What is Reshape Biotech?
Reshape Biotech is revolutionizing the way research and development (R&D) labs operate. The company offers a cutting-edge robotic platform that seamlessly combines lab automation and smart software, enabling researchers to accelerate their experiments with AI-driven automation. By significantly enhancing data generation and analysis, Reshape Biotech empowers scientists to focus on discovery and innovation.
What are the features of Reshape Biotech?
Automated lab devices: Reshape's platform includes a range of smart laboratory devices designed to automate tedious tasks and streamline workflows. This automation reduces manual labor, allowing researchers to dedicate more time to critical experimentation and analysis.
24/7 Experimentation: With the ability to insert up to 15 petri dishes or 10 microtiter plates at a time, the system can run experiments continuously without human intervention. This ensures constant data flow and maximizes resource use.
Built-in Incubation: The platform has integrated incubation capabilities that maintain precise temperatures, ranging from 20° C to 40° C. This feature allows for accurate logging of data during the incubation process, ensuring repeatability and consistency in experimental results.
AI-powered plate analysis: Reshape's innovative image analysis models increase both accuracy and repeatability in data assessment. This AI-driven capability allows for more robust, data-informed decision-making in research.
Scalable data output: Researchers can enhance the volume of data collected simply by adding more devices to their lab setups. This modularity helps in managing complex experiments effectively.
What are the characteristics of Reshape Biotech?
User-friendly imaging devices: Reshape Biotech combines accessible imaging technology with advanced machine learning models. This synergy fosters seamless automation in research processes while allowing researchers to obtain high-quality data swiftly.
Accurate growth measurement: One of the standout features of Reshape's platform is its ability to measure growth rates accurately. Whether evaluating bacterial cultures or fungal samples, researchers can trust that the data they receive is precise and reliable.
Color quantification and CFU enumeration: The platform excels at accurately quantifying color changes throughout experiments, providing another layer of insight. Moreover, it incorporates some of the most accurate colony-forming unit (CFU) enumeration algorithms available—ideal for both bacteria and fungi.
Customizable image analysis: Tailored image analysis pipelines can be constructed for specific assays, ensuring optimized performance that meets the unique demands of each research project.
What are the use cases of Reshape Biotech?
Food and Ingredients: Reshape's platform is perfect for food scientists looking to supercharge functional ingredient characterization, stability testing, and acidification assays. By automating these processes, researchers can yield faster and more reliable results.
Agriculture: Agricultural researchers can utilize the system to automate competition assays for pesticide development. This is particularly beneficial when studying the impacts of pesticides against fungi, insects, and seed health, ultimately leading to quicker product development cycles.
Industrial Research: In industrial settings, Reshape enables automated high-throughput microbial discovery. Researchers can conduct library and enzyme screenings with greater resolution, enhancing the overall potential for innovation.
Microbial Analysis: The capability to conduct high-resolution microbial assessments paves the way for exciting discoveries across multiple sectors, ensuring that research is not only efficient but also impactful.
How to use Reshape Biotech?
To get started with Reshape Biotech's platform, users can easily integrate their existing lab workflows with the system. Follow these steps:
- Set Up the Equipment: Assemble the automated devices and ensure they are appropriately calibrated.
- Input Experimental Parameters: Define the conditions for incubation, such as temperature controls and duration.
- Load Samples: Insert the designated number of petri dishes or microtiter plates into the system.
- Initiate the Experiment: Begin the experiments, allowing the platform to operate autonomously.
- Monitor Data: Use the integrated software to track progress and gather real-time data throughout the experimental process.
- Analyze Results: Once completed, leverage the AI-powered image analysis tools to assess results for further insights.
