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1. GluCAT: A Feline Biofluids IoT Hub for Electrochemical Glucose Biosensing

   https://doi.org/10.1145/3623509.3635250  

   Sun, Shuyi; Reagan, Krystle; Seker, Erkin; Vega, Katia (February 2024, ACM)

   Feline urine provides valuable insights into an animal's well-being. However, professional veterinary urine analysis can be invasive, costly, and infrequent. Electrochemical biosensors, widely used in medical diagnosis, environmental monitoring, food quality control, and drug discovery, offer a promising solution for sensing analytes in feline urine. This paper introduces the "Feline Biofluids IoT Hub" concept that aims at making previously inaccessible biological data in pets' fluids visible and integrates biofluid sensing with an Internet of Things (IoT) system to enhace comprehensive animal health monitoring. To implement that concept, our project GluCAT includes a biosensing litter box and an activity sensing mat to facilitate the care of diabetic cats. Chronoamperometic data is capture from the electrochemical biosensor using a potentiostat and send to a database via Wi-Fi, providing data visualization through a mobile application. We present electrochemical biosensor tests across five glucose levels. We compare results from feline urine samples with laboratory-grade tests. Furthermore, we share insights from a real-world user study involving a cat interacting with GluCAT for over 50 hours. We envision our project enabling the monitoring of various illnesses by detecting analytes like pH, sodium, and glucose in feline urine using electrochemical biosensors, complemented by data from pet-oriented IoT devices measuring water intake, activity, weight, and food consumption. 

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2. cirCAT: PURRtentio: a Litter Box that Monitors Feline Urine using Electrochemical Biosensors

   https://doi.org/10.1145/3637882.3637887  

   Sun, Shuyi; Vega, Gabriela; Reagan, Krystle; Seker, Erkin; Vega, Katia (December 2023, ACM)

   Feline urine provides valuable information on an animal’s wellbeing, but professional veterinary collection and analysis of urine samples can be intrusive, costly, and infrequent. Electrochemical biosensors recognize biological elements such as pH, glucose and sodium, and have numerous applications, including in medical diagnosis, environmental monitoring, food quality control and drug discovery. This paper presents cirCAT: PURRtentio, a litter box system that uses a electrochemical biosensor to monitor analytes in feline urine. We provide the implementation process of the system that consists of a DIY three-electrode biosensor, a potentiostat, a microcontroller, a ToF sensor and a mobile application. A rinsing mechanism is also included to extend the lifespan of the sensors. The system was tested using three separate electrochemistry tests to ensure accuracy, reliability, and applicability. We prepared and compared electrochemical biosensors with different conductive materials for Do-It-Yourself (DIY) electrodes. The second test compared PURRtentio against an industry-grade potentiostat. The third test compared our system against current veterinary standards for chemical analysis using feline’s urine samples. Additionally, we conducted a case study with a cat using PURRtentio for 72 hours. Finally, with results from these research and another series of interviews we did with veterinarian experts, we provide implications and future directions of this technology. PURRtentio presents an innovative and non-invasive means to consistently monitor chemistry elements in feline urine, potentially allowing for early detection and management of cat’s health conditions. 

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3. Advances in Electrochemical Sensors for Detecting Analytes in Biofluids

   https://doi.org/10.1002/adsr.202200088  

   Lee, Jimin; Kim, Myung Chul; Soltis, Ira; Lee, Sung Hoon; Yeo, Woon‐Hong (August 2023, Advanced Sensor Research)

   Abstract More than half of all Americans suffer from chronic diseases, the leading causes of death and disability. However, prompt treatment of chronic diseases can lead to better patient outcomes and a reduced burden on the healthcare system. This highlights the urgent need for electrochemical (EC) sensors that provide non‐invasive, real‐time monitoring of disease‐indicating biomarkers. Due to their high sensitivity, high selectivity, and cost‐effectiveness, EC biosensors have recently shown tremendous promise for individualized health monitoring. This review explains the working principles of EC biosensors. It summarizes the recent advances and improvements of EC biosensors for detecting biomarkers in different biofluids, including tears, saliva, breath, urine, and sweat. Through a comprehensive overview of EC biosensor technologies, this article is expected to aid the development of flexible and wearable EC biosensing systems that have the potential to provide continuous, long‐term health monitoring for both clinical and at‐home use. 

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4. Validating Urinary Neopterin as a Biomarker of Immune Response in Captive and Wild Capuchin Monkeys

   https://doi.org/10.3389/fvets.2022.918036  

   Lucore, Jordan M.; Marshall, Andrew J.; Brosnan, Sarah F.; Benítez, Marcela E. (July 2022, Frontiers in Veterinary Science)

   Non-invasive health monitoring is advantageous for wild and captive primate populations because it reduces the need for traditional invasive techniques (i.e., anesthetization) that can be stressful and potentially harmful for individuals. The biomarker neopterin is an emerging tool in primatology to measure immune activation and immunosenescence, however, most neopterin studies have focused on catarrhine species with little comparative work examining neopterin and health in platyrrhines. To address this gap, we validated a commercially available enzyme-linked immunosorbent assay (ELISA) to measure urinary neopterin in two types of capuchin monkeys, a wild population of white-faced capuchins ( Cebus imitator ) and a socially housed captive colony of tufted capuchins ( Sapajus apella ). We analytically validated methods for measuring urinary neopterin in two capuchin populations and demonstrated that two commonly-used methods to control for urine concentration—creatinine and specific gravity (SG)—produced highly concordant results. We also biologically validated these methods by examining variation in neopterin levels based on environment (captive and wild) and age, and changes in levels associated with immune-response. We found that neopterin increased after immune perturbation (rabies vaccine booster), varied by environmental condition, and mirrored expected trends in immune system ontogeny. Our results improve understanding of the innate immune system in platyrrhine species and suggest neopterin may be useful for non-invasive health monitoring in both captive and wild primates. 

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5. A Miniature Potentiostat for Impedance Spectroscopy and Cyclic Voltammetry in Wearable Sensor Integration

   Franulovic, Franci; Tabassum, Shawana (October 2024, arXivorg)

   A potentiostat is an analytical device and a crucial component in electrochemical instruments used for studying chemical reaction mechanisms, with potential applications in early diagnosis of disease or critical health conditions. Conventional potentiostats are typically benchtop devices designed for laboratory use, whereas a wearable potentiostat can be interfaced with biochemical sensors for disease diagnostics at home. This work presents a low-power potentiostat designed to connect with a sensor array consisting of eight to ten working electrodes. The potentiostat is capable of running Electrochemical Impedance Spectroscopy and Cyclic Voltammetry. The system is powered by lithium-ion batteries and uses Bluetooth for data transmission to the user. A single ARM M4 microcontroller, integrated with a Bluetooth low-energy radio module, controls the entire system. The accuracy, reliability, and power efficiency of the potentiostat were evaluated and compared against existing commercial benchtop potentiostats. Additionally, we have outlined future steps to enhance circuit miniaturization and power efficiency, aiming to develop fully integrated wearable sensing devices comparable in size to a wristwatch. 

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