Information management in context of scientific disciplines

What is “information management”? How is it used in the context of research papers across a wide variety of industries and scientific disciplines? How do the definitions vary, and can an improved definition be created? Ladislav Buřita of the University of Defense in Brno attempts to answer those questions and more in this 2018 paper published in the Journal of Systems Integration.

A systematic framework for data management and integration in a continuous pharmaceutical manufacturing processing line

Cao et al. describe their design
and methodology used in constructing a system of tighter data integration for pharmaceutical research and manufacturing in this 2018 paper published in Process. Recognizing the “integration of data in a consistent, organized, and reliable manner is a big challenge for the pharmaceutical industry,” the authors developed an ontological information structure relying on the ANSI/ISA-88 batch control standard, process control systems, a content management systems, a purpose-built electronic laboratory notebook, and cloud services, among other aspects. The authors conclude, after describing two use cases, that “data from different process levels and distributed locations can be integrated and contextualized with meaningful information” with the help of their information structure, allowing “industrial practitioners to better monitor and control the process, identify risk, and mitigate process failures.”

Unmet needs for analyzing biological big data: A survey of 704 NSF principal investigators

In this brief education article published in PLOS Computational Biology, Barone et al. present the results of a survey of funded National Science Foundation (NSF) Biological Sciences Directorate principal investigators and how/if their computational needs were being met. Citing several other past surveys and reports, the authors describe the state of cyberinfrastructure needs as they understood them before their survey. Then they present their results. “Training on integration of multiple data types (89%), on data management and metadata (78%), and on scaling analysis to cloud/HPC (71%) were the three greatest unmet needs,” they conclude, also noting that while hardware isn’t a bottleneck, a “growing gap between the accumulation of big data and researchers’ knowledge about how to use it effectively” is concerning.

Big data as a driver for clinical decision support systems: A learning health systems perspective

What happens when you combine clinical big data tools and data with clinical decision support systems (CDSS)? In this 2018 journal article published in Frontiers in Digital Humanities, Dagliati et al. report two such effective implementations affecting diabetes and arrhythmogenic disease research. Through the lens of the “learning healthcare system cycle,” the authors walk through the benefits of big data tools to clinical decision support and then provide their examples of live use. They conclude that through the use of big data and CDDS, “when information is properly organized and displayed, it may highlight clinical patterns not previously considered … [which] generates new reasoning cycles where explanatory assumptions can be formed and evaluated.”

Implementation and use of cloud-based electronic lab notebook in a bioprocess engineering teaching laboratory

In this 2017 paper published in the Journal of Biological Engineering, Riley et al. of Northwestern University describe their experience with implementing the LabArchives cloud-based electronic laboratory notebook (ELN) in their bioprocess engineering laboratory course. The ultimate goal was to train students to use the ELN during the course, meanwhile promoting proper electronic record keeping practices, including good documentation practices and data integrity practices. They concluded that not only was the ELN training successful and useful but also that through the use of the ELN and its audit trail features, “a true historical record of the lab course” could be maintained so as to improve future attempts to integrate the ELN into laboratory training.

An open experimental database for exploring inorganic materials

When it comes to experimental materials science, there simply aren’t enough “large and diverse datasets” made publicly available say National Renewable Energy Laboratory’s Zakutayev et al. Noting this lack, the researchers built their own High Throughput Experimental Materials (HTEM) database containing 140,000 sample entries and underpinned by a custom laboratory information management system (LIMS). In this 2018 paper, the researchers discuss HTEM, the LIMS, and the how the contained sample data was derived and analyzed. They conclude that HTEM and other databases like them are “expected to play a role in emerging materials virtual laboratories or ‘collaboratories’ and empower the reuse of the high-throughput experimental materials data by researchers that did not generate it.”

Broad-scale genetic diversity of Cannabis for forensic applications

Cannabis … is an iconic yet controversial crop,” begin Dufresnes et al. in this 2017 paper published in PLOS ONE. They reveal that in actuality, due to regulations and limitations on supply, we haven’t performed the same level of genetic testing on the crop in the same way we have others. Turning to next-generation sequencing (NGS) and genotyping, we can empower the field of Cannabis forensics and other research tracks to make new discoveries. The researchers discuss their genetic database and how it was derived, ultimately concluding that databases like theirs and the “joint efforts between Cannabis genetics experts worldwide would allow unprecedented opportunities to extend forensic advances and promote the development of the industrial and therapeutic potential of this emblematic species. “

Arkheia: Data management and communication for open computational neuroscience

In this 2018 paper published in Frontiers in Neuroinformatics, Antolik and Davison present Arkheia, “a web-based open science platform for computational models in systems neuroscience.” The duo first describes the reasoning for creating the platform, as well as the similar systems and deficiencies. They then describe the platform architecture and its deployment, pointing out its benefits along the way. They conclude that as a whole, “Arkheia provides users with an automatic means to communicate information about not only their models but also individual simulation results and the entire experimental context in an approachable, graphical manner, thus facilitating the user’s ability to collaborate in the field and outreach to a wider audience.”

Developing a bioinformatics program and supporting infrastructure in a biomedical library

This brief case study by the National Institutes of Health’s (NIH) Nathan Hosburgh takes an inside look at how the NIH took on the responsibility of bioinformatics training after the National Center for Biotechnology Information (NCBI) had to scale back its training efforts. Hosburgh provides a little background on bioinformatics and its inherent challenges. Then he delves into how the NIH—with significant help from Dr. Medha Bhagwat and Dr. Lynn Young—approached the daunting task of filling the education gap on bioinformatics, with the hope of providing “a dynamic and valuable suite of bioinformatics services to NIH and the larger medical research community well into the future.”

Big data and public health systems: Issues and opportunities

This 2018 article published in International Journal of Interactive Multimedia and Artificial Intelligence sees Rosas and Carnicero provide their professional take—from their experience with the Spanish and other European public health system—on the benefits and challenges of implementing big data management solutions in the world of health care. After citing numbers on public and private health expenditures in relation to population, as well as reviewing literature on the subject of bid data in healthcare, the authors provide insight into some of the data systems, how they’re used, and what challenges their implementation pose. They conclude that “the implementation of big data must be one of the main instruments for change in the current health system model, changing it into one with improved effectiveness and efficiency, taking into account both healthcare and economic outcomes of health services.”

Generating big data sets from knowledge-based decision support systems to pursue value-based healthcare

With the push for evidence-based medicine and advances in health information management over the past 30 years, the process of clinical decision making has changed significantly. However, new challenges have emerged regarding how to put the disparate data found in information management technologies such as electronic health records and clinical research databases to better use while at the same time honoring regulations and industry standards. González-Ferrer et al. discuss these problems and how they’ve put solutions in place in this 2018 paper in the International Journal of Interactive Multimedia and Artificial Intelligence. They conclude that despite the benefits of clinical decision support systems and other electronic data systems, “the development and maintenance of repositories of dissociated and normalized relevant clinical data from the daily clinical practice, the contributions of the patients themselves, and the fusion with open-access data of the social environment” will all still be required to optimize their benefits.

Characterizing and managing missing structured data in electronic health records: Data analysis

The electronic health record (EHR) was originally built with improved patient outcomes and data portability in mind, not necessarily as a resource for clinical researchers. Beaulieu-Jones et al. point out that as a result, researchers examining EHR data often forget to take into account how missing data in the EHR records can lead to biased results. This “missingness” as they call it poses a challenge that must be corrected for. In this 2018 paper, the researchers describe a variety of correctional techniques applied to data from the Geisinger Health System’s EHR, offering recommendations based on data types. They conclude that while techniques such as multiple imputation can provide “confidence intervals for the results of downstream analyses,” care must be taken to assess uncertainty in any correctional technique.

Closha: Bioinformatics workflow system for the analysis of massive sequencing data

Ko et al.of the Korean BioInformation Center discuss their Closha web service for large-scale genomic data analysis in this 2018 paper published in BMC Bioinformatics. Noting a lack of rapid, cost-effective genomics workflow capable of running all the major genomic data analysis application in one pipeline, the researchers developed a hybrid system that can combine workflows. Additionally, they developed an add-on tool that handles the sheer size of genomic files and the speed with which they transfer, reaching transfer speeds “of up to 10 times that of normal FTP and HTTP.” They conclude that “Closha allows genomic researchers without informatics or programming expertise to perform complex large-scale analysis with only a web browser.”

Big data management for cloud-enabled geological information services

In this 2018 paper published in Scientific Programming, Zhu et al. review the state of big data in the geological sciences and provide context to the challenges associated with managing that data in the cloud using China’s various databases and tools as examples. Using the term “cloud-enabled geological information services” or CEGIS, they also outline the existing and new technologies that will bring together and shape how geologic data is accessed and used in the cloud. They conclude that “[w]ith the continuous development of big data technologies in addressing those challenges related to geological big data, such as the difficulties of describing and modeling geological big data with some complex characteristics, CEGIS will move towards a more mature and more intelligent direction in the future.”

Evidence-based design and evaluation of a whole genome sequencing clinical report for the reference microbiology laboratory

Reporting isn’t as simple as casually placing key figures on a page; significant work should go into designing a report template, particularly those reporting specialized data , like that found in the world of pathogen genomics. Crisan et al. of the University of British Columbia and the BC Centre for Disease Control looked for evidence-based guidelines on creating reports for such a specialty — specifically for tuberculosis genomic testing — and couldn’t find any. So they researched and created their own. This 2018 paper details their journey towards a final report design, concluding “that the application of human-centered design methodologies allowed us to improve not only the visual aesthetics of the final report, but also its functionality, by carefully coupling stakeholder tasks, data, and constraints to techniques from information and graphic design.”

Moving ERP systems to the cloud: Data security issues

This 2017 paper by Saa et al. examines the existing research literature concerning the status of moving an enterprise resource planning (ERP) system to the cloud. Noting both the many benefits of cloud for ERP and the data security drawbacks, the researchers discover the use of hybrid cloud-based ERPs by some organizations as a way to strike a balance, enabling them to “benefit from the agility and scalability of cloud-based ERP solutions while still keeping the security advantages from on-premise solutions for their mission-critical data.”

Method-centered digital communities on for fast-paced scientific innovation

A major goal among researchers in the age of big data is to improve data sharing and collaborative efforts. Kindler et al. note, for example, that “specialized techniques for the production and analysis of viral metagenomes remains in a subset of labs,” and other researchers likely don’t know about them. As such, the authors of this 2017 paper in F1000Research discuss the enhancement of the online collaborative space to include more social elements “for scientists to share improvements and corrections to protocols so that others are not continuously re-discovering knowledge that scientists have not had the time or wear-with-all to publish.” With its many connection points, they conclude, the software update “will allow the forum to evolve naturally given rapidly developing trends and new protocols.”

Information management for enabling systems medicine

This brief paper by Ganzinger and Knaup examines the state of systems medicine, where multiple medical data streams are merged, analyzed, modeled, etc. to further how we diagnose and treat disease. They discuss the dynamic nature of disease knowledge and clinical data, as well as the problems that arise from integrating omics data into systems medicine, under the umbrella of integrating the knowledge into a usable format in tools like a clinical decision support system. They conclude that though with many benefits, “special care has to be taken to address inherent dynamics of data that are used for systems medicine; over time the number of available health records will increase and treatment approaches will change.” They add that their data management model is flexible and can be used with other data management tools.

Developing a customized approach for strengthening tuberculosis laboratory quality management systems toward accreditation

Published in early 2017, this paper by Albert et al. discusses the development process of an accreditation program — the Strengthening Tuberculosis Laboratory Management Toward Accreditation or TB SLMTA — dedicated to better implementation of quality management systems (QMS) in tuberculosis laboratories around the world. The authors discuss the development of the curriculum, accreditation tools, and roll-out across 10 countries and 37 laboratories. They conclude that the training and mentoring program is increasingly vital for tuberculosis labs, “building a foundation toward further quality improvement toward achieving accreditation … on the African continent and beyond.”

SistematX, an online web-based cheminformatics tool for data management of secondary metabolites

Dereplication is a chemical screening process of separation and purification that eliminates known and studied constituents, leaving other novel metabolites for future study. This is an important part of pharmaceutical and natural product development, requiring appropriate data management and retrieval for researchers around the world. However, Scotti et al. found a lack of secondary metabolite databases that met their needs. Noting a need for complex searches, structure management, visualizations, and taxonomic rank in one package, they developed SistematX, “a modern and innovative web interface.” They conclude the end result is a system that “provides a wealth of useful information for the scientific community about natural products, highlighting the location of species from which the compounds were isolated.”

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