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Labtools.AI: Integration, Automation, and Seamless Collaboration

Updated: Apr 17

In the dynamic landscape of scientific research, efficiency and collaboration are paramount. However, traditional workflows often involve manual tasks, data silos, and disjointed systems, hindering productivity and innovation. So we created Labtools.AI, a software as a service (SaaS) platform that revolutionizes scientific workflows by seamlessly integrating with over 100 Electronic Lab Notebooks (ELNs)/Laboratory Information Management Systems (LIMS) and scientific software providers. Let's explore how Labtools.AI empowers scientists with no-code workflows and enhances collaboration across the scientific community.



Seamless Integration with Top ELNs/LIMs

Labtools.AI stands out for its seamless integration capabilities, connecting with leading ELNs/LIMs and scientific software providers to streamline data exchange and workflow automation. Labtools.AI seamlessly integrates with top ELN/LIMs providers and using our proprietary SciUnify tool, we can automatically generate plugins for other tools with publicly available APIs such as:

  • Scinote

  • Labii

  • Benchling

  • Labguru

  • Basespace

  • Rockstep Climb

Do you use different scientific software and want to request that we integrate it?





Catering to Veterinary Diagnostic Labs

We recognize the unique needs of veterinary diagnostic labs and extends its integration and workflow automation capabilities to this specialized domain. Whether it's managing patient records, analyzing diagnostic images, or generating reports, Labtools.AI empowers veterinary professionals to streamline their workflows and deliver timely, accurate results.


Labs working in animal health often partner with veterinary diagnostic labs (VDLs) to leverage their specialized expertise and advanced diagnostic capabilities. These partnerships are crucial for conducting comprehensive health assessments, disease surveillance, and outbreak investigations in animal populations. However, the traditional method of sharing results, often in the form of scanned PDF reports, can introduce inefficiencies and delays in data interpretation and decision-making. VDLs, such as Iowa State University, South Dakota State University, and the University of Minnesota, play pivotal roles in supporting animal health initiatives. By integrating with these VDLs on the software side, labs can streamline the sharing and processing of diagnostic results, saving valuable time and resources. Rather than relying on manual data entry from scanned PDFs, seamless integration allows for automated data transfer, enabling real-time access to critical information for informed decision-making in animal health management.


Gone are the days of hiring developers to extract and integrate data from VDLs into lab information management systems (LIMS) or databases. With Labtools.AI's intuitive workflow builder, labs can now design custom workflows to query results directly from VDLs and import them seamlessly into their existing systems. This eliminates the need for expensive and time-consuming development efforts, empowering labs to efficiently manage and analyze diagnostic data with minimal technical overhead. By democratizing data integration and workflow automation, Labtools.AI enables labs to focus on their core research and diagnostic objectives, driving innovation and improving animal health outcomes.



Designing Custom Workflows

Tailored for scientific workflows, Labtools.AI's platform enables scientists to design custom workflows effortlessly. With a user-friendly interface and a library of pre-built connectors, scientists can orchestrate data movements, trigger actions based on predefined conditions, and seamlessly integrate with Labtools.AI's computer vision models for advanced data analysis.


Hypothetical Workflow Scenario

Let's envision a scenario where a scientist is conducting an experiment, manually creating entries in their ELN, and analyzing data:

  1. Manual Workflow: The scientist initiates the experiment, manually creating an entry in their ELN and recording experimental parameters and observations. [ELN entry screenshot here]

  2. Data Collection and Analysis: After collecting data, the scientist exports images for analysis, manually annotating and recording results. [Image analysis process screenshot here]

  3. Manual Data Entry: The scientist then manually enters the analyzed results back into their ELN, ensuring data traceability and documentation.

  4. [Data entry screenshot here]


Labtools.AI's Automated Workflow

With Labtools.AI, the entire process becomes seamless and automated:

  1. Automated ELN Entry Creation: Labtools.AI triggers the creation of an ELN entry as soon as the experiment begins, automatically populating relevant metadata and experimental details. [Automated ELN entry screenshot here]

  2. Data Collection and Analysis: The platform seamlessly pulls data from connected devices, leveraging computer vision models for real-time analysis. [Automated data analysis screenshot here]

  3. Auto-populated Results: Analyzed results are automatically populated into the ELN, eliminating manual data entry and ensuring accuracy and efficiency. [Auto-populated results screenshot here]



Experience the power of Labtools.AI firsthand and transform your scientific workflows. From seamless integration with ELNs/LIMs to automated data analysis and result documentation, Labtools.AI empowers scientists to focus on what matters most—driving innovation and advancing scientific discovery.


Request a demo today and unlock more of your time to focus on your core research questions!




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