Wheel Chair (Folding) Overall approximate size: 690 mm (L) x 1100 mm (W) x 940 mm (H). Strong and precise MS tubular frame work - easily foldable. Fitted with washable rexine seat and back with aluminum footrests. Fitted with two cycle wheels with solid rubber tyres, self propelling hoops and hand operated brakes. Fitted with two 150mm dia swivel castors in front. Pre treated and Epoxy powder coated.
Easy to handle Standard Lot Size
Q.A test asper aerb norms
Five para monitor (spo2/ecg/nibp/resp/temp), 7 waveform display, 10.4" high resolution TFT screen, upgradable to IBP & ETCO2. 8 kg gross
It is 2 channel device which is useful for all behavioural and concentration related issues 1 unit, 700gms, 9 inch by 5 inch
ò We take care of anything and everything related to your Ultrasound Scanners. ò We service any make / model of Ultrasound Scan, Color dopplers and Thermal printers. ò We supply refurbished Ultrasound scan, Color Doppler and Thermal printers. ò We service Mechanical and Electronic probes of any make. ò We undertake Oncall / AMCs for Your Scanners. ò We buy back your old scanners for new digital Ultrasound or Color DopplerÆs. ò We do Layer rework for Electronic probe. ò We supply PCB Parts/Probes/Accessories for any make and model of Scanners.
Tita-prosthesis piston type loop It is used for stapedioplasty surgery. It is connected between long process of incus (or malleus ù stapedioplasty) and oval window. It consists loop(flat band) and piston. Material : titanium medical gr 2 ( astm f 67 ) Shaft diameter û 0.4 mm Loop shaft diameter û 0.2 mm L (functional length) û 3.50 mm to 7.00 mm.
Light weight, aluminium, foldable manual wheel chairs, capacity 120 kg, weight range 13- 18 kgs 1 pc individualy packed, 120 chairs per 20' container
Features: 1)displays systolic, diastolic b.P. And pulse rate with date and time. 2)fast accurate results in seconds 3)two person memory : two patients can keep their records individually stored in the monitor. 4)fully automatic inflation and deflation. 5)convenience of use. For any inquiry please contact us.
Features 1)latest biosensor technology 2)fast and accurate results within seconds 3)300 test memories with date and time 4)displays 14 day test average 5)auto power on/off 6)everyday low cost : low glucometer, strips and accessories cost. For any inquiry please contact us.
)latest amperometric biosensor technology 2)gives accurate results 3)fda us approved and ce approved 4)small blood sample required 5)simple 2 step operation 6)28 test memories with date and time 7)auto power on/off 8)auto coding 9)lowest strip cost. For any inquiry please contact us.
Wheel chairs Fully chrome and full foldable with 100%durability , can bear heavy weight person.Above all very comfrotabe for the patient 10 kgs
Wheel chair
Color Yellow Packaging Size 1 , 3 , 25 , 40 KG Packaging Type Aluminium Bag Water / Powder 30 ML / 100 GM Form Powder Usage Dental Clinic Mixing Time 60 Seconds Wet Class III Features Precisely Processed / Long shelf life / Safe 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.
A "premium" patient monitor typically refers to an advanced and sophisticated patient monitoring system with enhanced features and capabilities compared to standard or "regular" monitors. Here's more information about a premium patient monitor: Advanced Parameters: Premium patient monitors offer a wider range of parameters for monitoring compared to standard monitors. In addition to basic parameters such as ECG, SpO2, NIBP, respiration rate, and temperature, premium monitors may include additional parameters such as invasive blood pressure (IBP), cardiac output (CO), end-tidal carbon dioxide (EtCO2), and depth of anesthesia (DOA). High-Resolution Display: Premium patient monitors often feature large, high-resolution display screens with customizable layouts, allowing healthcare providers to view multiple parameters simultaneously in numerical and graphical formats. The displays may also have touchscreen capabilities for intuitive operation. Enhanced Alarm System: Premium monitors come equipped with sophisticated alarm systems that allow for customizable alarm settings and priority levels. Alarms can be tailored to specific patient conditions and clinical scenarios, helping healthcare providers to respond promptly to critical events. Data Management and Connectivity: Premium patient monitors offer advanced data management capabilities, including comprehensive storage options for patient data, trend analysis tools, and seamless connectivity with electronic medical records (EMRs) and hospital information systems (HIS). They may support wired or wireless networking protocols for seamless integration into hospital IT infrastructure. Advanced Monitoring Modes: Premium patient monitors may include advanced monitoring modes and algorithms for specific clinical applications. For example, they may offer hemodynamic monitoring for assessing cardiovascular function, continuous EEG monitoring for neurocritical care, or depth of anesthesia monitoring for surgical procedures. Customization and Flexibility: Premium patient monitors are highly customizable to meet the specific needs of healthcare facilities and individual patients. They may feature modular designs, interchangeable parameter modules, and flexible mounting options to accommodate various clinical environments and workflows. Patient-Centric Design: Premium monitors prioritize patient comfort and safety with features such as low-profile cables, lightweight sensors, and ergonomic design elements. They may also incorporate patient-centric features such as bedside entertainment options, patient communication interfaces, and built-in comfort aids. Durability and Reliability: Premium patient monitors are built to withstand the rigors of clinical use, with robust construction, durable materials, and comprehensive quality assurance testing. They are designed for long-term reliability and performance in demanding healthcare environments.
A "regular" patient monitor typically refers to a standard patient monitoring system commonly used in hospitals, clinics, and other healthcare facilities. Here's more information about a regular patient monitor: Purpose: The primary purpose of a regular patient monitor is to continuously or intermittently monitor a patient's vital signs and physiological parameters to assess their health status and detect any abnormalities. Parameters Monitored: A regular patient monitor typically measures and displays essential physiological parameters, including: Electrocardiography (ECG): Heart rate, rhythm, and cardiac electrical activity. Pulse Oximetry (SpO2): Oxygen saturation levels in the blood. Non-Invasive Blood Pressure (NIBP): Blood pressure readings without invasive procedures. Respiration Rate: Breathing rate and pattern. Temperature: Core body temperature. Design: Regular patient monitors are usually compact, portable, and feature a user-friendly interface for ease of use by healthcare professionals. They often have a high-resolution display screen to show real-time data in numerical and graphical formats. Alarm System: Patient monitors include alarm systems to alert healthcare providers to abnormal vital signs or critical events. Alarms can be configured to trigger when parameters such as heart rate, oxygen saturation, or blood pressure fall outside preset thresholds. Battery Backup: Many regular patient monitors come with built-in battery backup systems to ensure continuous monitoring during power outages or when transporting patients. Data Storage and Connectivity: Some regular patient monitors have built-in storage capabilities to record and store patient data for review and analysis. They may also offer connectivity options for integration with electronic medical records (EMRs) and other hospital information systems (HIS). Versatility: Regular patient monitors are versatile tools that can be used in various clinical settings, including general wards, intensive care units (ICUs), emergency departments, operating rooms, and outpatient clinics. Cost-effectiveness: Regular patient monitors are typically cost-effective compared to more advanced or specialized monitoring systems. They offer essential monitoring capabilities at an affordable price point, making them suitable for healthcare facilities with budget constraints.
A patient monitor, also known as a medical monitor or vital signs monitor, is a medical device used to continuously or intermittently monitor a patient's vital signs and other physiological parameters in clinical settings such as hospitals, clinics, ambulances, and home care settings. Here's more information about patient monitors: Purpose: The primary purpose of a patient monitor is to provide healthcare professionals with real-time information about a patient's vital signs and physiological status. This information helps clinicians assess the patient's condition, detect abnormalities or changes in health status, and make informed decisions regarding diagnosis and treatment. Parameters Monitored: Patient monitors can measure and display a wide range of physiological parameters, including: Electrocardiography (ECG): Heart rate, rhythm, and cardiac electrical activity. Pulse Oximetry (SpO2): Oxygen saturation levels in the blood. Non-Invasive Blood Pressure (NIBP): Blood pressure readings without the need for invasive procedures. Respiration Rate: Breathing rate and pattern. Temperature: Core body temperature. Capnography: End-tidal carbon dioxide (CO2) levels in exhaled breath. Invasive Blood Pressure (IBP): Direct measurement of blood pressure using invasive methods. Cardiac Output (CO): Measurement of the heart's pumping ability. Electroencephalography (EEG): Brain electrical activity. Electromyography (EMG): Muscle electrical activity. Intracranial Pressure (ICP): Pressure inside the skull.
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.
An ECG bulb with an electrode cup is a component used in electrocardiogram (ECG) machines for detecting and recording the electrical activity of the heart. Electrode Cup: The electrode cup is the part of the ECG bulb that makes direct contact with the patient's skin. It is designed to provide a conductive interface for accurately capturing the electrical signals produced by the heart. Material: The electrode cup is usually made of metal or a conductive material that ensures good electrical conductivity and signal transmission. The bulb portion may be made of plastic or silicone, providing flexibility and durability. Compatibility: ECG bulbs with electrode cups are designed to be compatible with specific models of ECG machines. They may come in different sizes and configurations to fit various electrode placements and patient needs. Application: During an ECG procedure, the ECG bulb with an electrode cup is placed on the patient's chest, limbs, or other specific locations as directed by the healthcare provider. The electrode cup makes contact with the skin, allowing the ECG machine to detect and record the electrical activity of the heart. ECG bulbs with electrode cups are essential components of ECG machines, providing a reliable interface for capturing the electrical signals of the heart during diagnostic procedures. Their design, material composition, and compatibility with ECG machines make them valuable tools in cardiovascular healthcare settings.
