ABGen

Learning Mode

Master the art and science of blood gas interpretation with our comprehensive 12-lesson educational program. From basic concepts to advanced clinical applications, our structured curriculum helps healthcare professionals build confidence in ABG analysis.

Acid-Base Balance

Introduction to pH, acids, bases, and the fundamental concepts of acid-base physiology in the human body.

ABG Parameters

Understanding arterial blood gas components, normal ranges, and the clinical significance of each parameter.

Respiratory Disorders

Exploring respiratory acidosis and alkalosis, their causes, clinical presentations, and diagnostic features.

Metabolic Disorders

Understanding metabolic acidosis and alkalosis, their etiologies, clinical manifestations, and laboratory findings.

Compensation

How the body compensates for acid-base imbalances through respiratory and renal mechanisms.

Mixed Disorders

Identifying and analyzing complex acid-base disturbances with multiple primary disorders.

Henderson-Hasselbalch

Understanding the mathematical relationship between pH, bicarbonate, and carbon dioxide in blood.

Anion Gap

Calculating and interpreting anion gap to differentiate causes of metabolic acidosis.

Strong Ion Difference

Exploring the Stewart approach to acid-base balance through physicochemical principles.

Oxygen in ABG

Understanding oxygen measurements in ABG and their clinical interpretation.

Treatment Principles

General principles and specific approaches for managing different acid-base disorders.

Clinical Cases

Applying ABG analysis skills to real-world clinical scenarios with step-by-step analysis.

POWERFUL ANALYSIS MODES

Quick Mode

Perfect for emergency situations. Input basic ABG values and receive instant interpretation with clinical suggestions in seconds. Includes acid-base status, compensation analysis, and treatment recommendations.

Advanced Mode

Comprehensive analysis for complex cases:

Advanced Mode provides hospital-grade analysis using multiple methodologies simultaneously, offering detailed insights for complex clinical scenarios.

Key Analysis Components:

Primary Acid-Base Analysis: Identifies acid-base disorders (acidosis/alkalosis), determines respiratory or metabolic origin, evaluates compensation status, and assesses severity with clinical context
Anion Gap Analysis: Calculates anion gap with albumin correction, performs delta ratio analysis, detects mixed high/normal anion gap metabolic acidosis, and identifies potential toxic ingestions
Strong Ion Difference (SID): Applies Stewart's physicochemical approach to measure apparent/effective SID and strong ion gap, providing insights into complex acid-base disorders not evident with traditional parameters
Total Body Buffer Base (TBB): Evaluates buffer capacity and acid-base reserve beyond traditional parameters, assessing the body's ability to respond to acid-base challenges
Chloride Analysis: Employs multiple calculation methods (Winter's, Stewart, SID, AG, Na:Cl ratio, BE, Osmolar Gap, Henderson-Hasselbalch, Schwartz, Delta Gap, Albumin Correction, Phosphate Balance, Gamble) to estimate chloride levels with reliability scoring
Henderson-Hasselbalch Validation: Verifies internal consistency of measurements using the classic acid-base equation, identifying potential laboratory errors or unmeasured ions
Alveolar-arterial Gradient: Assesses oxygen transfer efficiency across alveolar-capillary membrane, adjusted for altitude and patient factors, to evaluate pulmonary function
Lactate Estimation: Uses multiple algorithms (Anion Gap method, Base Excess method, Strong Ion Gap method, pH-Bicarbonate method, Delta Ratio method) with confidence weighting to estimate lactate levels when direct measurement unavailable
Osmolality Assessment: Calculates serum osmolality and osmolal gap to identify unmeasured osmotically active substances, helping detect toxic alcohols and other ingestions
Electrolyte Pattern Analysis: Evaluates complex electrolyte relationships, ratios, and patterns to identify disorders, predict ECG changes, and assess fluid status
Renal Function Assessment: Analyzes renal contribution to acid-base status, identifies potential renal tubular disorders, and evaluates renal compensation mechanisms

Simulation Mode

Educational tool for students and professionals to master blood gases interpretation through interactive simulation.

Key Simulation Features:

Physiological Modeling: Real-time simulation of respiratory and metabolic parameters based on advanced physiological models, including temperature effects, hypoxic drive, and Haldane effect
Interactive Parameters: Adjust respiratory rate, SpO2, temperature, blood glucose, and blood pressure to observe immediate effects on blood gases values
Clinical Scenarios: Pre-configured clinical cases spanning common and rare acid-base disorders with varying levels of complexity
Dynamic Compensation: Observe how the body compensates for primary disorders in real-time, with accurate time-course modeling
Visual Feedback: Clear visualization of parameter relationships and physiological responses through intuitive interface
Customizable Scenarios: Create and save custom patient scenarios for repeated practice or educational demonstrations

Coming Soon:

Substances & Conditions Module: Simulate the effects of medications, toxins, and clinical conditions on blood gases parameters
Pharmacological Interventions: Add virtual medications (bronchodilators, diuretics, bicarbonate) and observe real-time effects
Toxicology Simulations: Model common overdoses and poisonings including salicylates, alcohols, and carbon monoxide
Disease State Modeling: Simulate progression of conditions like DKA, sepsis, and ARDS with time-based parameter evolution
Treatment Response Prediction: Forecast expected blood gases changes based on selected interventions

Perfect for medical students, residents, nurses, respiratory therapists, and experienced clinicians looking to refine their blood gases interpretation skills in a risk-free environment.

Clinical-Grade Features

Complex Metabolic Analysis

Detects mixed metabolic disorders with probability scoring

Full Electrolyte Analysis

Evaluates complex electrolyte relationships, ratios, and patterns to identify disorders and assess fluid status

Respiratory Assessment

Evaluates ventilation-perfusion status and respiratory efficiency

Kidney Function Assessment

Analyzes renal contribution to acid-base status and evaluates compensation mechanisms

Syndromic Pattern Recognition

Identifies complex clinical patterns across multiple parameters

Treatment Recommendations

Evidence-based clinical suggestions tailored to findings

Offline Capability

Full functionality without internet connection for critical situations

Reference Library

Comprehensive normal ranges and clinical interpretation guides

User Feedback

ABGen has been developed with input from medical professionals. Here's what our users are saying:

Clinical Accuracy

"The algorithm's accuracy in clinical practice is impressive, providing reliable analysis for complex acid-base disorders."

Educational Value

"The simulation mode is an excellent teaching tool for our medical students and residents. It has become an essential part of our curriculum."

User Experience

"The app integrates seamlessly into our workflow in the emergency department. It's become an indispensable tool for our critical care team."

Frequently Asked Questions

How accurate is ABGen?

ABGen algorithms have been validated against thousands of clinical cases with over 90% accuracy compared to expert interpretation. Our multi-methodology approach ensures comprehensive analysis across different clinical scenarios.

Does ABGen work offline?

Yes, ABGen is designed to function fully offline. Once installed, all calculations and analyses are performed locally on your device, making it reliable in any clinical setting.

Is ABGen suitable for educational purposes?

Absolutely! The Simulation Mode was specifically designed for medical education. Students and residents can practice with virtual cases, adjust parameters, and see real-time effects on acid-base status.

How often is ABGen updated?

We release major updates quarterly with new features and improvements. Minor updates and bug fixes are released as needed. All updates are based on user feedback and advances in medical knowledge.

Revolutionizing Blood Gases Analysis

Quick Analysis Mode