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HelioFlux's Dr. Nirosha Murugan On The 5 Things
Everyone Needs To Know About Cancer
October 18, 2024
Cancer is a horrible and terrifying disease. There is so much great information out there, but sometimes it is very difficult to filter out the noise. What causes cancer? Can it be prevented? How do you detect it? What are the odds of survival today? What are the different forms of cancer? What are the best treatments? And what is the best way to support someone impacted by cancer?In this interview series called, "5 Things Everyone Needs To Know About Cancer" we are talking to experts about cancer such as oncologists, researchers, and medical directors to address these questions.
As a part of this interview series, I had the pleasure of interviewing Dr. Nirosha Murugan.Dr. Nirosha Murugan is the Chief Scientist and Co-Founder of HelioFlux, a biotech company pioneering innovative approaches to cancer detection and treatment. She is a Canada Research Chair in Tissue Biophysics and has over 15 years of experience in electromagnetic biology. Dr. Murugan's groundbreaking work combines quantum mechanics, biophysics, and AI to revolutionize cancer care.Thank you so much for joining us in this interview series! Before we dive into the main focus of our interview, our readers would love to "get to know you" a bit better. Can you tell us a bit about your childhood backstory?What or who inspired you to pursue your career? We'd love to hear the story.
The intricate dance between fundamental science and its application has always captivated me. From the revolutionary principles of Schrödinger, which laid the groundwork for modern quantum mechanics and subsequently transformed fields like electronics and cryptography, the thrill of turning theory into tangible results has guided my scientific journey. This passion was first kindled by reading the works of all the great minds who paved the way with their fundamental discoveries, especially from marginalized thoughts that went against the conventional thoughts of the times and often overlooked for their contribution such as Rosalind Franklin for her famous discovery of the DNA, and also people closer to home such as my grandfather, a physician who skillfully wove complex theories of consciousness into his clinical practice, showcasing the power of interdisciplinary thinking. Their approaches to not think outside the box but also design experiments in a careful way to get to the truth not only fueled my curiosity but also instilled a profound desire to leverage scientific discovery to improve health outcomes. My academic path has been profoundly shaped by mentors who encouraged me to embrace bold ideas and transform them into innovative applications. Working with Dr. Michael Persinger, I explored how electromagnetic fields influence learning and brain development, an experience that expanded my horizons and inspired me to apply these techniques to combat cancer. This formative period ignited my interest in biophysics and the untapped potential of physical stimulation for cellular activation and reprogramming. Later, as a postdoctoral researcher under the mentorship of Dr. Michael Levin and Dr. David Kaplan, I was encouraged to push these boundaries further by investigating bioelectricity's role in regenerating limbs in non-regenerative species. Together, these experiences and mentors have not only inspired me but also equipped me to challenge the conventional limits of science and engineering.
This is not easy work. What is your primary motivation and drive behind the work that you do?
I am always driven by the simple idea that basic discoveries in the lab can be mobilized to solve real-world problems and improve people's lives, particularly in the healthcare space. I'm motivated by the fact that, currently, without a significant breakthrough or innovation to combat cancer, about half of all people will suffer from this insidious disorder in their lifetime and more than half of the cancer survivors will be affected by long-term side effects. I see myself as leading the daunting but exciting task of finding new ways to reverse the destructive potential of cancer. Whether that means detecting it as early as possible with faint but revealing light signals or using electromagnetic fields to target and inactivate tumours, I am searching for solutions beyond pharmaceuticals. I'm also motivated by the prospect of designing and creating devices, products, and other kinds of useable tools and techniques to regenerate limbs, organs, and whole bodies.
What are some of the most interesting or exciting projects you are working on now? How do you think that might help people?
I'm currently working on developing an imaging tool that is mounted around the head and measures faint light signals generated by brain cells to screen for cancer and assess mental decrements following chemotherapy treatments. Similarly, I'm collaborating with physicists to demonstrate that brain cells use light as a signaling modality in addition to their electrochemical properties. I'm also developing both complex electromagnetic field exposures and nanoparticle-based drug delivery systems as anti-cancer therapies. While there are many other projects, I am particularly interested in developing biophysical strategies to control cell states and fates in real-time. With the ability to revert cancer cells to pre-cancerous states using biophysics, there won't be a need to destroy cells and risk the systemic effects of treatment toxicity.
To be continued….
September 30, 2024
By Howard Fine
For years, the race has been on to be able to detect early-stage cancerous tumors without having to subject a patient to the risks, pain and inconvenience of surgical removal of a tumor sample for biopsy testing. Many companies are trying to hone the ability to detect cancer cells through standard blood draws.
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HelioFlux Co-Founders, Dr. Nirosha Murugan and Kelly Lucas
But now, one local medtech company is working on a technology that it hopes can detect early-stage cancers without ever having to penetrate the patient’s body – not even for a blood draw.
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Manhattan Beach-based startup HelioFlux Inc. is testing technology that uses subtle changes in light emissions to detect early-stage cancer cells in solid tumors. The technology is still in its very early stages – human trials have not yet begun – but if it’s proven successful, it could revolutionize oncology screening.
“Our technology has the potential to make cancer detection more accurate, accessible and cost-effective, while also offering a non-invasive treatment option that could significantly improve patient outcomes and quality of life,” said Nirosha Murugan, a Canadian lab researcher who is a HelioFlux co-founder, its chief executive and chief scientist.​​
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Chance discovery during research​
Murugan said that during her lab research for her doctoral degree in biophysics at Laurentian University in Sudbury, Ontario, in Canada, her research team was looking at non-chemical communications between cells and found something interesting: cancer cells have a faster metabolism than most other cells and therefore emit light at different wavelengths and frequencies than other cells.
“Our team recorded these signals from healthy tissues and cancer tissues and that led to the discovery of a clear (light) signature difference between what is cancer and not cancer,” Murugan said.
This discovery only applied to cancers in solid tumors, not free-floating cancer cells in the bloodstream (lymphoma) or other non-tumor cancers. Nonetheless, when Murugan presented her team’s research at a quantum biology conference early last year in Galveston, Texas, the broader market implications were immediately obvious to Kelly Lucas, an attendee at that conference who was scouting new technologies on behalf of a couple of venture capitalists.​
“I went up to her (Murugan) after this presentation and talked this over,” Lucas said. “I wondered why this technology was not already out in the world. It is incredible technology that could save a lot of lives and make a lot of money in the process.”
That was when the idea for a new company to develop and market this technology emerged; Murugan and Lucas decided to name the startup HelioFlux.​
While Murugan’s lab was – and still is – in Waterloo, Ontario, Lucas decided to make the new company’s home in the Los Angeles area. “There’s so much opportunity here for startups, with such a great talent base,” Lucas said.​
HelioFlux’s startup capital has been modest: a $70,000 Simple Agreement for Future Equity (SAFE) note with up-front money from investors in exchange for future equity in the company, along with $40,000 raised through capital market company StartEngine. That’s been enough to set up a temporary office in Manhattan Beach.​
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On the research and technology side, Murugan has also managed to pull in more than $1 million in research grants. Lucas said HelioFlux is now looking for a larger fundraise through StartEngine – in the neighborhood of $5 million. She did not provide a target date to complete this fundraise.​
With the money raised so far, HelioFlux has managed to complete studies of the light detection technology using animals. Murugan said those studies have been successful in helping prove the concept. But more complex and costly studies on human subjects lie ahead.​
Two-track market​
Murugan said that assuming the light emission test concept holds up during those human studies, she sees two major markets ahead for the technology: In clinicians’ offices as a cancer screening tool and inside a device that consumers can wear.​ One big advantage of the technology is that because it is completely non-invasive, it can scan repeatedly for cancer with little or no negative impact on the patient. That makes it ideal for the consumer wearables market – similar in concept to the popular Fitbit trackers.
“I see something like this coming in very handy for someone whose family has a history of a certain type of cancer,” Murugan said. “You could use it to scan periodically for the first signs of cancer.”
​Eventually, Murugan said, the technology as developed further could even substitute for one of the most widely used cancer screening tools today: the mammography. But first, HelioFlux will have to overcome decades of practice in cancer detection that emphasizes the surgical biopsy.​
“Current biopsy techniques are the gold standard because of their accuracy and reliability,” said Travis Craddock, associate professor in quantum neurobiology at the University of Waterloo, in the same Ontario city that hosts Murugan’s lab.
Craddock said that HelioFlux’s technology must still show repeatable, reliable results with the same level of accuracy in detection or better than existing detection methods. That also means overcoming one huge hurdle that Craddock foresees: false positive or negative readings that are affected by ambient light “noise.”
Essentially, Craddock said, because the variation in light signal between cancer and non- cancer cells is so subtle, background light entering in can easily be confused for the cellular signals.​
With the HelioFlux technology as it is now, the best way to minimize this chance is to have the cellular signal scans conducted in near-total darkness. Such conditions are difficult to establish and maintain, he added.
However, he said, “as with all technologies this may improve in time with additional research and development."
”​Murugan acknowledged this drawback to the cellular light emission detection technology. She said that initially, human patients would be in dark rooms so that no ambient light gets in, though she did say that might make some patients uncomfortable.
But, Murugan added, her team is working on ways to limit the dark environment to a space immediately surrounding the light sensor, as well as on ways to amplify the light signals coming from cells to make them more distinguishable from ambient light noise. If HelioFlux is able to work through these challenges, Craddock said the company’s cellular light emission detection technology could emerge as the preferred non-invasive alternative to the current tissue biopsy technique for finding early cancerous tumors.​“
"All invasive detection methods have an inherent risk associated with infection or injury,” Craddock said. “Light emissions are non-invasive, and this expands what can be measured in an individual.”
HelioFlux Partners with Strong Force on Broad IP Plan
June 14, 2024
HelioFlux and Strong Force announce a partrnership, intending to develop a category- leading patent portfolio, relating to revolutionizing the diagnosis and treatment of cancer using artificial intelligence to identify signaling signatures of cancer cells and using non- invasive magnetic and optical techniques to interrupt cancer cell signaling mechanisms.
Preliminary analytics indicate that key subcategories of the patent landscape for biophysical diagnosis and non-invasive treatment of cancer are very sparsely developed, with most prior work on cancer treatment in particular being focused heavily on pharmaceutical approaches.
HelioFlux Intellectual Property Plan Explained in Detail
July 11, 2024
By Charles Cella, Strong Force Inc.
We're working with HelioFlux to develop and execute an intellectual property strategy that will position it as the category leaderin a technology category that has the potential to revolutionize diagnosis and treatment of some of the most intractable human diseases. At my firm, strong Force Innovation Portfolios, we focus on IP category leadership. We help visionary companies envision, stake out and capture value from IP leadership positions.
Over three decades, our unique combinatorial methodology has been the backbone for generation of exceptional returns across numerous market categories. We've repeatedly yielded nine figure exits on investments of single digit or low double digit millions, and we're looking to do the same for HelioFlux. One of the hallmarks of exceptional patent value creation is technology convergence. As standalone technology fields mature over a few decades, the early foundational patents eventually expire, or their value is exhausted. While those earliest patents play a huge role in determining how profits are allocated in the new ecosystem with the exception of occasional blockbusters, later,patents tend to become more and more narrow and incremental in value. By contrast, in the early phase of technology convergence, very broad industry influencing patents are available. HelioFlux is an outstanding example of the power of technology convergence. HelioFlux isn't developing just a single drug or a single diagnostic. The team is pioneering an entirely new field. This field is at the convergence points of photonics, biophysics, more specifically electromagnetic biology and artificial intelligence. By reading ion channel dynamics and cellular metabolism through photonics and controlling those channels through electromagnetic signals. Both of these things augmented by AI. HelioFlux can induce highly targeted changes in cellular component behavior without the side effects of pharmaceuticals. This offers the promise of development of noninvasive diagnostics and treatments for some of the most intractable diseases without requiring enormous laboratory and computational infrastructure of pharmaceuticals. The potential applications for HelioFlux are as wide ranging as the current diagnostic and pharmaceutical industries as a whole.
This all presents an enormous opportunity, but also some challenges. Where should HelioFlux focus? Among all these possibilities,an intellectual property portfolio is an excellent vehicle for capturing value across an entire ecosystem. This can enhance the competitive advantage in the areas where HelioFlux will develop commercial solutions, but also allow broader participation and profits through other mechanisms like joint ventures and licenses. Our research indicates that there's an opportunity to lead the patent landscape at this confluence of technologies. This includes how the convergence enables many major use cases, diagnostic, therapeutic, and others.
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How has strong force been able to capture leading IP and spaces with such great potential and large competitors? You can think of a technology as like a river. It winds up a very unpredictable path over time, which means that competitors that focus in a particular area and have to wait until there's clarity. You know, this means they make their investments late, and around product market fit. We build intellectual, proper property portfolios that are focused on the confluence point of those rivers. You can sort of think of that as almost like a hydroelectric dam that's built at the mouth of a river, waiting for the rivers to fill up, and produce power like a dam. The IP portfolio gives you control over the ecosystem. You can control the flow of technologies as well as the value is created. The winners in any intellectual property space are established early.
Like in the early days of the internet, the players who lay down the foundational technologies and protocols shape the entire future of the category, Intellectual property rights are a major currency in joint ventures in standard making, and the other activities that shape up an early ecosystem. This allows those intellectual property holders to have longstanding outsized influence and participation in the profits of any category. We believe HelioFlux is well poised to capture long-term value at the intersection of photonics, AI and biophysics, both for cancer care and other intractable diseases. By applying our proprietary combinatorial methodology to this field and using the first to file patent system, we believe we can secure a priority optionality and long-term profit participation across an entire ecosystem that's only going to evolve over the next two decades. This is a time-sensitive opportunity as convergence in these fields is beginning to occur, driven in part by the enormous power of AI. HelioFlux is inviting visionary investors to support an IP portfolio that will not only enable HelioFlux’s leadership and cancer care solutions,but also enable participation for investors in the profits generated by this enormous category over the next two decades.