Unlocking Angiogenesis Insights

Quantify Blood Vessels in Chick Chorioallantoic Membrane Assay using IKOSA’s deep learning technology

Streamline your CAM analysis with a suite of solid features

Automatically segment blood vessels

Accelerate your research by automating the measurement of total area, length, mean thickness, and the number of branching points of blood vessels.

Dive into the analysis results

Examine your results from every angle! Download a CSV or an Excel file including quantitative data on the detected vessels and their visualization. Information includes areas of detected vessels (blue overlay), vessel paths (green lines) and vessel branching points (red dots).

2D, time-series, Z-stacks & multichannel images

Perform analysis on single images or multidimensional datasets and obtain high-quality results.

Exclusively analyze a designated region

Specify one or multiple Regions of Interest (ROIs) to reduce the analysis time.

Exclusively analyze a designated region

Specify one or multiple Regions of Interest (ROIs) for performing the analysis.

Discover the potential of the IKOSA CAM Assay App for robust and cost-effective angiogenesis research.

Experts and key opinion leaders share their opinion

Prof. Dr. Silke Härteis

University of Regensburg, Germany

IKOSA provides a user-friendly premium software solution that meets high-quality standards at the same time. Thanks to it we have been able to bring our studies on the CAM Model a huge step ahead and we are eagerly looking forward to future joint projects.”

Prof. Domenico Ribatti

University of Bari Aldo Moro, Italy

We present a reliable method to quantify angiogenic and anti-angiogenic processes in the chick chorioallantoic membrane (CAM) that illuminate the mechanisms of vascular proliferation. Blood vessels on CAM-images can be efficiently analyzed with the IKOSA CAM Assay App to measure their total area, length, mean thickness, and the number of branching points.

Prof. Tiziana Annese

Università LUM Giuseppe Degennaro, Italy

We study angiogenesis induction and suppression through the chick chorioallantoic membrane (CAM) assay. This assay involves quantifying CAM vasculature, including total area, length, mean thickness, and the number of branching points in blood vessels. These measurements can be conducted manually or through image processing techniques. Among these methods, we found the IKOSA CAM Assay application to be a valuable tool due to its efficiency and user-friendliness.

IKOSA CAM Assay: embraced by the scientific community

Delve into a comprehensive array of cases, interviews, and publications featuring prestigious institutions such as University Medical Center Mainz, University of Liverpool, University of Bari Aldo Moro, University of Regensburg, Medical University of ViennaUtah Valley UniversityLudwig Boltzmann Institute for Traumatology, The Research Center in Cooperation with AUVA, and Medical University of Graz.

These resources spotlight the versatile applications of the CAM Assay in their groundbreaking research.

Watch our discussion about the CAM Assay with scientists from the Johannes Gutenberg-University Mainz

In this 12-minute video, meet Dr. Nadine Wiesmann and Dr Jonas Eckrich. We spoke with them about the diverse applications of the CAM Assay and its pivotal role in studying vascular processes.

Find your potential antiangiogenic cancer treatment strategy with reliable software.

Harness the power of deep learning within the IKOSA CAM Assay app, securing your position at the forefront of ethical considerations, cost-effectiveness, and streamlined processes.

Tips and tricks

Elevate your CAM image data analysis outcomes with our guidance.

Download these cards as a PDF.

CAM Assay: paving the path for 3R research

By offering the CAM Assay Application, we aim to contribute and expand the utilization of 3R-compliant research. Our goal is to eliminate the necessity for animal experiments altogether, while also reducing both the number of animals used and their distress during tests.