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New Trinity Biotech Clinical Trial Data Shows Its CGM+ Technology Tackles a Major CGM User Problem by Going Beyond Glucose-Only Monitoring

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Trinity Biotech (Nasdaq: TRIB) reported new clinical data for its next-generation CGM+ wearable biosensor platform. Analysis of about 5,000 hours of pre-pivotal clinical wear data shows purpose-built capability to distinguish nocturnal compression-related false lows from true blood glucose lows.

The multi-sensor CGM+ system combines glucose with additional physiological signals and AI-driven analytics to add context beyond glucose-only CGM. According to Trinity Biotech, this supports differentiation in the approximately $15 billion global CGM market as CGM+ advances toward pivotal trial and regulatory submission.

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AI-generated analysis. How Rhea-AI works. Not financial advice.

Positive

  • Analysis of approximately 5,000 hours of pre-pivotal CGM+ wear data
  • Algorithm distinguishes nocturnal compression-related false lows from true glucose lows
  • Multi-sensor CGM+ platform adds physiological context beyond glucose-only monitoring
  • Management targets differentiation within an estimated $15 billion CGM market
  • Nocturnal compression-low function intended for pivotal trial and regulatory submission

Negative

  • CGM+ remains in late-stage development and has not yet entered pivotal trials

Market reaction: TRIB +5.49% on CGM+ pre-pivotal clinical data

+5.49%
3 alerts
+5.49% News Effect
+11.8% Peak Tracked
+$400K Valuation Impact
$7.70M Market Cap
0.1x Rel. Volume

On the day this news was published, TRIB gained 5.49%, reflecting a notable positive market reaction. Argus tracked a peak move of +11.8% during that session. Our momentum scanner triggered 3 alerts that day, indicating moderate trading interest and price volatility. This price movement added approximately $400K to the company's valuation, bringing the market cap to $7.70M at that time.

Data tracked by StockTitan Argus on the day of publication.

What This Means

The stock moved +5.5% in the session following this news. A strong upside move would echo prior clin...
Analysis

The stock moved +5.5% in the session following this news. A strong upside move would echo prior clinical headlines, where similar trials saw average reactions around 15.23%. Investors may be focusing on CGM+ differentiation, but an active F-3 shelf and ATM capacity could temper enthusiasm if additional equity is issued.

Key Figures

Wear data analyzed: 5,000 hours CGM market size: $15 billion Compression low frequency: once every 5–6 days
3 metrics
Wear data analyzed 5,000 hours Pre-pivotal CGM+ clinical trial in insulin-dependent diabetes
CGM market size $15 billion Estimated global continuous glucose monitoring market
Compression low frequency once every 5–6 days Reported rate of compression-related lows in CGM wear

Previous Clinical trial Reports

2 past events · Latest: Mar 23 (Positive)
Same Type Pattern 2 events
Date Event Sentiment 24h Move Catalyst
Mar 23 prostate test data Positive -5.1% Enhanced EpiCapture test showed 85% AUC in ~750-sample clinical study.
Aug 12 CGM+ trial results Positive +35.6% Redesigned CGM+ sensor delivered accurate 15‑day wear without calibrations.

24h Move is the share-price change in the day after each event; other market factors may also have contributed.

Pattern Detected

Clinical trial headlines have drawn mixed reactions, with one strong rally and one selloff despite positive data.

Historical Comparison

+15.2% avg move · Over 2 recent clinical‑trial headlines, TRIB typically moved about 15.23%. This CGM+ nocturnal compr...
clinical trial
+15.2%
Average Historical Move clinical trial

Over 2 recent clinical‑trial headlines, TRIB typically moved about 15.23%. This CGM+ nocturnal compression‑low data extends the same theme of positive diagnostics results within its portfolio.

Regulatory & Risk Context

Active S-3 Shelf · $25,000,000 · Short Interest: 0.86%
Shelf Active
Short Interest
0.86% of float
0% 15% 30%+
low as of 2026-06-15 Days to cover: 1

Reported short interest is relatively low, suggesting limited squeeze risk and a lower likelihood of extreme volatility driven purely by short covering.

Active S-3 Shelf Registration 2026-05-13
$25,000,000 registered capacity

An effective F-3 shelf and related equity facility allow Trinity Biotech to sell additional ADSs for up to $25,000,000, alongside a large registered resale by an existing holder, implying ongoing financing and dilution capacity.

Key Terms

continuous glucose monitoring, automated insulin delivery systems, hyperglycaemia, AI-driven analytics
4 terms
continuous glucose monitoring medical
"a common limitation of conventional continuous glucose monitoring (CGM) systems."
Continuous glucose monitoring is a system that tracks blood sugar levels in real-time throughout the day and night. It provides constant updates, similar to a car's dashboard showing speed and fuel level at all times. For investors, advancements in this technology can signal progress in health monitoring devices, which may influence the growth and valuation of companies in the healthcare sector.
automated insulin delivery systems medical
"In automated insulin delivery systems, a falsely low CGM reading may cause the pump"
Automated insulin delivery systems are medical devices that link a continuous glucose sensor and an insulin pump with software that adjusts insulin dosing automatically, like a thermostat that keeps blood sugar within a target range. They matter to investors because they transform diabetes care into a hardware-plus-software product with recurring revenue, regulatory oversight and reimbursement implications, and clear market demand for safer, easier glucose control.
hyperglycaemia medical
"reduce or suspend insulin unnecessarily, potentially increasing the risk of later hyperglycaemia."
Hyperglycaemia is a medical condition meaning high blood sugar, occurring when the body cannot move glucose out of the bloodstream efficiently. It matters to investors because it drives demand for drugs, monitoring devices and medical services, can affect clinical trial results and regulatory reviews, and acts like a dashboard warning light for rising long-term healthcare costs and shifting market opportunities.
AI-driven analytics technical
"physiological signals and AI-driven analytics to provide context and insights"
AI-driven analytics uses computer algorithms that learn from large amounts of data to spot patterns, make predictions, and generate actionable insights more quickly than a person could. For investors it matters because these tools can highlight opportunities or risks earlier and more consistently—like a smart assistant scanning thousands of reports and charts—helping inform buy/sell decisions while still depending on data quality and assumptions.

AI-generated analysis. How Rhea-AI works. Not financial advice.

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- Analysis of over 5,000 hours of clinical wear data validates Trinity Biotech’s CGM+ 's purpose-built capability to distinguish nocturnal compression-related false lows from true blood glucose lows

- Demonstrates practical value of Trinity Biotech's proprietary multi-sensor wearable biosensor technology beyond glucose-only CGM monitoring

- Reinforces differentiation opportunity for CGM+ within the $15 billion1 global CGM market

DUBLIN and WILSONVILLE, Ore., July 02, 2026 (GLOBE NEWSWIRE) -- Trinity Biotech plc (Nasdaq: TRIB), a commercial stage biotechnology company focused on human diagnostics and the development of innovative solutions addressing unmet clinical and industrial needs, today announced clinical study results demonstrating that its next-generation CGM+ wearable biosensor platform has successfully delivered a purpose-built capability to identify nocturnal compression-related false low glucose events, with its differentiated technology addressing a common limitation of conventional continuous glucose monitoring (CGM) systems. These findings provide further validation of Trinity Biotech's multi-sensor CGM+ architecture and its ability to deliver valuable physiological context alongside glucose measurements.

The analysis utilized approximately 5,000 hours of device wear data collected from insulin-dependent people with diabetes during a pre-pivotal clinical trial completed during the second quarter of 2026. By combining glucose measurements with additional physiological signals captured through a proprietary sensor architecture integrated within the CGM+ platform, Trinity Biotech developed an algorithm designed to distinguish false low glucose readings caused by sensor compression during sleep from true changes in blood glucose levels.

Compression-related false low glucose alarms are a common source of inaccurate CGM alerts. Published academic research reports that compression lows can occur, on average, once every 5 to 6 days of CGM wear.2 These events can disrupt sleep, prompt unnecessary carbohydrate intake and, in automated insulin delivery systems, influence dosing decisions based on inaccurate glucose data. In automated insulin delivery systems, a falsely low CGM reading may cause the pump to reduce or suspend insulin unnecessarily, potentially increasing the risk of later hyperglycaemia. For users managing diabetes manually, false alarms can lead to unnecessary carbohydrate intake for a low glucose event that did not occur. This may then require correction for elevated glucose, creating avoidable variability often described as “rollercoasting.” Because compression lows most often occur overnight, they can also drive sleep disruption and alarm fatigue.

The study findings demonstrate how Trinity's groundbreaking multi-sensor approach can provide physiological context not available in conventional glucose-only CGM systems. Management believes this capability is an important example of how CGM+ can deliver greater utility to users by addressing real-world pain points such as false alarms, sleep disruption and avoidable glucose variability, while also offering automated insulin delivery system providers richer, more contextual data that may support improved system accuracy and decision-making. Trinity believes this dual value proposition can strengthen the differentiation, partner relevance and commercial opportunity for its CGM+ solution.

John Gillard, President and Chief Executive Officer of Trinity Biotech, commented: “CGM+ was designed from the outset to go beyond glucose measurement, by delivering a single wearable device that combines the benefits of continuous glucose monitoring with broader physiological data points, such as heart activity, body temperature, and physical activity. These clinical results further validate that approach and our goal of delivering insights, not just data.

Based on direct conversations with CGM users on their pain points and engagement with the broader ecosystem, we believe real-time identification of nocturnal compression-related false lows addresses an important limitation of glucose-only systems and demonstrates how CGM+ can improve the user experience, strengthen our commercial opportunity and provide richer data to automated insulin delivery partners.”

Validating the CGM+ Platform Strategy

Unlike conventional CGMs, CGM+ has been designed as a multi-sensor wearable biosensor platform that combines glucose measurements with additional physiological signals and AI-driven analytics to provide context and insights rather than glucose data alone.

Trinity believes the nocturnal compression-low detection capability further demonstrates the potential advantages of the CGM+ platform, including:

  • Multi-sensor physiological monitoring
  • AI-native analytics and contextual insights
  • Lower-cost modular device architecture
  • Reduced environmental waste
  • Enhanced user experience through improved physiological insight

CGM+ is in the latter stages of development, and it is intended that this nocturnal compression low function will be incorporated in the CGM+ solution as it moves towards pivotal trial and regulatory submission.

Forward-Looking Statements

This release includes statements that constitute “forward-looking statements” within the meaning of the Private Securities Litigation Reform Act of 1995 (the “Reform Act”), including but not limited to statements related to Trinity Biotech’s cash position, financial resources and potential for future growth, market acceptance and penetration of new or planned product offerings, and future recurring revenues and results of operations. Trinity Biotech claims the protection of the safe harbor for forward-looking statements contained in the Reform Act. These forward-looking statements are often characterized by the terms “may,” “believes,” “projects,” “expects,” “anticipates,” or words of similar import, and do not reflect historical facts. Specific forward-looking statements contained in this release may be affected by risks and uncertainties, including, but not limited to, our ability to capitalize on the Waveform transaction and our recent acquisitions, our continued listing on the Nasdaq Stock Market, our ability to achieve profitable operations in the future, our ability to successfully develop and commercialize data center cooling & thermal management solutions for AI and high-performance computing, the impact of the spread of COVID-19 and its variants, the possible pause and/or disruption in U.S. Government funding for HIV tests produced by Trinity Biotech, potential excess inventory levels and inventory imbalances at the Company’s distributors, losses or system failures with respect to Trinity Biotech’s facilities or manufacturing operations, the effect of exchange rate fluctuations on international operations, fluctuations in quarterly operating results, dependence on suppliers, the market acceptance of Trinity Biotech’s products and services, the continuing development of its products, required government approvals, risks associated with manufacturing and distributing its products on a commercial scale free of defects, risks related to the introduction of new instruments manufactured by third parties, risks associated with competing in the human diagnostic market, risks related to the protection of Trinity Biotech’s intellectual property or claims of infringement of intellectual property asserted by third parties, and risks related to the condition of the United States economy and other risks detailed under “Risk Factors” in Trinity Biotech’s annual report on Form 20-F for the fiscal year ended December 31, 2025 and Trinity Biotech’s other periodic reports filed from time to time with the United States Securities and Exchange Commission. Forward-looking statements speak only as of the date the statements were made. Trinity Biotech does not undertake and specifically disclaims any obligation to update any forward-looking statements.

About Trinity Biotech
Trinity Biotech plc (NASDAQ: TRIB) is a commercial-stage biotechnology company focused on human diagnostics and diabetes management solutions, including wearable biosensors. The Company develops, acquires, manufactures, and markets diagnostic systems for the point-of-care and clinical laboratory segments of the diagnostic market and has recently entered the wearable biosensor industry through the acquisition of biosensor assets from Waveform Technologies Inc. Through its Trinovium subsidiary, Trinity Biotech is extending its fluid manufacturing and analytical capabilities into advanced liquid cooling solutions for AI data center infrastructure. Trinity Biotech sells directly in the United States and through a network of international distributors and strategic partners in over 75 countries worldwide. For further information, please visit www.trinitybiotech.com.

Contact:Trinity Biotech plcRedChip Companies Inc.
 Gary Keating, PhD.Dave Gentry, CEO
 (353)-1-2769800(1)-407-644-4256
  (1)-800-RED-CHIP (733-2447)
  TRIB@redchip.com

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1 https://www.mordorintelligence.com/industry-reports/continuous-glucose-monitoring-market

2 Facchinetti A, Del Favero S, Sparacino G, Cobelli C. Modeling transient disconnections and compression artifacts of continuous glucose sensors. Diabetes Technol Ther. 2016;18(4):264–272.


FAQ

What did Trinity Biotech (NASDAQ: TRIB) announce about its CGM+ clinical trial on July 2, 2026?

Trinity Biotech announced clinical results showing its CGM+ platform can distinguish nocturnal compression-related false lows from true glucose lows. According to Trinity Biotech, this comes from analyzing about 5,000 hours of wear data from insulin-dependent people with diabetes in a pre-pivotal study.

How does Trinity Biotech's CGM+ technology go beyond glucose-only CGM systems for TRIB investors?

CGM+ combines glucose readings with additional physiological signals and AI-driven analytics to provide context and insights. According to Trinity Biotech, this multi-sensor design aims to address issues like false alarms, sleep disruption and avoidable glucose variability seen with conventional glucose-only CGM systems.

What problem does CGM+ aim to solve for continuous glucose monitoring users, according to Trinity Biotech (TRIB)?

CGM+ targets nocturnal compression-related false low glucose readings that can trigger inaccurate CGM alerts. According to Trinity Biotech, published research suggests compression lows may occur about once every five to six days, potentially disrupting sleep and influencing unnecessary insulin or carbohydrate decisions.

How large is the CGM market Trinity Biotech's CGM+ is targeting, and what is the differentiation?

Trinity Biotech cites an approximate $15 billion global CGM market for its CGM+ platform. According to Trinity Biotech, CGM+ seeks differentiation through multi-sensor physiological monitoring, AI-native analytics, lower-cost modular architecture, reduced environmental waste and an enhanced user experience with richer physiological insight.

What stage of development is Trinity Biotech's CGM+ platform in as of July 2026?

CGM+ is in the latter stages of development and has completed a pre-pivotal trial. According to Trinity Biotech, the nocturnal compression-low detection function is intended to be incorporated as the solution moves toward pivotal clinical trial and subsequent regulatory submission.

How might CGM+ support automated insulin delivery systems, based on Trinity Biotech's July 2026 data?

CGM+ may provide richer contextual data by distinguishing compression-related false lows from true low glucose readings. According to Trinity Biotech, this additional physiological context could support improved accuracy and decision-making for automated insulin delivery system providers that rely on continuous glucose monitoring inputs.

What additional physiological signals does Trinity Biotech's CGM+ platform monitor besides glucose?

CGM+ is designed as a multi-sensor wearable capturing broader physiological data alongside glucose. According to Trinity Biotech, the platform aims to measure factors such as heart activity, body temperature and physical activity, helping deliver broader physiological insights rather than glucose data alone.