Our History
After examining various topics in different fields, we found the health sector to be closer than anything else to what we were looking for. Based on our past experiences, we were looking for a health sector where fundamental problems exist. Therefore, upon seeing the statistics of over 600 million cardiovascular patients, we chose this area for our activities. We realized that approximately 25,000 people pass away daily due to the lack of effective CPR, something around 8.5 million people per year.
September 2018
February 2019
The device we designed for effective CPR was not well received by doctors and anesthesiologists, as well as emergency medicine specialists and CPR trainers. According to their feedback from previous experiences with the Automated CPR Machines, not only did the use of this equipment lead to an increase in rib fractures, but the average installation and setup time for these devices took about 90 seconds, resulting in the loss of approximately 100 million neurons in the brain after a cardiac arrest.
As a result of thorough examination and extensive market research, we identified areas where no impactful services had been provided and where there were significant needs. Based on this, we began designing the prototype of our product, that we call V.1.
June 2019
October 2019
Functional nature of the V.1 received positive feedback, we conducted user testing on a larger scale. Consequently, we presented an improved appearance at various exhibitions and interviewed over 300 different individuals about the product.
Considering that the V.1 was merely a prototype, it did not fully meet the needs of users and customers. Therefore, to ensure their needs were addressed, we developed the V.2 with a new user interface. This product received a very positive reception, and we sold all three devices that we had made.
March 2020
August 2020
The quarantines during the COVID-19 pandemic gave us the opportunity to study the essential requirements and considerations of the medical equipment field in depth. After the strictness of the quarantines eased, we found the opportunity to grow our team. At this point, we began designing the V.3 with the goal of creating a product, not just a prototype.
Due to certain technical requirements, we designed the V.4 device. There were changes to the physical and electrical characteristics of the printed circuit, as well as the casing. Additionally, the processing speed of the device was insufficient, so we implemented an operating system.
January 2021
March 2022
We tested 40 different 3D-printed casings of the device to achieve the best ergonomics and meet user needs. Upon identifying the best features, we built an injection mold for mass production, which led to the V. 5 of the device. Simultaneously, there were enhancements in the electrical aspects as well.
Considering that we were using a multi-layer printed circuit board and that the device's processor speed is significantly high at 480 megahertz (10 times the speed of similar products), there were challenges in sourcing raw materials, which affected the overall cost. Therefore, we designed version 6 in such a way as to reduce our dependency on limited and challenging resources.
May 2022
July 2022
Following the technical tests, we identified issues with the device. These defects were related to the quality of certain electrical components as well as the design layout of these components. As a result, we quickly set out to address these issues and designed the next version, which was V.7.
While the issues arising from using the device in various conditions persisted, we could not find any scientific resources that had addressed this problem before us. Therefore, we designed the V.8 in a way that pushed the boundaries of knowledge. The challenges our engineering team faced during this phase were so profound that we could not have imagined them on the first day.
September 2022
February 2023
After thoroughly assessing the results obtained from the previous design, we developed the V.9. In this version, we approached the final solution, but it was not fully resolved.
Version 10 was designed with the goal of addressing any remaining issues. In this design, we aimed to achieve a stable product, always reminding ourselves that we cannot jeopardize anyone's life until we have absolute confidence in our product.
May 2023
August 2023
When we were confident in the performance Consequently, we submitted the device to other laboratories for highly specialized series of technical tests for the safety and essential performance as a medical electrical equipment.
After 8 months of extensive technical testing, the device successfully passed the tests, and we gained confidence in the performance of our product. Now, there is only one step left to use this product as a medical device to save lives: the successful completion of clinical trials.
April 2024
December 2024
Our company with the name of ileria Ltd. Got registered in the trade registratation of Finland. We are doing the final touches to launch the product to the market on June 2025. Our CPR feedback device will be only available for the non-medical usages as a CPR training tool, until the day we issue the licences of the medical equipment.
From the day we embarked on this journey, our goal has been clear: to play a role and make a fundamental change in saving human lives. Along the way, we encountered numerous challenges. We believe there are always excuses for failure, but there is a very important reason to continue, and that is our words. Our existence is embodied in our words.
We aim to save 200,000 lives by 2030. In other words, we want to bring thousands of mothers, fathers, and children back to their life and families. After years of research and development and gaining a deep understanding of the market, we possess complex technical knowledge that is paving the way for a revolutionary change in the history of rescue and CPR. We will be by your side to take significant steps toward saving the loved ones.