The Journal of Korean Medicine (대한한의학회지)

The Society of Korean Medicine (대한한의학회)
권호 표지

Gender-Related Differences in the Second Derivative of Photoplethysmogram Waveforms in the Fourth Decade

30대 성인남녀의 성별에 따른 가속도맥파 차이에 관한 연구

  • 남동현 (경희대학교 한의과대학 기기진단과학교실) ;
  • 박연재 (세명대학교 충주한방병원 침구과) ;
  • 박영배 (경희대학교 한의과대학 기기진단과학교실)
  • Published : 2002.09.01
Download PDF
⟨ Previous Next ⟩

Abstract

Objective: There exist gender differences in pulsatile contour waveform. Women have a greater age-related increase in left ventricular mass than do men and more likely to experience symptomatic heart failure after infarction. SDPTG (the second derivative of photoplethysmogram waveform) is a noninvasive method for evaluating the pulse wave and is correlated with age and other risk factors for atherosclerosis. We studied the effect of gender on SDPTG and made clear why the gender differences appear. Methods: To study the effects of effect factors, including height and blood pressure, on SDPTG in the fourth decade, data on height, weight, PTD (pulse transit distance), blood pressure, serum lipid levels, and SDPTG were collected in 115 laboratory healthy men and women. SDPTG is derived from double-differential processing of fingertip photoplethysmography and consists of a, b, c, and d waves in systole and an e wave in diastole; SDPTG aging index (AI) was calculated as (b-c-d-e)/a. Results: There were significant gender-related differences of SDPTG AI, height, and blood pressure. Age, height, and mean blood pressure were respectively and significantly correlated with SDPTG AI. SDPTG is dependent upon age, height, and blood pressure. Restricting analysis to SDPTG AI, age, height, and mean blood pressure, yielded that there were gender-related differences in SDPTG AI (P<0.05) which were derived from those of height (F<0.001, df=l, P=0.994). Conclusions: These new data may help to explain previous findings about age-related differences in pulsatile contour waveforms and why gender differences of SDPTG appear. The results of this study suggest that SDPTG AI, used for evaluation of biological vascular aging, should be calibrated by height as well as age and blood pressure.

Keywords

References

  1. 臨床脈波判讀講座 I (第1版) 常用計器と記錄法 椎名普一
  2. 대한내과학회지 v.41 no.4 뇌경색증과 심근경색증 환자에서 죽상동맥경화 위험요인의 비교연구. 조길우;박종춘;강정채
  3. Am J Crit Care. v.9 no.3 Gender differences in acute coronary events. Keller KB;Lemberg L.
  4. Circulation. v.80 no.6 Noninvasive determination of age-related changes in the human arterial pulse. Kelly R;Hayward C;Avolio A;O’Rourke M.
  5. Hypertension. v.32 no.2 Assessment of vasoactive agents and vascular aging by the second derivative of photoplethysmogram waveform. Takazawa K;Tanaka N;Fujita M;Matsuoka O;Saiki T;Aikawa M;Tamura S; Ibukiyama C.
  6. 대한한의진단학회지 v.5 no.2 생기능조절요법이 항노화효과 및 가속도맥파 파형에 미치는 영향. 남동현;박영배
  7. 脈波の多彩な魅力 三上正俊;鍵谷昭文
  8. Sphygmology. v.8 Relationship between accelerated plethysmogram and systolic time intervals. Ozawa T.
  9. 대한한의학회지 v.47 미분변환기에 의한 대동맥맥파속도 측정방법에 관한 연구. 이봉교;김정제
  10. Postgrad Med J. The morphology, terminoiogy and pathogenesis of arterial plaque. Schwartz CJ;Mitchell JR.
  11. Lab Invest. v.18 no.5 Distribution of cerebral atherosclerosis by geographic location, race, and sex . Solberg LA;McGarry PA;Moossy J;Tejada C;Loken AC;Robertson WB;Donoso S.
  12. Circulation. v.82 no.4 Evaluation of the associations between carotid artery atherosclerosis and coronary artery stenosis. A case-control study. Craven TE;Ryu JE;Espeland MA;Kahl FR;McKinney WM;Toole JF;McMahan MR; Thompson CJ;Heiss G;Crouse JR 3rd.
  13. Stroke. v.28 no.2 Relationship between carotid intima-media thickness and symptomatic and asymptomatic peripheral arterial disease. The Edinburgh Artery Study. Allan PL;Mowbray PI;Lee AJ;Fowkes FG.
  14. Circulation. v.62 no.1 Aortic input impedance in nomal man: relationship to pressure wave forms. Murgo JP;Westerhof N;Giolma JP;Altobelli SA.
  15. Age Ageing v.15 no.6 The digital plethysmogram as an index of ageing grade. Shimokata H;Shibata K;Kuzuya F.
  16. 임상생리검사학 김대식;김병수;김병원;김영활;김종규;민병해;윤중수;최완수
  17. Bull Phys Fitness Res Inst. v.68 Evaluation of peripheral circulation with accelerated plethysmography and its practical application (Report 2) - Quantification of inflection points of a waveform. Sano Y;Kataoka Y;Ikuyama T;Wada M;Imano H;Kawamura K;Watanabe T.;Nishida A;Osanai H.
  18. Am J Hypertens. v.13 no.2 Assessment of vascular aging and atherosclerosis in hypertensive subjects: second derivative of photoplethysmogram versus pulse wave velocity. Bortolotto LA;Blacher J;Kondo T;Takazawa K;Safar ME.
  19. Jpn Circ J. v.64 no.2 Second derivative of photoplethysmogram in children and young people. Iketani Y;Iketani T;Takazawa K;Murata M
  20. Eur J Appl Physiol. v.86 no.2 Noninvasive assessment of arterial distensibility in adolescents using the second derivative of photoplethysmogram waveform. Miyai N;Miyashita K;Arita M;Morioka I;Kamiya K;Takeda S
  21. 침구학(상) 전국한의과대학 침구, 경혈학교실
  22. 仲景全書 張仲景
  23. 脈經 王叔和
  24. 최신의학 v.13 no.7 맥진계에 의한 팔요맥의 파형기록 판별에 관한 실험적 연구. 이봉교
  25. Inter Med J. v.5 Relationship between carotid arterial blood flow and accelerated plethysmogram in the aged. Nagatomo I;Takigawa M.
  26. J Am Coll Cardiol. v.30 no.7 Gender-related differences in the central arterial pressure waveform. Hayward CS;Kelly RP.
  27. Hypertension. v.26 no.3 Influence of sex on arterial hemodynamics and blood pressure.Role of body height. London GM;Guerin AP;Pannier B;Marchais SJ;Stimpel M.