Your search keyword '"Reinold Ellingsen"' showing total 27 results

1. Feasibility of Early Meal Detection Based on Abdominal Sound

Author

Konstanze Kolle, Anders Lyngvi Fougner, Reinold Ellingsen, Sven Magnus Carlsen, and Oyvind Stavdahl

Subjects

Abdominal sound, artificial pancreas, bowel sounds, meal detection, pattern recognition, Computer applications to medicine. Medical informatics, R858-859.7, Medical technology, R855-855.5

Abstract

In classical approaches for an artificial pancreas, continuous glucose monitoring (CGM) is the only measured variable used for insulin dosing and additional control functions. The CGM values are subject to time delays and slow dynamics between blood and the sensing location. These time lags compromise the controller's performance in maintaining (near to) normal glucose levels. Meal information could enhance the control outcome. However, meal announcement by the user is not reliable, and it takes 30 min to 40 min from meal onset until a meal is detected by methods based on CGM. In this pilot study, the use of bowel sounds for meal detection was investigated. In particular, we focused on whether bowel sounds change qualitatively during or shortly after meal ingestion. After fasting for at least 4 h, 11 healthy volunteers ingested a lunch meal at their usual time. Abdominal sound was recorded by a condenser microphone that was attached to the right upper quadrant of the abdomen by medical tape. Features that describe the power distribution over the frequency spectrum were extracted and used for classification by support vector machines. These classifiers were trained in a leave-one-out cross-validation scheme. Meals could be detected on average 10 min (std: 4.4 min) after they had started. Half of these were detected without false alarms. This shows that abdominal sound monitoring could provide an early meal detection. Further studies should investigate this possibility on a larger population in more general settings.

Published

2019

2. Intraperitoneal Glucose Sensing is Sometimes Surprisingly Rapid

Author

Anders Lyngvi Fougner, Konstanze Kölle, Nils Kristian Skjærvold, Nicolas-Andreas L. Elvemo, Dag Roar Hjelme, Reinold Ellingsen, Sven Magnus Carlsen, and Øyvind Stavdahl

Subjects

Diabetes, Artificial Pancreas, Closed-loop systems, Type 1 diabetes, Type 2 diabetes, Electronic computers. Computer science, QA75.5-76.95

Abstract

Rapid, accurate and robust glucose measurements are needed to make a safe artificial pancreas for the treatment of diabetes mellitus type 1 and 2. The present gold standard of continuous glucose sensing, subcutaneous (SC) glucose sensing, has been claimed to have slow response and poor robustness towards local tissue changes such as mechanical pressure, temperature changes, etc. The present study aimed at quantifying glucose dynamics from central circulation to intraperitoneal (IP) sensor sites, as an alternative to the SC location. Intraarterial (IA) and IP sensors were tested in three anaesthetized non-diabetic pigs during experiments with intravenous infusion of glucose boluses, enforcing rapid glucose level excursions in the range 70--360 mg/dL (approximately 3.8--20 mmol/L). Optical interferometric sensors were used for IA and IP measurements. A first-order dynamic model with time delay was fitted to the data after compensating for sensor dynamics. Additionally, off-the-shelf Medtronic Enlite sensors were used for illustration of SC glucose sensing. The time delay in glucose excursions from central circulation (IA) to IP sensor location was found to be in the range 0--26 s (median: 8.5 s, mean: 9.7 s, SD 9.5 s), and the time constant was found to be 0.5--10.2 min (median: 4.8 min, mean: 4.7 min, SD 2.9 min). IP glucose sensing sites have a substantially faster and more distinctive response than SC sites when sensor dynamics is ignored, and the peritoneal fluid reacts even faster to changes in intravascular glucose levels than reported in previous animal studies. This study may provide a benchmark for future, rapid IP glucose sensors.

Published

2016

3. Effect of sensor location on continuous intraperitoneal glucose sensing in an animal model.

Author

Marte Kierulf Åm, Konstanze Kölle, Anders Lyngvi Fougner, Ilze Dirnena-Fusini, Patrick Christian Bösch, Reinold Ellingsen, Dag Roar Hjelme, Øyvind Stavdahl, Sven Magnus Carlsen, and Sverre Christian Christiansen

Subjects

Medicine, Science

Abstract

BACKGROUND:In diabetes research, the development of the artificial pancreas has been a major topic since continuous glucose monitoring became available in the early 2000's. A prerequisite for an artificial pancreas is fast and reliable glucose sensing. However, subcutaneous continuous glucose monitoring carries the disadvantage of slow dynamics. As an alternative, we explored continuous glucose sensing in the peritoneal space, and investigated potential spatial differences in glucose dynamics within the peritoneal cavity. As a secondary outcome, we compared the glucose dynamics in the peritoneal space to the subcutaneous tissue. MATERIAL AND METHODS:Eight-hour experiments were conducted on 12 anesthetised non-diabetic pigs. Four commercially available amperometric glucose sensors (FreeStyle Libre, Abbott Diabetes Care Ltd., Witney, UK) were inserted in four different locations of the peritoneal cavity and two sensors were inserted in the subcutaneous tissue. Meals were simulated by intravenous infusions of glucose, and frequent arterial blood and intraperitoneal fluid samples were collected for glucose reference. RESULTS:No significant differences were discovered in glucose dynamics between the four quadrants of the peritoneal cavity. The intraperitoneal sensors responded faster to the glucose excursions than the subcutaneous sensors, and the time delay was significantly smaller for the intraperitoneal sensors, but we did not find significant results when comparing the other dynamic parameters.

Published

2018

4. Investigation of the effect of clinically relevant interferents on glucose monitoring using near‐infrared spectroscopy

Author

Reinold Ellingsen, Silje Skeide Fuglerud, Astrid Aksnes, and Dag Roar Hjelme

Subjects

Blood Glucose, General Physics and Astronomy, Multivariate calibration, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 010309 optics, chemistry.chemical_compound, Diabetes mellitus, 0103 physical sciences, medicine, Humans, General Materials Science, Least-Squares Analysis, Blood glucose monitoring, Spectroscopy, Near-Infrared, Chromatography, medicine.diagnostic_test, Blood Glucose Self-Monitoring, 010401 analytical chemistry, Near-infrared spectroscopy, Glucose Measurement, General Engineering, General Chemistry, medicine.disease, 0104 chemical sciences, Acetaminophen, Glucose, chemistry, Calibration, High glucose, Caffeine, medicine.drug

Abstract

Near infrared spectroscopy (NIR) is a promising technique for continuous blood glucose monitoring for diabetic patients. Four interferents, at physiological concentrations, were introduced to study how the glucose predictions varied with a standard multivariate calibration model. Lactate and ethanol were found to interfere strongly with the glucose predictions unless theywere included in the calibration models. Lactate was mistaken for glucose and gave erroneously high glucose predictions, with a dose response of 0.46 mM/mM. The presence of ethanol resulted in too low glucose predictions, with a dose response of -0.43 mM/mM. Acetaminophen (APAP), a known interferent in the glucose monitoring devices used for diabetes management today, was not found to be an interferent in NIR spectroscopy, nor was caffeine. Thus, interferents that may appear in high concentrations, such as ethanol and lactate, must be included in the calibration or model building of future NIR-based glucose measurement devices for diabetes monitoring. © 2021 The Authors. Journal of Biophotonics published by Wiley‐VCH GmbH. This is an open access article under the terms of the Creative Commons Attribution‐NonCommercial License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.

Published

2021

5. Optimization of SERS Sensing With Micro-Lensed Optical Fibers and Au Nano-Film

Author

Silje Skeide Fuglerud, Reinold Ellingsen, Karolina Milenko, Dag Roar Hjelme, and Astrid Aksnes

Subjects

Detection limit, Optical fiber, Multi-mode optical fiber, Materials science, business.industry, 02 engineering and technology, Atomic and Molecular Physics, and Optics, law.invention, Rhodamine 6G, symbols.namesake, chemistry.chemical_compound, 020210 optoelectronics & photonics, chemistry, law, Nano, 0202 electrical engineering, electronic engineering, information engineering, symbols, Optoelectronics, business, Raman spectroscopy, Lithography, Raman scattering

Abstract

We present the fabrication and characterization of optical fiber reflection probes based on surface-enhanced Raman scattering (SERS) and micro-lensed multimode fibers. For the SERS substrate, a nano-sphere lithography method is used. Comparison of SERS measurements with three different fiber probe configurations is presented. The proposed optimized structure shows a five times increase in SERS signal for dried Rhodamine 6G (R6G) and two times for aqueous R6G in comparison to a standard reflection configuration. Measurements of different concentrations of R6G in a water solution with an limit of detection (LOD) equal to 10 -7 M are demonstrated. This work is licensed under a Creative Commons Attribution 4.0 License. For more information, see http://creativecommons.org/licenses/by/4.0/

Published

2020

6. A review of optical methods for continuous glucose monitoring

Author

Ine L. Jernelv, Silje Skeide Fuglerud, Astrid Aksnes, Karolina Milenko, Dag Roar Hjelme, and Reinold Ellingsen

Subjects

medicine.medical_specialty, endocrine system diseases, Glucose control, Continuous glucose monitoring, business.industry, 010401 analytical chemistry, nutritional and metabolic diseases, 02 engineering and technology, 021001 nanoscience & nanotechnology, Health outcomes, 01 natural sciences, 0104 chemical sciences, Diabetes management, medicine, Glucose sensors, 0210 nano-technology, Intensive care medicine, business, Instrumentation, Spectroscopy

Abstract

Frequent glucose monitoring is a fundamental part of diabetes management, and good glucose control is important for long-term health outcomes. New types of electrochemical sensors that allow for continuous glucose monitoring (CGM) have become an important tool for diabetes management, although they still have drawbacks such as short lifetime and a need for frequent calibration. Other technologies are still being researched for CGM, in an attempt to replace the electrochemical sensors. Optical methods have several advantages for CGM, including potentially long sensor lifetimes and short measurement times, and many developments have been made over the last decades. This paper will review optical measurement methods for CGM, their challenges, and the current research status. The different methods will be compared, and the future prospects for optical methods will be discussed.

Published

2018

7. Erratum to 'Why intraperitoneal glucose sensing is sometimes surprisingly rapid and sometimes slow: A hypothesis' [Med. Hypotheses 132 (2019) 109318]

Author

Anders Lyngvi Fougner, Sverre Christian Christiansen, Sven M. Carlsen, Øyvind Stavdahl, Dag Roar Hjelme, Reinold Ellingsen, Marte Kierulf Åm, and Patrick Christian Bösch

Subjects

medicine.medical_specialty, Endocrinology, Chemistry, Internal medicine, medicine, Glucose sensing, General Medicine

Published

2019

8. Feasibility of supercontinuum sources for use in glucose sensing by absorption spectroscopy

Author

Silje Skeide Fuglerud, Karolina Milenko, Reinold Ellingsen, Astrid Aksnes, and Dag Roar Hjelme

Subjects

Root mean square, Optics, Materials science, Absorption spectroscopy, Relative intensity noise, business.industry, Near-infrared spectroscopy, Glucose Measurement, business, Spectroscopy, Noise (electronics), Supercontinuum

Abstract

Diabetes mellitus 1 requires tight control of the blood glucose levels to avoid harmful effects of either too high (hyperglycemia) or too low (hypoglycemia) blood sugar. Due to the availability of low-cost components, fiber- coupled near infrared (NIR) absorption spectroscopy could be a feasible measurement method. From the molar absorptivity of glucose, it is shown that to achieve high accuracy using near infrared spectroscopy for glucose sensing, relative noise levels should not exceed 0:003 %. Two supercontinuum (SC) sources and one broadband lamp were investigated with a low-cost portable spectrometer. The SNR of the two SC sources was limited by amplitude fluctuations and could be improved by averaging. The SNR of the broadband source was found to be largely limited by the detector noise due to the weak intensity. 16 aqueous glucose samples ranging from 0 to 500mm were measured with the broadband source and an SC laser. A partial least squares regression (PLSR) model was built for both measurement sets, yielding root mean square errors of 49 and 54mm, illustrating how the limit of detection is restrained by the high relative intensity noise. A reference arm setup was built and could account for much of the variability of the SC source. A glucose measurement series using this setup and five samples (100 to 500mm) yielded a root mean square error of 10:6mm. The results indicate that an SC source can be feasible for absorption spectroscopy in a reference arm setup. © 2019 Society of Photo Optical Instrumentation Engineers. One print or electronic copy may be made for personal use only. Systematic reproduction and distribution, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper are prohibited.

Published

2019

9. Feasibility of early meal detection based on abdominal sound

Author

Sven M. Carlsen, Øyvind Stavdahl, Reinold Ellingsen, Anders Lyngvi Fougner, and Konstanze Kölle

Subjects

medicine.medical_specialty, lcsh:Medical technology, 0206 medical engineering, Population, 030209 endocrinology & metabolism, 02 engineering and technology, Audiology, lcsh:Computer applications to medicine. Medical informatics, Artificial pancreas, Article, Medical technology: 620 [VDP], 03 medical and health sciences, 0302 clinical medicine, medicine, Tarmlyder, Medisinsk teknologi: 620 [VDP], education, Sound (medical instrument), Meal, education.field_of_study, meal detection, business.industry, artificial pancreas, pattern recognition, digestive, oral, and skin physiology, General Medicine, Right upper quadrant, 020601 biomedical engineering, Frequency spectrum, Bowel sounds, Biomedisinsk instrumentering, medicine.anatomical_structure, Type 1 diabetes, lcsh:R855-855.5, Abdominal sound, Abdomen, lcsh:R858-859.7, business, Biomedical engineering

Abstract

In classical approaches for an artificial pancreas, continuous glucose monitoring (CGM) is the only measured variable used for insulin dosing and additional control functions. The CGM values are subject to time delays and slow dynamics between blood and the sensing location. These time lags compromise the controller’s performance in maintaining (near to) normal glucose levels. Meal information could enhance the control outcome. However, meal announcement by the user is not reliable, and it takes 30 min to 40 min from meal onset until a meal is detected by methods based on CGM. In this pilot study, the use of bowel sounds for meal detection was investigated. In particular, we focused on whether bowel sounds change qualitatively during or shortly after meal ingestion. After fasting for at least 4 h, 11 healthy volunteers ingested a lunch meal at their usual time. Abdominal sound was recorded by a condenser microphone that was attached to the right upper quadrant of the abdomen by medical tape. Features that describe the power distribution over the frequency spectrum were extracted and used for classification by support vector machines. These classifiers were trained in a leave-one-out cross-validation scheme. Meals could be detected on average 10 min (std: 4.4 min) after they had started. Half of these were detected without false alarms. This shows that abdominal sound monitoring could provide an early meal detection. Further studies should investigate this possibility on a larger population in more general settings., Spectrogram of a recording in the training set. Windows with a length of 20 s and overlap of 10 s were analyzed using spectrogram function in MATLAB. The meal started at minute 51.

Published

2019

10. The Artificial Pancreas: A Dynamic Challenge

Author

Sven M. Carlsen, Konstanze Kölle, Anders Lyngvi Fougner, Øyvind Stavdahl, Reinold Ellingsen, and Sverre Christian Christiansen

Subjects

medicine.medical_specialty, business.industry, Insulin, medicine.medical_treatment, Glucose Measurement, 030209 endocrinology & metabolism, Hypoglycemia, medicine.disease, Artificial pancreas, Glucagon, Setpoint, 03 medical and health sciences, Insulin infusion, 0302 clinical medicine, Endocrinology, Control and Systems Engineering, Diabetes mellitus, Internal medicine, medicine, 030212 general & internal medicine, business

Abstract

In patients with diabetes mellitus type 1, the pancreatic insulin production ceases, causing raise in blood glucose level (BGL) and potentially severe long-term complications. The "holy grail" of diabetes treatment is the artificial pancreas (AP), a closed-loop control system that regulates the user’s BGL by infusing insulin, and possibly glucagon. Numerous attempts have been largely unsuccessful, mainly due to slow dynamics that make it difficult to avoid unwanted BGL excursions. System performance has been improved through improved sensor technology and faster-acting insulin types, but the risk of hypoglycemia is still significant unless the glucose setpoint is unnaturally high. We argue that this problem can be circumvented by choosing appropriate sites for glucose measurement and insulin infusion. While intravascular measurement and infusion provides the fastest dynamics and thus the best conditions for closed-loop control, it is only viable in inpatients mainly due to danger of infections and limited sensor durability. On the other extreme, state-of-the-art subcutaneous systems exhibit significant time delays and diffusion dynamics, yielding poor BGL control in the event of disturbances like meals and physical activity. Avoiding dangerous hypoglycemia therefore comes at the expense of daily episodes of elevated BGL (typically 10-15 mmol/L) that increase the risk of long-term complications. Furthermore, slow insulin uptake from subcutis remains as a major challenge. Hence we advocate the double intraperitoneal (IP) AP. Here, insulin is released into the abdominal cavity (peritoneum) through a semi-permanent port, which also allows access for IP glucose sensing. This improves both sensing and absorption dynamics. Thus the closed-loop control may be significantly tighter, allowing a setpoint closer to the healthy normal BGL of approximately 4.5 mmol/L whilst potentially improving system safety. These statements are supported by results from our own research and the literature.

Published

2016

11. Intraperitoneal Glucose Sensing is Sometimes Surprisingly Rapid

Author

Reinold Ellingsen, Nicolas-Andreas L. Elvemo, Dag Roar Hjelme, Anders Lyngvi Fougner, Øyvind Stavdahl, Sven M. Carlsen, Konstanze Kölle, and Nils Kristian Skjaervold

Subjects

medicine.medical_specialty, Closed-loop systems, Glucose sensing, 030209 endocrinology & metabolism, 01 natural sciences, lcsh:QA75.5-76.95, 010309 optics, 03 medical and health sciences, Mechanical pressure, 0302 clinical medicine, 0103 physical sciences, medicine, Slow response, Glucose sensors, Glucose dynamics, Chemistry, Diabetes, Glucose Measurement, Time constant, Type 2 diabetes, Computer Science Applications, Surgery, Type 1 diabetes, Artificial Pancreas, Control and Systems Engineering, Modeling and Simulation, lcsh:Electronic computers. Computer science, Software, Biomedical engineering

Abstract

Rapid, accurate and robust glucose measurements are needed to make a safe artificial pancreas for the treatment of diabetes mellitus type 1 and 2. The present gold standard of continuous glucose sensing, subcutaneous (SC) glucose sensing, has been claimed to have slow response and poor robustness towards local tissue changes such as mechanical pressure, temperature changes, etc. The present study aimed at quantifying glucose dynamics from central circulation to intraperitoneal (IP) sensor sites, as an alternative to the SC location. Intraarterial (IA) and IP sensors were tested in three anaesthetized non-diabetic pigs during experiments with intravenous infusion of glucose boluses, enforcing rapid glucose level excursions in the range 70--360 mg/dL (approximately 3.8--20 mmol/L). Optical interferometric sensors were used for IA and IP measurements. A first-order dynamic model with time delay was fitted to the data after compensating for sensor dynamics. Additionally, off-the-shelf Medtronic Enlite sensors were used for illustration of SC glucose sensing. The time delay in glucose excursions from central circulation (IA) to IP sensor location was found to be in the range 0--26 s (median: 8.5 s, mean: 9.7 s, SD 9.5 s), and the time constant was found to be 0.5--10.2 min (median: 4.8 min, mean: 4.7 min, SD 2.9 min). IP glucose sensing sites have a substantially faster and more distinctive response than SC sites when sensor dynamics is ignored, and the peritoneal fluid reacts even faster to changes in intravascular glucose levels than reported in previous animal studies. This study may provide a benchmark for future, rapid IP glucose sensors.

Published

2016

12. Why intraperitoneal glucose sensing is sometimes surprisingly rapid and sometimes slow: A hypothesis

Author

Dag Roar Hjelme, Patrick Christian Bösch, Sverre Christian Christiansen, Anders Lyngvi Fougner, Øyvind Stavdahl, Reinold Ellingsen, Sven M. Carlsen, and Marte Kierulf Åm

Subjects

Pancreas, Artificial, Swine, Glucose sensing, Biosensing Techniques, Artificial pancreas, Epithelium, Diffusion, Continuous glucose measurement, Peritoneum, medicine, Animals, Humans, Peritoneal space, Glucose dynamics, Glukosemåling, Kontinuerlig glukosemåling, Chemistry, Glucose Measurement, Optical Devices, General Medicine, Equipment Design, Femoral Artery, Type 1 diabetes, medicine.anatomical_structure, Diabetes Mellitus, Type 1, Glucose, Peritoneal Dialysis, Mesothelial Cell, Single layer, Biomedical engineering

Abstract

The artificial pancreas requires fast and reliable glucose measurements. The peritoneal space has shown promising results, and in one of our studies we detected glucose changes in the peritoneal space already at the same time as in the femoral artery. The peritoneal lining is highly vascularised, covered by a single layer of mesothelial cells and therefore easily accessible for proper sensor technology, e.g. optical technology. We hypothesize that the rapid intraperitoneal glucose dynamics observed in our study was possible because the sensors were located directly at the peritoneal lining, at the point where the glucose molecules entered the peritoneal space. Glucose travels slowly in fluids by diffusion, and a longer distance between the sensor and the peritoneal lining would consequently result in slower dynamics. We therefore propose to place the glucose sensor in an artificial pancreas as closely to the peritoneal lining as possible, or even utilize appropriate sensor technology to measure glucose in the peritoneal lining itself.

Published

2018

13. Risk Analysis for the Design of a Safe Artificial Pancreas Control System

Author

Konstanze Kölle, Anders Lyngvi Fougner, Øyvind Stavdahl, Mary Ann Lundteigen, Sven M. Carlsen, and Reinold Ellingsen

Subjects

Risk analysis, Adaptive control, Computer science, business.industry, 030209 endocrinology & metabolism, Bioengineering, Applied Microbiology and Biotechnology, Artificial pancreas, Fault detection and isolation, Biomedisinsk instrumentering, 03 medical and health sciences, 0302 clinical medicine, Risk analysis (engineering), Control system, 030212 general & internal medicine, Safety, business, Failure mode and effects analysis, Biomedical engineering, Risk management, Biotechnology, Glycemic, Sikkerhet

Abstract

Closed-loop glucose control has the potential to improve the glycemic control in patients with diabetes mellitus type 1. Such an artificial pancreas (AP) should keep the user safe despite all disturbances and faults. The objective of this paper is to analyze those perturbations according to their effects on the glycemic status, and thereby supporting an informed design process of the control system. As suggested by the international standard ISO 14971 for risk management of medical devices, the well proven failure modes and effects analysis (FMEA) was chosen as instrument. An FMEA scheme was modified for this purpose and applied to a single-hormone system with subcutaneous and intraperitoneal routes for glucose sensing and insulin administration. Faults that imply urgent danger and thus require fast detection and diagnosis were identified and distinguished from disturbances that can be sufficiently addressed by basic control functions, e.g. by adaptive control algorithms. Requirements and testing criteria for basic control functions as well as fault detection and diagnosis functions can be derived from the provided overview.

Published

2018

14. A miniaturized ball-lensed fiber optic NIR transmission spectroscopy-based glucose sensor

Author

Dag Roar Hjelme, Karolina Milenko, Ine L. Jernelv, Silje Skeide Fuglerud, Reinold Ellingsen, and Astrid Aksnes

Subjects

Transmission spectroscopy, Materials science, genetic structures, business.industry, Fiber optic sensor, Continuous glucose monitoring, Optical sensing, Fiber transmission, Lensed fiber, Miniaturization, Optoelectronics, business, Mechanical instability

Abstract

A novel ball-lensed fiber transmission sensor is presented aimed at in vivo continuous glucose monitoring of diabetics. Preliminary results yield 20 mM RMSE, limited by mechanical instability. The design enables flexibility and further miniaturization. © 2018 The Author(s). One print or electronic copy may be made for personal use only. Systematic reproduction and distribution, duplication of any material in this paper for a fee or for commercial purposes, or modifications of the content of this paper are prohibited.

Published

2018

15. Improving Multivariate Analysis in Mid-Infrared Spectroscopy for Biosensing

Author

Karolina Milenko, Reinold Ellingsen, Astrid Aksnes, Dag Roar Hjelme, and Ine L. Jernelv

Subjects

Physics::Biological Physics, Materials science, Multivariate analysis, Spectrometer, Absorption spectroscopy, business.industry, Infrared, Physics::Optics, Wavelength, Attenuated total reflection, Optoelectronics, business, Spectroscopy, Biosensor

Abstract

Mid-infrared spectroscopy using multivariate analysis for quantification has high potential in biosensing. This case study on aqueous glucose solutions yields improved prediction errors by optimising preprocessing and wavelength selection procedures.

Published

2018

16. Towards Fiber-Optic Raman Spectroscopy for Glucose Sensing

Author

Karolina Milenko, Ine L. Jernelv, Silje Skeide Fuglerud, Reinold Ellingsen, Astrid Aksnes, and Dag Roar Hjelme

Subjects

Multi-mode optical fiber, Optical fiber, Materials science, business.industry, Glucose detection, Glucose sensing, law.invention, symbols.namesake, law, Fiber optic sensor, symbols, Optoelectronics, business, Raman spectroscopy, Raman scattering, Photonic-crystal fiber

Abstract

We demonstrate a multimode optical fiber sensor for spectroscopic Raman measurements of glucose concentration for the application in intraperitoneal glucose detection in diabetic patients. A regression model with a RMSEC of 2.2 mM was obtained. © [2018] Optical Society of America]. One print or electronic copy may be made for personal use only. Systematic reproduction and distribution, duplication of any material in this paper for a fee or for commercial purposes, or modifications of the content of this paper are prohibited.

Published

2018

17. A Review of the Current Challenges Associated with the Development of an Artificial Pancreas by a Double Subcutaneous Approach

Author

Reinold Ellingsen, Konstanze Kölle, Sven M. Carlsen, Anders Lyngvi Fougner, Øyvind Stavdahl, and Sverre Christian Christiansen

Subjects

medicine.medical_specialty, Research groups, Glucose control, Continuous subcutaneous insulin infusion, Endocrinology, Diabetes and Metabolism, Artificial pancreas, 030209 endocrinology & metabolism, Review, Subcutaneous approach, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Diabetes mellitus, Internal Medicine, medicine, 030212 general & internal medicine, Continuous glucose monitoring, Type 1 diabetes, business.industry, medicine.disease, Surgery, Subcutaneous insulin, Endocrinology, business

Abstract

Introduction Patients with diabetes type 1 (DM1) struggle daily to achieve good glucose control. The last decade has seen a rush of research groups working towards an artificial pancreas (AP) through the application of a double subcutaneous approach, i.e., subcutaneous (SC) continuous glucose monitoring (CGM) and continuous subcutaneous insulin infusion. Few have focused on the fundamental limitations of this approach, especially regarding outcome measures beyond time in range. Methods Based on insulin physiology, the limitations of CGM, SC insulin absorption, meal challenge, and physical activity in DM1 patients, we discuss the limitations of the double SC approach. Finally, we discuss safety measures and the achievements reported in some recent AP studies that have utilized the double SC approach. Results Most studies show that a double SC AP increases the time in range compared to a sensor-augmented insulin pump and shortens the time in hypoglycemia. Despite these achievements, the proportion of time spent in hyperglycemia is still roughly 20–40%, and hypoglycemia is still present 1–4% of the time. The main factors limiting further progress are the latency of SC CGM (at least 5–10 min) and the slow pharmacokinetics of SC-delivered fast-acting insulin. The maximum blood insulin level is reached after 45 min and the maximum glucose-lowering effect is observed after 1.5–2 h, while the glucose-lowering effect lasts for at least 5 h. Conclusions Although using a double SC AP leads to significant improvements in glucose control, the SC approach has severe limitations that hamper further progress towards a robust AP. © The Author(s) 2017. This article is distributed under the terms of the Creative Commons Attribution-NonCommercial 4.0 International License (http://creativecommons.org/licenses/by-nc/4.0/)

Published

2017

18. Glucose sensing by absorption spectroscopy using lensed optical fibers

Author

Astrid Aksnes, Reinold Ellingsen, Dag Roar Hjelme, Karolina Milenko, and Silje Skeide Fuglerud

Subjects

Optical fiber, Materials science, Absorption spectroscopy, business.industry, Stray light, Near-infrared spectroscopy, 01 natural sciences, Atomic and Molecular Physics, and Optics, law.invention, 010309 optics, Optics, Transmission (telecommunications), law, 0103 physical sciences, Calibration, Electrical and Electronic Engineering, business, Absorption (electromagnetic radiation), Engineering (miscellaneous), Refractive index

Abstract

The bulkiness of common transmission spectroscopy probes prevents applicability at remote locations such as within the body. We present the fabrication and characterization of lensed fibers for transmission spectroscopy in the near-infrared. Eigenmode simulations and measurements of the coupling efficiency are presented and applied to design the setup corresponding to the sample absorption. Sensing capabilities are demonstrated on aqueous glucose samples ranged 80 to 500 mM, obtaining a mean absolute percentage error of calibration of 4.3%. With increased flexibility, transmission spectroscopic sensors at remote locations may be achievable, for example, applied to in vivo continuous glucose monitoring.

Published

2019

19. Micro-lensed optical fibers for a surface-enhanced Raman scattering sensing probe

Author

Snorre Braathen Kjeldby Braathen Kjeldby, Dag Roar Hjelme, Silje Skeide Fuglerud, Astrid Aksnes, Reinold Ellingsen, and Karolina Milenko

Subjects

Optical fiber, Materials science, Physics::Optics, 02 engineering and technology, 01 natural sciences, Light scattering, law.invention, Rhodamine 6G, symbols.namesake, chemistry.chemical_compound, Optics, law, Fiber, Surface plasmon resonance, business.industry, 010401 analytical chemistry, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, chemistry, Fiber optic sensor, symbols, 0210 nano-technology, business, Raman spectroscopy, Raman scattering

Abstract

We present the fabrication and characterization of a novel sensing configuration based on surface-enhanced Raman scattering (SERS) and two micro-lensed optical fibers. The first micro-lensed fiber is used to excite surface plasmon resonance in a gold film deposited over a mono-layer of nano-sphere surface (AuFON), and the second lensed fiber is used to collect the SERS signal. The sensing capabilities of the fabricated device are demonstrated by measuring different concentrations of Rhodamine 6G in a water solution.

Published

2018

20. Fiber-Optic Biosensor Technology for Rapid, Accurate and Specific Detection of Enzymes

Author

Dan Östling, Oddvar Aune, Dag Roar Hjelme, Reinold Ellingsen, and Berit H. Falch

Subjects

chemistry.chemical_classification, Materials science, Enzyme, chemistry, Fiber optic biosensor, Time response, Specific detection, technology, industry, and agriculture, Nanotechnology, macromolecular substances, Biosensor, Biomedical engineering

Abstract

We present a novel fiber-optic biosensor utilizing hydrogel functionalized with enzyme sensitive cross-links. A proof-of-concept PSA sensor demonstrated linear response up to 4 μM and sensitivity better than 40 nM, with time response of 2 minutes.

Published

2014

21. High-resolution diode-laser spectroscopy of calcium

Author

Alexander S. Zibrov, Richard W. Fox, Leo W. Hollberg, V. L. Velichansky, C. S. Weimer, Reinold Ellingsen, and Guglielmo M. Tino

Subjects

Materials science, Physics and Astronomy (miscellaneous), Absorption spectroscopy, business.industry, General Engineering, General Physics and Astronomy, Laser, Spectral line, law.invention, Wavelength, Optics, law, business, Absorption (electromagnetic radiation), Spectroscopy, Fabry–Pérot interferometer, Diode

Abstract

Saturated-absorption signals on the calcium 657 nm transition are observed by direct absorption using diode lasers and a high flux atomic-beam cell. Line-widths as narrow as 65 kHz are observed with a high signal-to-noise ratio. Prospects for using this system as a compact wavelength/frequency reference are considered.

Published

1994

22. Effects of noise on transients of injection locked semiconductor lasers

Author

Reinold Ellingsen, Dag Roar Hjelme, Alan R. Mickelson, and Marc R. Surette

Subjects

Physics, Differential equation, business.industry, Condensed Matter Physics, Laser, Phase detector, Atomic and Molecular Physics, and Optics, Standard deviation, law.invention, Semiconductor laser theory, Injection locking, Optics, law, Fokker–Planck equation, Transient response, Electrical and Electronic Engineering, business

Abstract

Semiconductor laser injection locking transients are analyzed. By adiabatically eliminating the carrier dynamics, a single nonlinear stochastic differential equation is obtained for the relative phase between the master and slave lasors. The corresponding Fokker-Planck equation is used to study the steady-state locked conditions as well as phase transients of the locking process. Noise causes the steady-state relative phase between the master and the slave lasers to be a random variable with a standard deviation of approximately a few degrees for typical injection levels. The standard deviation can be reduced by using a phase detector with a limited bandwidth. The mean locking time in the presence of noise is slightly less than the deterministic prediction. Noise also causes the locked lasers to have a finite probability to momentarily unlock. >

Published

1993

23. Computer simulations of bistable dynamics of a two-mode laser with symmetric or asymmetric gain conditions

Author

J. Bang, K. Blotekjar, and Reinold Ellingsen

Subjects

Physics, Photon, Bistability, business.industry, media_common.quotation_subject, Autocorrelation, Mode (statistics), Condensed Matter Physics, Laser, Asymmetry, Atomic and Molecular Physics, and Optics, Optical bistability, law.invention, Computational physics, Optics, law, Electrical and Electronic Engineering, Saturation (chemistry), business, media_common

Abstract

The mode hopping dynamics of a two-mode laser are investigated through numerical simulations. The authors derive an algorithm, based on autocorrelation techniques, by which the average mode hopping rate can be estimated from time sequences of the numbers of photons of the two modes. The method works both for symmetric and asymmetric gain conditions. The results show that the average mode hopping rate decreases with increasing asymmetry in the gain coefficients of the two modes. These results are in agreement with what one would expect from physical considerations. In the case of symmetric gain conditions, the results are compared to theoretically derived formulas, showing reasonable agreement in current dependence and in the dependence on the gain saturation coefficients. >

Published

1991

24. Temperature measurement in soft tissue using a distributed fibre Bragg-grating sensor system

Author

Tom Mala, Ivar P. Gladhaug, Reinold Ellingsen, E. Samset, E. Fosse, and O. Søreide

Subjects

Optical fiber, Materials science, business.industry, Atmospheric temperature range, Temperature measurement, Signal, law.invention, Core (optical fiber), Optics, Fiber Bragg grating, law, Temporal resolution, Surgery, business, Image resolution, Biomedical engineering

Abstract

Currently used temperature sensor systems do not provide sufficient spatial resolution and can not be used as an integrated part of minimally invasive treatment. Few magnetic resonance (MR) compatible sensor systems are available. A distributed fibre Bragg-grating sensor system for use in biological tissue was constructed. Ten Bragg gratings were inscribed in the core of an optical fibre. The fibre was mounted into tubes made of MR-compatible materials. An opto-electronic unit connected to the fibre was used for signal generation and detection. Communication with a PC allowed presentation and logging of temperature data. The system was calibrated to the temperature range#150;195.8#176;C to 100#176;C. Experiments were conducted during freezing (cryoablation) of porcine liver in vivo . The system yielded a temperature profile with 6.5 mm spatial resolution and 5 s temporal resolution. Both mechanical stability and MR compatibility were acceptable and will allow routine use.

Published

2006

25. OPTICAL PROPERTIES OF HUMAN BRAIN

Author

Reinold Ellingsen and Lars O. Svaasand

Subjects

Adult, Male, Aging, Materials science, Light, Biochemistry, Optics, Nuclear magnetic resonance, medicine, Neonatal brain, Animals, Humans, Physical and Theoretical Chemistry, Penetration depth, Aged, business.industry, Near-infrared spectroscopy, Infant, Newborn, Brain, General Medicine, Visible radiation, Human brain, Infant newborn, medicine.anatomical_structure, Cats, Female, business

Abstract

— Optical properties of the human brain in the wave-length region from blue to near infrared are presented. There are significant variations in the optical penetration depth from the neonatal and to the adult brain. Typical values for the penetration depth in the adult brain are: 0.5 mm for blue/green, 1.5 mm for red and 3.5 mm for near infrared. The values for the neonatal brain are typically 2–3 times larger.

Published

1983

26. Requirements On Fibre Optic Sensors For Wellhead Monitoring Subsea

Author

Audun Hordvik, Reinold Ellingsen, Dag Thingbø, and Arne Berg

Subjects

Engineering, Reliability (semiconductor), Emerging technologies, business.industry, Wellhead, Fibre optic sensors, Electronic engineering, Monitoring system, business, Reliability engineering, Subsea

Abstract

This paper presents the requirements on fibre optic sensors for subsea wellhead monitoring. A possible advantage of fibre optics is increased reliability of the monitoring system. However, to achieve this a substantial amount of development and testing has to be performed. A very important factor in the selection of sensor principles for further development is their possibility for success. New technologies have to solve problems and not increase the probability for failures.

Published

1986

27. Photoradiation Therapy (PRT) of Lewis Lung Carcinoma in B6D2 Mice, Dosimetry Considerations

Author

Reinold Ellingsen, Lars O. Svaasand, and A. Ødegaard

Subjects

Oncology, medicine.medical_specialty, business.industry, Tumor therapy, Lewis lung carcinoma, Internal medicine, medicine, High doses, Photoradiation Therapy, Dosimetry, Photosensitizer, Dose rate, Nuclear medicine, business

Abstract

In tumor therapy there will presumably exist an optimum of the optical dose rate and the photosensitizer dose. This work discusses the PRT of Lewis lung carcinomas in mice performed at low optical power levels combined with rather high doses of photosensitizer. The light and temperature dosimetry is of great importance in phototherapy, consequently those parameters have been monitored during the irradiation period. Equally important is the drug dosimetry. Reported values of administered drug concentrations vary over almost two orders of magnitude 1.

Published

1984