News Release

Small hearts have strong vortex flow, large hearts have mild vortex -- studied in dogs

Peer-Reviewed Publication

Tokyo University of Agriculture and Technology

Vortex flows of blood in a large heart (a, c, e) and a small heart (b, d, f) of healthy dogs

image: Panels a and b visualize the stream line at early diastolic phase with the highest vortex flow in the left ventricle (LV). Panels c and d show the contours of vortex flow in the same time phase as the upper figures. Panels e and f are the transition of vortex flow in a cardiac cycle. LA: left atrium. view more 

Credit: Ryou Tanaka/TUAT

An international collaboration led by veterinary scientists at Tokyo University of Agriculture and Technology (TUAT), Japan, has found that size of a dog heart affects both vortex flow and pressure difference in the heart, which both are promising as an index of diastolic function. Their findings mean that size correction of vorticity and pressure difference allows us to use these indexes in the field of pediatric and veterinary medicine.

Their findings were published in Scientific Reports on January 24th, 2020.

The heart works through 2 steps, contraction (medical term: systole, systolic) and expansion (medical term: diastole, diastolic), to circulate blood to the whole body. Diagnosis of its systolic dysfunction is relatively simple by using echocardiographic examination. In contrast, its diastolic function is far complex despite the fact that patient numbers of the systolic dysfunction are about the same as those of the diastolic dysfunction. "We have to measure the diastolic function precisely by a catheter inserted in the heart," said Ryou Tanaka, Professor in the Department of Veterinary Surgery, Faculty of Veterinary Medicine, TUAT, and corresponding author of the paper. "So, we need to develop a noninvasive technique for measuring the diastolic function, which should be simple and reliable."

The heart expands using energy and acquires blood by creating a negative pressure in the heart. Blood entering the heart in response to the pressure difference creates a vortex in the left chamber. Currently, a method called Vector flow mapping (VFM) using echocardiography allows us to visualize and quantify the vortex flow in the heart. Their previous study found that the vortex flow in the left lower chamber (called the left ventricle) was stronger if the pressure was more different. Hence, both the vortex flow and the pressure difference in the left lower chamber when the heart expands could be markers for the diastolic function. It is noted that if the diastolic function becomes weaker, blood congestion tends to lead symptoms of heart failure such as shortness of breath.

"We started wondering wether or not the diastolic function of children hearts, which is much smaller than adults' hearts, could be evaluated by these 2 indexes, that is, the vorticity and the pressure difference," said Katsuhiro Matsuura, D.V.M., Ph.D, the first author of the paper and a postdoctoral fellow in the Department of Veterinary Surgery of TUAT. "We then hypothesized that an additional index must be required when the heat sizes are so different. To test this hypothesis, we chose "adult dogs" instead of observing hearts of healthy children and adults," adds Matsuura. It is because the function of the heart itself changes during the growth. Dogs are very different in body size within the same species and the body weight of adult dogs is very different, for example, from 1 kg to 80 kg.

"We examined flow dynamics in the heart of 58 healthy adult dogs (1.3 to 42.3 kg in weight) by VFM. We then found that the heart size is positively correlated with the pressure difference and inversely correlated with the vortex flow," Matsuura explained. "Our findings indicate that to non-invasively diagnose cardiac function using indexes of flow dynamics the heart size should be taken into account. Now that we can extend this non-invasive method to human pediatrics and veterinary medicine, and our next step is to study fluid dynamics in diseased cases," according to Tanaka.


This work was supported by Japan Society for the Promotion of Science KAKENHI Grant Number JP16K08047.

About Tokyo University of Agriculture and Technology (TUAT):

TUAT is a distinguished university in Japan dedicated to science and technology. TUAT focuses on agriculture and engineering that form the foundation of industry, and promotes education and research fields that incorporate them. Boasting a history of over 140 years since our founding in 1874, TUAT continues to boldly take on new challenges and steadily promote fields. With high ethics, TUAT fulfills social responsibility in the capacity of transmitting science and technology information towards the construction of a sustainable society where both human beings and nature can thrive in a symbiotic relationship. For more information, please visit

Original publication:

Matsuura K, Sato K, Shimada K, Goya S, Uemura A, Iso T, Yazaki K, Yilmaz Z, Takahashi K, Tanaka R. Changes in left ventricular blood flow during diastole due to differences in chamber size in healthy dogs. Sci Rep 10, 1106 (2020).


Ryou Tanaka, D.V.M., Ph.D.
Department of Veterinary Surgery, Animal Medical Center,
Tokyo University of Agriculture and Technology.

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