Disseminated on behalf of Powermax Minerals Inc. (CSE: PMAX) (OTCQB: PWMXF) and may include paid advertising.

• Powermax Minerals has completed a desktop study identifying multiple high-priority rare earth element (“REE”) exploration targets at its Hopkins REE Project in northeastern Ontario.
• The study integrated geological, geophysical, geochemical, and historical datasets to define structurally controlled areas that may host REE mineralization.
• Powermax plans a phased exploration program including mapping, sampling, airborne surveys, and potentially drilling, subject to exploration results and permits.
• The company continues to build a North American portfolio of rare earth assets across Canada and the United States as rise in demand for REEs used in electric vehicles, renewable energy systems, and defense technologies, drives growing call for domestic critical mineral supply chains.

Powermax Minerals (CSE: PMAX) (OTCQB: PWMXF), a Canadian mineral exploration company focused on rare earth projects, has identified several priority exploration targets at its Hopkins Rare Earth Element Project in Ontario following completion of a comprehensive desktop study designed to guide future field activities (https://nnw.fm/mIHT1) (https://ibn.fm/VTpDs).

The study provides a technical framework for the next phase of exploration at the Hopkins property, highlighting multiple areas where geological, geochemical, and geophysical indicators converge to suggest potential for rare earth element mineralization.

Prepared by geophysicist and geospatial data scientist Shahab Tavakoli, P.Geo., the study evaluated publicly available geological information, airborne magnetic and radiometric surveys from the Ontario Geological Survey, gravity data, and historical exploration records covering the Clay-Howells alkaline intrusive complex.

The Hopkins REE Project consists of 13 mineral claims covering approximately 6,145 hectares in Ontario’s Cochrane District, roughly 45 kilometres north-northeast of Kapuskasing. The property lies within the Kapuskasing Structural Zone, a geological corridor that hosts rare earth-bearing alkaline intrusive systems and has attracted interest for critical mineral exploration.

The analysis ranked Block A of the property as the highest-priority area for follow-up work. Within Block A, five target zones designated A1 through A5 were identified as areas where favorable structural features coincide with anomalous geochemical and geophysical signatures.

Target A1, located along the northern bank of the Kapuskasing River in the southern portion of Block A, received the highest ranking in the study. The target is interpreted as an area where favorable geological structures overlap with indicators associated with REE mineralization. Recommended follow-up activities include detailed geological mapping, rock sampling, and potential soil geochemistry to better define the extent of the target corridor.

Block B was ranked as the project’s second-priority exploration area. Two targets, B1 and B2, were identified along the margin of the intrusive complex where east-northeast trending structures are interpreted to support localized rare earth potential.

The study utilized a Weight-of-Evidence model to assess REE prospectivity by examining the relationship between historical total rare earth oxide values and geophysical signatures, including elevated thorium-to-potassium ratios, uranium signatures, gravity responses, and magnetic anomalies. The combined data suggests that rare earth mineralization may be controlled by structural pathways and late-stage alkaline and carbonatitic geological processes. However, the findings remain preliminary, with no current mineral resource estimate.

To advance the project, Powermax intends to undertake a phased exploration program, subject to funding, permitting, seasonal conditions, and final program design. Planned work includes airborne magnetic, very low frequency (“VLF”), and radiometric surveys, along with geological mapping, prospecting, targeted rock sampling, soil geochemistry, and ground verification of identified anomalies. Future trenching or drilling may be considered depending on exploration results.

Chief Executive Officer Paul Gorman said the study provides the company with a structured approach for evaluating the property and prioritizing the strongest targets for field verification.

The Hopkins project represents one component of Powermax’s broader strategy of developing a portfolio of rare earth assets in North America. In addition to Hopkins, the company holds options to acquire interests in the Cameron REE Project in British Columbia and the Atikokan REE Project in Ontario, and holds a 100% interest in the Ogden Bear Lodge Project in Wyoming.

Global demand for rare earth elements is expected to increase substantially over the coming decade as electrification and renewable energy deployment accelerate. At the same time, concerns about supply chain concentration remain a strategic issue because China currently dominates a significant portion of global rare earth mining and processing capacity. This supply imbalance has prompted governments in North America and other regions to call for the development of domestic critical mineral projects. In the United States, initiatives including the Defense Production Act have been used to encourage investment in rare earth supply chains through grants, financing support, and strategic procurement programs.

For more information, visit the company’s website at www.PowermaxMinerals.com.

NOTE TO INVESTORS: The latest news and updates relating to PWMXF are available in the company’s newsroom at https://ibn.fm/PWMXF

Exploration Target Cautionary Statement

The exploration targets discussed are conceptual, and there is currently not enough data to confirm a mineral resource. Further exploration may not yield successful results.

• Aggressive repurchase of its own stock by Earth Science Tech, a growing holding company focused on various aspects of the healthcare industry,  reflects management’s growing internal confidence in the company’s future trajectory.
• Over 3 million shares of common stock have been repurchased in current fiscal quarter, a significant acceleration in buybacks.
• Reduction in share dilution can consolidate existing equity and potentially boost earnings per share (“EPS”).

Earth Science Tech (OTC: ETST) is capturing the attention of the micro-cap market following a significant acceleration of its share repurchase program. Recent market data indicates that the company is aggressively buying back its own stock, a strategic corporate move that typically signals strong internal confidence in a company’s financial health, cash flow, and future trajectory.

According to current disclosures, Earth Science Tech has been highly active in its buyback program during its current fiscal first quarter of 2027. Over the course of this recent quarter, the company has successfully repurchased a total of 3,150,392 shares of its common stock.

What makes this figure particularly notable is the sheer velocity of the repurchases compared to historical data. To put this recent quarter into perspective, the 3.15 million shares bought back in just the first three months of Fiscal Q1 2027 represent over 83% of the total volume of shares the company purchased over the entire 12-month period of the preceding fiscal year ending 2026.

From a third-party analytical standpoint, when a company buys back more than four-fifths of its previous year’s total in a single quarter, it sends a distinct and bullish message to the market. Share repurchases of this magnitude generally highlight two key factors for investors:

• Reduction of Outstanding Shares: By repurchasing over 3.15 million shares, ETST decreases the total number of outstanding shares in the open market, which can consolidate existing equity and potentially boost earnings per share (“EPS”).
• Management Conviction: Accelerating a buyback program at this pace usually indicates that management and the board of directors believe the stock is currently undervalued by the market, and that investing capital directly back into the company yields a strong return on investment.

Earth Science Tech’s willingness to deploy capital into its own stock at such an accelerated rate is an indicator that current and prospective investors should watch closely. As ETST moves further into fiscal 2027, the market will be eager to see if this aggressive pace of share accumulation continues.

Data regarding Earth Science Tech, Inc.’s (ETST) outstanding shares, security details, and recent buyback activities can be verified directly via OTC Markets.

For more information, visit the company’s website at www.EarthScienceTech.com.

NOTE TO INVESTORS: The latest news and updates relating to ETST are available in the company’s newsroom at https://ibn.fm/ETST

• Institutional investors are increasingly looking beyond simply holding digital assets and are exploring strategies that can generate yield, improve liquidity and enhance treasury efficiency.
• MindWave Innovations has built an ecosystem that integrates MindChain, Validator Nodes, AI Yield Engine, Treasury Wallet infrastructure and Real-World Asset (“RWA”) initiatives to support institutional digital asset adoption.
• The company’s platform is designed to bridge traditional finance and blockchain technology by combining treasury management, AI-driven yield generation, asset tokenization and decentralized financial infrastructure.

Holding digital assets was once largely viewed as a passive strategy centered on long-term appreciation, inflation protection and portfolio diversification. Today, however, institutional investors are increasingly focused on a different objective: generating productive returns from digital asset holdings while maintaining the oversight, security and liquidity standards expected in traditional finance.

That shift is driving growing interest that can help institutions actively manage digital assets rather than simply store them. Strategies such as staking, AI-driven yield optimization and treasury management solutions are emerging as important tools for organizations seeking to improve capital efficiency and unlock additional value from their digital asset reserves.

Staking allows participants to earn rewards by helping secure blockchain networks and validate transactions, while AI-powered systems can analyze market conditions and dynamically allocate capital across yield-generating opportunities. At the same time, modern treasury platforms are helping institutions manage liquidity, monitor risk and streamline digital asset operations in an increasingly complex financial environment.

Positioned at the intersection of these trends is MindWave Innovations (NYSE American: APUS), a digital asset company focused on providing institutional-grade treasury infrastructure for the evolving digital asset economy.

The company aims to help corporations and institutional investors securely hold, manage, and generate yield on Bitcoin reserves. Rather than offering a single product, MindWave has built an integrated ecosystem designed to connect digital asset treasury management, blockchain infrastructure, AI-powered analytics and decentralized financial services.

Built on top of that infrastructure are four primary application verticals that expand the utility of the ecosystem into real-world markets:

• MindChain: The company’s Layer 2 blockchain network designed to provide scalable transaction processing, ecosystem interoperability and support for decentralized applications and tokenized financial services.

• Validator Nodes: A decentralized validation framework that helps secure the network, verify transactions and support staking-based participation across the ecosystem.

• AI Yield Engine: An autonomous, AI-powered system that continuously analyzes market conditions, allocates capital and seeks to optimize risk-adjusted returns across digital asset strategies.

• Treasury Wallet: A secure treasury management solution designed to help institutions manage digital assets, oversee liquidity, monitor activity and support yield-generating treasury operations from a centralized interface.

Beyond its core infrastructure, MindWave is also expanding its ecosystem through Real-World Asset (“RWA”) initiatives, which are designed to bridge traditional assets with blockchain-based financial networks. The company envisions tokenizing assets such as real estate, commodities and other value-bearing holdings, allowing them to be represented and managed on-chain with greater transparency, accessibility and efficiency. As institutional interest in asset tokenization continues to grow, RWA solutions are increasingly being viewed as a potential pathway for unlocking liquidity, broadening participation and connecting traditional finance with decentralized financial infrastructure.

Together, these components create the operational backbone of the MindWaveDAO ecosystem, allowing corporations and institutional participants to move beyond simply holding digital assets and toward actively managing them as productive treasury assets.

The company describes this approach as bridging traditional treasury management with blockchain-enabled financial infrastructure. By combining secure custody, decentralized validation, AI-driven capital allocation and treasury oversight tools, MindWave is building an ecosystem intended to support the next generation of institutional digital asset adoption.

For more information, visit the company’s website at www.MindWaveDAO.com.

NOTE TO INVESTORS: The latest news and updates relating to APUS are available in the company’s newsroom at https://ibn.fm/APUS

Disseminated on behalf of MindBio Therapeutics Corp. (CSE: MBIO) (OTCQB: MBQIF) and may include paid advertising.

• The platform is designed to detect cocaine, cannabis, alcohol, narcotics, psychedelics, and human fatigue using voice analysis and artificial intelligence.
• MindBio is preparing to deploy the software through Edge AI kiosk systems targeted at safety-critical industries.
• The company is pursuing commercialization opportunities in mining, aviation, construction, transportation, and law enforcement markets.
• MindBio’s technology offers a non-invasive and affordable alternative to traditional drug and alcohol testing methods.
• The launch represents a key step in the company’s transition from research and clinical development toward commercial implementation.

MindBio Therapeutics (CSE: MBIO) (OTCQB: MBQIF), a biotechnology company, has launched Intox AI(TM), its flagship enterprise software platform designed to detect drug use, alcohol intoxication, and human fatigue, through voice analysis powered by artificial intelligence. The announcement marks an important milestone in the company’s commercialization strategy as it moves toward deployment of its first Edge AI kiosk prototypes, which are expected to be completed during the current quarter (https://ibn.fm/GrITB).

According to MindBio, Intox AI(TM) is designed to analyze speech patterns in real time and identify indicators associated with multiple neurologically active substances, including cocaine, cannabis, alcohol, psychedelics, and narcotics. The platform is also being developed to assess human fatigue, a factor that remains a significant safety concern in many industrial environments.

The company believes the technology could address a growing need for scalable impairment screening in industries where worker alertness and sobriety are essential. Mining operations, aviation, construction, heavy transportation, and law enforcement, are among the sectors being targeted for future commercialization. These industries often operate under strict workplace safety requirements and regulatory frameworks that mandate drug and alcohol testing programs.

Traditional testing methods typically rely on breathalyzers, saliva tests, or laboratory analysis, approaches that can be time-consuming, require specialized equipment, involve ongoing consumable costs, and create operational challenges when screening large numbers of workers.

MindBio’s approach seeks to simplify that process by using voice as the primary diagnostic input. The company’s system analyzes millions of data points extracted from speech and generates an assessment within seconds. When scaled, such a platform could offer organizations a much faster and less intrusive screening method than many existing alternatives.

The launch of Intox AI(TM) builds on several years of research and development focused on acoustic biomarkers. MindBio has been conducting clinical studies examining how intoxication and impairment affect speech characteristics. Through those studies, the company has developed machine-learning models designed to identify measurable changes in voice patterns associated with substance use and cognitive impairment.

According to the company, its predictive models have been trained on more than 50 million data points and analyze over 140 acoustic parameters extracted from human speech. Management states that this dataset has helped establish a proprietary foundation for both consumer and enterprise applications.

The company’s technology portfolio now extends beyond alcohol detection alone. MindBio previously introduced Booze AI, a consumer-focused application that estimates blood alcohol concentration using voice analysis and behavioral inputs. Intox AI(TM) expands those capabilities into enterprise markets while adding detection capabilities across multiple substance categories and fatigue-related conditions.

The company is pursuing a business model that combines hardware deployment with recurring software revenue. Its Edge AI kiosks are being designed for on-site use in industrial environments, enabling workers to complete voice-based assessments through touchless systems that perform analysis locally and provide compliance-ready reporting.

Beyond workplace safety, management has identified potential future applications in telehealth, remote monitoring, and broader health prediction technologies. Because the underlying platform analyzes physiological and cognitive indicators reflected in speech, the company believes its technology may be adaptable across multiple healthcare and wellness use cases.

For more information, visit the company’s website at www.MindBioTherapeutics.com.

NOTE TO INVESTORS: The latest news and updates relating to MBQIF are available in the company’s newsroom at https://ibn.fm/MBQIF

Disseminated on behalf of Planet Ventures Inc. (CSE: PXI) (OTC: PNXPF) and may include paid advertising.

• The demand driving key space services is structural not speculative.
• Mantis Space is developing what it described as the world’s first power grid in space.
• Planet Ventures completed a $200,000 strategic equity investment in Mantis Space, marking the company’s first deployment of capital into the sector.

The space industry is no longer just launching satellites; it is beginning to service, fuel and power them in orbit, and the shift from concept to commercial reality is accelerating. After years of theoretical roadmaps, capabilities such as on-orbit refueling, debris removal, in-space assembly and orbital power distribution are now drawing serious capital, government contracts and engineering milestones. Into this pivotal moment, Planet Ventures (CSE: PXI) (OTC: PNXPF) has made its first move into the space economy, backing Mantis Space, a company working to build the first power grid in orbit.

The demand driving these services is structural not speculative. Novaspace’s 2026 small satellite market report forecasts 16,900 satellites under 500 kg. will be launched between 2026 and 2035, averaging roughly 640 kg. of payload deployed daily. As constellations scale, operators face mounting pressure to extend satellite lifespans, reduce the cost and weight of onboard power systems, and manage orbital congestion. 

Traditional satellite architecture requires each spacecraft to carry its own solar panels and batteries for the entire duration of its mission, an expensive, mass-intensive design constraint that limits performance and economic viability. The emerging space-to-space economy is evolving specifically to address these constraints by turning space infrastructure into shared, persistent services rather than single-use hardware.

For example, Astroscale U.S. is set to conduct what will be the first-ever commercial refueling of a U.S. Department of Defense satellite in geostationary orbit, with a mission manifested to launch in the summer of 2026. In terms of debris management, Astroscale’s ELSA-M program, designed as the world’s first commercial end-of-life removal service for prepared satellites, is advancing toward a 2026 launch following a launch services agreement signed with Isar Aerospace in March 2026. 

Meanwhile, analysts and industry groups are pointing to the need for standardized servicing interfaces, shared logistics infrastructure and persistent in-orbit capabilities, a recognition that orbital operations are maturing into something much more analogous to a managed industrial ecosystem than a series of independent launches. A December 2025 analysis from NASA’s Consortium for Space Mobility and ISAM Capabilities identified GEO satellite refueling as one of the most practically valuable near-term applications of on-orbit servicing, calling for focused investment and coordinated policy to accelerate adoption.

Mantis Space is building directly into this gap. The company is developing what it describes as the world’s first power grid in space, a scalable satellite constellation optimized for continuous solar energy collection and wireless redistribution through proprietary laser-based technology. The system is designed so that satellites built to receive power from the Mantis network require fewer onboard solar panels and batteries, resulting in smaller, lighter and less expensive spacecraft. 

The analogy Planet Ventures uses in this scenario is compelling: In the early days of the automobile, drivers had to carry all the fuel they needed for a trip; the gas station was the disruptive invention that changed vehicle design entirely. Mantis positions orbital energy distribution as that same structural enabler for the next generation of space operations. The company has already attracted meaningful institutional confidence: Its headquarters expansion in Albuquerque, New Mexico, is supported by $2.5 million through New Mexico’s Local Economic Development Act program and an additional $500,000 from the city of Albuquerque, reflecting public-sector conviction in its long-term impact.

Planet Ventures completed a $200,000 strategic equity investment in Mantis Space in February 2026, marking the company’s first deployment of capital into the space sector. The investment was made in exchange for 49,313 shares at $4.0557 per share and was part of a broader financing round for Mantis. 

For Planet Ventures, the transaction is consistent with its stated mandate as a publicly traded investment issuer focused on high-growth, disruptive sectors, giving ordinary shareholders exposure to private space startups that would typically be accessible only to institutional venture capital. 

“The commercialization of space is accelerating rapidly, and infrastructure solutions such as orbital energy distribution are foundational to the next phase of growth,” said Planet Ventures CEO Etienne Moshevich. “We believe Mantis Space is building in a strategically critical segment of the space economy, and we are excited to support their development.”

The investment also aligns Planet Ventures with a theme that is becoming central to the space industry’s next chapter. As the company notes, the most attractive opportunities in space remain locked inside private companies inaccessible to most individual investors, and Planet is built to bridge that gap. By positioning early in orbital infrastructure rather than in launch or earth observation, segments that are already maturing and increasingly commoditized, Planet Ventures is placing its thesis at the intersection of energy, satellite operations and in-space logistics. If Mantis delivers on its vision, Planet Ventures will have established a foothold in what could become one of the most critical utility businesses of the coming decade.

For more information, visit www.PlanetVenturesInc.com.

NOTE TO INVESTORS: The latest news and updates relating to PNXPF are available in the company’s newsroom at https://ibn.fm/PNXPF

Disclaimer

Investor Brand Network (“We” or “Us”) are not securities dealers or brokers, investment advisers or financial advisers, and you should not rely on the information herein as investment advice. Planet Ventures Inc. will make aggregate payments of $100,000  to us to provide marketing services for a term of 1 year. This article is informational only and is solely for use by prospective investors in determining whether to seek additional information. This does not constitute an offer to sell or a solicitation of an offer to buy any securities. Our stock profiles are intended to highlight certain companies for your further investigation; they are not stock recommendations or constitute an offer or sale of the referenced securities. The securities issued by the companies we profile should be considered high risk; if you do invest despite these warnings, you may lose your entire investment. Please do your own research before investing, including reading the companies’ SEDAR+ and SEC filings, press releases, and risk disclosures.

Forward-Looking Statements

This document contains forward-looking statements within the meaning of applicable securities legislation. Such statements include, without limitation, statements regarding: Planet Ventures’ investment strategy and objectives; anticipated developments in the commercial space industry, including the growth of orbital energy and space robotics markets; the projected growth of the global space economy; Planet Ventures’ expectations regarding the strategic importance of its investments in Mantis Space and General Astronautics; the anticipated role of orbital energy technologies and robotic servicing systems in future in-orbit operations; and the potential for these technologies to become foundational to the next generation of commercial space activity.

Forward-looking statements are not guarantees of future performance. Readers are cautioned not to place undue reliance on forward-looking statements. The forward-looking statements contained in this document are made as of the date hereof and Planet Ventures undertakes no obligation to update or revise any forward-looking statements, whether as a result of new information, future events, or otherwise, except as required by applicable securities laws.

Risk Factors

Investing in Planet Ventures and its portfolio companies involves a high degree of risk. The following is a summary of key risk factors. This is not an exhaustive list, and additional risks may exist that are not currently known:

• Early-Stage Investment Risk. Portfolio companies have limited operating histories and are pre-revenue. Investments are speculative and may result in a total loss of capital.
• Technology Risk. The orbital energy and lunar habitation technologies underlying the Company’s investments are unproven at commercial scale and may not be successfully developed or deployed.
• Regulatory Risk. Space sector operations require licenses and approvals from domestic and international regulatory bodies. Failure to obtain or maintain these could materially delay or prevent operations.
• Market Risk. Commercial demand for in-space power systems and lunar services has not been established at scale. Projected market growth may not be realized within anticipated timeframes.
• Liquidity Risk. Investments in private, early-stage companies are illiquid. There is no guarantee of a market for these securities or the ability to exit on favorable terms.
• Capital Risk. Portfolio companies may require additional funding that may not be available, or may be available only on dilutive or restrictive terms.
• Macroeconomic and Geopolitical Risk. Adverse macroeconomic conditions or geopolitical developments could disrupt the Company’s investment strategy or the operations of portfolio companies.
• Key Personnel Risk. The Company’s performance depends in part on retaining key personnel and advisors. Loss of key individuals could adversely affect the Company’s operations and investment activities.

• The centerpiece of Greenland Energy’s investment thesis is the Jameson Land Basin itself.
• The earn-in structure is a key feature of Greenland Energy’s model.
• The company’s capital position is equally central to the near-term execution story.

With a 2026 drilling window fast approaching and $70 million in fresh capital already secured, Greenland Energy (NASDAQ: GLND) is making a compelling argument that the Jameson Land Basin in East Greenland, one of the largest undeveloped Arctic hydrocarbon positions in the world, is no longer a story about geological potential but about execution. In an updated investor presentation, the Houston-based energy exploration company outlines in detail its proposed strategy to advance exploration of the Jameson Land Basin through modern technology, a clearly defined earn-in structure and a set of near-term drilling catalysts that management believes are achievable within the current calendar year.

The centerpiece of Greenland Energy’s investment thesis is the Jameson Land Basin itself, a roughly 2.1-million-acre position in East Greenland covered by three exclusive exploration and exploitation licenses. According to the company, an independent engineering estimate places the basin’s gross unrisked 3U prospective recoverable oil at up to approximately 13.0 billion barrels. While that figure represents prospective resources that have not been confirmed by drilling, the sheer scale of the estimate, combined with what the company describes as more than $275 million in historical investment in the basin adjusted to today’s dollars, helps explain why Greenland Energy believes the opportunity warrants serious attention. The company has identified 58 prospective drill sites across the basin’s approximately 1,800 kilometers of existing 2D seismic coverage.

The historical foundation underpinning that resource estimate goes back decades. Between the 1970s and 1990, ARCO, the same company whose geological persistence ultimately led to the 1968 discovery of North America’s largest oil field, conducted extensive exploration in the Jameson Land Basin, including geological mapping, gravity and magnetic surveys, 2D seismic acquisition, surface seep analysis, and basin modeling. 

According to the company, ARCO internally viewed Jameson Land as one of its most significant undeveloped Arctic opportunities. What halted development was not geology but economics: The oil price collapse of the 1980s reduced project viability, and corporate restructuring ultimately curtailed ARCO’s exploration budgets. The basin remained undrilled. 

Fast-forward to 2014, when a company called White Flame was awarded the Jameson Land licenses and commissioned the first nongovernment reassessment of the basin since the 1990s, reprocessing historical 2D seismic data and completing Full Tensor Gradiometry and LiDAR work. In 2021, 80 Mile completed its acquisition of White Flame, consolidating control of the three exploration licenses. The current path to the drill bit was set in March 2025, when March GL, the entity through which Greenland Energy holds it earn-in rights, agreed to fund the first two exploration wells.

The earn-in structure is a key feature of Greenland Energy’s model. The company has rights to earn up to 70% working interest across the Jameson Land license position upon the completion of two exploration wells: OPW-1 and OPW-6. The structure is milestone driven: 50% working interest is earned upon completion of the first well, with the full 70% earned after the second. OPW-1 is targeted for the third quarter of 2026, with OPW-6 planned for the fourth quarter of 2026. 

That timeline is not theoretical; heavy equipment was mobilized to East Greenland by barge in October 2025, and by the first quarter of 2026, equipment was in place to begin road and pad construction leading to the planned drill site. Construction of a three-mile road to the drill site is planned as part of the current phase.

Greenland Energy’s ability to execute on that timeline rests heavily on its execution partners, and the updated presentation devotes significant attention to the team assembled for the OPW-1 and OPW-6 campaigns. Stampede Drilling is the primary drilling contractor, bringing Arctic-capable equipment and operational experience. Halliburton provides integrated services and well planning. IPT Well Solutions delivers engineering support and well planning services. Desgagnés, one of Canada’s most experienced Arctic marine operators, is handling logistics and Arctic shipping. The combination of a seasoned drilling contractor, one of the world’s largest oilfield services companies and a proven Arctic logistics operator is designed to address what the presentation itself acknowledges are formidable operational challenges: remote Arctic conditions, extreme weather, seasonal access windows and limited existing infrastructure.

The company’s capital position is equally central to the near-term execution story. In late April 2026, Greenland Energy closed a $70 million public offering, pricing 17.5 million shares at $4 per share with accompanying common warrants exercisable at $5, with ThinkEquity acting as sole placement agent. CEO Robert Price described the raise as fully funding the company’s exploration plan, stating it positions Greenland Energy to deploy capital into OPW-1 and OPW-6 procurement and secure mill capacity for long-lead materials. It also funds the mobilization of the equipment, crews and logistics needed to advance the program toward planned October 2026 drilling operations. Earlier this year, the company listed on NASDAQ with an implied enterprise valuation of approximately $215 million at closing.

One important element of the current opportunity that the presentation highlights is the regulatory context. Greenland has announced that it would stop issuing new hydrocarbon exploration licenses, meaning the existing Jameson Land licenses held through White Flame and 80 Mile are grandfathered, and no new entrants can secure similar rights to the basin. That structure effectively makes the Jameson Land license position a one-of-a-kind opportunity in today’s regulatory environment. 

As the global conversation around Arctic energy security intensifies, driven by geopolitical realignments and the strategic significance of untapped hydrocarbon resources in stable, allied jurisdictions, the combination of scale, historical validation, grandfathered license status and a fully funded near-term drilling campaign makes Greenland Energy’s updated investor presentation worth reading carefully.

For more information, visit the company’s website at www.GreenlandEnergyCo.com.

NOTE TO INVESTORS: The latest news and updates relating to GLND are available in the company’s newsroom at ibn.fm/GLND

Forward-Looking Statements

This communication contains “forward-looking statements” within the meaning of the “safe harbor” provisions of the United States Private Securities Litigation Reform Act of 1995 and within the meaning of Section 27A of the Securities Act of 1933, as amended (the “Securities Act”), and Section 21E of the Securities Exchange Act of 1934, as amended. All statements contained herein other than statements of present or historical fact, including, without limitation, statements regarding Greenland Energy Company’s (the “Company”) future financial performance, business strategy, operations, financial position, estimated revenues and losses, projected costs, prospects, plans, objectives of management, and expected benefits of the Company’s recent business combination, are forward-looking statements. Forward-looking statements are generally identified by the use of words such as “believe,” “may,” “will,” “estimate,” “continue,” “anticipate,” “intend,” “expect,” “should,” “would,” “plan,” “project,” “forecast,” “potential,” “predict,” or the negative of these terms or similar expressions, although not all forward-looking statements contain such identifying words.

These forward-looking statements are based on management’s current expectations, assumptions and beliefs regarding future events and are based on information currently available to the Company. These statements involve a number of risks and uncertainties, many of which are difficult to predict and are beyond the Company’s control, and actual results may differ materially from those expressed or implied by these forward-looking statements. Factors that could cause actual results to differ materially include, among others: (i) Exploration and Geological Risks, including the Company’s status as a development-stage company with no operating history, revenues, or proved reserves; the inherent uncertainty in prospective resource estimates, including that the 13 billion barrel estimate is based on undiscovered accumulations with no certainty of discovery or commercial viability; geological complexity arising from limited seismic data coverage, pervasive igneous intrusions, faulting patterns, and significant Tertiary uplift creating thermal maturity uncertainty; the fact that the basin has never produced a commercial discovery despite decades of study dating back to the 1970s, and a 2008 USGS report stating less than a 10% chance of containing a technically recoverable hydrocarbon accumulation; and high-cost frontier exploration with estimated well costs of $40 million for the first well and $20 million for subsequent wells; (ii) Operational and Environmental Risks, including the challenges of operating in a remote Arctic location with extreme climate, harsh weather, limited daylight, no existing infrastructure, and seasonal access windows for equipment and personnel; drilling hazards such as blowouts, equipment failures, well control events, environmental releases, and accidents inherent in oil and gas operations; reliance on third-party contractors; and climate change scrutiny, as operations in Greenland face increasing opposition from environmental groups and institutional investors due to Arctic drilling concerns; (iii) Regulatory and Political Risks, including the 2021 Greenland drilling moratorium, and while licenses are grandfathered, future regulatory changes could jeopardize operations; geopolitical tensions, including U.S. interest in acquiring Greenland and Greenland’s internal independence movements that could affect operations; permit requirements, as drilling requires Environmental Impact Assessment approval and Field Activities Application approval from Greenlandic authorities; and forfeiture risk, as failure to meet drilling milestones could result in loss of the Company’s right to earn working interests; (iv) Financial and Capital Risks, including significant capital requirements and the need for substantial funding beyond current resources to complete the drilling program; commodity price volatility, as oil, gas, and NGL prices are highly volatile and will heavily influence project viability; a long development timeline during which market conditions may change significantly before potential production, unlike short-cycle shale projects; going concern uncertainty and substantial doubt about the Company’s ability to continue as a going concern without additional financing; and energy transition risk, as global demand for oil may decline due to electric vehicle adoption, renewable energy policies, and changing consumer preferences; and other risks and uncertainties as set forth in the Company’s Prospectus filed with the Securities and Exchange Commission pursuant to Rule 424(b)(4) under the Securities Act on April 29, 2026, in the section titled “Risk Factors”.

Forward-looking statements speak only as of the date they are made. The Company undertakes no obligation to update or revise any forward-looking statements, whether as a result of new information, future events or otherwise, except as required by applicable law.

Date: July 23-24, 2026

Venue: Boston, MA

Dynamic Global Events (“DGE”) will host the 6th Chief Patient Officer Summit on July 23–24, 2026, at the Sheraton Boston Hotel in Boston, Massachusetts. 

The 6th Chief Patient Officer Summit provides a unique opportunity to discuss in detail how organizations can better integrate patient perspectives into decision-making and clinical development. The event will gather senior executives to focus on strengthening patient integration, ensuring patient needs are better understood and remain central to all business and healthcare decisions.

Addressing Emerging Challenges in Patient Engagement

Patient advocacy has become an essential component of building trust among patients, healthcare providers, and industry stakeholders. Yet many organizations continue to face challenges in translating patient insights into actionable strategies that influence decision-making across departments. Summit sessions will examine current challenges facing advocacy and engagement teams, including patient recruitment and retention, stakeholder communications, community partnerships, measuring program effectiveness, and keeping pace with regulatory change.

To learn more, please visit https://ibn.fm/0xhba.

• Cardiovascular disease remains one of the most expensive health conditions in the United States.
• Cardio Diagnostics announced plans to participate in four national benefits conferences during June.
• The company has developed a suite of solutions designed to provide earlier identification of cardiovascular risk and enable more targeted interventions and preventive care.

A single heart attack or major cardiovascular event can have consequences that extend far beyond a patient’s health, affecting employers, insurers and healthcare systems through higher medical costs, lost productivity and long-term care expenses. As cardiovascular disease continues to drive a significant share of healthcare spending, organizations responsible for employee benefits are seeking new strategies to identify risk earlier and improve outcomes. Cardio Diagnostics Holdings (NASDAQ: CDIO) is engaging directly with these stakeholders at four national benefits conferences in June, where the company plans to discuss innovative approaches to cardiovascular disease prevention, risk assessment and cost management.

According to the American Heart Association (“AHA”), cardiovascular disease remains one of the most expensive health conditions in the United States. Direct cardiovascular healthcare costs accounted for approximately 11% of all U.S. healthcare expenditures in 2020–2021, more than any major diagnostic category except musculoskeletal disorders. The AHA also projects that annual cardiovascular healthcare costs will rise from approximately $393 billion in 2020 to nearly $1.5 trillion by 2050, while productivity losses are expected to increase from $234 billion to $361 billion over the same period. 

For employers and health insurers, these costs often translate into increased claims expenses, higher premiums and greater utilization of healthcare resources. The Centers for Disease Control and Prevention reports that heart disease remains the leading cause of death in the United States and continues to generate substantial direct medical expenditures as well as indirect costs related to lost productivity. Cardiovascular conditions frequently require ongoing treatment, specialist care, medications and, in many cases, hospitalization, creating a significant burden for self-funded employer plans and insurance providers alike.

Enter Cardio Diagnostics. The company recently announced plans to participate in four national benefits conferences during June, where the company will engage employers, brokers, union trustees and plan administrators on strategies for addressing cardiovascular disease. According to the company, the presentations are intended to highlight how advanced cardiovascular risk assessment and detection tools can support both improved health outcomes and more effective healthcare cost management.

The company’s message centers on the idea that earlier identification of cardiovascular risk and disease can potentially enable more targeted interventions and preventive care. Rather than waiting until symptoms develop or major events occur, employers and health plans may benefit from tools that help identify elevated risk or silent disease before they progress. This preventive focus aligns with broader trends in healthcare, where organizations are increasingly emphasizing population health management and proactive risk reduction.

Cardio Diagnostics has developed a suite of solutions intended to support these goals. Epi+Gen CHD(TM) is designed to assess an individual’s likelihood of having a coronary heart disease event, including a heart attack, by integrating epigenetic and genetic biomarkers with artificial intelligence–driven analysis. By examining molecular signals captured through a blood sample, the test seeks to provide personalized cardiovascular insights that complement traditional risk assessments.

The company’s PrecisionCHD(TM) solution is designed to assist in the diagnosis and management of coronary heart disease. One of the most significant aspects of the PrecisionCHD test is data that indicates its ability to detect nonobstructive forms of coronary heart disease, specifically ischemia with no obstructive coronary arteries (“INOCA”) and myocardial infarction with no obstructive coronary arteries (“MINOCA”). Standard tests, including angiograms, can miss this detection.

Both tests are noninvasive, and neither one requires fasting or radiation. In addition, they can be performed at home using a sample collection kit ordered through a telemedicine platform. 

For employers and health plans, the company also offers the HeartRisk(TM) population insights platform. HeartRisk is designed to help organizations identify cardiovascular risk across larger populations, enabling more precise population health initiatives. Such capabilities may be particularly relevant for self-funded employers and benefit administrators seeking to improve employee health outcomes while managing long-term healthcare expenditures.

Artificial intelligence plays a central role across these offerings. Cardio Diagnostics combines genetic and epigenetic biomarkers with AI-driven analytics to identify patterns associated with cardiovascular disease risk. The company describes this approach as part of its broader effort to advance precision cardiovascular medicine through more personalized and data-driven insights.

The company’s participation in national benefits conferences reflects growing recognition that cardiovascular disease is not only a clinical challenge but also a major economic concern for employers and insurers. As healthcare costs continue to rise, benefit decision-makers are increasingly evaluating solutions that emphasize prevention, early detection and personalized care. By presenting its technologies and population health strategies to employers, brokers and plan administrators, Cardio Diagnostics is positioning itself within an evolving conversation about how healthcare organizations can address one of the most costly and impactful disease categories affecting both patients and payors.

For more information, visit www.CDIO.ai.

NOTE TO INVESTORS: The latest news and updates relating to CDIO are available in the company’s newsroom at https://ibn.fm/CDIO

• The Texatron(TM) Fusion Engine(TM) platform is progressing from prototype development toward commercial-scale deployment, according to CEO Brent Nelson.
• American Fusion(TM) recently completed a ninth-generation half-megawatt prototype and is now constructing a five-megawatt pre-production system.
• The company is targeting “behind-the-meter” applications including data centers, industrial facilities, and remote power environments, with growing interest from U.S. defense agencies, government stakeholders, and commercial infrastructure operators.
• The company continues expanding its intellectual property portfolio and advancing regulatory and public-market initiatives following its merger with Kepler Fusion Technologies.

As electricity demand accelerates across data infrastructure, American Fusion(TM) (OTC: AMFN), designing the next-generation fusion energy technologies, recently outlined new milestones in the development of its Texatron(TM) Fusion Engine(TM) platform (https://ibn.fm/NLyYu).

In a recently released interview, Executive Chairman Brent Nelson described the company’s efforts to move Texatron(TM) from a research-stage concept toward practical commercial deployment (https://ibn.fm/E2kWy). “We’ve spent years taking a lifetime of scientific knowledge and turning it into a working machine,” Nelson said during the interview. “Texatron(TM) is no longer just a science project, it’s a practical fusion engine, and we’re now focused on proving that at scale.”

Fusion energy has long been viewed as a potentially transformative power technology because it aims to generate large amounts of energy without the long-lived radioactive waste associated with conventional nuclear fission reactors. However, commercial fusion deployment has remained elusive for decades due to the scientific and engineering challenges involved in sustaining and controlling plasma reactions efficiently.

According to American Fusion(TM) management, the platform uses a proprietary pulsed torsatron approach involving deuterium-helium-3 fuel and has demonstrated stable plasma formation at sub-fusion temperatures. The company recently completed its ninth prototype, described as a half-megawatt system, and is now constructing a five-megawatt pre-production unit intended to support broader commercial validation efforts.

Nelson said the structural frame for the five-megawatt system has already been completed and that the fabricator is preparing it for final assembly and testing. “The five-megawatt unit represents a significant step forward. It’s compact, efficient, and designed for real-world deployment,” Nelson said in the interview. “Once we complete testing and certification, we’ll be positioned to move quickly into commercial applications.”

Independent validation remains an important next step. “We’ve seen the system work internally,” Nelson added. “Now we’re bringing in third-party PhDs and internationally recognized testing equipment to validate and peer-review the results.” According to the company, regulatory certification efforts are currently underway in Texas.

American Fusion(TM) is also pursuing larger-scale deployment designs. Management says the company is currently developing nine Texatron(TM) models, including both a five-megawatt showcase system and then a 100-megawatt commercial-scale design that could form the basis of future infrastructure deployment.

The modular structure is central to the company’s commercial strategy. In practical terms, multiple 100-megawatt systems could theoretically be combined to build gigawatt-scale generating capacity over time.

Rather than competing directly with conventional grid-scale utilities initially, American Fusion(TM) appears to be prioritizing specialized “behind-the-meter” markets where reliable on-site power generation is becoming increasingly valuable. Data centers and industrial applications are a primary target.

Global data center electricity consumption has risen sharply alongside the expansion of artificial intelligence computing, cloud infrastructure and high-performance processing requirements. Nelson argued that Texatron(TM) systems may align well with those environments because many data centers already operate on high-voltage direct current infrastructure. “Data centers are a perfect fit for our technology,” Nelson said. “They run on high-voltage DC, and our system produces exactly that. It’s a natural match with minimal conversion required.”

Industrial operations and remote communities also represent potential future applications, particularly in regions where grid access remains constrained or unreliable. Government and defense interest appears to be another area of focus.

Following meetings in Washington, D.C., the company reported discussions with multiple branches of the U.S. military as well as engagement with Canadian defense and space agencies. According to Nelson, mobile, transportable and non-radioactive energy systems may have applications in remote or strategic operational environments.

The company also disclosed that it is evaluating potential projects in Northern Canada, including a letter of intent out for signature tied to a proposed 20-megawatt installation.

In a separate operational update released alongside its first-quarter filing, American Fusion(TM) said it continues advancing several strategic initiatives following the reverse-merger transaction with Kepler Fusion Technologies (https://ibn.fm/1gMtL).

Those initiatives include continued development of the Version 9 Texatron(TM) prototype, expansion of the company’s intellectual property portfolio, advancement of SEC reporting initiatives, and efforts tied to OTCQB qualification and a Frankfurt quotation initiative. The company also said it continues evaluating institutional and strategic financing opportunities.

For more information, visit the company’s website at www.AmericanFusionEnergy.com.

NOTE TO INVESTORS: The latest news and updates relating to AMFN are available in the company’s newsroom at https://ibn.fm/AMFN

• Safe Pro Group Inc. (NASDAQ: SPAI) recently announced several important milestones, including report of 560% revenue growth for the first quarter of 2026.
• The company also announced it has secured an order from the U.S. Army for its AI-powered threat analysis kit, which is integrated with Red Cat Black Widow Drones.
• In addition, Safe Pro said it has now reached 50,000 total landmine detections, following multiple years supporting the Ukrainian Government’s Ministry of Defense, along with several humanitarian aid organizations, in remediating deadly landmine and other threats.

Safe Pro Group (NASDAQ: SPAI), a mission-driven tech company that delivers defense and security solutions, has announced an impressive start to 2026 with important milestones and news.

First, Safe Pro reported record revenue growth in the first quarter of 2026 (https://ibn.fm/BrUsa). The company saw 560% revenue growth over the same quarter in 2025, with quarterly revenue reaching over $1.2 million. AI-specific quarterly sales saw an even larger jump of over 2,400%, thanks to new contracted sales of Safe Pro’s AI-powered drone-based image and video analysis systems. Safe Pro delivered AI gross margins of more than 72% and ended the first quarter with a strong balance sheet, including minimal debt and $14.8 million in cash.

In addition to an impressive first quarter revenue-wise, Safe Pro also recently announced that it has officially reached 50,000 total AI-powered landmine detections (https://ibn.fm/b0qzg). The impressive milestone follows years of work by Safe Pro in Ukraine as it helped the country and multiple global humanitarian aid organizations remediate deadly landmines and other explosive threats. Over more than 3 years operating in Ukraine, Safe Pro has formed a large network of relationships with many of the country’s leading demining, reconstruction, and emergency response agencies, plus both commercial and educational organizations.

Speaking about the milestone and operation in Ukraine, Safe Pro Chairman and CEO, Dan Erdbeg, said that “For over three years, our teams have been working in Ukraine supporting the global efforts to protect its citizens from the threat of landmines and helping to restore its devastated economy. During that time, we have been honored to have partnered with leading Ukrainian stakeholders in its government and military, and across its industrial and educational sectors, in a shared global mission.”

Finally, Safe Pro also recently announced that it has secured a U.S. Army order for Threat Analysis Kits which includes Safe Pro’s AI-powered Navigation Observation & Detection Engine (“NODE”), Black Widow Drones from Red Cat Holdings, and annual AI model and algorithm software upgrades and field support (https://ibn.fm/jlp30). The NODE edge compute system uses AI and machine learning algorithms trained on one of the world’s largest drone imagery datasets to rapidly detect and identify small and hard-to-find threats like landmines and a wide array of unexploded ordnance, aiming to improve safety for ground personnel and teams operating in high-risk environments.

About Safe Pro Group Inc. (NASDAQ: SPAI)

Safe Pro Group is a mission-driven tech company that delivers advanced security and defense solutions. It serves customers in the defense, security, humanitarian, and law enforcement industries, where the AI, drone-based services, and ballistic protective gear it develops can deliver operational efficiency and safety. At the heart of Safe Pro’s mission is a patented AI-powered computer vision software technology that rapidly detects small objects and threats in drone footage.

For more information, visit Safe Pro Group’s website at www.SafeProGroup.com.

NOTE TO INVESTORS: The latest news and updates relating to SPAI are available in the company’s newsroom at https://ibn.fm/SPAI