Tag Archives: vape

Leaders in Extraction & Manufacturing: Part 2

By Aaron Green
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Cannabis extraction and manufacturing is big business in California with companies expanding brands into additional states as they grow. This is the second article in a series where we interview leaders in the California extraction and manufacturing industry from some of the biggest and most well-known brands. Click here to see Part 1.

In this week’s article we talk with Matthew Elmes, director of product development at Cannacraft. After cutting his teeth in academic and industry research, Matthew was approached by Cannacraft leadership to bring a new perspective to their product development efforts. The interview with Matthew was conducted on July 22, 2020.

Next week, we’ll interview Joaquin Rodriguez, chief operating officer at GenX BioTech. Stay tuned for more!

Aaron Green: Hi Matthew, and thank you for taking the time to chat today, I understand you have a busy schedule!

Matthew Elmes: Thanks – yeah, last week was pretty insane!

Aaron: Well, I’m happy we found a chance to put this together. Let’s start from the beginning. How did you get involved at Cannacraft?

Matthew Elmes, director of product development at Cannacraft

Matthew: I did my Ph.D in biochemistry at Stony Brook University on cannabinoid intracellular transport and metabolism. I then did a post-doc with Artelo Biosciences in endocannabinoid system modulation. While I was doing my post-doctoral research, Dennis Hunter, co-founder of Cannacraft, had learned about my work and reached out to offer me a position.

Aaron: Awesome, that’s a great feeling when people are reaching out to you! The next questions here will be focused on product development and manufacturing. What is your decision process for launching a new product?

Matthew: We do our best to anticipate what the market will want. A lot of our new product development comes from improving our current products. Things like improving stability, shelf-life and reducing bitterness. For brand-new products and technologies, we first get a lot of feedback from the marketing and sales teams and will then go into a planning session to decide what is feasible and what is not prior to moving forward.

Aaron: Do you personally get involved in manufacturing? Tell me about your process there.

Matthew: I do get involved in manufacturing. My main inputs are figuring out how much cannabis oil to use to hit a target potency around the size of a batch. This is the type of thing I do for all our beverage products like HiFi Hops, our Satori line of infused edibles, and the various gummy products sold under our brands Absolute Xtracts and Care By Design.

Aaron: Are you developing new products internally?

Matthew: For the most part we develop everything internally. We are very vertically integrated here at Cannacraft and we extract all of our oil in house. I don’t do the oil extractions myself. Most of our stuff is supercritical carbon dioxide extraction, but we have hydrocarbon and cryoethanol extraction facilities opening soon. For our gummies, we use distillate oils for the best flavor and for our droppers/vapes we use full-spectrum oils for a more sophisticated array of effects.

Aaron: In product development, what does getting stuck look like for you?

Matthew: Getting stuck happens a lot! You know, strict regulations make it challenging to source ingredients. Foods we’d like to source for a product are often too high in pesticides or heavy metals for the cannabis regulations. What’s good enough for the grocery store is very often not good enough to be compliant in the California cannabis industry. Fruits that are totally free from pesticides are hard to find. Our edibles brand Satori Chocolates actually might be the only player in the entire California cannabis industry that uses real whole fruit in our products rather than something artificial or a processed fruit paste. We actually had to source our strawberries from Italy to find ones that were both compliant in metals/pesticides and tasted good enough to meet our high standards! The same sort of challenges apply to sourcing biomass for oils.

Aaron: If you get stuck is it usually the same place? Or is it different each time?

Matthew: We’re so diversified. We have lots of different products. The process for each one can have its own issues. The problems you encounter with cannabis beverages are not the same ones that you’ll encounter with vapes, edibles, topicals or sublinguals, etc. We are one of the oldest players in the California cannabis industry (CannaCraft was founded in 2014, well before regulated recreational cannabis was a thing) so we have the advantage of working on all these issues for years longer than most of our competitors and we have largely figured out all the major ‘kinks’ already. A big part of it is also that we have assembled a great team of food scientists, chemical engineers, chemists, legal and regulatory experts, all with diverse specialties that allows us to quickly address any new ‘stucks’ and be fully confident in all of our products.

Aaron: Feel free to answer the next question however you like. What does your magic helper look like?

Matthew: I would love a magic helper! What would a magic helper look like to me? I think my magic helper is a recent undergrad with lab experience. I would have them take care of a lot of the quality and lab day to day activities. My responsibilities often make me too stuck to the computer screen where I don’t have time to get to all the experiments that I’d like to do…a trained magic helper could physically perform those experiments for me!

Aaron: OK, and now for our final question! What are you following in the market and what do you want to learn about?

Matthew: I am personally really interested in yeast grows and cannabinoid synthesis from biological organisms. We stick to only natural plant-derived cannabinoids for all our products, but it’s a new field that’s just fascinating to me. I also think that minor cannabinoids will have a bigger place in coming years. In particular I have my eye on THCV, ∆8-THC, CBG and THCP. THCP is a phytocannabinoid that was just discovered a year ago and exhibited very potent effects in preclinical models, but no one has been able to produce and purify it in appreciable amounts yet. We already manufacture and sell a ∆8-THC vape cart under our ABX brand, but for the others keep an eye out for new product announcements from us that are on the horizon.

Aaron: Well, that brings us to the end of the interview Matthew, this is all awesome feedback for the industry. Thanks so much for your time and insights into product development in the cannabis industry.

Matthew: Thanks, take care!

Leaders in Extraction & Manufacturing: Part 1

By Aaron Green
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Cannabis extraction and manufacturing is big business in California with companies expanding brands into additional states as they grow. This is the first article in a series where we interview leaders in the California extraction and manufacturing industry from some of the biggest and most well-known brands.

In this week’s article we talk with George Sadler, President and Co-founder of House of Platinum. George and his son Cody started their cannabis journey in 2010 when they sold their dirt bikes and set up a 10×10 garage. They have since built the business into a $70 million dollar cannabis empire across California, Michigan and now Oklahoma. The interview with George was conducted on July 31, 2020.

George Sadler, President and Co-founder of House of Platinum

Next week, we’ll interview Matthew Elmes, Director of Product Development at Cannacraft. Stay tuned for more!

Aaron Green: First off, George, congratulations on your recent announcement on the LOI from Red White & Bloom!

George Sadler: Thanks! The deal isn’t done yet but we’re looking at a sixty-five-million-dollar deal. Cody and I will be staying on as officers to oversee growth as we expand into new markets.

Aaron: That’s great news! I hope it all works out well for you and best of luck closing the deal. Now on to the interview questions we had planned. So first off, how did you get involved at House of Platinum?

George: My son Cody and I wanted to do extraction and have a vape company. Five or six years ago we climbed on a plane to China to speak with manufacturers. We started off with extraction equipment in a small room with a table top machine. After a time, we took year and a half off to get our licensing and do our buildout. We opened up again two years ago in June. At the time, China was the main resource for packaging, and everything really. We got hardware from another company and had our Chinese partners rework the hardware to address some of the issues we had. Cody and I spent a week in Shenzhen where we met with our Chinese partners. They first did cartridges, packaging and batteries.

Aaron: Thanks for that, George. The next questions will focus on product development and manufacturing. What is your decision process for starting a new product?

George: In the beginning, Cody and I would both be a part of new product development from beginning to end. Cody has taken lead now on the beginning phases so our new product development really starts with him. We collectively come up with the concept. Cody does the market research. The concept then goes to our design team for visuals and to do the artwork- this usually takes some time. After we are satisfied with the branding, we start the manufacturing process. We do everything start to finish and can go from design to package in less than two weeks. The only thing we still manufacture in China is hardware these days, so cartridges and batteries.

Aaron: Are you personally involved in manufacturing? Tell me about your process

George: Cody and I are both involved in manufacturing. In California, we have about a hundred employees at our facility. In Michigan we have another hundred, and Oklahoma has about thirty. In Michigan, we do carts only right now and are getting ready to launch chocolates and gummies. Oklahoma is also getting ready to do edibles and gummies.

Aaron: What is your process for developing new products?

George: In manufacturing, when we start a new line of edibles, we’ll first do a full test batch of products before committing to full-scale manufacturing. We start small at first then scale into larger batches. If everything looks good, we’ll decide whether or not to invest in larger equipment.

Aaron: Are you developing new products internally?

George: Our California and Michigan production is done 100% in-house. In Oklahoma we have a licensing deal with a manufacturing partner.

Aaron: Do you ever bring in external product development consultants?

George: No. We do all of our product development internally.

Aaron: In product development or manufacturing, what does being stuck look like for you?

George: That depends on what phase of the process we’re talking about. One challenge is getting the recipe dialed and then figuring out how to move into large scale. Take chocolate for example: going from a one spout pour on chocolate to a three-spout pour. That process can take a while to figure out. Any time you are trying to move forward in your manufacturing process, if there isn’t existing equipment available you may need to purchase it. There isn’t a lot of information out there to gauge on the cannabis side what is relevant.

Aaron: How about source materials for your products?

George: We pride ourselves on doing a deep dive on all of our suppliers.  That includes packaging, chocolate, sugar, and flower.  The advantage of longevity in this industry, we have keen radar on those doing premium work.

Aaron: What’s the most frustrating thing you are going through with the business?

George: I think a majority of people would agree that there’s lack of understanding of what’s happening with licensing. Legacy market products and unlicensed stores are frustrating. Inconsistency on testing is also frustrating. The states aren’t really doing anything to correct inconsistent testing. But banking is the number one industry pain point. We have a handle on the rest. Banking we don’t have any help.

Aaron: Feel free to answer the next question however you like. Imagine you could have someone come in and wave a magic wand to solve your problems. What does your magic helper look like?

George: Hah! Not sure what a magic helper would look like. Distribution is our biggest headache. Distribution is a different animal that is outside cannabis product development. We do all of our distribution in-house and it can be a pain.

Aaron: Now for my final question: What are you following in the market and what do you want to learn about?

George: We’re semi-new in the CBD space. Anything up and coming is something we are looking at. We’re focused on going big and multi-state. Arizona is the next state we are looking at. Nevada is after that. The partnership with Red White and Bloom is going to grow the brand into other states with them. Growth continues in that direction. Recently we’ve been going back to cultivation and doing cultivation deals. We started as cultivators and a lot has changed in the past several years. We are trying to pick up new knowledge.

Aaron: Well, thanks for that George, this is all awesome feedback for the industry. That concludes the interview! Thanks so much for your time and congrats again on your recent announcement with Red White & Bloom.

George: Thanks.

The Future of Vape Litigation: Temperature Control

By Michael Preciado
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The e-cigarette or vaping use-associated lung injury (EVALI) outbreak of 2019 caught the attention of many, and has brought with it the scrutiny of both regulators and plaintiffs’ attorneys eager to act as “civil prosecutors.” As Tolkien would say, the Eye of Sauron has now turned its gaze towards the cannabis vapor industry.

With the misinformation and negative publicity that the EVALI outbreak brought to the industry, vaporizer device manufacturers should expect more lawsuits to be filed against them through 2020 and beyond. The cannabis vapor industry should also expect the theories of defect alleged against their products to become more sophisticated as more plaintiffs’ attorneys enter the arena.

One theory of defect you should expect plaintiff’s attorneys to pursue in 2020 is what I generally refer to as “temperature control litigation.”

These pre-filled cartridges are compatible with just about any battery because of the universal 5/10 thread connectors.

Here is the problem:

Typical additives in cannabis oil, while once thought to be safe, can degrade at higher temperatures into toxic chemicals. For example, the Vape Crisis of 2019 was largely attributed to a cannabis oil additive known as vitamin E acetate. While typically regarded as safe for use in nutritional supplements or hand creams, when used in cannabis oil, investigators believe vitamin E acetate can degrade into a toxic chemical when vaped—and is responsible for causing mass pulmonary illness for thousands of consumers.

Researchers do not fully understand how this process occurs, but chemists from the Royal College of Surgeons in Ireland found in a recent study that the key is understanding how temperatures affect chemicals when vaping. Through a process known as pyrolysis, the study found that vitamin E acetate can possibly degrade into ketene when vaped at higher temperatures—depending on the type of coil resistance, voltage and temperature configuration used in a vaporizer device. (Ketene has a high pulmonary toxicity, and can be lethal at high concentrations, while low concentrations can cause central nervous system impairment.) Similar studies have also shown that additives like Propylene Glycol (PG), Vegetable Glycerin (VG), and Polyethylene Glycol (PEG) can degrade into toxic chemicals at high temperatures—which has led Colorado to ban the use of PEG for inhalable cannabis products altogether.

More shocking, is that such temperature control issues are not limited to additives. It is very common for experienced users to experiment with low to high temperatures when vaping cannabis; it is believed that vaping cannabis at low temperatures (325-350°F) results in a mild high, while vaping cannabis at higher temperatures (400-430°F) results in a more euphoric feeling and intense high. But when cannabis is vaped at even higher temperatures (450°F +), industry experts do not really know if or how cannabinoids and terpenes degrade, which combinations of cannabinoids and terpenes affect degradation and what the health risks could be. It’s anyone’s guess.

Cheap batteries with the universal 5/10 thread can heat the product at inconsistent temperatures, raising safety and quality concerns

These temperature control issues are further complicated due to the universal 5/10 thread. Most consumers purchase cannabis oil through pre-filled “carts” (cartridges)—that are compatible with 90% of vaporizer batteries on the market because of universal 5/10 thread connectors. But vaporizer batteries can operate anywhere from sub-300 degrees to 800 degrees and above. Coupled with varying battery voltages, ceramic coil quality and oil quality, vaporizer batteries can produce a wide range of operating temperatures. Consequently, it is possible users could connect a cart to a vaporizer battery (set at too high a temperature configuration) and risk pyrolysis, change the chemicals inside their cannabis cart, and cause unknown harm to themselves.

Unquestionably, all of the above will result in lawsuits. Companies that manufacture cannabis oil will be sued for failing to conduct emissions testing to properly evaluate safe temperature settings for use of their carts. Vaporizer device manufacturers will be sued for failing to publish warnings, instructions and adequate owner’s manuals regarding the same. And the rallying cry against the cannabis vapor industry will be damaging. Plaintiff’s attorneys will accuse the industry of choosing profits over safety: “The cannabis vapor industry knew cannabis oils could turn into toxic chemicals when heated at high temperatures, but instead of conducting long-term emissions testing to evaluate those concerns, the industry chose profits over safety. As long as the industry made money, no one cared what dangers arose from elevated temperatures—and consumers paid the price.”

With the above as background, it is critical for the cannabis vapor industry to get serious about product testing. The industry needs to know if and why certain cannabinoids, terpenes and additives can turn into toxic chemicals when they are vaporized at high temperatures—and how the industry can guard against such dangers. And to cover their bases, the industry needs to publish proper warnings and owner’s manuals for all products. The time to act is now.

HACCP

HACCP for Cannabis: A Guide for Developing a Plan

By Radojka Barycki
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HACCP

Hazard Analysis and Critical Control Points (HACCP) is a systematic approach that evaluates hazards that may potentially be present in food products that can harm the consumer. The process used to manufacture the product is evaluated from raw material procurement, receiving and handling, to manufacturing, distribution and consumption of the finished product1. The documented process is what is known as HACCP plan. Although HACCP was designed to evaluate hazards in foods, it can be used to assess or evaluate hazards that may potentially be present in cannabis consumable products (edibles and vaping) that can cause harm to the consumer.

HACCP plan development requires a systematic approach that covers 5 preliminary steps and 7 principles. A systematic approach means that each step must be followed as outlined. Skipping a step will result in a HACCP plan that most likely will be ineffective to control potential hazards in the product.

The 5 preliminary steps are:

  1. Establish a HACCP team
  2. Describe the product
  3. Establish the intended use of the product
  4. Develop a flow diagram
  5. Verify the flow diagram

The 7 Principles are:HACCP

  1. Conduct a hazard analysis
  2. Identify the critical control points (CCPs)
  3. Establish critical limits (CL)
  4. Establish monitoring procedures
  5. Establish corrective actions
  6. Establish verification procedures
  7. Establish records and record keeping procedures1,2

It is important to mention that HACCP plans are supported by programs and procedures that establish the minimum operational and sanitary conditions to manufacture safe products. These programs and procedures are known as pre-requisite programs (PRP) or preventative controls1,2.

Figure 1. Flow Diagram

A multidisciplinary team must be established in order to ensure that all inputs of the product manufacturing process are considered during the hazards analysis discussions. The description of the product and its intended use provides detail information on ingredients, primary packaging material, methods of distribution, chemical characteristics, labeling and if any consumer might be vulnerable to the consumption of the product. A verified flow diagram is an accurate representation of the different steps followed during the product manufacturing process and will be used to conduct a hazard analysis. An inaccurate flow diagram will set the stage for an inadequate HACCP plan. Therefore, it is important that the HACCP team members verify the flow diagram. Figure 1 is a flow diagram for a fictional infused apple juice manufacturing plan that I will be using as an example.

The hazard analysis is the backbone of the HACCP plan. There are two elements that must be considered when conducting the hazard analysis:

  • Identification of the hazard associated with the ingredient(s) and/or the product manufacturing steps. These hazards have been categorized as: Biological, chemical (including radiological) and physical. Biological, chemical and physical hazards should be considered for each ingredient, primary packaging and process step. Also, it is important that the team is specific as to what hazard they are referring to. I often find that biological hazards are identified as “pathogens” for example. The team has to be specific on which pathogen is of concern. For example, if you are processing apple juice, the pathogens of concern are pathogenic coli and Salmonella sp. However, if you are processing carrot juice, you need to add Clostridium botulinum as a biological hazard also. If the choice of method to eliminate the hazards is pasteurization for example, the processing temperature-time combinations will differ greatly when manufacturing the apple juice vs. the carrot juice as C. botulinum is an organism that can sporulate and, therefore, is harder to kill.
  • Characterization of the hazard. This implies determining the significance of the potential hazard based on the severity of the consequence if it is consumed and the likelihood of occurrence in the ingredient or process step. Only steps in the process that has significant hazards should be considered further.
Table 1. Ingredient Hazard Analysis

In my professional experience, the hazard analysis is one of the most difficult steps to achieve because it requires the expertise of the multidisciplinary team and a lot of discussion to get to the conclusion of which hazard is significant. I find that a lot of teams get overwhelmed during this process because they consider that everything in the process may represent a hazard. So, when I am working with clients or providing training, I remind everyone that, in the bigger scheme of things, we can get stricken by a lighting in the middle of a thunderstorm. However, what will increase our chances would be whether we are close or not to a body of water for example. If I am swimming in the middle of a lake, I increase my chances to get stricken by the lighting. In comparison, if I am just sitting in my living room drinking a cup of coffee during the thunderstorm, the likelihood of being stricken by a lighting is a lot less. The same rationale should be applied when conducting the hazard analysis for manufactured products. You may have a hazard that will cause illness or death (high on the severity chart) but you also may have a program that mitigates the likelihood of introducing or having the hazard. The program will reduce the significance of the hazard to a level that may not need a critical control point to minimize or eliminate it.

Table 2. Process Hazard Analysis (1)

Clear as mud, right? So, how would this look like on the infused apple juice example? Table 1 shows the hazard analysis for the ingredients. Tables 2 and 3 show the hazard analysis for the part of the process. In addition, I have identified the CCPs: Patulin testing and pasteurization. There is a tool called the CCP decision tree that is often used to determine the CCPs in the process.

Once we have the CCPs, we need to establish the critical limits to ensure that the hazard is controlled. These limits must be validated. In the case of Patulin, the FDA has done several studies and has established 50 ppm as the maximum limit. In the case of pasteurization, a validation study can be conducted in the juice by a 3rd party laboratory. These studies typically are called thermal death studies (TDS) and provide the temperature and time combination to achieve the reduction of the pathogen(s) of concern to an acceptable level that they do not cause harm. In juice, the regulatory requirement is a 5-log reduction. So, let’s say that the TDS conducted in the infused apple juice determined that 165°F for 5 seconds is the critical limit for pasteurization. Note that the 5 seconds will be provided by the flow of the product through the holding tube of the pasteurizer. This is measured based on flow in gallons per minute.

Table 3. Process Hazard Analysis (2)

Monitoring is essential to ensure that the critical limits are met. A monitoring plan that outlines what, how, when and who is responsible for the monitoring is required.

Ideally, the system should not fail. However, in a manufacturing environment, failures can happen. Therefore, it is important to pre-establish steps that will be taken to ensure that the product is not out of the control of the facility in the event of a deviation from the HACCP plan. These steps are called corrective actions and must be verified once they are completed. Corrective actions procedures must address the control of the product, investigation of the event, corrective actions taken so the deviation doesn’t reoccur and product disposition.

Table 4. HACCP Plan Summary

Verification activities ensure that the HACCP plan is being followed as written. Typically, verification is done by reviewing the records associated with the plan. These records include but are not limited to monitoring records, calibration records, corrective action records, and preventive maintenance records for equipment associated with the CCPs. Record review must be done within 7 working days of the record being produced.

Finally, establishing records and record keeping procedures is the last step on developing HACCP plans. Records must be kept in a dry and secure location.

Table 4 show the summary of the HACCP plan for the infused apple juice example.

For more information on how to develop a HACCP plan for your facility, read the resources below:

  1. HACCP Principles and Application Guidelines – The National Advisory Committee on Microbiological Criteria for Foods (NACMCF)
  2. ASTM D8250-19: Standard Practice for Applying a Hazard Analysis Critical Control Points (HACCP) Systems for Cannabis Consumable Products
The Brand Marketing Byte

Executing on Social Media: PlugPlay

By Cannabis Industry Journal Staff
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The Brand Marketing Byte showcases highlights from Pioneer Intelligence’s Cannabis Brand Marketing Snapshots, featuring data-led case studies covering marketing and business development activities of U.S. licensed cannabis companies.

Here is a data-led, shallow dive on the California brand, PlugPlay:

PlugPlay – Executing on Social Media

This company is about three years old and based in Los Angeles. PlugPlay distributes proprietary vaporizers and cartridges to more than 150 dispensaries throughout California.

The company’s brand identity is a bit different from the traditional California cannabis company image. They trade the typical beach, yoga and plant imagery for a more modern, contemporary and sleek theme. Furthermore, the brand ambassadors featured throughout PlugPlay’s social media and communications reflect the diversity of its market.

The demographic they target in social media is increasingly tech-savvy and on the younger side. PlugPlay uses a few very smart tactics to engage with this demographic: They experiment with bold and creative content formats, some being a bit more refined than others. They engage in the comments section with their followers in an unabashed, genuine manner. Lastly, they share information with their followers on current events effectively, whether it be the vaping crisis back in 2019 or the current coronavirus pandemic.

All of these marketing tactics have worked tremendously in their favor. In March, PlugPlay’s social media earned them the #1 spot on the Pioneer Index, up from #10 in February.

Cannabis Extracts for the Informed Consumer: Solvent or Solventless

By Nick J. Bucci
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Editor’s Note: Nick Bucci is a freelance cannabis writer. You can view his work here 

As cannabis markets continue to gain traction, inconsistent and largely unpredictable markets have left recreational consumers in an informational fog. Try as the industry may, or may not to inform consumers, the lack of knowledge was evident when an established Colorado hash company opened a second operation in California. Expecting high demand for their solventless concentrates, the demand for their solvent-based counterparts came as a surprise. Initially hoping to eliminate solvent extracts from their product line-up, the company was forced to devote about half their overall production to solvent extracts, until information spreads and attitudes start to change. Over the past year several companies have joined the solventless side of history, but consumer understanding remains largely stagnant. For those immediately overwhelmed by terminology, cannabis extracts, concentrates or hash are all interchangeable terms describing concentrated cannabis. Under these umbrella terms, two distinct categories emerge depending upon whether chemical solvents were or were not used to extract the hash. Hence: solvent or solventless. A brief overview of cannabis concentrates will help consumers to understand the evolution away from solvent extractions and toward a superior solventless future.

ecxtractionfig2
Science and economics merge when considering all the possible uses of concentrated compounds to final product formulations

Before regulated cannabis markets, cannabis extracts had long been in use. These old-world methods of cannabis extraction use very basic solventless techniques to create more potent, concentrated forms of cannabis. Dry sifting is easily the oldest form of cannabis extraction and a prime example of one solventless technique. Something as simple as shaking dried cannabis over metal screens and collecting the residue underneath creates a solventless product called keif. Dark brown bubble-hash, made popular decades ago, is another ancient technique using only ice and water to perform extractions without chemical solvents. After decades of stagnant and limited old-world methods, changes in legislation allowed cannabis sciences to flourish. These old-world hash methods were quickly forgotten, replaced by the astonishing progress of modern solvent extractions.

Tetrahydrocannabinol (THC), just one of hundreds of cannabinoids found in cannabis.

The emergence of solvent extracts revolutionized cannabis around 2011, creating new categories of cannabis products that exploded onto the scene. Not only did solvent extracts produce the most potent and cleanest forms of hash ever seen at this point, it also created new possibilities for hash-oil vape cartridges and cannabis extract infused edibles. These solvent extracts use butane, propane, or other hydrocarbon solvents to extract, or “blast” cannabinoids from the plant. By running solvents through cannabis and then purging or removing leftover, residual solvents, a super-potent, premium hash product is achieved. Regulated markets require testing to ensure only a safe level, if any, of the solvent used in the extraction process remains in the final product. This technology ushered in the first wave of concentrates to medical and recreational markets under the descriptive titles of wax, shatter and crumble. While these effective and affordable products can still be found today, far superior products have largely replaced wax and shatter. Distillation techniques can further purify and isolate THC-a, while removing harmful residual solvents. For a time, Solvent-free was used to describe this ultra-purified distillate, but the needless term has fallen out of use. Solvent-free is still a solvent extraction using chemical solvents, don’t be fooled. Distillation and CO2 extractions have fallen into general disfavor as they destroy the flavorful terpenes and valuable cannabinoids, that when present create an “entourage effect.” This “entourage effect” happens when the medicinal and recreational properties are most effective, pronounced, and impactful due to a full range of terpenes and cannabinoids being present in the final product. With companies manually reintroducing terpenes to their final extracts, it’s an attempt to restore what was lost during solvent extraction processes. Many brands claim to use cannabis derived or food-grade terpenes to infuse or reintroduce terpenes into their purified hash oils. While this adds flavor and taste, especially to distillate cartridges, it’s far from an ideal solution. Armed with this new information, the informed consumer looks for a full profile of terpenes and cannabinoids in their hash.

THC-A crumble, terpene-rich vape oil, THC sap (from left to right).

With terpene preservation a new priority, all aspects of hash making were reevaluated. By using fresh-frozen cannabis flower, solvent extractions quickly reached new heights. Using the same techniques as prior solvent extractions, the cannabis plant is frozen immediately upon harvesting, rather than trimming and drying the crop as usual. Freezing the plant preserves valuable terpenes helping to create a new category for hydrocarbon extracts under the general label of live resins. This live resin, containing vastly greater profiles of terpenes and cannabinoids than earlier waxes, shatters or crumbles is sold as live-resin sauce, sugar, badder, frosting, diamonds and more. Many versions of live resin re-use previous terms that describe consistencies. These live resin solvent extracts outperform the wax, crumble and shatters of old, and are priced accordingly. Some of the best solvent extracts available today use butane to extract hash oil, which forms THC-a crystals and diamonds seen in live resin sauces. Having learned the value of terpenes and cannabinoids, early efforts to purify THC were clearly misled. The industry defining use of fresh-frozen cannabis flowers greatly improved the quality of all extracts having realized the psychoactive effects are largely dependent on the various profiles of cannabinoids and terpenes. Pure THC-a crystals and isolates are easily achieved with solvent extractions but, produce inferior effects both medicinally and recreationally. Discovering the “entourage effect” as described earlier, these elements of cannabis allowed old-world solventless techniques to be re-inspired and reinvigorated with the benefit of healthy genetics and a hearty understanding of past mistakes.

Having gone full circle, solventless techniques are again at the forefront of the cannabis industry, having attained near perfection for our current understanding of cannabis anatomy.

figure1 extract
The increasingly finer mesh works to separate and extract microscopic trichomes

Using the lessons and tendencies of prior extractions, the solventless method, in all its final forms, begin with the same initial process to make ice-water hash oil. Often referred to as solventless hash oil (SHO), fresh-frozen flowers are submerged in ice and water, soaked and agitated before the water is filtered through mesh screens. As these mesh screens are measured by microns, the increasingly finer mesh works to separate and extract microscopic trichomes that break free from the cannabis plant. The 120- and 90-micron mesh screens usually collect pristine trichome heads. After scraping the remaining material from the screens, its sieved onto trays where the hash can dry using modern techniques of sublimation. The results are beyond phenomenal and are sure to shock even life-long cannabis consumers. This technique isolates only the most potent and psychoactive parts of the plant, to produce white to clear solventless ice water hash. When done with precision 6-star ice water hash is formed. The hash can be sold and consumed as is or undergo additional solventless techniques to produce hash-rosin. Not to be confused with live-resins, rosin uses pressure and slight heat to squeeze ice-water hash, into hash-rosin. Some companies have elected to whip their rosins into a solventless badder or allow their hash rosins to undergo a cold cure process that creates textures and varieties like hash rosin sauce. Regardless of the final solventless product, they all begin as ice water extractions. These simple, natural methods of extraction are quickly being adopted by companies known for live resin. As solventless extracts are safer, cleaner and superior in quality to solvent chemical extractions, the race is on as the industry shifts toward a solventless future.

While I’d be happy to never see another solvent extract again, without the miraculous breakthroughs and advances in all aspects of cannabis manufacturing and production we may have not yet arrived where we are today. When using solvents to extract, the trichomes, which contain the full spectrum of terpenes and cannabinoids, are dissolved by the solvent, which is then evaporated off, leaving behind dissolved trichomes. In solventless hash, these trichomes remain whole and are never dissolved or broken down. Instead they are broken free by agitation in ice and water, separating the trichome heads from their less-active stems. These valuable trichomes heads contain everything pertinent and are never destroyed, dissolved or melted like solvent-extractions are forced to do. The benefit of keeping the heads of these trichomes whole results in a far superior product expressing the full profile of terpenes and cannabinoids the way mother nature intended. This natural profile of trichomes lends itself directly to the entourage effect that solvent extracts were found to be missing.

Extraction techniques are not equal and depend upon whether quality or mass production is the aim. Solvent extracts have quickly begun to represent the old-guard of mass-produced cannabis concentrates, with the solventless new-guard focusing on quality, small batch, hash-rosin excellence.

How to Protect Your Business from the Emerging Vaping Crisis

By Tom BeLusko, Kelly McCann
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The year 2020 may become a pivotal year for cannabis operators and service providers, including increased access to financial services, and increased exposure to product liability lawsuits. On a positive note, if enacted, the Secure and Fair Enforcement Banking Act of 2019 (SAFE Banking Act) promises to enable cannabis businesses to gain access to financial services previously unavailable to them, including banking and insurance services. The House of Representatives passed the SAFE Banking Act of 2019 on September 25th, 2019. Skopos Labs, an automated predictive intelligence service, predicts there is a 52% chance of the SAFE Banking Act of 2019 becoming law. A recent discovery that vitamin E acetate is likely the culprit in the vaping-related illness epidemic may increase the exposure to costly litigation that cannabis businesses face.

An uptick in litigation like that currently affecting the vaping industry may soon affect cannabis businesses. More litigation affecting the vaping industry is due in large part to the growing number of lung injuries and deaths linked to vaping. As of November 13th, 2019, the CDC reported 2,172 cases of lung injury, and 42 deaths linked to vaping. The cases of lung injury and death have predictably resulted in an increase in litigation facing the vaping industry. Most of the plaintiffs in these cases allege they became addicted to vaping but at least two lawsuits go further. In one, a Connecticut man alleges that he suffered a massive, debilitating stroke as a result of vaping, while in another the parents of a teenage girl allege in a proposed class action suit that their daughter has suffered seizures linked to vaping. On November 14th, 2019, the CDC identified vitamin E acetate as a chemical of concern among people with vaping use associated lung injury. Vitamin E acetate is an additive commonly used as a cutting agent in vape cartridges. About 86% of individuals who have either vaping-related lung injuries, or died due to vaping had used a product containing THC.

The increase in perceived exposure cannabis businesses face has increased their interest in obtaining insurance, but unfortunately insurers are not always interested in insuring them. There are at least two reasons that getting insurance can be difficult for cannabis businesses: (1) insurance industry appetite for cannabis risk is very low due to its status under federal law and (2) express coverage exclusions or limitations of cannabis exposures from standard-form coverage are becoming more common. However, even if cannabis businesses are able to obtain insurance, their insurance may cover them for far less than they believe.

The product liability coverage (which is increasingly crucial for both growers and manufacturers given the mounting litigation facing the vaping industry) may cover far less than it at first appears. The interplay of exclusions and limited coverages in many cannabis-specific policies may leave a cannabis business uninsured.

It is vital now more than ever to ensure you are properly protected against loss.Crucial for cannabis businesses to appreciate is the distinction between “occurrence” and “claims-made” coverage triggers as it relates to both the premises on which cannabis businesses operate their business, and the products they sell.

Many cannabis businesses have an occurrence-based general liability insurance that might actually exclude: (1) product-liability risks; (2) any tobacco-related risks; and (3) any risk associated with governmental investigation or enforcement. These exclusions oftentimes concern cannabis businesses because there is a high likelihood one of these risks could manifest itself as an uninsured loss. Still, the costs of eliminating these exclusions in an occurrence-based general liability insurance policy is often large, assuming an insurer is willing to eliminate the exclusions on an occurrence basis at all. Therefore, cannabis businesses often pair their general liability insurance policy with a “claims-made” coverage trigger for products liability. Navigating the waters of managing the differences between “occurrence” and “claims-made” forms are best left to a qualified and experienced insurance professional.

Consult a local insurance professional that understands how to help your business become properly protected in what would be considered a tumultuous market for this burgeoning industry.

It is vital now more than ever to ensure you are properly protected against loss. As a first step, you must determine what your current insurance policy does and does not cover. After a loss, it is too late to change policies. Rely upon someone that knows the market of insuring this industry and has deep experience in managing both occurrence and claims-made policies.

Choosing Filling Machinery for CBD and THC Products

By Michelle Pudlo
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As the legalization of cannabis continues to spread across the U.S., both THC and CBD products are rapidly growing in popularity, and we can expect that popularity to increase in the coming years. The cannabis industry alone is expected to account for nearly $16.9 billion in revenue this year.

Subsequently, there is a rising need among infused product manufacturers for sufficient filling machinery for CBD and THC products. These products, including CBD oil cartridges, require filling equipment that can provide quick turnaround, detailed parts and simple changeover and cleanup, among other factors. Let’s go over the different types of filling machinery used for these products.

Vial Filling Machines

For small vial packages made of glass, metal or plastic, vial filling machines are available. Often used for a variety of pharmaceutical products, they’re now suitable for filling liquid THC and CBD oil. Vial fillers are also often suitable for filling liquid products of varying viscosity levels, with either the installation of peristaltic pumps or volumetric filling stations.

Rotary Fillers

Rotary fillers can also fill containers at high speeds and with quick turnaround, and are ideal for filling various types and sizes of containers made of materials such as plastic, metal or glass. A good rotary filler will be able to meet the demands of high-speed environments consistently and with accuracy.

Fixed or Variable Volume Cartridge Filling ToolsAs the industry develops more demand for high-quality filling and other types of equipment, more machines are likely to be manufactured or configured specifically with these types of products in mind.

Fixed and variable volume cartridge filling tools often feature a single-handed operation and are used to rapidly fill cartridges for THC and CBD oils used for vaping. With fixed volume fillers, you’ll be able to designate a specific and consistent volume, while variable volume models allow for different fill volumes for applications requiring versatility.

Automatic Fillers

Automatic filling machines will be able to fill a large number of products at varying speed settings, without the need for manual operation. These machines can fill many different types of products with consistency that helps maintain optimal productivity. As with other fillers, automatic fillers are often customizable in a wide variety of configurations.

Filling Syringes

For concentrates, filling syringes are ideal in many cases. Many patients are in need of a specific dosage of oil, and a syringe can allow for accuracy through the inclusion of measurement indicators. Many dispensaries sell syringe units, so this type of packaging method is likely to continue to rise in popularity.

Other Types of Equipment for Liquid Cannabis Packaging

In addition to reliable filling systems, manufacturers should make sure every other aspect of their packaging lines is covered with high-quality equipment. Facilities will require a variety of conveyors to transport products from one end of the line to the other, cleaners to ensure that bottles or other containers are clean prior to filling, and labelers to apply custom labels to packaging, among other machinery.

With one or more of these types of liquid fillers in a facility, companies can maintain accuracy and efficiency throughout their operations when filling CBD or THC products. As the industry develops more demand for high-quality filling and other types of equipment, more machines are likely to be manufactured or configured specifically with these types of products in mind.

EU Regulations Address Heavy Metals In Consumer Products

By Christopher Dacus
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RoHS 3 (EU Directive 2015/863) adds a catch-all “Category 11” of regulated products that includes electronic nicotine delivery systems (ENDS), e-cigarettes, cannabis vaporizers and vape pens. This category becomes effective July 22, 2019. The most significant restricted substance applicable to this category is lead, and RoHS requires regulated products to contain less than 1000 parts per million (ppm). This follows on the heels of California’s new 2019 regulations requiring the testing of contents of cannabis vape cartridges using even stricter limits for lead (which makes sense because it applies to the product being consumed, not the separate electronic components). These regulations may seem unrelated, but anecdotally there have been widespread reports of higher than expected lead content in China-sourced electronic components, including both cartridges and related electronics. Whether metal used in e-cigarette type products is the source of any lead in the actual nicotine, cannabis or other concentrated product is an entirely different topic, but new laws, and in particular the new RoHS catch-all category, make 2019 an important year for any company responsible for certifying or testing lead levels in e-cigarette or vape products.

Background on EU RoHS

RoHS (Restriction of Hazardous Substances) originated in the EU in 2003 as a restriction on hazardous substances in specified categories of electronics and electronic products. Other countries have passed laws styled after RoHS, but only the EU RoHS is addressed here. Unlike some environmental laws, RoHS is not only focused on the safety of products during their life cycle of consumer use, but is designed to keep restricted substances out of landfills and recycling centers.

The original RoHS restricted the use of lead, cadmium, mercury, hexavalent chromium, PBB and PBDE. RoHS now restricts the use of a total of ten substances after the EU added four types of phthalates to its restricted substance list. Compliance with RoHS became a requirement for the use of the CE mark in 2011, and replaced a RoHS compliant mark on restricted products.

RoHS specified categories for regulation include large household appliances, small household appliances, computer equipment, lighting, power tools, toys, certain medical devices, control equipment (smoke alarms, thermostats and their industrial equivalents), and ATM machines. Newly added Category 11, the “catch all” category, includes all other electronic and electrical equipment not covered in the previous categories, including electronic nicotine delivery systems, cannabis vaporizers and vape pens.

RoHS Lead Exemptions Complicate Compliance

RoHS provides numerous exceptions to its strict 1000ppm lead standard that are slated to expire in phases from 2021 through 2024. Most Category 11 exceptions will not expire until 2024. For example, RoHS permits different levels of lead for lead in glass and ceramics, lead in high temperature solders, and lead in copper and aluminum alloys. So, an e-cigarette may contain some parts that are held to the highest level of lead restriction, it may but contain isolated components that (at least through 2024) are held to more permissive standards. While this leeway may reduce manufacturing costs for certain components, it creates greater complexity in testing. Anecdotal reports suggest that especially for products that compete heavily on price, sourcing from lesser-known Chinese foundries has resulted in unpredictable lead levels.

Take Away Points

As vape and e-cigarette companies compete with new features and design elements each year, and companies rely on new manufacturers, keeping up with regulations has proven to be difficult for both U.S. and for EU regulated products. For example, a company has to comply with numerous regulations regarding the oil or concentrate that will ultimately be inhaled by a consumer, and with regulations like RoHS that regulate parts a consumer may never touch or see. Each year, some company comes out with a new set of electronic features that may interact with newly formulated oils or concentrates, other companies compete for features or price points, making these products a moving target when it comes to testing.

Adding lead to many metals makes them easier to work with and therefore cheaper. Anecdotal reports suggest that especially for products that compete heavily on price, sourcing from lesser-known Chinese foundries has resulted in unpredictable lead levels. This can be the result of any number of causes: changes in sub-contractors, uses of industrial equipment for other products that permit higher lead content, or simply unscrupulous management that is willing to risk a contract to save money manufacturing a batch of components. There is speculation that some lead may leach into oil or concentrates in e-cigarette and vape products from the contact between the oil or concentrate and internal heating elements in certain type of products. RoHS compliance with regard to lead levels may reduce the chance of inadvertent lead contamination by such means, and compliance may therefore yield benefits on several regulatory fronts.

Compliance with RoHS for each part of an e-cigarette or vape therefore requires knowing your supplier for each component, but given increased regulation of these products (both the hardware and consumable elements) this can only help compliance with regulations in every relevant jurisdiction.

Heavy Metals Testing: Methods, Strategies & Sampling

By Charles Deibel
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Editor’s Note: The following is based on research and studies performed in their Santa Cruz Lab, with contributions from Mikhail Gadomski, Lab Manager, Ryan Maus Technical Services Analyst, Laurie Post, Director of Food Safety & Compliance, and Charles Deibel, President Deibel Cannabis Labs.

Heavy metals are common environmental contaminants resulting from human industrial activities such as mining operations, industrial waste, automotive emissions, coal fired power plants and farm/house hold water run-off. They affect the water and soil, and become concentrated in plants, animals, pesticides and the sediments used to make fertilizers. They can also be present in low quality glass or plastic packaging materials that can leach into the final cannabis product upon contact. The inputs used by cultivators that can be contaminated with heavy metals include fertilizers, growing media, air, water and even the clone/plant itself.

The four heavy metals tested in the cannabis industry are lead, arsenic, mercury and cadmium. The California Bureau of Cannabis Control (BCC) mandates heavy metals testing for all three categories of cannabis products (inhalable cannabis, inhalable cannabis products and other cannabis and cannabis products) starting December 31, 2018. On an ongoing basis, we recommend cultivators test for the regulated heavy metals in R&D samples any time there are changes in a growing process including changes to growing media, cannabis strains, a water system or source, packaging materials and fertilizers or pesticides. Cultivators should test the soil, nutrient medium, water and any new clones or plants for heavy metals. Pre-qualifying a new packaging material supplier or a water source prior to use is a proactive approach that could bypass issues with finished product.

Testing Strategies

The best approach to heavy metal detection is the use of an instrument called an Inductively Coupled Plasma Mass Spectrometry (ICP-MS). There are many other instruments that can test for heavy metals, but in order to achieve the very low detection limits imposed by most states including California, the detector must be the ICP-MS. Prior to detection using ICP-MS, cannabis and cannabis related products go through a sample preparation stage consisting of some form of digestion to completely break down the complex matrix and extract the heavy metals for analysis. This two-step process is relatively fast and can be done in a single day, however, the instruments used to perform the digestion are usually the limiting step as the digesters run in a batch of 8-16 samples over a 2-hour period.

Only trace amounts of heavy metals are allowed by California’s BCC in cannabis and cannabis products. A highly sensitive detection system finds these trace amounts and also allows troubleshooting when a product is found to be out of specification.

For example, during the course of testing, we have seen lead levels exceed the BCC’s allowable limit of 0.5 ppm in resin from plastic vape cartridges. An investigation determined that the plastic used to make the vape cartridge was the source of the excessive lead levels. Even if a concentrate passes the limits at the time of sampling, the concern is that over time, the lead leached from the plastic into the resin, increasing the concentration of heavy metals to unsafe levels.

Getting a Representative Sample

The ability to detect trace levels of heavy metals is based on the sample size and how well the sample represents the entire batch. The current California recommended amount of sample is 1 gram of product per batch.  Batch sizes can vary but cannot be larger than 50 pounds of flower. There is no upper limit to the batch sizes for other inhalable cannabis products (Category II).

It is entirely likely that two different 1 gram samples of flower can have two different results for heavy metals because of how small a sample is collected compared to an entire batch. In addition, has the entire plant evenly collected and concentrated the heavy metals into every square inch of it’s leaves? No, probably not. In fact, preliminary research in leafy greens shows that heavy metals are not evenly distributed in a plant. Results from soil testing can also be inconsistent due to clumping or granularity. Heavy metals are not equally distributed within a lot of soil and the one small sample that is taken may not represent the entire batch. That is why it is imperative to take a “random” sample by collecting several smaller samples from different areas of the entire batch, combining them, and taking a 1 g sample from this composite for analysis.

References

California Cannabis CPA. 12/18/2018.  “What to Know About California’s Cannabis Testing Requirements”. https://www.californiacannabiscpa.com/blog/what-to-know-about-californias-cannabis-testing-requirements. Accessed January 10, 2019.

Citterio, S., A. Santagostino, P. Fumagalli, N. Prato, P. Ranalli and S. Sgorbati. 2003.  Heavy metal tolerance and accumulation of Cd, Cr and Ni by Cannabis sativa L.. Plant and Soil 256: 243–252.

Handwerk, B. 2015.  “Modern Marijuana Is Often Laced With Heavy Metals and Fungus.” Smithsonian.com. https://www.smithsonianmag.com/science-nature/modern-marijuana-more-potent-often-laced-heavy-metals-and-fungus-180954696/

Linger, P.  J. Mussig, H. Fischer, J. Kobert. 2002.  Industrial hemp (Cannabis sativa L.) growing on heavy metal contaminated soil: fibre quality and phytoremediation potential. Ind. Crops Prod. 11, 73–84.

McPartland, J. and K. J McKernan. 2017.  “Contaminants of Concern in Cannabis: Microbes, Heavy Metals and Pesticides”.  In: S. Chandra et al. (Eds.) Cannabis sativa L. – Botany and Biotechnology.  Springer International Publishing AG. P. 466-467.  https://www.researchgate.net/publication/318020615_Contaminants_of_Concern_in_Cannabis_Microbes_Heavy_Metals_and_Pesticides.  Accessed January 10, 2019.

Sidhu, G.P.S.  2016.  Heavy metal toxicity in soils: sources, remediation technologies and challenges.   Adv Plants AgricRes. 5(1):445‒446.