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Infusion pumps are known for their remarkable ability to administer fluids, medications, and nutrients into the body. We provide a large selection of infusion pumps at our online store from the top suppliers, manufacturers, and distributors in the industry. We have partnered with top brands to ensure that we provide you with the best infusion pump options. Whether you are a medical professional or a patient, we have the right infusion pump suitable for your needs.
Our infusion pump collection is not only designed to offer exceptional medical support but also to provide convenience and comfort while using them. For instance, our portable infusion pumps are light and portable, enabling patients to live their lives without worrying about being confined to a single location. Our smart infusion pumps, on the other hand, utilize advanced technology to minimize errors during administration, ensuring that the right medication, fluids, or nutrients are administered accurately. We offer affordable enteral infusion pumps, disposable infusion pumps, and other infusion pump types to cater to different financial capabilities.
We are the place to come if you're seeking the greatest infusion pump available. We offer high-quality infusion pumps from the leading infusion pump manufacturers, suppliers, and distributors at affordable prices.
Buying Guide for Infusion Pumps
How to choose
The choice of Infusion Pumps can be based on their working principle (single-use, volumetric, ambulatory, multiple channels, single channel, and elastomeric) and their configurations & features (bubble detector, compatible with all IV sets and drip sensors).
Other beneficial features to consider while choosing a volumetric infusion pump are its safety features (such as an alarm or other operator alert ), flow rate, power requirement, and charging period.
Application
Infusion pumps are commonly used in therapeutic settings such as hospitals, health centres, and in the home. Infusion pumps are typically operated by a skilled user who programs the rate and duration of fluid delivery using a built-in software interface. These infusion pumps can come with bubble detectors and drop sensors.
Bubble detectors are used to monitor air bubbles in the infusion pumps. Drops sensors are an important feedback mechanism for upstream blockage, IV container or bottle empty detection, and most importantly, flow accuracy when low-quality tubing sets are used. Infusion pumps that are compatible with all IV sets are employed to administer the medication and fluids to all patients in perioperative and critical care settings.
Single-use infusion pumps are intended for patients who require medication administration via intravenous, percutaneous, subcutaneous, intraoperative sites, or epidural routes. Volumetric infusion pumps are medical devices that can provide continuous and extremely exact volumes of fluids at very slow to very fast rates.
Ambulatory Infusion Pump (AIP) is a small battery-powered pump that gently administers drugs into the body, such as chemotherapy or antibiotics. The pump administers medication over a specified time period determined by your doctor. Getting medication through an AIP allows you to continue with most of your daily activities at home without having to remain overnight at the hospital.
Multi-Channel Infusion pumps can provide fluids in big or tiny amounts, and they can be used to deliver nutrition or pharmaceuticals like insulin or other hormones, antibiotics, chemotherapeutic drugs, and pain relievers.
Single Channel Infusion Pump is intended for use in healthcare organizations that use infusion pumps to provide fluids, drugs, blood, and even fat emulsions to patients. This device is excellent for epidural delivery and can provide a variety of fluids while having a wide range of changeable flow rates.
An elastomeric pump, often known as a balloon pump or ball pump, is a medical infusion device. These drugs may include antibiotics, chemotherapy, 5FU, cytostatics, analgesics, and local anesthetics, depending on the therapy required.
What are the types of infusion pumps?
An infusion pump is an equipment that uses several types of pumps to provide infusion. There are primarily two variants based on the type of pump employed in the machine.
Large Volume Pumps can be used to infuse large amounts of fluid (about 500 ml). It could be a nutritional solution, a saline solution, or drugs like antibiotics. This type of infusion pump typically includes a peristaltic pump.IV infusion pumps are large volume pumps. It has a capacity of about 500ml.
Small Volume Pumps are useful for injecting small volumes of fluids, such as insulin (approximately 50 ml). It usually comprises a computer-controlled motor that rotates the screws. This causes the syringe plunger to move. A syringe pump is an example of a small volume pump.
The use of an osmotic pump is another option. The pump's inner layer serves as a medication reservoir. The osmotic layer, which contains elements such as salt, is located in the center. The final layer is a semi-permeable membrane. The absorption of water into the middle layer is caused by osmotic pressure. This causes the middle layer to expand, forcing the inner layer to constrict. As a result, the medication will be extracted.
What are the components of an Infusion Pump?
An infusion pump is made up of a fluid reservoir, a catheter, and an advanced, precise electronic mechanism for regulating the flow of fluids.
What is the difference between a syringe pump and an infusion pump?
An infusion pump takes fluid from a normal intravenous fluid bag and regulates the flow rate. It offers precise and ongoing therapy. A syringe pump is a type of infusion delivery device. Instead of using an infusion bag, intravenous drugs are drawn into a syringe and inserted into the device. Infusion pumps are typically used to give medication when the hourly volume requirements increase. In comparison to infusion pumps, syringe pumps are more compact and take up less room.
What are the types of infusions?
Continuous Infusion: It usually consists of small infusion pulses. A single pulse of infusion can typically range in volume from 500 nanoliters to 10 milliliters. This value is affected by the design of the pumps, the rate of flow of the pulses, and other factors.
Intermittent Infusion: This type of infusion enables the user to change the infusion rate from high to low while keeping the cannula open. This mode is appropriate for the administration of medications that can irritate a blood vessel, such as antibiotics.
Patient-Controlled Infusion: The infusion can be controlled by the patient using the pressure pad or the button. This is primarily useful for avoiding drug intoxication after administration into the body.
Total Parenteral Nutrition: All necessary nutrients are administered intravenously to the patient in this method.
How to maintain an infusion pump?
The motor, Peristaltic pump, power supply, sensors, LCD display, and Microcontroller are the basic components of infusion pumps. Each component necessitates maintenance.
Motor: The infusion pump system is powered by servo motors. Disassemble the Infusion pump's motor and gearbox. Prepare a paper towel and use Electro-wash degreasers to remove contaminated grease from the motors and gears.
Peristaltic Pump: The Peristaltic pump and motor operate together. They are collectively responsible for the mechanical movement of the Infusion pump's flow control. To clean it, disassemble the peristaltic pump and prepare a paper towel and Electro-wash degreaser.
Power Supply: The most common power supply errors are battery failure, power outage, or failure to charge. Connectors may be loose or dirty, obstructing the contact between the battery and the power supply module, or the fuse may be blown. Replace the fuse with the new one, and clean the connectors and power supply module
Sensors: The infusion pump employs a variety of sensors. Common sensors include door sensors, pressure sensors, motor sensors, drop sensors, and air bubble sensors. Electromagnetic sensors include door sensors and motor sensors. Drop sensors and air bubble sensors use ultrasonic sensors. Remove the excess dirt on the sensors with the cleanroom swabs
LCD Display: The LCD display and keypad are the most prone to dirt. Frequent cleaning is required to keep the display clear. To remove dirt and bacteria, use alcohol wipes.
Microcontroller: Clean the electronic circuit boards using cleanroom swabs.
What are the common types of alarms included in an infusion pump?
The most common infusion pumps come with both visible and audible alarms that enable users to detect any issue while in use.
Drip Alarm: The drip alarm activates when the drip chamber notices a change in the planned flow.
Air Alarm: The sensor sounds an alarm when it detects air inside the infusion tube.
Electrical Network Disconnection Alarm: An alert is triggered when electrical network-connected equipment is unplugged and starts operating on batteries.
Allocation by occlusion: The system recognizes a barrier between the patient and the pump and assigns by occlusion.
What are the different types of sensors available in infusion pumps?
Sensors play an important role in controlling and monitoring infusion pumps. They are made to provide occlusion detection, fluid flow monitoring, feedback for motor control, and, in some cases, temperature sensing of the IV fluid being administered.
Force Sensors: Force sensors are based on a proprietary Piezoresistive silicon strain gauge (Microfused) technology. These sensors detect occlusions to ensure that there is no blockage in the tube that delivers medication to the patient. If the tube becomes blocked, an audible alarm alerts the patient, nurse, or doctor that the therapy is not being delivered.
Pressure Sensors: The pressure sensor serves two purposes. The first step is to measure the pressure on the infusion tube wall. When the infusion pump is blocked for other reasons, the pressure sensor can detect the change in pressure and send an alarm message. Furthermore, the pressure sensor can be used to measure and control the flow rate of the liquid by measuring the pressure of the liquid in the infusion tube.
Air-n-line Sensor: Air-in-line sensors are based on ultrasonic technology. These sensors can detect air bubbles in the patient line. The pump will alarm and stop infusing if the air is found.
AMR position Sensor (Anisotropic Magnetic Resistive): The angular or linear position of medical pump motors is monitored by anisotropic magnetoresistive (AMR) position sensors.
Temperature Sensor: The temperature of infused liquids that are being injected into a patient's body is monitored and managed by temperature sensors.
Drop Sensors: Drop sensors, also known as drop counters, are used in a variety of applications to precisely measure the amount of fluid flow. Because of its low cost and simple structure, most drop sensors use an infrared ray to detect a drop of fluid. In the case of an infusion pump with an IR emitter and a receiver facing each other, counting the number of drops between them can assist the infusion pump in calculating the exact volume of fluid passing through.
Explore Infusion Pumps - Find the Best & Top Infusion Pumps Online at Medzell
The quasi-peristaltic process, a combination of two techniques, is the basis for how an infusion pump functions. The system employs a three-chambered cassette with an operating pumping mechanism. The user can specify a fluid delivery rate in milliliters per hour (ml/hr) as well as the volume of fluid to be transmitted in milliliters (ml). The pump will not deliver fluid above a certain delivery pressure to protect the patient.
This is accomplished by monitoring the pressure in the reservoir and setting a limit to ensure that it does not exceed a certain level. If the pressure is exceeded, the pumping stops. This is indicated by the sound of an occlusion alarm. The operation of the pump is constantly monitored, and if something goes wrong, such as when fluid is not delivered as predicted, an alert will sound to protect the patient. The infusion pump has a battery backup to keep it running even if the power goes out.
Single-use Infusion Pumps once Infusion pumps do not require electricity and are not powered by gravity. It has an elastomeric membrane (silicone reservoir) that holds the medications. The elastomeric membrane is stretched when the Single-use Infusion Pumps are filled. The medications are forced through the tubing by elastic constriction. The inner diameter and length of the capillary tubing determine the flow rate of the medications.
Volumetric Infusion pump utilizes a peristaltic or piston cassette pump inserted to control the infusion volume. They use computer-controlled rollers compressing a silicone rubber tube in which the medicine flows. Ambulatory infusion pump is essentially a disposable syringe or a disposable, collapsible bag reservoir in a plastic handheld device.Ambulatory Infusion pumps operate on the same principles as infusion pumps, but they are mobile and transportable, which means they can travel with the patient to various locations.
Multichannel infusion pump utilizes multiple reservoirs for the fluids to be delivered at multiple rates. Elastomeric pump has a flexible balloon that serves as the fluid reservoir and pressure exerted by the balloon's elastic walls drives fluid delivery.
Bubble detectors (ultrasonic) typically employ two piezoelectric ultrasonic transducers that serve as a transmitter and a receiver. The principle of detecting air in flowing fluid is based on the large acoustic impedance difference between the tubing wall or fluid and air. Drop sensor detects an object between an infrared (IR) emitter and a receiver by sensing the variation in the intensity of the received IR ray. The infusion pump injects the precise amount accurately and safely by counting drops flowing inside a tube.
