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Blake pens and edits breaking news, articles and features on a broad range of scientific topics. He earned an honors degree in chemistry from the University of Surrey. Blake also holds an MSc in chemistry from the University of Southampton. His research project focused on the synthesis of novel fluorescent dyes often used as chemical/bio-sensors and as photosensitizers in photodynamic therapy.
Scientists today face heavy workloads, tight deadlines and increasingly complex workflows. Disconnected instruments and a lack of control over laboratory processes compound these challenges. Modern laboratory information management systems (LIMS) can help overcome these obstacles.
When used effectively, a LIMS can help labs actively manage and distill data, allowing researchers to deliver insights faster.
Download this infographic to:
Learn what a LIMS is and the different types of deployment available
Discover the key features of a modern LIMS
Explore how advanced technologies such as artificial intelligence are being incorporated into LIMS
Key Features of
modern LIMS to
advance data
handling
Scientists today face heavy workloads, tight deadlines and
increasingly complex workflows. Disconnected instruments and
a lack of control over laboratory processes compound these
challenges. Modern laboratory information management systems
(LIMS) can help overcome these obstacles.
What is a
LIMS?
A LIMS is a comprehensive tool for effectively tracking,
standardizing, organizing and centralizing all data and processes
within the lab. When used effectively, a LIMS can help labs
actively manage and distill data, allowing researchers to deliver
insights faster.
Different types of LIMS deployment are available, each with unique
features and capabilities:
Open-source
LIMS
Cloud-based
On-premise
Open-source
LIMS
LIMS provide
LIMS
access to the
Cloud-based
software source
The system is
solutions are
code, enabling
installed on an
hosted on
Industry-specific
anyone to freely
organization’s
remote servers,
LIMS
Web-based
use, modify
servers giving
allowing them
LIMS
and distribute
it complete
to be accessed
the code.
These systems
responsibility for
anytime by
For example,
are designed
the hardware
anyone with
A web-based LIMS
researchers at
to meet the
and software.
an internet
is hosted on a web
the National
specific needs
connection.
server that can
Institute of
of an industry
These solutions
be accessed from
Standards and
or application.
give even the
multiple locations
Technology
For example,
smallest labs
while giving the
have created
LIMS have
access to
organization
NexusLIMS
been created
powerful offsite
control of its data.
for shared
specifically to
servers and
use
electron
help manage
specialists in
microscopy
and interpret
the ongoing
facilities. The
next-generation
maintenance of
core codebase
sequencing data.
these systems.
for the software
is publicly
available to
encourage
adaptations of
the method.
KEY
features
of modern LIMS
1.
Sample management
One key strength of a LIMS is the ability to track
Monitoring and tracing multiple sample batches
samples from collection to analysis, ensuring a
throughout their lifecycle can be challenging.
proper chain of custody. As well as logging sample
A LIMS can help with batch management and
details, a LIMS can track storage conditions
ensure consistent application of testing protocols
and monitor sample usage. This helps ensure
across multiple samples. For example, in pathology
the integrity of samples and consequently the
labs, LIMS can assist with tracking and managing
reliability of test results.
any specimens received.
2 .
Lab management
A modern LIMS provides labs with greater management of processes including inventory, instrument
and resource management. The software can also make it easier to maintain and manage lab
equipment and ensure optimal performance through the tracking of lab equipment over time.
3.
Compliance
By securely tracking all data and metadata needed to support compliance, a LIMS can make it
easier to comply with both internal and external regulations. Combining LIMS with electronic lab
notebooks (ELNs) can help ensure lab data is FAIR (findable, accessible, interoperable and reusable).
VS.
ELNs focus on experiment
LIMS solutions are designed to
documentation. They are used primarily
manage and automate workflows
in creating reusable experiment
within a laboratory and monitor the
templates, note-taking and generating
daily processes within the lab itself.
bespoke data reports.
4.
Automation
Automation enables labs to streamline processes while maximizing productivity,
enhancing reproducibility and reducing handling errors. Many modern LIMS
include automation features like automated workflow management.
5.
Collaborative working
For organizations spanning multiple labs locally or even globally, LIMS with data-sharing capabilities
can help collect and share data across sites in real-time. Some LIMS feature web-based user portals
that allow external users to log in and submit samples independently. This feature is particularly
beneficial to core labs and clinical labs that process samples provided by clients.
6.
Enterprise integration
Enterprise resource planning (ERP) systems are used to manage and automate many business
processes. Some modern LIMS can integrate with such systems and software, like ELNs and
chromatography data systems, to connect data sources and reduce the need for manual data uploads.
Specifically designed
for labs, helps manage
data and automate
workflows
Helps manage and
Acts as a digital
automate business
version of a physical
processes
lab notebook
across various
departments
7.
Data security
Modern LIMS incorporate features to safeguard data integrity such as data validation checks, audit
trail generation and electronic signature requirements. Multi-factor authentication is sometimes
added as an additional layer of identity verification to further safeguard data. For laboratories
working with confidential patient information, data privacy safeguards are vital to ensuring
compliance with regulations such as the Health Insurance Portability and Accountability Act of
1996 (HIPAA).
8.
Data visualization and analytics
To present the vast amounts of information
unstructured LIMS data. For example, one
a LIMS collects, many modern systems will
research group from the University of Dresden
offer user-friendly dashboards and data
combined mass spectrometry-based steroidomics
visualization tools, meaning you don’t have
data with ML and a web-based LIMS prototype to
to be an experienced data scientist to benefit
assist in the diagnostic stratification of patients
from LIMS insights.
with primary aldosteronism.
As the uptake of artificial intelligence (AI) and
Results from a 2024 survey by the nonprofit
machine learning (ML) continues to rise, labs
Pistoia Alliance show that 68% of labs are now
are starting to use these tools to help with
using AI/ML technology, an increase from 54% in
the processing and analysis of structured and
2023. *New answer option for 2024.
2023
2024
Cloud data platforms
LIMS
AI/ML
ELNs
Robotics/Automation
Internet of Things
*Automated labs
*Digital Twins
Lab Wearables, VR/AR
Other
*Quantum Computing
9.
Instrument integration
Instrument integration support enables direct communication between the LIMS system and the
laboratory instruments. This ensures real-time data transfer and minimizes manual data entry errors.
10.
Software integration
Support for external software integrations gives
For example, a demo smart lab has been set up
labs the ability to integrate their LIMS with other
at the University of Southampton called Talk2Lab
software for seamless data exchange between
that uses Amazon Alexa. This allows researchers
systems.
to use voice commands in the lab. In the future,
IoT devices such as this may be integrated with
Internet of Things (IoT) technologies are being
LIMS, with some of the major LIMS players already
utilized in labs to optimize operations and
starting to incorporate voice-based commands into
combine instruments and data more efficiently.
their systems.
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