Peripheral Devices Research Articles

Shaking Up Essential Tremor: Peripheral Devices and Mechanical Strategies to Reduce Tremor

Shaking Up Essential Tremor: Peripheral Devices and Mechanical Strategies to Reduce Tremor

Fully Wireless, In Vivo Assessment of Superimposed Physiological Vital Signs Using a Biodegradable Passive Tag Interrogated with a Wearable Reader Patch

AbstractState‐of‐the‐art biosignal monitoring systems strive to achieve a balance between biocompatibility, biodegradability, and miniaturized, unobtrusive signal acquisition, thus requiring further research for improved user safety, mobility, and comfort. Here, a fully wireless sensing system is presented for real‐time in vivo assessment of physiological vital signs, addressing these challenges to enhance performance and user experience. The system features a biodegradable passive tag with a nanoscale crack‐based strain gauge sensor connected to a coil antenna on a gelatin‐ionic liquid substrate (GIS). The thermal crosslinking in the GIS promotes adhesion, while the presence of ionic liquid decreases the self‐resonance frequency of the BCA to below 100 MHz, enabling the device to operate in detuned mode. A lightweight (1.547 g) wearable reader patch interrogates an implanted passive tag via near‐field inductive coupling and transmits sensory data to peripheral devices via Bluetooth. Thus, the system ensures minimal tissue absorption and extended transmission range while consuming ≈80 mW of power during operation. In vitro and in vivo studies, culminating in successful implementation within a rat model, validated the implanted tag's biocompatibility and the system's capability to wirelessly acquire and process superimposed physiological vital signs, highlighting its potential to enhance patient outcomes through improved diagnostic and monitoring practices.

Створення надійних ноутбуків на основі простих змінних компонентів

The subject of study in this article and research is principles of creating of reliable and repairable notebooks. The goal is to determine the structural and circuitral peculiarities of the construction of portable computers and laptops, which improve fault tolerance, repairability, allow possibility of power supply using wider voltage range, and also reduce the cost of repairing, which makes it possible to create more reliable solutions with fault tolerance. The task is to analyze the existing architectures of computers built on modern chipsets; to analyze cases of failure of the computer equipment regarding the causes and consequences of faults; to analyze the possible reasonability of repairing and the computer repair options; to propose recommendations of the structural organization of notebook components and the recommendations for the support of a wide range of notebook voltages of power supply. According to the tasks, the following results were obtained. The analysis of the constructional design features of modern laptops and portable computers is performed. The main components of notebook motherboard, including the processor, multicontroller, and host bridge, are analyzed. The possible causes of faults of system board components are analyzed. The interaction of the multicontroller with BIOS and UEFI of notebooks is analyzed. The causes and solutions of possible issues of battery replacement are identified. The disadvantages of direct wired connection of peripheral devices to the processors implemented as a system on chip are discussed. The recommendations of the creation of repairable circuits of notebooks are proposed. The proposed circuits have a higher cost, weight and size characteristics with higher power consumption, but the obtained fault-tolerance allows the use in critical industries. Conclusions. The scientific novelty of the obtained results is in the fact that the performed analysis of solutions from leading manufacturers and the practical experience of laptop failures diagnostics allowed to propose a set of recommendations of the reliable laptops creation and modification of the existing components including the suppor of a wide range of power supply voltages, that will make it possible the charging from power sources without the use of an additional converters. The proposed use of discrete components and controllers for each interface port for connection of peripheral devices increases the system durability to the influence of external factors with maintaining of workability of the notebook and the rest ports of motherboard in case of the fault of one of them.

Wideband Transmissive Programmable Metasurface for Adaptive Millimeter‐Wave Beamforming

AbstractProgrammable metasurfaces provide a promising paradigm for the beamforming of electromagnetic waves in the fifth‐generation (5G) and sixth‐generation (6G) wireless communications with low cost and low complexity. However, most of the existing researches are focused on the sub‐6 GHz spectrum, which limited the gigabits per second (Gb s−1) high‐speed data transmission on future wireless network. Additionally, as a step forward in the development of intelligent metasurfaces, extra peripheral devices are often required to sense environmental variations for self‐adaptive modulations. Here, a wideband millimeter‐wave programmable metasurface is presented for peripheral‐free self‐adaptive signal enhancement in 5G/6G wireless communication. The proposed transmissive programmable metasurface consists of meta‐atoms, exhibiting efficient transmission (1 dB loss) and a stable 1‐bit phase difference from 23.7 to 32.1 GHz, effectively covering the desired 5G millimeter‐wave frequency bands: N257, N258, and N261. By integrating the self‐adaptive algorithm based on received signal intensity into the controller, the programmable metasurface can self‐adaptively establish an optimal or acceptable channel according to the predefined threshold values. To evaluate the performance of the prototype, an experiment on wavefront modulation was first conducted in a microwave chamber, verifying the wideband beamforming performance of the programmable metasurface. Moreover, self‐adaptive signal enhancement and millimeter‐wave wireless communication experiments were conducted in indoor environments, showing a maximum signal enhancement of 21.4 dB and a significant improvement in constellation. The proposed self‐adaptive wideband programmable metasurface demonstrates high potential for application in 5G/6G millimeter‐wave wireless networks.

E-SAT: an extreme learning machine based self attention approach for decoding motor imagery EEG in subject-specific tasks

The advancements in Brain-Computer Interface (BCI) have substantially evolved people's lives by enabling direct communication between the human brain and external peripheral devices. In recent years, the integration of machine larning (ML) and deep learning (DL) models have considerably imrpoved the performances of BCIs for decoding the motor imagery (MI) tasks. However, there still exist several limitations, e.g., extensive training time and high sensitivity to noises or outliers with those existing models, which largely hinder the rapid developments of BCIs. To address such issues, this paper proposes a novel extreme learning machine (ELM) based self-attention (E-SAT) mechanism to enhance subject-specific classification performances. Specifically, for E-SAT, ELM is employed both to imrpove self-attention module generalization ability for feature extraction and to optimize the model's parameter initialization process. Meanwhile, the extracted features are also classified using ELM, and the end-to-end ELM based setup is used to evaluate E-SAT performances on different MI EEG signals. Extensive experiments with different datasets, such as BCI Competition III Dataset IV-a, IV-b and BCI Competition IV Datasets 1,2a,2b,3, are conducted to verify the effectiveness of proposed E-SAT strategy. Results show that E-SAT outperforms several state-of-the-art (SOTA) existing methods in subject-specific classification on all the datasets, with an average classification accuracy of 99.8%,99.1%,98.9%,75.8%, 90.8%, and 95.4%, being achieved for each datasets, respectively. The experimental results not only show outstanding performance of E-SAT in feature extractions, but also demonstrate that it helps achieves the best results among nine other robust ones. In addition, results in this study also demonstrate that E-SAT achieves exceptional performance in both binary and multi-class classification tasks, as well as for noisy and non-noisy datatsets.&#xD.

Outcomes in peripheral right ventricular device support: Comparing the dual lumen, single canula and femoral vein cannulation strategies for right ventricular support.

The Protek Duo (PtD) dual lumen, single cannula was developed as a percutaneous system for temporary mechanical support, inserted through the internal jugular vein (IJ) for both atrial inflow and pulmonary artery outflow. Outcomes of PtD compared to alternative Peripheral Right Ventricular Assist Device (pRVAD) methods are limited. A retrospective analysis was conducted of pRVAD recipients from January 2017 - February 2022 (n = 111). These were classified into PtD (n = 52) patients and Non-Protek [(N-PtD) (n = 59)] recipients undergoing cannulation of the IJ and femoral vein. Results were further stratified by indication for pRVAD support: cardiogenic etiologies of heart failure and progressive ARDS. No survival benefit was detected between PtD and N-PtD groups at 1-week (OR: 1.32, 95% CI: 0.49-3.56, p = 0.58) or 6-month (OR: 9.83, 95% CI: 0.37-1.84, p = 0.64) follow-up. There were no statistically significant differences in whether patients' mobility progressed to out-of-bed activity (p = 0.26) or ambulation (p = 0.38). No differences were noted in time to out-of-bed (p = 0.26) or time to ambulation (p = 0.36). On subgroup analysis of patients by indication for pRVAD cannulation, these results persisted; no difference was noted in mid-term mortality (Cardiogenic: p = 0.39; ARDS: p = 0.91), progression to out-of-bed (p = 0.59; p = 1.00), or ambulation (p = 0.51; p-0.68). Among secondary outcomes, PtD patients had an increased dialysis requirement (p = 0.02). There were no differences in ability to wean from RVAD (p = 0.06), tracheostomy (p = 0.88), major bleeding events (p = 0.57), stroke (p = 0.58), or hospital length of stay (p = 0.39). Outcomes with PtD are comparable to those of traditional pRVAD cannulation strategies. Of note, no mobility benefit was observed to the use of PtD across several metrics.

Optimizing radiology remote reading: leveraging technology to improve efficiency.

Remote work has been increasingly utilized in the profession of radiology over recent years. Setting up your individual workstation offers an opportunity to tailor it to suit your preferences without the restriction of a universal setup to accommodate multiple users. Important considerations when setting up a home workstation include selecting the optimal work location, choosing the proper desk and chair, and configuring an ideal computer monitor layout. The use of peripheral devices, such as programmable mice and hands-free dictation tools can improve efficiency and reduce repetitive strain injuries. This article also explores the use of smart home devices and programmable scripts using AutoHotKey to further streamline workflow and maximize the benefits of a remote workstation.

Successful treatment of chronic venous in-stent restenosis using a Phoenix atherectomy device.

Although endovascular treatment of venous obstruction with percutaneous transluminal angioplasty (PTA) and stenting is a safe and effective alternative to conservative treatment, the overall prevalence of in-stent restenosis (ISR) remains high in this patient population. This study reports a novel treatment option for patients with chronic ISR (C-ISR). At our center, all patients with ISR were treated based on the time since the initial intervention. Acute in-stent restenosis (A-ISR) was preferably treated with catheter-directed thrombolysis or a pharmacomechanical peripheral thrombectomy device and PTA. Selected patients with chronic ISR (C-ISR) (greater than 30 days) were treated with a catheter- guided unidirectional atherectomy in addition to PTA, under the assumption of a non-thrombotic mechanism in the development of C-ISR. We demonstrate a safe and practical treatment option for chronic ISR using a catheter- guided technical approach with the Phoenix atherectomy device in four patients. Technical success was achieved in every case, and mid-term patency was restored in three out of four patients. Restenosis following venous stenting is highly complex. Patients must be treated individually, with a focus on anticoagulation and antiplatelet therapy regimens, as well as the appropriate interventional treatment. Catheter- guided atherectomy is a viable option for this heterogeneous group of patients. Further studies are required to understand the etiology of chronic ISR.

LS-based multipath channel measurement method using software defined radio platform

Multipath channel measurement is the foundation of multipath channel modeling and analysis. Recently, the software defined radio (SDR) has provided new ideas for the design of multipath channel measurement systems due to universality and reconfigurability. Therefore, this paper introduces a multipath channel measurement method applicable to various SDR platforms. At first, to enhance the resolution of multipath measurements, a signal processing approach combining the least squares (LS) estimation algorithm within the SDR framework is proposed. Furthermore, to mitigate LS estimation errors stemming from high correlation among baseband signals, a scrambled measurement signal is introduced and its effectiveness is demonstrated through eigenvalue decomposition. Next, the systematic errors of In-phase and Quadrature(IQ) imbalance and bandwidth limitation are further analyzed and addressed within the SDR framework. Finally, the proposed measurement method is implemented based on a practical universal software radio peripheral (USRP) device and validated under simulated and real channels. The proposed measurement method mainly focuses on the baseband signal processing within the software component of SDR, making it applicable to most general USRP devices. The experiment results demonstrate that multipath channel measurement results with high accuracy can be obtained.

Implementation of a midline catheter service in a regional setting

Abstract Introduction: Midline catheters have been reported to be an effective and safe means of providing patients with intravenous access within the hospital and community setting. With minimal experience in the introduction of a midline service across the local health network, a regional hospital pursued this task. This observational study assesses the provision of a safe clinical framework for midline insertion, and the improvement of patient care and experiences by avoiding treatment interruptions and unnecessary cannulation attempts from failed traditional peripheral vascular access devices. Methods: From the introduction of the midline service in June 2018, outcome measures of all patients who received a midline over the following two-year period were documented including rate of line success, complication rates, dwell time, and the number of insertion attempts. Results: The midline service provided 207 lines over a two-year period with a total dwell time of 1,585 days. Project goals were achieved with 85% (Aim ≥ 85%) of all lines completing treatment prior to removal. First attempt insertion was 86% (Aim ≥ 80%) with a maximum insertion attempt of two. Rates of line-related complications were less than 8%, with five documented cases of phlebitis (2.5%) and one deep vein thrombosis with no infections documented. Conclusion: Despite limited resources, a successful midline service was introduced. Future expansion will see an increase in insertor numbers providing improved access to the service.

Assessment of Nurses’ Performance Regarding Factors Contributing to Complication of Peripheral Vascular Access Device in Neonatal Intensive Care Unit

Assessment of Nurses’ Performance Regarding Factors Contributing to Complication of Peripheral Vascular Access Device in Neonatal Intensive Care Unit

Optimizing Infusate Flow Patterns for Minimizing Vein Wall Trauma: An Exploratory Study with a Modified off-Axis Catheter Tip Opening.

Modifying the PIVC tip to direct infusates toward areas of highest hemodilution may reduce vein wall damage. This study compared flow patterns between a traditional PIVC with a central opening and one with an off-axis aperture. This was an exploratory observational analysis conducted at a tertiary care emergency department (ED) comparing flow patterns of two intravenous catheters: PIVC 1 (2.95 cm 20 gauge [Autoguard, Becton Dickinson]) and PIVC 2 (3.68 cm 20 gauge [Osprey, SkyDance Vascular]). Adult ED patients with PIVCs placed via traditional palpation/visualization method and with ultrasound capturing the flushing were eligible participants. Ultrasounds were reviewed to determine vein, catheter, and flow characteristics. The primary outcome was angle of the infusate leaving the catheter. Secondary outcomes included direction of catheter tip against vein wall, distance away from vein wall, vasospasm, and laminar/turbulent flow. Data from December 2023 included 28 catheters (10 PIVC 1, 18 PIVC 2). The average patient age was 53.7 years; 53.6% were female. Vein diameter/depth were similar: 0.35 cm/0.41 cm for PIVC 1 and 0.37 cm/0.47 cm for PIVC 2. The catheter tip pointed posteriorly towards the vein wall in 60% of PIVC 1 vs 11.1% in PIVC 2 (P=0.018). The angle of infusate flow away from the vein wall was 0.20° (SD 0.63) for PIVC 1 and 7.61° (SD 5.71) for PIVC 2 (P<0.001). Flow at 0° occurred in 90% of PIVC 1 vs 16.7% in PIVC 2 (P<0.001). In this exploratory investigation, a peripheral vascular access device with an off-axis tip aperture of demonstrated a sharper infusate flow angle away from the vein wall compared to a traditional central opening device. This redirection may reduce vein wall trauma and complications, though further research is needed to pair clinical outcomes with this technology.

HyperWallet: cryptocurrency wallet as a secure hypervisor-based application

We present VirtSecIO, a hypervisor-based platform for executing secure modules. VirtSecIO provides the modules with secure paths to peripheral devices, which can be shared between the modules and the operating system. Moreover, VirtSecIO is a thin hypervisor with a negligible performance overhead and a minimal attack surface. We demonstrate VirtSecIO’s abilities by developing HyperWallet, a secure module that acts as a hardware crypto-wallet, without requiring any dedicated hardware.

Developing a custom communication protocol for UAVs: Ground control station and architecture design

Robots have become a prominent research topic across various application domains in recent decades. Additionally, unmanned aerial vehicles (UAVs) are extensively used in both the military and commercial sectors, substantially reducing transaction costs and enhancing safety. Researchers have addressed secure control and communication protocols between software, firmware, and hardware components. This study focuses on the design of three critical elements: the hardware architecture, the software ground control station (GCS), and the firmware tasks within the UAV embedded system. These components are interconnected via an enhanced MAVLink protocol (EMP). Furthermore, various sensors are integrated into the UAV's peripheral devices. We discuss flight control (FC) approaches, such as proportional-integral-derivative (PID) control and the Kalman filter (KF), detailing the process of the hovering algorithm. Additionally, we explain how access is messaged and how message commands are implemented at the protocol layer. We propose a large-scale UAV system architecture suitable for commercial and military applications, supported by a real-life scenario. Experimental results demonstrate the effectiveness and efficiency of the UAV in outdoor activities. Our findings confirm that the proposed UAV architecture is a robust and efficient system in practical applications.

Pilot Assessment of Piezoelectric Transducers as a Cost-Effective Alternative to EndoPAT

Introduction: Current microvascular assessments may not be practical or accessible requiring experienced personnel and/or ongoing equipment costs. Piezoelectric transducers can reliably obtain finger blood pressure waves, similar to peripheral arterial tonometry devices; thus, they could be used to estimate microvascular function. We aimed to validate piezoelectric transducers as an alternative measure of microvascular function compared to EndoPAT. Methods: Twenty-five adults (aged 20–64 years) completed reactive hyperemia (5 min forearm circulatory occlusion and 3 min recovery) with piezoelectric transducers on the middle fingers and EndoPAT probes on the index fingers. Average area under the curve (AUC) of the pulse wave signal for the occluded and control arms was determined at baseline, every 30 s post-occlusion, and 10 s around the peak response. Microvascular function index (MFI) was calculated as the ratio of AUC post-occlusion to AUC baseline in the test arm, then normalized to the same ratio in the control arm. MFI at each time point was correlated with the reactive hyperemia index (RHI) from the EndoPAT. Results: The greatest significance was found between RHI and MFI at 10 s around the peak response (Spearman’s r = 0.67, p = 0.0002; Pearson’s r = 0.76, p = 0.00001). Conclusion: MFI is a reusable and user-friendly microvascular function assessment that could provide better access to vascular health screening.

Intravascular Ultrasound during Endovascular Intervention for Peripheral Artery Disease, by Severity, Location, Device, and Procedure

There is limited evidence for the role of Intravascular Ultrasound (IVUS) in patients undergoing peripheral vascular intervention (PVI). We conducted retrospective cohort study utilizing the HCUP-AHRQ National Readmission database(NRD) to delineate outcomes in IVUS guided PVI versus non-IVUS guided PVI. The current study utilized NRD between January 1, 2016, and December 31, 2019. We identified patients undergoing endovascular intervention for peripheral artery disease using relevant ICD-10-PCS. The cohort was divided based on the use of IVUS during the procedure. The primary outcome was major amputation at 6 months after index hospitalization. Measured confounders were matched using propensity score inverse probability of treatment weighing method. We further performed a subgroup analysis based on disease severity, location of intervention, device, and procedure.A total of 434901 hospitalizations were included in the present analysis. PVI with IVUS compared with no IVUS had similar risk of amputation at 6 months (195 of 8939[2.17%] versus 10404 of 384003 [2.71%]);Hazard Ratio,0.98;CI, 0.77–1.25. Further, there was no difference in the rates of secondary outcomes. On subgroup analysis, amputation rates were significantly lower among patients with rest pain, in iliac intervention, or patients undergoing drug eluting stent implantation with the use of IVUS compared with no IVUS. This nationwide observational study showed that there was no difference in major amputation rates with the use of IVUS in patients undergoing PVI. However, in subgroup of patients with rest pain, iliac intervention or drug-eluting stent implantation IVUS use was associated with significantly lower major amputation rates.

The Amalgamation of Federated Learning and Explainable Artificial Intelligence for the Internet of Medical Things: A Review

Abstract: The Internet of Medical Things (IoMT) has emerged as a paradigm shift in healthcare, integrating the Internet of Things (IoT) with medical devices, sensors, and healthcare systems. From peripheral devices that monitor vital signs to remote patient monitoring systems and smart hospitals, IoMT provides a vast array of applications that empower healthcare professionals. However, the integration of IoMT presents numerous obstacles, such as data security, privacy concerns, interoperability, scalability, and ethical considerations. For the successful integration and deployment of IoMT, addressing these obstacles is essential. Federated Learning (FL) permits collaborative model training while maintaining data privacy in distributed environments like IoMT. By incorporating Explainable Artificial Intelligence (XAI) techniques, the resulting models become more interpretable and transparent, enabling healthcare professionals to comprehend the underlying decision-making processes. This integration not only improves the credibility of Artificial Intelligence models but also facilitates the detection of biases, errors, and peculiar patterns in the data. The combination of FL and XAI contributes to the development of more privacy-preserving, trustworthy, and explainable AI systems, which are essential for the development of dependable and ethically sound IoMT applications. Hence, the aim of this paper is to conduct a literature review on the amalgamation of FL and XAI for IoMT.

Consumer experience and outcomes of insertion, removal, and management practices of short and midline peripheral intravenous catheters in acute health care: a mixed methods systematic review protocol.

This review will synthesize and integrate current research on the practices relating to the insertion, removal, and management of short and midline peripheral intravenous catheters on consumer experiences and outcomes in acute health care. The aim is to provide consolidated evidence to support policy decision-makers and health care workers in overcoming peripheral intravenous catheter device management challenges. Implementing the evidence provided by this review could increase positive consumer outcomes and reduce the gap between research evidence and clinical practice. Peripheral intravenous catheterization is a process in which a device is inserted into a patient's peripheral vein to administer medication, blood products, and therapeutic fluids. Recent studies have demonstrated the positive and negative impacts of peripheral intravenous catheter site placement, pain relief for insertion, complications, consumer engagement, and routine versus clinically indicated removal of these devices on consumers and the health care system. Managing these impacts in relation to research-practice gaps and conflicting evidence remains challenging. Moreover, consumer experiences and outcomes concerning these challenges are unclear. This review will consider quantitative, qualitative, and mixed methods studies on consumer experiences and outcomes in acute health care. The quantitative component will consider outcomes of patients' pain, satisfaction, anxiety, distress, preferences, fear, and comfort. The qualitative component will consider consumer experiences, including perceptions, preferences, perspectives, attitudes, expectations, and satisfaction. This study will follow JBI's convergent segregated approach for mixed method systematic reviews. A search of 11 databases will be conducted for peer-reviewed published articles, theses, and dissertations. There will be no age, date, or language limitations. PROSPERO CRD42023410214.

Advanced Levelized Cost Evaluation Method for Electric Vehicle Stations Concurrently Producing Electricity and Hydrogen

This study develops a new method to evaluate the economic viability of co-generation electric vehicle stations that concurrently generate electricity and hydrogen for charging battery electric vehicles and refueling hydrogen vehicles. The approach uniquely differentiates the costs associated with various energy outputs in co-generation stations and includes often-overlooked peripheral devices critical for accurate evaluation of the levelized cost of electricity (LCOE) and hydrogen (LCOH). The method was tested across three design configurations: two featuring single storage options (battery and fuel cell, respectively) and a third using hybrid storage employing both. Each configuration was modeled, simulated, and optimized using HOMER Pro 3.14.2 to determine the most optimal sizing solution. Then, based on the optimal sizing of each design, LCOE and LCOH were evaluated using the proposed method in this study. The analysis revealed that excluding often-overlooked peripheral devices could lead to a 27.7% error in LCOH evaluation, while the impact on LCOE was less than 1%. Among different configurations, the design with hybrid storage proved economically superior, achieving a total levelized cost of energy (TLCOE) for the entire system of USD 0.113/kWh, with the LCOE at USD 0.025/kWh and LCOH at USD 0.088/kWh (or USD 3.46/kg). Comparative analysis with state-of-the-art studies confirmed the accuracy of the proposed method. This study provides a more precise and holistic approach that can be leveraged for the feasibility analysis of electric vehicle stations globally, enhancing strategic decision-making in sustainable energy planning.

The Air Quality Smart Monitoring and Management System

In this project, the problem that I attempt to solve is the lack of knowledge and action surrounding poor air quality. Inspired by a trip to India, I took action and built a prototype device that gave auditory and visual indications of the air quality and turned an air ionizer as necessary. During project development, I interfaced a microcontroller with multiple peripheral devices, and I studied associated documentation as necessary. Using this knowledge, I wired each component to a digital or analog pin, and a ground power connection. Some components also required a 5 voltage connection. I then programmed my microcontroller to read the temperature, humidity, and pollutant ppm values from the associated sensors. During project development, I tested my device in five environments: my room, my backyard, an open garage with a car running, the air after a car runs, and a car running in a closed garage. I used this data to determine what pollutant ppm values constitute good, poor, and bad air quality. Using this information, I programmed the microcontroller to use LEDs and a buzzer to notify users of the current air quality conditions. Finally, I later incorporated an ionizer into the project, and programmed the system to switch it on when the air quality is bad. Through further testing, I determined that each component did its job, allowing me to validate. Thus, this device could make a difference for people in industrial countries facing respiratory diseases and can be applied to various fields of science.