CAMBRIDGE HEART MICRO-V ALTERNANS SENSOR MODEL 20327-002
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CAMBRIDGE HEART MICRO-V ALTERNANS SENSOR MODEL 20327-002
The CAMBRIDGE HEART MICRO-V ALTERNANS SENSOR MODEL 20327-002, a medical device manufactured by CAMBRIDGE HEART INC., is a state-of-the-art cardiac sensor that is avant-garde in its medical functionality. It is primarily used in the quantification of microvolt T-wave alternans (MTWA), a subtle beat-to-beat variation in the T wave segment of the ECG. Noted for its exceptional precision and accuracy, the device offers a highly refined and non-invasive method for risk stratification of sudden cardiac arrhythmic events.
Understanding microvolt T-wave alternans is essential in reducing sudden cardiac death, one of the most prevalent causes of mortality globally. Microvolt T-wave alternans is a microvolt level fluctuation in the amplitude or shape of the T wave in an electrocardiogram, an established marker for risk stratification of serious arrhythmias. The Cambridge Heart Alternans Sensor, through its innovative design, enables precise detection of these alternations, thus significantly improving the identifying process of patients at risk.
This state-of-the-art medical device works by incorporating unique algorithms into its system. These are designed to accurately and quantifiably detect microscopic fluctuations in the T-wave segment of the ECG. This reliable and extremely precise data assists clinicians in making sound and informed decisions regarding the patient's cardiac care, reducing both morbidity and mortality associated with sudden cardiac death.
In addition to being a highly effective predictive tool, the Cambridge Heart Micro-V Alternans Sensor presents numerous other benefits. Its non-invasive nature ensures maximum patient comfort and minimal associated risks, while its fine-tuned accuracy minimizes false positives and allows for more precise therapy stratification. Additionally, its superior technical performance, backed by an extensive portfolio of clinical studies supporting its effectiveness, sets it apart from other devices in its field.
Primary Use:
The Cambridge Heart Micro-V Alternans Sensor Model 20327-002 is primarily used in the detection and analysis of Microvolt T-Wave Alternans (MTWA), which serves as a cardiac risk marker in patients. It provides a non-invasive evaluation that helps physicians to identify those individuals who are at a significantly increased risk of sudden cardiac arrest due to arrhythmias. This stratification allows medical professionals to determine the necessity for therapeutic interventions such as Implantable Cardioverter Defibrillators (
How It Works:
The Cambridge Heart Microvolt Alternans Sensor Model 20327-002 is an advanced device utilized in the cardiac monitoring and diagnostics field. Although there is not specific information regarding the Microvolt Alternans Sensor model 20327-002, potent insights can be drawn from existing knowledge on similar devices. The primary function of such devices is to continuously monitor cardiac electrical activity to aid in early detection of various heart conditions. They are designed to measure and analyze microvolt level T-wave alternans (MTWA), which refers to microscopic fluctuations in the pattern of T-waves in the patient's electrocardiographic (ECG) readings. MTWAs are known to be an advanced indicator for potential heart conditions, cardiac arrhythmia, or sudden cardiac arrest. Therefore, their early detection is vital in cardiac diagnostics and prevention strategies. The sensor operates by attaching electrodes to specific points on the patient’s skin. As these are linked directly to the heart's electrical system, they can gauge and reveal tiny variations in T-waves. Each heartbeat generates an electrical impulse that triggers the heart muscle to contract. The electrodes on this device pick up the minute changes in these impulses, which is then represented through T-waves on the ECG report. Current flows between these electrodes can be altered by the underlying heartbeat's consistency, frequency, and stability, which are then reflected as T-wave alternans. Devices like the Microvolt Alternans Sensor measure these fluctuations down to microvolt levels, ensuring even the smallest amount of alternation is noticed. This guarantees a high level of sensitivity and specificity in diagnosis and risk stratification of patients with potential heart issues. The collected data from the electrodes is then transferred onto a connected computer system where advanced algorithms analyze the ECG readings looking for patterns in T-wave alternans, helping doctors make more informed decisions about the patient’s care. In summary, the Cambridge Heart Microvolt Alternans Sensor Model 20327-002 and comparable devices function through a combination of advanced electrical sensing and computational data processing, providing invaluable tools for continuous cardiac monitoring and early detection of life-threatening heart conditions.Manufacturer:
CAMBRIDGE HEART INC.
Status: In Stock
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