Your search keyword '"Hardyanto, Ichsan"' showing total 6 results

1. A Proposed Algorithm Based on Artificial Intelligence to Optimize the Ratio of Food Combinations on a Meal Plate

Author

Jenie, Renan Prasta, Prastowo, Bayu, Hardyanto, Ichsan, Kurniawan, Ade, Iskandar, Johan, Dahrul, Muhammad, Suraya, Anna, editor, Jenie, Renan Prasta, editor, Widyaputra, Gama, editor, Sulistyo, Bambang, editor, Indriasari, Marina, editor, and Subu, M. Arsyad, editor

Published

2023

2. Development of blood hemoglobin level early detection device based on a noninvasive optical platform

Author

Irzaman, Suryana, Yaya, Pambudi, Sabar, Widayanti, Tika, Jenie, Renan Prasta, Prastowo, Bayu, Har, Nazopatul Patonah, Rahmawaty, Vania, Dahrul, Muhammad, Aminullah, Kurniawan, Ade, Siskandar, Ridwan, Hardyanto, Ichsan, Iskandar, Johan, Nurdin, Naufal Muharram, Ardidarma, Arga, Rahayu, Sri Kristiana, and Alatas, Husin

Published

2022

3. Non-invasive hemoglobin blood level measurement system.

Author

Hardyanto, Ichsan, Pambudi, Sabar, Suyarna, Yaya, Ardidarma, Arga, Kurniawan, Ade, Iskandar, Johan, Siskandar, Ridwan, Jenie, Renan Prasta, Alatas, Husin, Irzaman, Nasbey, Hadi, Fahdiran, Riser, Indrasari, Widyaningrum, Budi, Esmar, Bakri, Fauzi, Prayitno, Teguh Budi, and Muliyati, Dewi

Subjects

*HIGH performance liquid chromatography, *DEOXYHEMOGLOBIN, *OXYHEMOGLOBIN, *RASPBERRY Pi, *OPTICAL reflection, *HEMOGLOBINS

Abstract

A non-invasive system based on the optical scanning method can be used to measure hemoglobin blood level because hemoglobin has a characteristic of being able to absorb optimally at wavelength 660nm for oxyhemoglobin and 940nm for deoxyhemoglobin. This hemoglobin level measuring system uses the reflectance principle. The sensor probe was designed to be used on patients' fingers, so the sensor reading results were obtained for the reflection of light, which was reflected from patients' fingers. The used sensor was FD100 that could read wavelength at 350nm until 1100nm. The LEDs used were LEDs with each wavelength 600nm and 940nm. Raspberry Pi 3 microprocessor was used as the brain of this device; this microprocessor functions to regulate the light intensity, sensor reading, data processing, visualization, and data storage. The visual result of hemoglobin value (g/dl) is obtained. The equation searching was done by comparing the hemoglobin value to the High-Performance Liquid Chromatography method and sensor reading value. This equation was implemented inside the device, and the test was done to find out the accuracy of the device. Non-invasive blood hemoglobin measuring device that has been developed has an accuracy rate of 94.2% with a standard deviation of 4.7. [ABSTRACT FROM AUTHOR]

Published

2020

4. Non-invasive measurement of blood glucose biomimetics with the reflectance method on near-infrared light source.

Author

Alatas, Husin, Prastowo, Bayu, Jenie, Renan Prasta, Dahrul, Muhammad, Hardyanto, Ichsan, Iskandar, Johan, Kurniawan, Ade, Siskandar, Ridwan, Nurdin, Naufal Muharram, Suryana, Yaya, Pambudi, Sabar, Widayanti, Tika, Aridarma, Arga, Rahayu, Maria Sri Kristina, Riadhie, Titah Sihdjati, Irzaman, Nasbey, Hadi, Fahdiran, Riser, Indrasari, Widyaningrum, and Budi, Esmar

Subjects

LIGHT sources, BLOOD sugar measurement, BIOMIMETIC chemicals, DISCRETE Fourier transforms, POLYLACTIC acid, CLINICAL chemistry

Abstract

The non-invasive glucose biomarker device is developing to compensate for the epidemiology of sufferers of metabolic syndrome in the world from increase dramatically. Additionally, to eliminate all risks arising from the invasive measurement. The percentage of population sufferers of glucose metabolic syndrome evenly occurs in each developing and developed country. All individual activities and behaviors are the main causes. The device was conducted at the Electronic and Material Physics Laboratory, IPB University. This study used Assayed Chemistry Clinical Control as a sample, UV-cuvettes as a simulation tool, and a probe from a silk-polylactic acid filament. The incident light source biomarker uses near-infrared (NIR) LED 1200 nm, LED 1300 nm, and FDG03-Ge as a photodetector. Data analysis derived from reflectance values in the form of intensities expanded using Discrete Fourier Transform (DFT). The output analysis of both LEDs was 0.99 pearson, 100% clinical accuracy, and the accuracy of measurement was 8.09 mg/dL on the 1200 nm LED, 10.57 mg/dL on the 1300 nm LED. Then the sensitivity value of both LEDs is 1.00, and the specificity of 1200 nm LED is 0.80, LED 1300 nm is 0.70. Refers to the results of this analysis and the gold standard ISO 15197, LED 1200 nm is an ideal candidate for the incident light source biomarker non-invasive reflectance method. Future research expected to do device testing in-vivo. [ABSTRACT FROM AUTHOR]

Published

2020

5. Determination of light source modules on blood glucose biomimetics using the reflectance method.

Author

Prastowo, Bayu, Jenie, Renan Prasta, Hardyanto, Ichsan, Dahrul, Muhammad, Iskandar, Johan, Kurniawan, Ade, Siskandar, Ridwan, Nurdin, Naufal Muharram, Suryana, Yaya, Pambudi, Sabar, Widayanti, Tika, Aridarma, Arga, Rahayu, Maria Sri Kristina, Riadhie, Titah Sihdjati, Irzaman, Alatas, Husin, Nasbey, Hadi, Fahdiran, Riser, Indrasari, Widyaningrum, and Budi, Esmar

Subjects

LIGHT sources, BLOOD sugar, GLUCOSE metabolism disorders, BIOMIMETIC chemicals, ANALOG-to-digital converters, GLUCOSE analysis

Abstract

Developing blood glucoselevels measurement based on the prevalence of people with impaired glucose metabolism, which is increasing every year. Estimates of the International Diabetes Federation and the American Diabetes Association in 2030 sufferers of glucose metabolism disorders have twofold from 2018. Prevention can be done with monitoring measurement methods that have been available commercially. This research develops a non-invasive biomarker device method that aims at continuous measurement efficiency with minimal risk and reduces production costs. The measurement used standard samples Lyphocheck Assayed Chemistry Control from Bio-Rad Laboratory. The light source modules were tested in the wavelength range of 1050 nm to 1550 nm and FDG03-Ge Photodiode as a photodetector. Then the reflections of the LEDs is a voltage that is converted to analog with Analogue to Digital Converter devices to be processed at the SQ Lite and LibreOffice Calc. Based on the test analysis parameters obtained the two best candidate light source modules are 1050 nm and 1085 nm with a 0.99 pearson correlation, 86% accuracy and zone factor A or 100% value of error grid analysis. Both of these LEDs can be applied as modules in the measurement of blood glucose biomimetic with reflectance method. [ABSTRACT FROM AUTHOR]

Published

2020

6. Review: Non-invasive blood haemoglobin level measurement.

Author

Irzaman, Suryana, Yaya, Pambudi, Sabar, Widayanti, Tika, Jenie, Renan Prasta, Prastowo, Bayu, Zaheri, Refky, Hardyanto, Ichsan, Nurdin, Naufal Muharam, Dahrul, Muhammad, Iskandar, Johan, Kurniawan, Ade, Siskandar, Ridwan, Aridarma, Arga, Rahayu, Maria Sri Kristiana, Riadhie, Titah Sihdjati, Alatas, Husin, Nasbey, Hadi, Fahdiran, Riser, and Indrasari, Widyaningrum

Subjects

HEMOGLOBINS, LIGHT sources, PERIODICAL articles, RESEARCH teams

Abstract

Blood haemoglobin level measurement is an essential part of a global attempt at reducing anaemia. This review is to elaborate on current advancements in non-invasive methods to measure blood haemoglobin level. This review also elaborates on current established invasive methods for measuring blood haemoglobin level and its role as a reference standard. This review also maps the wavelength used for non-invasive blood haemoglobin level measurement to our observation on blood haemoglobin level control. The research team has obtained Journal or proceeding articles from Google Scholar and Scopus using the keyword "non-invasive haemoglobin" within its titles from 1980 to 2020. The team has grouped the articles by non-invasive methods, invasive reference methods, and the wavelength used by those methods. There are 128 articles gathered from the keywords. There are 88 articles included in this study. There are 26 light source wavelength combinations that the developers use for non-invasive blood haemoglobin level. Most of the wavelength fits neatly in the window between 500 nm to 1000 nm, where the blood-haemoglobin-level control absorbance is low. The researcher has gathered 13 different non-invasive methods for measuring blood haemoglobin level and those commercially available. Most of the articles we have gathered are unregistered trials, and the majority of methods are unproven. We are taking this as a research limitation. The researchers should conduct a further trial for each method listed. [ABSTRACT FROM AUTHOR]

Published

2020