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PubMed Journals Articles About "Precision Kiosk Technologies" RSS

14:52 EDT 20th September 2018 | BioPortfolio

Precision Kiosk Technologies PubMed articles on BioPortfolio. Our PubMed references draw on over 21 million records from the medical literature. Here you can see the latest Precision Kiosk Technologies articles that have been published worldwide.

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We have published hundreds of Precision Kiosk Technologies news stories on BioPortfolio along with dozens of Precision Kiosk Technologies Clinical Trials and PubMed Articles about Precision Kiosk Technologies for you to read. In addition to the medical data, news and clinical trials, BioPortfolio also has a large collection of Precision Kiosk Technologies Companies in our database. You can also find out about relevant Precision Kiosk Technologies Drugs and Medications on this site too.

Showing "Precision Kiosk Technologies" PubMed Articles 1–25 of 3,300+

Dairy farmers with larger herd sizes adopt more precision dairy technologies.

An increase in the average herd size on Australian dairy farms has also increased the labor and animal management pressure on farmers, thus potentially encouraging the adoption of precision technologies for enhanced management control. A survey was undertaken in 2015 in Australia to identify the relationship between herd size, current precision technology adoption, and perception of the future of precision technologies. Additionally, differences between farmers and service providers in relation to perceptio...


New intraoperative imaging technologies: Innovating the surgeon's eye toward surgical precision.

Imaging is one of the pillars for the ongoing evolution of surgical oncology toward a precision paradigm. In the present overview, some established or emerging intraoperative imaging technologies are described in light of the vision and experience of our group in image-guided surgery, focusing on digestive surgical oncology.

Precision Surgery for Obesity.

Precision medicine is targeted towards improving the effectiveness of treatment, reducing the side effects of drugs and reducing medical costs. The application of precision surgery for obesity is a new concept that involves 2 stages: the first stage is to attain a precise obesity surgery, and the second stage is to achieve individualized obese gene therapy. In this article, we discuss the value of precision surgery for obesity, its stages and its future application to improve obesity surgery. Due to recent ...


Taking an HPV vaccine research-tested intervention to scale in a clinical setting.

Research tested interventions are seldom ready for wide spread use. Successful intervention adaptation to clinical settings demands an iterative process with target audience feedback. We describe the adaptation process of implementing an NCI research tested HPV vaccine intervention, Women's Stories, to a community clinic context (Planned Parenthood). Five phases are described for the adaptation of content and the development of a health kiosk intervention delivery system: (a) informant interviews with the t...

Molecular Profiling of Liquid Biopsy Samples for Precision Medicine.

In the context of oncology, liquid biopsies consist of harvesting cancer biomarkers, such as circulating tumor cells, tumor-derived cell-free DNA, and extracellular vesicles, from bodily fluids. These biomarkers provide a source of clinically actionable molecular information that can enable precision medicine. Herein, we review technologies for the molecular profiling of liquid biopsy markers with special emphasis on the analysis of low abundant markers from mixed populations.

Distinguishing the precision of spatial recollection from its success: Evidence from healthy aging and unilateral mesial temporal lobe resection.

Successful episodic recollection can vary in the precision of the information recalled. The hypothesis that recollection precision requires functional neuroanatomical contributions distinct from those required for recollection success remains controversial. Some findings in individuals with hippocampal lesions have indicated that precision is dependent on the hippocampus. However, other neuroimaging and lesion studies have implicated regions outside of the mesial temporal lobe (MTL) in precision, such as pa...

Double precision is not needed for many-body calculations: Emergent conventional wisdom.

Using single-precision floating-point representation reduces the size of data and computation time by a factor of two relative to double precision conventionally used in electronic structure programs. For large-scale calculations, such as those encountered in many-body theories, reduced memory footprint alleviates memory and input/output bottlenecks. Reduced size of data can lead to additional gains due to improved parallel performance on CPUs and various accelerators. However, using single precision can po...

Adoption of Stroke Rehabilitation Technologies by the User Community: Qualitative Study.

Using technology in stroke rehabilitation is attractive. Devices such as robots or smartphones can help deliver evidence-based levels of practice intensity and automated feedback without additional labor costs. Currently, however, few technologies have been adopted into everyday rehabilitation.

Doubling Sensitivity in Multicollector ICPMS Using High-Efficiency, Rapid Response Laser Ablation Technology.

The introduction of rapid response laser ablation cells and sample transport technologies to laser ablation inductively coupled plasma mass spectrometry (LA-ICPMS) has enabled signal pulse durations for a single laser ablation shot of less than 10 ms. These developments have resulted in marked improvements in analytical throughput, resolution, and sensitivity vital for the generation of large, highly spatially resolved elemental maps. The focus on mapping, particularly bioimaging, has obscured the possibili...

Precision fringe period metrology using an LSQ sine fit algorithm.

High-precision grating fabrication is a precondition of grating-based displacement measurement techniques. Likewise, the value of high-precision fringe period is an essential parameter in the grating fabrication process, especially in scanning beam interference lithography. In this paper, a procedure for measuring the fringe periods of interference beams is introduced. The procedure includes signal acquisition and signal processing. The precisions of both the configuration for acquisition and the algorithm ...

What do we know about technologies for dementia-related wandering? A scoping review: Examen de la portée : Que savons-nous à propos des technologies de gestion de l'errance liée à la démence?

Occupational therapists use technologies to manage wandering-related risks to promote safety and independence among individuals with dementia living in the community.

Circulating Tumor Cells: Strategies for Capture, Analyses, and Propagation.

Circulating tumor cells (CTCs) play a central role in tumor dissemination and metastases, which are ultimately responsible for most cancer deaths. Technologies that allow for identification and enumeration of rare CTC from cancer patients' blood have already established CTC as an important clinical biomarker for cancer diagnosis and prognosis. Indeed, current efforts to robustly characterize CTC as well as the associated cells of the tumor microenvironment such as circulating cancer associated fibroblasts (...

Pharmacogenetics of Clopidogrel Therapy and Neurointerventional Procedures: We Need Precision Data for Precision Medicine.

Genetics has given a real boost to personalized and precision medicine, providing data used either for precise diagnostics, prediction of the course of illness, or for selecting therapy and tailoring it. Pharmacogenetics, as a discipline researching connection between genetic background of an individual and the effect of a certain drug, has created new possibilities in medicine. One of the most researched drugs in pharmacogenetics is certainly clopidogrel.

Toward Precision Medicine in Brain Metastases.

Brain metastases (BMs) reflect an area of high clinical need, as up to 40% of patients with metastatic cancer will develop this morbid and highly fatal complication. Historically, treatment strategies have relied on local approaches including radiosurgery, whole-brain radiotherapy, and neurosurgical resection. Recently, targeted and immune-modulating therapies have shown promising responses and have been introduced in the clinical management of patients with BMs. Recent improvements in genomic technologies ...

Revolutionizing Precision Oncology through Collaborative Proteogenomics and Data Sharing.

The integration of proteomics into precision oncology presents opportunities that may transform the molecular analysis of cancer and accelerate basic and clinical cancer research. This Commentary discusses the importance of international collaboration and data sharing inspired by the Cancer Moonshot to accelerate the progress of multi-omic precision medicine-an approach that addresses the global diversity of people and of cancers.

'Omic' technologies as a helpful tool in radioecological research.

This article presents a brief review of the modern 'omic' technologies, namely genomics, epigenomics, transcriptomics, proteomics, and metabolomics, as well as the examples of their possible use in radioecology. For each technology, a short description of advances, limitations, and instrumental applications is given. In addition, the review contains examples of successful use of 'omic' technologies in the assessment of biological effects of pollutants in the field conditions.

Quantifying the Precision of Single-Molecule Torque and Twist Measurements Using Allan Variance.

Single-molecule manipulation techniques have provided unprecedented insights into the structure, function, interactions, and mechanical properties of biological macromolecules. Recently, the single-molecule toolbox has been expanded by techniques that enable measurements of rotation and torque, such as the optical torque wrench (OTW) and several different implementations of magnetic (torque) tweezers. Although systematic analyses of the position and force precision of single-molecule techniques have attract...

Structure-based immunogen design-leading the way to the new age of precision vaccines.

Vaccines have been one of the most successful interventions in global health. However, traditional vaccine development has proven insufficient to deal with pathogens that elude the immune system through highly variable and non-functional epitopes. Emerging B cell technologies have yielded potent monoclonal antibodies targeting conserved epitopes, and their structural characterization has provided templates for rational immunogen design. Here, we review immunogen design strategies that leverage structural in...

A Precision Medicine Model for Targeted NSAID Therapy in Alzheimer's Disease.

To date, the therapeutic paradigm for Alzheimer's disease (AD) focuses on a single intervention for all patients. However, a large literature in oncology supports the therapeutic benefits of a precision medicine approach to therapy. Here we test a precision-medicine approach to AD therapy.

The Distance Precision Matrix: computing networks from non-linear relationships.

Full-order partial correlation, a fundamental approach for network reconstruction, e.g. in the context of gene regulation, relies on the precision matrix (the inverse of the covariance matrix) as an indicator of which variables are directly associated. The precision matrix assumes Gaussian linear data and its entries are zero for pairs of variables that are independent given all other variables. However, there is still very little theory on network reconstruction under the assumption of non-linear interacti...

The state of knowledge on technologies and their use for fall detection: A scoping review.

Globally, populations are aging with increasing life spans. The normal aging process and the resulting disabilities increase fall risks. Falls are an important cause of injury, loss of independence and institutionalization. Technologies have been developed to detect falls and reduce their consequences but their use and impact on quality of life remain debatable. Reviews on fall detection technologies exist but are not extensive. A comprehensive literature review on the state of knowledge of fall detection t...

Imaging Optical Frequencies with 100  μHz Precision and 1.1  μm Resolution.

We implement imaging spectroscopy of the optical clock transition of lattice-trapped degenerate fermionic Sr in the Mott-insulating regime, combining micron spatial resolution with submillihertz spectral precision. We use these tools to demonstrate atomic coherence for up to 15 s on the clock transition and reach a record frequency precision of 2.5×10^{-19}. We perform the most rapid evaluation of trapping light shifts and record a 150 mHz linewidth, the narrowest Rabi line shape observed on a coherent o...

What are we to make of the charge that human biological enhancement technologies are 'unnatural'?

In popular lay discourse, objections to human biological enhancement technologies are sometimes expressed in terms of the charge that they are unnatural. This paper critiques the literal claim that seems to be presented here, namely that such technologies are in some ordinary sense 'unnatural' and that it follows from this they are immoral. Such a conceptual 'nature argument' is unsound. However, the paper contends that this does not mean that the charge of unnaturalness should be dismissed out of hand. Rat...

Development of a LC-MS method for simultaneous determination of amoxicillin and metronidazole in human serum using hydrophilic interaction chromatography (HILIC).

A method was developed for the determination of amoxicillin and metronidazole in human serum. The procedure used was hydrophilic interaction chromatography (HILIC) followed by mass spectrometric (MS) detection. Chromatographic separation was achieved on a ZIC-HILIC column and the mobile phase consisted of a mixture of 0.1% (v/v) formic acid in water and 0.1% (v/v) formic acid in acetonitrile. The method was validated with regard to selectivity, accuracy, precision, calibration, lower limit of quantification...

Massively parallel sequencing of 124 SNPs included in the precision ID identity panel in three East Asian minority ethnicities.

Massively parallel sequencing (MPS) technologies can sequence many targeted regions of multiple samples simultaneously and are gaining great interest in the forensic community. The Precision ID Identity Panel contains 90 autosomal SNPs and 34 upper Y-Clade SNPs, which was designed with small amplicons and optimized for forensic degraded or challenging samples. Here, 184 unrelated individuals from three East Asian minority ethnicities (Tibetan, Uygur and Hui) were analyzed using the Precision ID Identity Pan...


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