A Noncontact Method for Locating Radial Artery above Radial Styloid Process in Thermal Image

A radial artery above the radial styloid process is called GUAN and is a critical position for collecting pulse wave in traditional Chinese medicine theory. Locating GUAN is a precondition for collecting radial pulse wave. However, existing methods for locating GUAN lead to large deviations. This paper proposes a novel nontouch method for locating GUAN based on thermal imaging and image processing. This method consists of three parts: the infrared thermal imaging location imaging platform, the wrist edge contour extraction algorithm based on arbitrary angle edge recognition, and radial protrusion recognition algorithm (x coordinate identification algorithm of GUAN) and radial artery fitting algorithm (y coordinate identification algorithm of GUAN). The infrared thermal imaging positioning imaging platform is used to ensure that the wrist of the subject enters the fixed imaging area in a fixed position during each measurement and transmits the thermal imaging images carrying the image information of radial processes and radial arteries to the upper computer. Arbitrary angle edge recognition algorithm is used to extract wrist contour and radial artery edge information. The x-axis coordinates of the radial artery were provided by the identification algorithm, and the y-axis coordinates of the radial artery were provided by the fitting algorithm. Finally, the x and y coordinates determine the GUAN position. The algorithm for locating GUAN could provide repeatable and reliable x and y coordinates. The proposed method shows that relative standard deviation (RSD) of x distance of GUAN is less than 9.0% and RSD of y distance of GUAN is less than 5.0%. The proposed method could provide valid GUAN coordinates and reduce deviations of locating GUAN.

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Establishing the Existence of the Active Stomach Point in the Auricle Utilizing Radial Artery Tonometry

The American Journal of Chinese Medicine ◽

10.1142/s0192415x03000928 ◽

2003 ◽

Vol 31 (02) ◽

pp. 285-294 ◽

Cited By ~ 3

Author(s):

Etsutaro Ikezono ◽

Tetsuo Ikezono ◽

John Ackerman

Keyword(s):

Radial Artery ◽

Pulse Wave ◽

Diagnostic Technique ◽

Acupuncture Point ◽

Styloid Process ◽

Auricular Acupuncture ◽

Pressure Transducers ◽

Cardiovascular Reflex ◽

Auricular Point ◽

Body Acupuncture

One component of Oriental medicine diagnosis utilizes the palpation of the radial pulse both for internal medicine and also to help clinicians accurately choose body acupuncture treatment points. In the mid-1980s, an attempt was made to capture diagnostic information with three pressure transducers positioned bilaterally over the radial arteries in such a fashion as to simulate classical Chinese pulse diagnosis (Yoon and Ikezono, 1986 and 1987). The results of this pilot study were subsequently difficult to replicate. In the early 1950s, Paul Nogier in Lyon, France introduced a different pulse diagnostic technique (Nogier, 1976). By touching an acupuncture needle on an active auricular acupuncture point, the radial artery wall over the styloid process changes in tone more prominently than when inactive points on the acuricle are touched. This dermal/cardiovascular reflex of pulse diagnostic technique helps, then to localize salient auricular points to treat regarding a patient's illness. Objective digitalized measurements of the Nogier radial arterial pulse wave were performed by computerized tonometry. This demonstrated that when an active stomach point in the auricle (n = 11) was detected utilizing an imperceptible electric current, the initial upstroke of the pressure wave, the pulse pressure and the peak-to-peak interval of the radial artery pulse wave all increased significantly compared to placebo point electronic detection. Thus, the existence of an active auricular point on the auricle was verified by radial artery tonometry.

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