Good morning. Welcome to the Scientific Industries Second Quarter Fiscal Year 2023 Financial Results Conference Call. All participants will be in listen-only mode. Should you need assistance, please signal a conference specialist by pressing the star key followed by 0. After today's presentation, there will be an opportunity to ask questions. To ask a question, you may press Star, then 1 on your telephone keypad. To withdraw your question, please press Star, then 2. Please note, this event is being recorded. I would now like to turn the conference over to Joe Dorame with Lytham Partners. Please go ahead.
Thank you, Andrea. Good morning, and thank you for joining us today to review the financial results of Scientific Industries for the 2nd quarter of 2023, ended June 30, 2023. With us today on the call are Helena Santos, Chief Executive Officer, Daniel Grunes, Chief Executive Officer of Scientific Bioprocessing, and John Moore, Chairman. After the conclusion of today's prepared remarks, we will open the call for questions. Before we begin with prepared remarks, I would like to remind everyone, certain statements made by the management team of Scientific Industries during this conference call constitute forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995.
Except for the statements of historical fact, this conference call may contain forward-looking statements that involve risks and uncertainties, some of which are detailed under risk factors and documents filed by the company with the Securities and Exchange Commission, including the annual report on Form 10-K for the year ended December 31st, 2022. Forward-looking statements speak only as of the date the statements were made. The company can give no assurance that such forward-looking statements will prove to be correct. Scientific Industries does not undertake and specifically disclaims any obligation to update any forward-looking statements, except as required by law. Now I'd like to turn the call over to Helena Santos, Chief Executive Officer of Scientific Industries. Helena?
Good morning, Joe, and good morning, everyone. Welcome to the Scientific Industries Second Quarter Earnings Call. I'm excited to share details of our progress in the metamorphosis of Scientific Industries. The common themes between our two growth businesses, Torbal and SBI, or bioprocessing, are we now are automating our customers' manual workflows affordably, solving two of their biggest pain points. One, is the high turnover or scarcity of skilled workers, two, which is probably the most important, expensive data and control for regulatory, quality, and productivity reasons. In our second quarter, our benchtop lab equipment business generated approximately $250,000 of positive cash flow. This after investing approximately $130,000 for the development of the final two models of our VIVID pill counter line, called the Workstation.
To date, we have sold nearly 1,000 units of the VIVID and generated close to $2 million of revenue at approximately a 50% gross margin. This means we are already earning a return on our $800,000 investment in VIVID product development costs to date. VIVID sales are more than double last year in the comparable six-month period, and sales growth is accelerating, with Q2 2023 sales up 140% versus the same period last year. Sales growth could accelerate even faster with the November implementation of the FDA mandate for track-and-trace across the entire U.S. pharmaceutical supply chain. Our track-and-trace feature is very proficient, and because we do it in the cloud, it is arguably better than what others are offering, and this is a great selling point for our VIVID.
Even more important to customers, particularly the chains, is what is referred to as PV2, which is final prescription verification, and this will also be available in our Workstation. In addition, Q1 2024 will see the launch of the first of these two VIVID Workstation models. To date, the VIVID products we launched have been less expensive than all of our competitors. We strive to make our VIVID pill counter one of the best in the market, with constant improvements and updates based on user feedback. Our customers are now processing over 400,000 scripts a day, using our VIVID pill counter, bringing the total number to date of counts to over 5 million, and we expect to double that within the next 12 months.
The Workstation will sell at a premium to our competitors' offering price, but it will deliver greater feature sets and ROI at a $15,000 price point. When this product is launched, we will be the only provider of solutions at every customer price point in this growing market. We feel that we're just scratching the surface of the 88,000 U.S. retail pharmacies that could ultimately benefit from the VIVID family of automated pill counters. With that, I would now like to hand the call over to Daniel Grunes. He's the Chief Executive Officer of SBI, to discuss our progress in our very promising bioprocessing business. Daniel?
Thank you, Helena, and good morning, everyone. The advent of synthetic biology is as exciting as the accomplishments of the Internet, the development of the personal computer, or the invention of the smartphone.
We are standing at the threshold of a technological revolution that is poised to redefine industries and reshape human lives. SynBio is already creating synthetic fuels, lab-grown meat, or green chemicals from agricultural waste, and it has given rise to alternative sources for medicinal products and more targeted treatment options for diseases like cancer. The potential is sheerly enormous. A recent McKinsey report paints a vivid picture of the SynBio potential, projecting an astounding $4 trillion in direct global impact over the next decade, and Forbes Magazine sees the wealthiest individuals on the planet going all in on the mega trend, with investors like Bill Gates, Eric Schmidt, Peter Thiel, or Jerry Yang silently building up their SynBio portfolios. However, the truth is, SynBio is still too fragmented, too expensive, and too time-consuming to be disruptive or to compete with traditional solutions and products in the first place.
Current technologies to develop these processes come at a thicker price of up to $1 million in CapEx, per experiment costs of around $1,000, and require highly trained labor to operate the devices. Hence, the vast majority of the market cannot afford these systems. On top of that, they only provide insights into very selected process steps, while others remain unaccessible black boxes, as a result of which, a recent BCG study concluded that 90% of all SynBio processes still fail today. Especially in times where companies are faced with inflation, blockbuster patent expirations, rising R&D expenditures, and a disconcerting trend of diminishing returns on investment, there's an urgent need for simpler, cheaper, and more affordable technologies. This is where DOTS, where we are coming into play, the DOTS platform for digitally simplified bioprocessing.
With DOTS, we are taking a simple shake flask, the most ubiquitous vessel in the market, and we've retrofitted with the technical capabilities of the established bioreactor solution to enable simpler, faster, and more affordable bioprocessing at a fraction of the cost of existing solutions. In our last earnings call, I have given you an update on the introduction of the first component of DOT, our DOT Software, which enabled us to migrate all our legacy products into a single platform and to unlock closed loop control and shake flask. During this last quarter, we have been working to further develop the DOT Software based on market feedback from our growing customer base and in anticipation of the launch of our next product generation towards end of this year.
We have redesigned the software to significantly reduce the clicks required to start an experiment in line with the plug-and-play character that we seek to achieve. Additionally, we have successfully integrated licensing features into the DOT Software, which enables subscription-based SaaS models to be implemented with the next release, which is an important step towards the launch of our multiparameter reader. Lastly, we have further worked on third-party integration, as well as further IoT-based connectivity, which in part was implemented through paid customer requests. As we got the second component of DOTS, the multiparameter reader, we have continued the optimization and evaluation of our sensor electronics up until the functional design freeze and first pilot batch to test the manufacturing process of the reader.
On the basis of the positive results, we are currently kicking off the first larger production batch of the readers in preparation for early access customer studies. At the same time, our R&D team has made remarkable strides in advancing the third component of DOTS, our new chemosensor pill. On the one hand, the last quarter was focused on the further technical evaluation, optimization, and performance improvements of our sensor system, as well as the development and the assessment of the sterilization and packaging of the new pill.
On the other hand, following two years of negotiations, we entered into a long-term strategic agreement with Tyro Science, a world-leading manufacturer of state-of-the-art optical sensor technology, which ensures SBI to have exclusive access to their technology, as well as their decades of domain expertise, and which turns one of our potential competitors into a partner to deliver the best technology on the market. Our DOT sensing pills will play an essential role to unlock the full potential of the platform as they translate the sensing capabilities of complex, expensive, and disadvantageous applications via electrodes and SPOC technologies into the form factor of a pill, which will make pH, DO, glucose, or metabolite sensing as easy as popping an Advil for your headache.
Excitingly, with these developments, we are well on track for upcoming pilot tests with early access customers, as well as the planned Q4 launch of the technologies. With our clear and defined product roadmap, we are poised to continuously enhance our platform by introducing new sensors every six to 12 months, ultimately delivering significant value to our customers. Before I finish my portion, let me briefly comment on the progress from our operational and commercial team. As regards our operations, we have continued our post-merger integration efforts to become a more professional and more effective and leaner organization. As such, Q2 saw us launch our new company-wide ERP system, which centralizes all data resources at SBI and enables cross-functional access to our global sales and service data across the different legal entities.
At the same time, we have finalized the implementation of our new HR management tool and kicked off a project on quality management to become a more standardized and compliant with ISO Standards organization, which will not only help us to run the company more efficiently, but also opens doors towards new customer segments that require such standardization. As regards the commercial side, you may recall that we have recently adjusted our go-to-market strategy, have set up dedicated distribution management, and have focused our sales team towards a more specialized profile with a clear focus on the identification of product application fit. We have continued to restructure our sales force, and going forward, we will unlock untapped potential in the commercial team with dedicated segment and product trainings, as well as a closer alignment between marketing and sales.
Certainly, these adjustments will take time to show their full effects, but we are on a very promising path. The feedback we receive from the market, from our customers, and from potential strategic partners, clearly shows the opportunity at hand. We are happy to see that more and more customers are sharing their success stories with our technologies, and that even big corporations are reaching out to us to become early access testers of the new platform. At the same time, our marketing and early-stage sales pipelines are encouraging, and our conversion rates are improving, and we have managed to compensate for the loss of royalties from patent expirations by increasing our product revenues with the Aquila legacy tech and already prior to market launching the new products.
As such, our Q2 product sales of $368,000 are up 65% compared to the previous quarter. The backlog into the third quarter indicates an increase of 96% in customer orders compared to the same quarter last year. With that, I would like to hand back to Helena.
Mm-hmm. Andrea? We're ready to take any questions. Can you please provide the instructions on how to queue up?
We will now begin the question and answer session. To ask a question, you may press Star, then one on your telephone keypad. If you are using a speakerphone, please pick up your handset before pressing the key. To withdraw your question, please press Star then two. Once again, that was Star then one to ask a question, and at this time, we will pause momentarily to assemble the roster. Our first question will come from Harrison Shri- from Paul Knight of KeyBanc. Please go ahead.
Hi, this is Amanda Young on for Paul Knight at KeyBanc Capital Markets. How are you guys?
Good. How are you today? Nice to meet you.
I'm doing well. Nice to see you guys again. I had a couple of questions for you guys today, and just first, just looking at it, I'm seeing all of your VIVID products. I understand that they are the most inexpensive on the market compared to your competitors, while still offering the same variety. I just wanted to see, are there any risk factors that we need to be aware of for the VIVID products?
None that, you know, that come to mind other than general, you know, business risks. In terms of any others, no. The only thing that one could say, you know, at some point in time, in the future, and I would say within the next few years, could be anything that's related to HIPAA laws that we might have to take into consideration. Other than that, I'm not aware of anything.
Okay, sounds good. Just another one really quickly. When we're talking about your DOTS programs and the different stages that it's going through, you guys briefly talked about different licensing features. Could you just expand a little bit more on that?
Yeah. Hi. Essentially, when, when I talked about the DOT licensing features, I'm talking about the implementation of features in the software that allow for a subscription-based business model. Essentially, up until now, that's historic with our industry, we are selling our software, you know, as a one-time service. You acquire a license and become the owner of the software. In the future, with the multiparameter reader and the different pills that we're launching, essentially what we want to do is that essentially the customer acquires a subscription, an annual subscription to the software.
Then, you know, if, let's say, they start with a system that, you know, allows them to measure oxygen for that matter, they can, you know, at a later point in time, enlarge the system by saying, "Now, I want to also add a biomass feature," and, and just subscribe to that feature in the software rather than, you know, acquiring a, a new software. For us, it's a means to establish annual recurring revenue, you know, out of a previously one-time revenue product.
That makes a lot of sense. Could we potentially go into some of the new various features that you guys are thinking about adding onto the new DOTS programs?
Yeah, essentially, on a, on a very high level, what we are, what we're adding... Maybe to zoom out for a sec. Essentially the DOT platform has four components. It has the multiparameter reader. It has the liquid injection system, which allows you, based on the signals from the reader, to add substances to the cultures, and thereby control whatever happens in the flask. Then, it has the software itself that, you know, pulls all the data, provides the data analytics, and is almost like the navigation system for the customer in their experiments. And it has the sensing pills, right?
And the product roadmap that I was referring to, where we have very clear, foreseeable tasks, and launch path ahead of us, is with regards to the sensor pills, where we will start launching the first pill by the end of this year, dispatching beginning next year, which is dissolved oxygen. Then throughout the year 2024, we will launch pH, and with pH and DO, as well as the other tech, we will basically, at that point, have mimicked what a bioreactor can in, in the form factor of a shake flask.
As of then, we aim to to take the shake flask beyond what a bioreactor can, beyond the capabilities of those established systems with a launch of glucose sensing and then metabolites, that, you know, I don't need to go into the details, but but metabolite sensing is certainly something that is very interesting. Our ambition is to launch new sensors, new sensing kits every six-12 months, in a frequency of every six-12 months.
Understood, it definitely sounds like something that's very exciting for you guys. Well, you guys say that you guys have new products every 6-12 months. How long are we expecting for this to go on for? Is there anything particularly exciting for you guys, that you guys are really looking forward to?
Yeah, I mean, currently, of course, what we are, what we're doing is we're planning for a three to five-year roadmap. That's what I'm willing to communicate. Certainly, as you can imagine, a start-up embedded in a promising organization like, like we are, in a market that is unfolding, given, you know, the customer feedback that we receive, that naturally we're working on further, further innovations in the, in the background.
Now, I'm particularly excited after eight years of market testing and, you know, from being a founder of the organization to, to bringing the, the tech to the market for market testing, and by the end of this year, having all the platform components available to us, I'm, I'm particularly excited to unlock this, this, you know, vast majority of, of customers that currently cannot afford established solutions because they are too expensive, and thereby democratize the, the, the, the bioprocessing technologies and, and unlock, unlock a new era for synthetic biology. So that's certainly what I'm looking for, and, and to see, to see what, you know, where, where we can land with this because it's, it's, it's super exciting.
And specifically, Amanda, you know, the company initially invented the first automated biomass monitoring system. That was six years, seven years ago. About six or seven months ago, well, I should say probably two years ago, they invented this liquid injection system, and then six months ago, they developed a way of combining so that you're actually feeding the cells based upon the growth of the biomass. You know, this, you know, in the fourth quarter, we're going to be introducing oxygen-based feeding. Later, we're going to be introducing pH-based feeding, and then even later after that, glucose-based feeding.
Everything we're doing is we're tightening this gap that Daniel was talking about between what can be done in a $10,000 experiment in a bioreactor, or a $2,000 experiment in a Ambr system, to being more like a $100 experiment in a shake flask. That's the, the real-
Yep.
-price and scientific revolution. All that's going to be important because it's going to enable machine learning and artificial intelligence to take much larger structured data sets and really reduce the cost of science even further.
Yeah, I wanted to, I wanted to add to, to exactly that point, John. E- essentially, essentially, that's what we're enabling. You must, you must imagine, Amanda, that in our industry, our customers, they try to keep their processes in the design space by, by, following up with so-called critical quality attributes and critical process parameters. We always say that, you know, if you measure much more than, you know, what is deemed to be critical at this point in time, because how can you really say that something is criti-critical if you cannot measure it?
We want to take it beyond, we want to take it beyond that, you know, measure, measure what we can measure, and, and then via pattern recognition, you will see other factors that determine the product quality, product yield, and, and outcomes in a, in a process, you know, eventually much better than what we currently know.
Absolutely. Thank you guys so much for the time. I really appreciate it today.
Thank you for your time.
The next question comes from Harrison Schrage of KeyBanc. Please go ahead.
Hey, guys, Harrison here, also, with KeyBanc. Just a couple of quick questions. I was, I was wondering what you're seeing in the rest of your portfolio outside of the bioprocessing and broader Torbal division. Obviously, strong growth and bioprocessing, 108% in VIVID. What's, what's offsetting that on the rest of the portfolio for total growth of 7%?
Good morning. How are you today?
Doing well. How are you?
Good. Good. So the, the only thing that we see, past what we've discussed in terms of the bioprocessing business and the Torbal, is that on the, the Vortex-Genie brand, there is some softness, just like, you know, most of the business that you, you and, and Paul and your team have been covering. You know, particularly with the trends of the destocking, and some of the, of the slow, growth in, in, in the certain, Asian markets. Just like you, you know, you guys have, have seen in, in, in the other companies that you follow, we see the market stabilizing towards the end of this calendar year and coming back to the, you know, the normal single-digit growth.
That's, you know, that's, that's what we're seeing in, in the Vortex-Genie brand, business. Still generating positive cash flow, of course.
Got it. Just to hone in on that a little bit more here. You're only seeing that in Vortex-Genie, or you're not seeing that in the other portions of the business at all?
No. No, we're seeing cons- a, a nice constant growth, in the rest of the portfolio, particularly with the, with the Torbal, which is obviously more immediate because, that's just a different product line going to, you know, a, a different market. That we see a constant, growth from, quarter to quarter and expect it to continue with, you know, no, you know, no headwinds in sight.
Got it. In, in the press release, you cited increased customer base in the bioprocessing business. I was wondering if you could help us kind of quantify that, maybe year-over-year growth. And I, I suppose it, it sounds like, you know, to, to the point we just talked about, you're, you're not really seeing any of those broader bioprocessing, headwinds as, as much in, in that division. I mean, is there any change in customer behavior there at all?
Yeah, very briefly. I, I don't have the, I, I don't have the numbers with me right now in terms of customer growth year-over-year, but, you know, happy to get back to you on that. With regards to, with regards to headwinds, I mean, certainly in, in some of the segments we're selling to, you see them. You know, talking about the chemical industry, for example, if you look at the, the, the biggest companies and their outlook as regards the expected, you know, results by the end of the year, expected revenue by the end of the year, you know, some of them might be more cautious.
The beautiful thing about our position right now and about our technologies is that they have a wide application towards basically any kind of, you know, segment within various industries. Which is also the reason why we switched from a segmentation specific sales approach towards a product application fit approach. Because, you could have the, you know, various applications within a certain, within a certain segment. We're selling from, you know, the chemical industry to the food industry, to, you know, wet biotech and pharma, from, you know, big blue chips to the most innovative startups and organizations like the FDA or the U.S. government. That means essentially, you know, headwinds in one segment are usually balanced with tailwinds in others.
Which is why we as a technology provider, are at least, at least for the, for the past, the past, you know, six years that we are on the market, not so much affected by headwinds in specific industries.
Got it. That's helpful.
Does that answer your question?
Yes. Yes, that, that helps. Then, and then, Helena, last question for me. I was wondering if you could just kind of give an update on your cash burn and just kind of how you're thinking about the balance sheet and capital needs at, at this point looking forward.
Sure. Well, you could, you could see from our financials that we go through about approximately $600,000 a month. And although we've put some cost-cutting measures in place, mindful of, you know, the bottom line, as well as the top line, particularly in our bioprocessing business, we've, we've been able to do that. Obviously, you've seen that we've, we've filed an S-1 for an offering and also up listing to Nasdaq. So obviously, our board of directors is considering all forms of financing to finance and fund our operations going forward. You know, I can't-
Great.
I, I can't go into any more detail than that, 'cause we're not public. You know, whatever is public, you, you, you, you can see that.
Got it. Thanks. Thanks, Helena. That's helpful.
The next question comes from Allen Klee of Maxim. Please go ahead.
Yes, good morning. You talked about how in the fourth quarter you're looking at some oxygen-based feeding and then some other pH and glucose. Could you give some examples of how your customers will be using this type of these different type of tests in their applications? Thank you.
Yeah, I mean, I try to do it on a, let's say, on a high level, giving an example. In general, in synthetic biology, what we refer to as, as synthetic biology is that instead of, you know, other than biology, when you, when you are an organization, you're not only observing what an organism does, but you're essentially, re-engineering the organism in a way so that it performs a specific task for you. And, and usually that task is to turn a cheap raw material into a high-value product. Certain cheap raw material, for example, into an antibody or, you know, some sort of, lab-grown meat or, you know, synthetic cotton as one of the most recent examples.
You do that, by, you know, hundreds and thousands of manufacturing steps using, different, vessels from small scale to large scale. You start in your lab with, you know, you know, small, small scale, few milliliters, up to production capacities of thousands of liters. What you do in, in order to, to get there is that, you know, on the one hand, you need to, you need to find the right organism and engineer it in a way that it performs this task that you want, want that organism to achieve, and, to perform. Then you need to develop a process, by which that organism, performs that task on a larger scale at production capacities.
In order to do that, you basically, on a high level, you have a reaction vessel. That could be a shake flask, that could be a bioreactor, that could be a tank reactor. You fill that reaction vessel with some nutrients and the cells, and then you either stir them or put them in motion so that oxygen gets transferred into the broth and that these cells start to grow based on a carbon source that they have in the liquid. Our technologies, for example, what they do is allow you to keep, keep the organisms and keep that growth in the design space. Essentially, we measure how do the, how do the organisms do? How, you know, are they, are they consuming, you know, the oxygen that they need?
Are they limited in oxygen? Do we, do we need to increase the flow rate, the, the, the stir rate or the shaking speed so that they get more oxygen? Or, you know, are they limited in growth because they are changing the metabolism and they're not having enough carbon source, so essentially they're not having enough food available to them so that they can grow further. If that happens, you know, if our biomass sensor detects that they are not growing as they should, then, you know, they could give a signal to the feeding system. The feeding system could add, you know, additional carbon source and, you know, add that required food to the culture so that they continue growing as they should in the design space. That's what we're doing.
Essentially, in the past, what we've been working with was biomass, so cell growth as, as a parameter. That's, that's a parameter that we call a, a trailing, a trailing parameter. It's almost like, when you have a kid, that kid grows, and you take them to the doctor, you know, every, every couple of months, and then the doctor says, "Oh, okay, you know, that, that kid is, you know, overweight, underweight, or, you know, within the, within the range of the normal." If you see, and if you detect any kind of change there, then, you know, you react to it by, you know, either, you know, feeding them more or, or feeding them less or whatever.
Oxygen consumption, for example, and that's the first two that we're launching by the end of this year. Oxygen consumption is a leading indicator. It directly shows you, are the cells, you know, alive? Are they breathing? Are they consuming the oxygen that we, you know, expect them to, or is there something off with the culture? Do we need to react? That helps, of course, in A, monitoring and controlling the cultures that you're working with and keeping them in the design space so that you know when to harvest or when to, you know, transfer them to the next, to the next reaction vessel, to the next larger batch.
Maybe, you know, when, when you have failed, you don't need to wait for, you know, a couple of days before you realize your endpoint is not there, and you need to start over. Maybe you see that from a contamination or so in the data immediately after a couple of hours and, you know, can fail faster and start, start from scratch earlier. This is the kind of, this is the kind of metrics that we're using, you know, what I, what I described as critical process parameters. The process parameters that are currently being used in established solutions are pH. Basically, measuring the base or the acid, acidity in the, in the, in the cells and so forth.
For human cells, that means, you know, they need to be in a certain space, otherwise, you know, it's, it's a toxic environment, and they are dying. You know, dissolved oxygen, so oxygen consumption or biomass growth, so that's cell growth. Those are the parameters that are currently being used, and then we're taking it along our roadmap further with, you know, glucose, so glucose consumption, or, you know, metabolites such as, you know, lactate, for example, that we, that we can then measure.
That was great. Thank you. If a customer would buy an SPI DOTS solution, is this a one-time purchase, or is there a recurring nature that would go with that?
Currently, in the current parameters that we've been market testing, and selling in the last couple of years, for example, that biomass sensor and the software, those were historically always one-time purchases. You know, such as the Vortex-Genie is a one-time purchase or, you know, as much as you would purchase a car. In the future, once we launch this, you know, full whole solution platform, by the end of this year, we will essentially have two or three, however, you look at them, consumable components. We will have the multiparameter reader, which will remain a one-time purchase. Then we have the software as a service subscription model.
Annual subscriptions where you subscribe to certain applications. For example, if you're using, you know, the multiparameter reader, and you're, you want to use the biomass application, you know, would subscribe to the biomass. If you want to use biomass and pH, you would, you know, subscribe to the biomass and pH applications. Then there's consumables involved in the liquid injection system and the pills. The liquid injection system is a combination of a little miniaturized pump and a little computer that sits on top of the reaction vessel, and that you attach to a single-use sterile packed cartridge.
Essentially, you take out the sing, the sterile cartridge, you fill it with whatever, liquid solution you, you like, let's say, a sugar solution, so a food source for the organism. You attach it to that miniaturized computer, you run the experiment. Afterwards, you can reuse that little miniaturized computer and pump, but you throw out the cartridge, and for your next experiment, use a new one. The same is true for the pills. The pills will come as, you know, a sterile packed, single-use pill. You know, as I said, almost like your Advil for, for your headache.
It will likely come blister packed, and you just, you know, if you wanna measure pH, you will pop a pill into that reaction vessel, and after the experiment, you will throw out the pill, and for the next experiment, you will use a new one. If you have various measurements in parallel, let's say you wanna measure pH, DO, and glucose for that matter in parallel, you will pop in three pills and throw out those three, and for the next experiment, use additional ones. We will essentially, by this combination of the subscription, the software subscription, the consumables for the liquid injection system, and the new sensing pills, we will create a significant portion of annual recurring revenue components into the business model.
That's great. Thank, thank you so much.
You're welcome.
This concludes our question and answer session. I would like to turn the conference back over to John Moore for any closing remarks.
Great, thank you so much. In conclusion, what I'd like to say is that what Helena started in 2011 with the licensing of this new generation of optical sensors, that were little sensors about the size of a postage stamp that replaced a foot-long $1,600 electrode that, you know, is still common and prevalent in the industry. You know, what she started with that, what Sartorius integrated into the Ambr system and their Biobag systems that sold billions of dollars of products, we're now continuing through the acquisition of Aquila BioLabs, re-repositioning the company, investing the $24 million we've invested to date, none of which has generated any additional revenue. It's. We're on the precipice of these new products coming into the marketplace.
It's what the customers have told us, and the customers have told Daniel and his co-founders that they want in the marketplace, is a product that combines the convenience and low cost of a shake flask with the performance and the control of a bioreactor. We're about to deliver this to science. It's gonna be a big force multiplier in the field of science, and we're really excited to deliver the economic benefits of all this investment we've made. Thank you all so much for paying attention to our story and our progress, and we're really excited for the next six to nine months to show you what we've been working on so hard for the last several years. Thank you all very much.
Conference is now concluded. Thank you for attending today's presentation. You may now disconnect.