Company: ARTL
Filing Date: 2025-09-04
Form Type: 424B5
Source: 0001640334-25-001624
Chunk: 42

Company: ARTELO BIOSCIENCES, INC.
Filing Date: 2025-09-04
Form: 424B5
Chunk 42
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 we have subsequently identified a potential role for FABP5 inhibition to treat anxiety disorders, such as Post Traumatic Stress Disorder (“PTSD”). We have also been awarded a research grant in Canada to expand on our earlier research at the University of Western Ontario in this new development area. |

| 4 |

| Based upon recently disclosed positive pre-clinical evidence of promising activity and a differentiated mechanism-of-action for the prevention and treatment of Chemotherapy Induced Peripheral Neuropathy (“CIPN”), we have prioritized CIPN as the initial indication for development of our lead product candidate among our library of FABP5 inhibitor compounds, ART26.12. Treatment and/or prevention of CIPN is a significant unmet need, often resulting in anti-cancer treatment delays or discontinuations, and there are currently no approved treatments for CIPN by the regulatory authorities in the US, UK or EU.  The ART26.12 program is in the early stages of regulatory-enabling studies. We anticipate first-in-human studies could begin in the second half of 2024 depending, in part, on the ability of selected contract research organizations to source materials and resources, including animals, in order to perform required studies, the review and approval process with the regulatory authorities, such as the US Food and Drug Administration (the “FDA”), and any lingering consequences of the global COVID-19 pandemic. The COVID-19 pandemic has created uncertainties in the expected timelines for clinical stage biopharmaceutical companies such as us, and because of such uncertainties, we are unable to predict our expected timelines with any degree of certainty at this time.     In addition to our in-licensed programs, we have internal discovery research initiatives which resulted in ART12.11, a proprietary cocrystal composition of CBD. The crystal structure of CBD is known to exhibit solid polymorphism, or the ability to manifest in different forms. Polymorphism can adversely affect stability, dissolution, and bioavailability of a drug product and thus may affect its quality, safety, and efficacy. Based upon our research, we believe our CBD cocrystal exists as a single crystal form and as such is anticipated to have advantages over other solid forms of CBD that exhibit polymorphism. Emerging data demonstrates potential advantages of this single crystal structure, including improved stability, solubility, and a more consistent absorption profile. We believe these features have contributed to a  more consistent and improved bioavailability profile and, as already demonstrated in animal studies, may ultimately lead to improved safety and efficacy in human