Sterile filtration is an important post-processing step of ultrasonic nano-emulsification - a process that converts cannabis extracts and/or other hydrophobic bioactives into a water-compatible form. In this article, I will summarize the steps of the nano-emulsification process carried out with BHUT-based ultrasonic equipment and NanoStabilizer®-LT, list the main advantages of the resulting water-compatible nanoemulsions, and explain why sterile filtration is always necessary at the end. Answers to several FAQs will also be provided.
Since NanoStabilizer®-LT already includes all the necessary ingredients (food-grade carrier oils, emulsifiers, and preservatives), no formulation development is necessary. The nano-emulsification process simply consists of:
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1. Pre-mixing cannabis extract with NanoStabilizer®-LT |
2. Stirring the premix into water and ultrasonically processing | 3. Sterile-filtering and collecting the resulting nanoemulsion |
As shown in the figures below, translucent nanoemulsions produced from cannabis and/or other bioactive extracts by BHUT-based ultrasonic processing in combination with NanoStabilizer®-LT have extremely small median droplet sizes, in the range of 10 - 30 nm.
Having droplets that small affords a number of important advantages, including:
Passing a translucent nanoemulsion through a hydrophilic filter membrane with 220 nm pores removes practically all particulate contamination it may contain, including any microorganisms (sterilization), dust, titanium particles shed by the ultrasonic horn, leftover plant matter, etc. It is, therefore, unnecessary to manufacture such nanoemulsions under aseptic conditions, which significantly reduces processing costs. Since translucent nanoemulsions have much smaller droplet sizes (< 100 nm) than sterile-filter membrane pores (220 nm), they are able to flow though such filters without having any of the THC and/or CBD-containing oil droplets rejected by the membrane. The hydrophilic character of the filter membrane ensures that the hydrophobic oil droplets have low affinity for the membrane material and will not stick to it as long as they can fit through the pores and are carried by the liquid flow. You should, however, always make sure that your nanoemulsion is translucent before attempting to sterile filter it. Otherwise, some of the oil droplets may not fit through the pores and rapidly clog the filter.
Sterilizing syringe filters are available in the form of disposable cartridges that attach to the end of a syringe. These simple devices comprise a plastic housing and a disk-shaped membrane with 220 nm pore sizes. For filtering oil-in-water nanoemulsions, the appropriate membrane materials include nylon, polyethersulfone, cellulose acetate, regenerated cellulose, anopore, glass fiber, hydrophilic polypropylene, hydrophilic polyvinylidene fluoride, and hydrophilic polytetrafluoroethylene. Syringe filters are only suitable for working with small liquid volumes. Typically, it is possible to pass about 20 - 30 ml of translucent nanoemulsion through a 25 mm-diameter sterilizing syringe filter before it starts to resist the liquid flow and needs to be replaced.
These convenient disposable filtration systems typically comprise a polystyrene filter funnel and storage bottle (with a separate cap), joined by an adapter ring, which includes a fitting for connecting the assembly to a vacuum pump. The funnel comes with a 220 nm-pore hydrophilic membrane, made from similar materials to those used in syringe filters. All components are commonly supplied sterile and individually packaged. Vacuum filtration systems allow working with larger amounts of translucent nanoemulsions than syringe filters - up to about 500 ml can typically be filtered with each disposable unit.
In-line sterilizing filters are typically constructed of a hydrophilic hollow fiber material (thousands of long, hollow filaments with 220 nm pores) packed into a plastic cartridge. They may also contain activated carbon, and it is important to make sure that the type you choose for filtering your nanoemulsions comes without it, otherwise the potency of your product may be diminished. These devices are reusable and can typically filter many liters of translucent nanoemulsion before they need to be back-flushed with purified water to clear out the particulates retained by the membrane. Typically, a peristaltic pump is used to push the nanoemulsion product through such a filter at a relatively low flow rate (about 0.5 L/min). ISM offers in-line sterilizing filters in conjunction with NanoStabilizer®-LT.
1. Do my nanoemulsion particle sizes change after filtration?
No. Sterile filtration of translucent nanoemulsions does not change their particle sizes.
2. What about my cannabis oil? Could it inadvertently get filtered out?
Not from correctly prepared translucent nanoemulsions. Sterilizing filters (without activated carbon) do not remove any active ingredients, excipients, carrier oils, preservatives or any other formulation components of such nanoemulsions.
3. What about the horn wear and titanium particles shed by it? Will they all get filtered out?
4. Do I need to filter my cannabis nanoemulsion even if there is no visible titanium contamination?
Yes. Filtering your final nanoemulsion is important, not only for removing titanium particles, but also for sterilization, which is required for food and beverage products.
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