ECG cables also referred to as an ECG patient cable, is a type of cable connection designed for non-invasive heart monitoring, typically used to help diagnose potential heart issues. The ECG cable connects to electrodes which are positioned at specific locations on the patientâ??s body to detect and record heart muscle electrical activity. The cables then transmit the electrical activity back to the ECG device for analysis and diagnosis by medical professionals. ECG Cable Feature [Multiple Leads]: ECG cables usually have several leads placed in specific areas on the patientâ??s body, such as the chest, arms, and legs, to measure the heartâ??s electrical activity from different angles. [Durability]: ECG cables are constructed from top-quality, sturdy materials that can endure repeated bending, tugging, and twisting without sustaining any damage. This ensures that the cables can withstand the rigors of frequent use and remain reliable over time. [Shielding]: ECG cables are shielded to block out external electrical signals, which can interfere with the accuracy of the readings. [Connector Compatibility]: The ECG cables are available with various connector types, including snap, clip, and banana, to fit different types of ECG machines. [Safety]: ECG cables are designed to meet strict safety standards and regulations to ensure patient safety. This helps to ensure that patients are protected from any potential harm during the monitoring process. [Cleaning and Disinfecting]: The ECG cables are easy to clean and disinfect to maintain hygienic conditions, as they come into contact with the patientâ??s skin. ECG Cable Advantages [Excellent Performance]: ECG cables are built to withstand the rigors of twisting and bending, and have been thoroughly tested to ensure optimal performance. The cables are also equipped with electrical shielding to protect the signal integrity, ensuring accurate readings. [Non-Invasive]: ECG cables are non-invasive, which means that they do not require any incisions or invasive procedures. This reduces the risk of infection and makes the monitoring process much safer for patients. Instead, the cables are simply attached to the patient's skin, making it a quick and painless process.
Specifications: Adult, Pediatric Round Shaped, with Solid Gel. Easy touch, Fine quality.
Oxygen Concentrator - 0.5-10L/Min Purityï¼? 96% Compressor Life - 25000hours Sound Level 60dB Screen - LED Segment real-time display Power comsumption - 500VA Net Weight - 23k Gross weight:27kg
World standard for medical ECG/Ultrasound transmission MHC Gels are the most widely used gel for diagnostics & therapeutic medical Ultrasound. The Gels are used for all procedures where a viscous gel is required. The same are available in the packing of 250 ml bottles & 5 kg Jar.
High quality conductive ECG gel for both short & long time monitoring. Hypoallergenic Non irritating Odorless Water soluble
One of our most demanded medicinal product, 250 ml ECG gel is manufactured and supplied by us. Its use is witnessed during the use of electrodes to record electrical conductivity. It allows the transfer of waves to the equipment. Its features are odorless, water-soluble and do not causes skin irritation. The gel also reduces the resistance amid skin and electrodes that are used during the ECG and defibrillation process.
We are offering 5L ECG Gel under the brand Aqua Solid. This gel acts as a coupling amid the skin and electrodes to assist in the transmission of electroactivity. The main purpose of this gel is for ECG latches, pendant switches and non-pre-gelled electrodes. It is highly demanded in the medical fraternity. We deliver it in safe and secure packaging.
High-conductivity gel for electrocardiography (ECG) is a specialized conductive gel used to improve electrical conductivity between the skin and ECG electrodes during cardiac monitoring procedures. Here's more information about high-conductivity gel for ECG: Purpose: The primary purpose of high-conductivity gel is to reduce impedance and improve the transmission of electrical signals between the skin and the ECG electrodes. This ensures accurate and reliable recording of the heart's electrical activity during ECG testing. Composition: High-conductivity gel is typically water-based and contains conductive agents that enhance its electrical conductivity properties. Common ingredients may include water, glycerin, propylene glycol, carbomer, electrolytes (e.g., sodium chloride), and preservatives. Conductivity: High-conductivity gel is formulated to have superior electrical conductivity compared to standard ECG gels or other electrode contact solutions. This allows for better signal quality and minimizes the risk of artifacts or interference during ECG recordings. Viscosity: The gel's viscosity is designed to be suitable for easy application and spreadability on the skin. It should be thick enough to adhere to the skin and maintain contact with the electrodes but not too thick that it hinders electrode placement or skin contact. Non-Staining: High-conductivity gel is typically formulated to be non-greasy and non-staining, ensuring minimal residue on the skin after use. This helps maintain patient comfort and prevents staining of clothing or bedding. Compatibility: High-conductivity gel is compatible with various types of ECG electrodes, including disposable electrodes, reusable electrodes, and adhesive electrodes. It can be used with standard ECG machines and Holter monitors. Application: Before applying the gel, the skin should be cleaned to remove any oils, lotions, or dirt that may interfere with electrode contact. A thin layer of high-conductivity gel is then applied to the skin at the electrode sites before attaching the electrodes. Hygiene: High-conductivity gel should be stored in a clean and dry environment to prevent contamination. Disposable single-use packets or bottles with dispensing caps are commonly used to maintain hygiene and prevent cross-contamination between patients. Overall, high-conductivity gel plays a crucial role in ensuring optimal electrode-skin contact and signal quality during ECG testing. Its superior conductivity properties make it an essential accessory in cardiac diagnostic procedures, allowing for accurate interpretation of the heart's electrical activity.
ECG gel, also known as electrocardiogram gel or EKG gel, is a conductive medium used in electrocardiography (ECG) procedures to improve the quality of electrical signal transmission between the skin and the electrodes of the ECG machine. Here's more information about ECG gel: Purpose: The primary purpose of ECG gel is to enhance the conductivity and reduce impedance between the skin and the ECG electrodes. This improves the quality and accuracy of the electrical signals detected by the electrodes, resulting in clearer and more reliable ECG readings. Composition: ECG gel is typically a water-based, conductive gel formulated to be non-greasy, non-staining, and hypoallergenic. It may contain ingredients such as water, glycerin, propylene glycol, carbomer, preservatives, and conductivity-enhancing agents. Conductivity: ECG gel is formulated to have high electrical conductivity, allowing it to effectively transmit electrical signals between the skin and the electrodes. This conductivity helps minimize impedance and artifacts, ensuring accurate ECG readings even in challenging conditions. Viscosity: ECG gel is usually designed to have a suitable viscosity that allows for easy application and smooth spreading on the skin. It should be thick enough to stay in place during the procedure but not so thick that it hinders electrode placement or skin contact. Compatibility: ECG gel is compatible with various types of ECG electrodes, including disposable electrodes, reusable electrodes, and adhesive electrodes. It can be used with both standard ECG procedures and specialized cardiac tests such as stress tests, Holter monitoring, and echocardiography. Application: ECG gel is applied directly to the skin at the electrode sites before attaching the electrodes. A sufficient amount of gel should be applied to ensure good contact between the electrodes and the skin surface. Excess gel can be wiped away after electrode placement. Hygiene: ECG gel should be stored in a clean and dry environment to prevent contamination. Disposable single-use packets or bottles with dispensing caps are commonly used to maintain hygiene and prevent cross-contamination between patients. Removal: After the ECG procedure, any remaining gel should be wiped off the skin using a clean, dry cloth or disposable wipe. Residual gel left on the skin can cause discomfort or irritation if not properly removed.
