Formulation Development

Encoded stereo microscopes Leica M165 C​ - Total recall of your settings

Your goal: high-quality images that allow measurements and can be accurately repeated with minimal effort. The Leica coded stereo microscopes help you to pave the way to correct results.

• Coded microscopes consistently deliver calibrated and comparable images

• Reproduce images in moments with the Leica “Store and Recall” function

• Fully apochromatic corrected zoom optics deliver high quality images

• Customize the microscope system to your task with the exclusive range of accessories

Gene therapies hold immense potential to provide long-lasting treatments for a wide range of diseases. At Cytiva, we offer GMP-compliant, end-to-end manufacturing solutions designed to support the development and commercialization of advanced medicines across multiple modalities – including AAV, adenovirus (AV), lentivirus (LV), plasmid DNA (pDNA) and exosomes. Our dependable suite of technologies and expertise ensures scalability, quality, and regulatory confidence at every stage of your journey.

We have developed an innovative portfolio of affinity chromatography resins to help you solve challenges in the downstream process of next-generation antibody therapeutics. These resins are specifically designed for the purification of engineered monoclonal antibody (mAbs) modalities.

Automated bioprinting solution for high-content screening with the BAB400 bioprinter for optimized 3D tissue and organoid workflow.

LMD 6 Laser Microdissection Microscope

Dissection Perfection

Laser Microdissection (LMD, also known as Laser Capture Microdissection or LCM) enables users to isolate specific single cells or entire areas of tissue. Powered by a unique laser design and dynamic software, Leica LMD systems allow users to easily isolate Regions of Interest (ROI) from entire areas of tissue down to single cells or even subcellular structures such as chromosomes.

LMD is typically used in genomics (DNA), transcriptomics (mRNA, miRNA), proteomics, metabolomics, and even next generation sequencing (NGS). Researchers in neurology, cancer research, plant analysis, forensics or climate research rely on this method. Furthermore, LMD is a perfect tool for live cell culture (LCC), for cloning and re-cultivation, manipulation or downstream analysis.

We move the laser, not the sample. And we use gravity for collection. That is why our LMD systems provide you with perfectly cut, contamination-free, analysis-ready dissectates.

SimpleStep ELISA® kits are sandwich ELISA assays that we have developed to be as simple and effective as possible. Unlike traditional sandwich ELISAs, which take more than three hours to run, SimpleStep ELISA kits generate data in just 90 minutes without compromising performance, using only one wash step and recombinant antibodies for exceptional specificity.

Diabetes is a chronic metabolic disorder characterized by elevated blood glucose levels due to inadequate insulin production or impaired insulin utilization, commonly known as insulin resistance.

Multicolor Multiphoton gets you closer to the truth

The combination of multiple distinct fluorescent labels is increasingly used to study dynamic interaction and spatial relationships among cells and molecules. The goal is to understand a myriad of complex biological events, such as cellular connectivity, cell phenotyping, protein interaction or co-expression, and co-localization. Scaling up such studies to whole organs or tissues requires suitable large-volume multicolor microscopy methods. DIVE and STELLARIS have now merged to provide you with the power of flexible multicolor multiphoton imaging. Furthermore, you can expand the potential of your experiments with additional label-free imaging capabilities.

Seamlessly integrated into the confocal software interface, STELLARIS 8 DIVE multiphoton microscope offers the benefits of high speed and excellent navigation so that dynamic processes in complex samples can be studied with ease. STELLARIS 8 DIVE – A rainbow of possibilities for your research.