategies.

It has been part of our strategy to validate all our measures with the relevant guidance documents made available by the official competent institutions. The German Federal Office for Public Safety and Civil Protection (Bundesamt für Bevölkerungsschutz und Katastrophenhilfe) has published a guide, “Crisis Management in Companies, 9-point Checklist” especially for critical infrastructure companies in the CoVid-19 crisis.

Having been classified as a core business enterprise (Spain) and “relevant to the system” (Germany), we consider it important to use them as a reference to confirm our level of alignment with your proposal for crisis management.

An important effect, relevant to any leader in times of crisis, is that the confirmation of all points of such a checklist provides certain peace of mind regarding the question: Have we done everything we could?

The Necessity of Food Safety Programs in Cannabis Food Processing

By Gabe Miller
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When processing cannabis, in any form, it is critical to remember that it is a product intended for human consumption. As such, strict attention must also be paid to food safety as well. With more and more states legalizing either medical or recreational cannabis, the potential for improper processing of the cannabis triggering an illness or death to the consumer is increasing.

The FDA Food Safety Modernization Act (FSMA) is the new food safety law that has resulted in seven new regulations, many which directly or indirectly impact the production and processing of cannabis. Under FSMA regulations, food processors must identify either known or reasonably foreseeable biological, chemical or physical hazards, assess the risks of each hazard, and implement controls to minimize or prevent them. The FSMA Preventive Controls for Human Foods (PCHF) regulation contains updated food “Good Manufacturing Practices (cGMPs) that are in many cases made a requirement in a state’s medical or recreational cannabis laws. These cGMPs can be found in 21 CFR 117 Subpart B.

It is imperative that cannabis manufacturers have a number of controls in place including management of suppliers providing the raw material.Food safety risks in cannabis processing could originate from bacteria, cleaning or agricultural chemicals, food allergens or small pieces of wood, glass or metal. The hazards that must be addressed could be natural, unintentionally introduced, or even intentionally introduced for economic benefit, and all must be controlled.

It is unlikely that high heat, used in other food products to remove bad bacteria would be used in the processing of cannabis as many of its desirable compounds are volatile and would dissipate under heating conditions. Therefore, any heat treatment needs to be carefully evaluated for effectiveness in killing bacterial pathogens while not damaging the valuable constituents of cannabis. Even when products are heated above temperatures that eliminate pathogens, if the raw materials are stored in a manner that permits mold growth, mycotoxins produced by molds that have been linked to cancer could be present, even after cooking the product. Storage of raw materials might require humidity controls to minimize the risk of mold. Also, pesticides and herbicides applied during the growth and harvesting of cannabis would be very difficult to remove during processing.

It is imperative that cannabis manufacturers have a number of controls in place including management of suppliers providing the raw material. Other controls that must be implemented include proper cannabis storage, handling and processing as well as food allergen control, and equipment/facility cleaning and sanitation practices. Processing facilities must adhere to Good Manufacturing Practices (GMP’s) for food processing, including controls such as employee hand washing and clothing (captive wear, hair nets, beard nets, removal of jewelry, and foot wear) that might contribute to contamination. A Pest Control plan must be implemented to prevent fecal and pathogen contamination from vermin such as rodents, insects, or birds.

Processing facilities must be designed for proper floor drainage to prevent standing water. Processing air should be properly filtered with airflow into the cannabis processing facility resulting in a slightly higher pressure than the surrounding air pressure, from the clean process area outwards. Toilet facilities with hand washing are essential, physically separated from the process areas. Food consumption areas must also be physically separate from processing and bathroom areas and have an available, dedicated hand sink nearby. Employee training and company procedures must be effective in keeping food out of the processing area. Labels and packaging must be stored in an orderly manner and controlled to prevent possible mix-up.Cleaning of the processing equipment is critical to minimize the risk of cross contamination and microbial growth.

Written food safety operational procedures including prerequisite programs, standard operating procedures (SOP’s), etc. must be implemented and monitored to ensure that the preventive controls are performed consistently. This could be manual written logs, electronic computerized data capture, etc., to ensure processes meet or exceed FSMA requirements.

A written corrective action program must be in place to ensure timely response to food safety problems related to cannabis processing problems when they occur and must include a preventive plan to reduce the chance of recurrence. The corrective actions must be documented by written records.

Supply chain controls must be in place. In addition, a full product recall plan is required, in the event that a hazard is identified in the marketplace to provide for timely recall of the contaminated product.

Cleaning of the processing equipment is critical to minimize the risk of cross contamination and microbial growth. The processing equipment must be designed for ease of cleaning with the minimum of disassembly and should conform to food industry standards, such as the 3-A Sanitary Standards, American Meat Institute’s Equipment Standards, the USDA Equipment Requirements, or the Baking Industry Sanitation Standards Committee (BISSC) Sanitation Standards ANSI/ASB/Z50.2-2008.

Serious food borne contaminations have occurred in the food industry, and cannabis processing is just as susceptible to foodborne contamination. These contaminations are not only a risk to consumer health, but they also burden the food processors with significant costs and potential financial liability.

Anyone processing cannabis in any form must be aware of the state regulatory requirements associated with their products and implement food safety programs to ensure a safe, desirable product for their customers.

Nevada Testing Lab Licenses Suspended, Then Reinstated

By Aaron G. Biros
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When Nevada legalized adult use sales this past summer, the market exploded and undoubtedly flooded licensed testing labs with samples to get products on shelves. In August, roughly a month after the start of adult use sales, a Las Vegas cannabis-testing lab, G3 Labs, had their license suspended for an unknown compliance issue.

“We can’t disclose the details of the suspension, including anything about penalties,” said Klapstein. “Under NRS 360.255, the information is confidential.”Then in late December, the Nevada Department of Taxation, one of the bodies tasked with regulating the state’s industry, announced in an email they suspended two more cannabis testing lab licenses. Certified Ag Lab in Sparks, Nevada and Cannex Nevada, LLC, in Las Vegas (also known as RSR Analytical Laboratories) both had their licenses suspended on December 22 and December 26 respectively.

Stephanie Klapstein, spokeswoman for the Department of Taxation, told the Reno Gazette Journal that both of those labs were not following proper protocols. “During separate, routine inspections, Department inspectors discovered that these two labs were not following proper lab procedures and good laboratory practices,” says Klapstein. “Their licenses were suspended until those deficiencies were corrected.”

According to the Reno Gazette Journal, both of those labs had their licenses reinstated and have since resumed normal business. During their license suspension, the labs were not allowed to operate and the department directed licensed cannabis businesses to submit samples to other labs. The department also directed the suspended labs in the email to coordinate with their clients who had samples in for testing; to either have their samples transferred to a different lab or a new sample taken for another lab to test. They did note that no product recalls were deemed necessary because of the suspension.

In that same email, the department directed licensed cannabis businesses to state-licensed labs in good standing, including 374 Labs, ACE Analytical Laboratory, DB Labs, Digipath Labs, MM Lab and NV CANN Lab. But on the department’s website, it says there are 11 licensed testing labs.

Back in September when we reported on the first lab license suspension, Klapstein told CIJ that under state law they couldn’t discuss any reasons behind why they suspended licenses. “We can’t disclose the details of the suspension, including anything about penalties,” said Klapstein. “Under NRS 360.255, the information is confidential.”

Because of that confidentiality, there are a number of questions left unanswered: With three lab licenses suspended in the first six months of the Nevada’s adult use market being open, how are testing labs keeping up with the market’s pace? What did those suspended labs do wrong? Do the regulations adequately protect public health and safety?