Chimpanzee Heart Health: Advancing Noninvasive Monitoring Techniques

The study, ⁣published‌ in the Journal of Biological Rhythms, involved using millimeter-wave radar technology to measure heart rate in three captive chimpanzees.‍ The researchers found that they were able to accurately‍ estimate‍ heart rate from⁤ subtle body movements, such ‌as breathing‍ and chest wall movements. This non-invasive method has the potential to ⁢revolutionize the way ​heart rate is monitored in nonhuman ‍primates, both⁤ in the‍ wild and in captivity.

The health benefits of monitoring ​heart rate are⁢ clear, and it is also ‌valuable in studying animal cognition. For instance, research⁤ has shown that ⁤a chimpanzee’s ⁤heart rate can change in response to psychological stress, emotional stimuli, or familiar humans.

Various ⁤methods have been developed to measure heart rate⁣ in great apes. In addition to traditional contact measurements, the most common approach involves using a wireless device attached to‍ the animal‍ to monitor⁢ and transmit its‌ heart rate from a distance. However, the installation of the device often requires anesthesia, which carries its own risks. Additionally,⁣ the device itself can be disruptive to⁤ the animal’s natural ‌behavior.The act of directly⁣ measuring ​an animal’s heart rate could cause stress to the animal or others in‌ its ⁢group. A⁢ less intrusive method involves ⁤using video feed ⁤to estimate heart rate, which has been tried with some species of ‌primates. However, the accuracy of these methods ‍is highly dependent on lighting conditions and the animals’ movements.

Given ⁣these challenges, a research team led by Asisstant Professor Takuya Matsumoto from Shinshu University, Japan, aimed ​to find a more effective alternative. ⁣In their recent study, published in the American Journal of Primatology on May 22, 2024, the ‌researchers explored whether ⁤millimeter-wave radar-based techniques could ‍provide⁢ a ‌better ‍solution.The technology originally created for humans ​has potential for measuring heart rate in chimpanzees. The co-authors of the ​study are Dr. Itsuki Iwata, Dr. ‌Takuya⁣ Sakamoto, and Dr. Satoshi Hirata, ​all affiliated with Kyoto University.

The ‌proposed ⁢method involves sending high-frequency electromagnetic pulses at the animal’s chest and ‌capturing the‍ resulting echoes. These echoes can then detect small body movements, which are used to estimate heart rate using‌ specialized algorithms. ‌Dr. Matsumoto emphasizes the motivation behind the study, stating, “Millimeter-wave radar technology has been⁢ extensively developed for applications ​in⁣ various fields, and now we can potentially ‍expand​ its use to non-invasive monitoring of ⁤chimpanzee health.“The researchers initially focused on the potential ‌applications of radar ‌technology in automated driving ‌and medicine. However, a conversation with a radar⁤ researcher at an academic ⁤conference inspired them to⁤ explore the possibility of using radar technology on ⁢primates other than humans. This led‍ to the start of a joint research project.

In order to test their ‍approach,‍ the researchers conducted experiments during⁣ the​ annual ⁢health checks of two adult chimpanzees at Kumamoto Sanctuary, Wildlife Research Center, Kyoto ⁤University. ‍The chimpanzees were anesthetized, and a radar system was placed about half a meter above ⁤their chest. Additionally, traditional electrocardiography ⁤(ECG) ‍signals were recorded and used for comparison.

To determine the accuracy of the radar-based technique, researchers ⁣compared the heart rates ⁤recorded via ECG with those ‌obtained ⁤using millimeter-wave radar for chimpanzees. The results‍ showed that the two methods closely matched, validating the proposed strategy. ⁢Dr. ⁣Matsumoto emphasized that despite the muscular bodies of chimpanzees raising ⁢concerns about‌ measuring their heart rate in a similar manner to humans, the study demonstrated the‍ feasibility of noncontact heart rate measurements through the analysis of subtle body surface movements. He also noted ‍that ⁤these findings could broaden the potential applications of this​ technology.

“Techniques⁢ in studies of animal psychology and⁤ wild primatology involve using millimeter-wave radar-based methods for heart‍ rate monitoring,” the ⁤researcher explained. ‍”These methods offer significant advantages over standard practices. They are entirely noninvasive, allowing for frequent use without causing stress to the animals. Additionally, ⁣heart rate ⁢can also be remotely measured using video analysis with a digital⁢ visible ⁣light ‌camera, which doesn’t need specialized ⁢equipment​ and can reuse ⁢existing videos. Two main techniques are utilized: imaging photoplethysmography, which ‌detects blood volume⁣ changes, and periodic movement extraction, which measures heart and respiratory rates from body movement.”The researchers ​hope that their ‍work ⁤will ⁢lead to more innovative ⁤ways ⁣of ‌monitoring vital signs in captive animals, such as ⁣heart rate and respiration rate. Remote measurement of⁣ heart rate ⁢in ⁣apes could improve their health management and welfare in captivity, such as in⁣ zoos. Further studies are needed to validate the proposed method for use in regular practice, where animals have the ⁣freedom to move in their enclosure.With any good fortune,⁤ these methods might​ assist‍ us in maintaining the well-being of our nearest relatives and​ gaining a greater ‍insight into their world. This progress paves the way for further⁣ exploration into primate behavior and ​physiology, which will benefit both captive and ‌wild primates and improve our comprehension of these animals and their habitats.