Supporting researchers for over 30 years

Our technology has facilitated scientific contributions in cardiology, psychophysiology, menopausal research and many more.

Who is VU - Ambulatory Monitoring Solutions?

VU - Ambulatory Monitoring Solutions (VU-AMS) is a Vrije Universiteit spinoff company, based in the former physics department (now the Demonstrator Lab (DLAB) startup incubator), empowering thousands of researchers globally throughout our decades-long history in life sciences. Our technology enables researchers to examine human physiological activity in real time with precision and to receive valuable insights from data collected in the lab and in daily life.

Globally reputable

We collaborate with the best institutions in the life sciences field.

Brazil

Headquarters

Amsterdam

Research facility

Wageningen University & Research

University

Our mission

VU-AMS ambulatory monitors have facilitated hundreds of research projects in labs (and in daily life) for decades. Our technology has empowered behavioural scientists, cardiac, clinical and women’s health researchers, and many others, to demystify the function of the human autonomic nervous system. We continue to support scientists and clinicians today by constantly refining our products and services to deliver precise data, easily interpretable insights, and a seamless experience.

Cor J. J. Stoof

Chief Technology Officer

Dr. Martin J. Gevonden

Chief Executive Officer Assistant Professor

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Prof. Dr. Eco J. C. N de Geus

Chief Science Officer Professor

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Berk de Rooij

Hardware and Software developer

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Sage Sealey

Digital marketer

Eli Partodikromo

Researcher and Software developer

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1989 - The first VU-AMS monitor

In the 1980s, psychophysiology research was largely confined to the lab and faced several practical challenges, including limited replication of naturalistic settings, fewer accessible data collection methods, and underdeveloped digital infrastructure. Recognising this, Eco de Geus and colleagues sought to push the boundaries of discovery by observing participants outside the... lab. Ambulatory research would not only expand opportunities for researchers to explore their areas of interest, but also test whether theories remain valid when data is collected in real-world settings. By 1988, Eco de Geus and colleagues had produced a prototype for an ambulatory monitor capable of recording autonomic nervous system (ANS) activity for 20 minutes using ECG and ICG sensors. This technological achievement paved the way for out-of-laboratory physiology monitoring and marked the beginning of a new era in psychophysiology research.
1994 - The VU-AMS 4.6 monitor

By the 1990s, VU-AMS had become an established and integral part of the Vrije Universiteit’s Faculty of Behavioural Sciences and was well known among Dutch behavioural scientists. In 1994, the second ambulatory monitor was invented, allowing researchers to capture 24 hours of ambulatory data. The following year, de Geus et... al. published the paper entitled Ambulatory measurement of respiratory sinus arrhythmia and respiration rate, which found that ambulatory respiratory sinus arrhythmia is suitable for ecological (real-world) psychophysiology research, including stress, emotion, and health monitoring. In 1996, Willemsen, based on her master's thesis in the Faculty of Behavioural Sciences, published a paper on ambulatory impedance cardiography. These papers laid the foundation for ecological stress research and have since been cited more than 350 times.
2004 - The VU-AMS 5fs monitor

This year marked a major shift in ambulatory research with the development of the VU-AMS 5fs device. This model introduced new metrics, such as stroke volume and cardiac output, providing researchers with high-quality data derived from ANS activity captured outside the laboratory. The VU-AMS 5fs device, our longest-standing ambulatory monitor,... facilitated hundreds of studies across various disciplines, from cardiovascular science to menopausal research. Capable of measuring ECG, ICG, and movement for up to 24 hours using seven electrodes, it marked a new era of ambulatory monitoring and established reliable, research-grade physiological data as the gold standard before commercial wearables became widely popular.
2010 - Data analysis software, VU - Data Analysis Management Software (VU-DAMS)

After the VU-AMS 5fs device had become the go-to gold-standard device for psychophysiology research, VU Data Analysis and Management Software (VU-DAMS) was developed and released. This accompanying software allowed researchers to clean, score, and export their data in their preferred format. From this point on, researchers could take advantage of... key features, such as automatic scoring, to reduce data-processing time.
2023 - The VU-AMS 7 monitor

By 2023, VU-AMS had reached a major milestone: the fourth generation of ambulatory monitors. The VU-AMS 7, the precursor to the VU-AMS Core, was designed to give researchers even more freedom, flexibility, and convenience. Without compromising data quality, the VU-AMS 7 offered a smoother user experience with fewer cables, a... lighter device capable of live data visualisation, remote control, and topical placement (which also improved movement data accuracy).
2024 - The VU-AMS Core, VU-AMS B.V. established, and CoreControl created

VU Ambulatory Monitoring Solutions sought to build on its decades-long history of encouraging academics to explore topics beyond the confines of the lab. One year after the creation of the VU-AMS 7, VU Ambulatory Monitoring Solutions became a spin-off and standalone company based in the Demonstrator Lab (DLAB) at the... Vrije Universiteit. That same year, the VU-AMS Core superseded the VU-AMS 7, and CoreControl, the official remote controller and live data visualiser, was released as an in-lab companion to the Core model.