Calibration of Infusion Pumps Analyser

Batista, Elsa; Sousa, João A.; Ribeiro, A.; Martins, L. Lages; Pereira, Marcus Vinicius; Navas, H.

doi:10.1088/1742-6596/1065/9/092003

Cited by 8 publications

(9 citation statements)

References 1 publication

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“…Drugs, fluids, nutrients, and blood products [2]. Medical infusion devices are widely used because they are very important in primary health care, namely for administering drugs, nutrition, and hydration to patients [3] [4]. Problems that often arise are occlusion caused by mechanical resistance, bent intravenous catheter, hypertension blood pressure [5].…”

Section: Introductionmentioning

confidence: 99%

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Development of Infusion Device Analyzer Equipped with Occlusion Detection and a Real-Time Parameters Monitoring on Computer System

Maghfiroh

Havilda

Das³

2022

j.teknokes

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Medical infusion device provides drugs or fluids directly through a blood vessel. However, the occurrence of occlusion in the infusion device causes the incoming drug fluid does not to flow constantly, and pressure is formed on the infusion tube. When an infusion device has been used for a long time, there will be a change in the precision of the flow and pressure values. Furthermore, a calibration process must be carried out at least once a year. This research aims to design an infusion device analyzer which able to show parameters in a graphic equipped with occlusion parameters and Bluetooth communication in real-time to the computer unit. This study uses a solenoid valve for pressure simulation. The allowable occlusion limit is <20 Psi. The SKU 237545 sensor detects the water pressure that is blocked by the solenoid valve. Then the data will be displayed on the Parallax data acquisitions using Bluetooth communication. The Parallax data acquisitions will display real-time occlusion data, data averages, instant values, and graphs. The results of the IDA design, when tested using the Syringe Pump TOP 5300, obtained an average of 0.68 Psi. Meanwhile, when the IDA design was tested using the Infusion Pump 3300, it brought 0.73 Psi. Furthermore, it showed that the occlusion parameter was compared with the Fluke IDA 4, a mean error was 0.7 Psi. Therefore, it can be concluded that this IDA design can be used for calibration to see the feasibility of an infusion pump or syringe pump.

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Section: Introductionmentioning

confidence: 99%

“…This is where the function of using graphs is to see if there is empty data or writing errors, and compare data in graph form [9]. It is also important to carry out the infusion pump calibration function to ensure that the tool is suitable for use [3]. The infusion pump calibration tool is the Infusion Device Analyzer (IDA) [10].…”

Section: Introductionmentioning

confidence: 99%

Development of Infusion Device Analyzer Equipped with Occlusion Detection and a Real-Time Parameters Monitoring on Computer System

Maghfiroh

Havilda

Das³

2022

j.teknokes

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“…One of the infusion devices is a syringe pump and an infusion pump. This device is very important to assist the volume and flow that enters the patient's body, especially in situations related to neonatology or cancer treatment [1]. The infusion device is used to provide continuous and precise medication indispensable in anesthesia and critical care medicine [2].…”

Section: Introductionmentioning

confidence: 99%

“…However, this causes the manufacture of this tool to tend to be more expensive. Then a similar research was carried out on the calibration of the infusion device [1][12] [13] to find out the true value of the flow rate value. The three studies use various brands of Infusion Device Analyzer which are spread in the market so that doing research requires a lot of money.…”

Section: Introductionmentioning

confidence: 99%

Design an Infusion Device Analyzer with Flow Rate Parameters using Photodiode Sensor

Pudji

Maghfiroh

Thongpance

2021

Indones.J.electronic.electromed.med.inf

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Infusion devices are the basis for primary health care, that is to provide medicine, nutrition, and hydration to patients. One of the infusion devices is a syringe pump and an infusion pump. This device is very important to assist the volume and flow that enters the patient's body, especially in situations related to neonatology or cancer treatment. Therefore, a comparison tool is needed to see whether the equipment is used or not. The purpose of this research is to make an infusion device analyzer (IDA) design with a flow rate parameter. The contribution of this research is that the tool can calculate the correct value of the flow rate that comes out of the infusion pump and syringe pump. The water released by the infusion pump or syringe pump will be converted into droplets which are then detected by the sensor. This tool uses an infrared sensor and a photodiode. The results obtained by the sensor will come by Arduino nano and code it to the 16x2 Character Liquid Crystal Display (LCD) and can be stored on an SD Card so that it can be analyzed further. In setting the flow rate for the syringe pump of 100 mL / hour, the error value is 3.9, 50 ml / hour 0.02, 20 mL / hour 0.378, 10 mL / hour 0.048, and 5 mL / hour 0.01. The results show that the average error of the syringe pump performance read by the module is 0.87. The results obtained from this study can be implemented for the calibration of the infusion pump and the syringe pump so that it can be determined whether the device is suitable or not

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“…N Thongpance made an infusion 66 pump calibrator using a load sensor to measure the flow rate [8]. In the research conducted by E Batista, it was found that the calibration using the wave method and the flow method was the most appropriate method [5]. Jingzhi research requires a calibration tool with good accuracy, a good micro drop method is used for low flow rates [6].…”

Section: Introductionmentioning

confidence: 99%

Design of Two Channel Infusion Pump Analyzer Using Photo Diode Detector

Syaifudin

Mak’ruf

Luthfiyah

et al. 2021

Indones.J.electronic.electromed.med.inf

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In the medical world, patient safety is a top priority. The large number of workloads and the frequency of using the devices in the long run will affect the accuracy and accuracy of the tool. If the flow rate and volume of the syringe pump or infusion pump given to the patient are not controlled (overdose or the fluid flow rate is too high) it can cause hypertension, heart failure or pulmonary edema. Therefore, it is necessary to have a calibration, which is an application activity to determine the correctness of the designation of the measuring instrument or measuring material. The purpose of this research is to make a two channel infusion device analyzer using a photodiode sensor. The contribution of this research is that the system can display three calibration results in one measurement at the same setting and can calibrate 2 tools simultaneously. The design of the module is in the form of an infrared photodiode sensor for reading the flowrate value. This study uses an infrared photodiode sensor for channels 1 and 2 installed in the chamber. This study uses a flow rate formula that is applied to the water level system to obtain 3 calibration results. Infrared photodiode sensor will detect the presence of water flowing in the chamber from an infusion or syringe pump. Then the sensor output will be processed by STM32 and 3 calibration results will be displayed on the 20x4 LCD. This tool has an average error value on channel 1 of 3.50% and on channel 2 of 3.39%. It can be concluded that the whole system can work well, the placement and distance between the infrared photodiodes also affects the sensor readings

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Calibration of Infusion Pumps Analyser

Cited by 8 publications

References 1 publication

Development of Infusion Device Analyzer Equipped with Occlusion Detection and a Real-Time Parameters Monitoring on Computer System

Development of Infusion Device Analyzer Equipped with Occlusion Detection and a Real-Time Parameters Monitoring on Computer System

Design an Infusion Device Analyzer with Flow Rate Parameters using Photodiode Sensor

Design of Two Channel Infusion Pump Analyzer Using Photo Diode Detector

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