My Worst Mistake With metatron diagnostic machine review
metatron diagnostic machine review – questions and answers
metatron diagnostic machine review – questions and answers
metatron diagnostic machine review is an essential imaging technique used in the study of microcirculation and one of the best diagnostic tools for the early detection of systemic sclerosis and related conditions. However, despite the increasing interest in capillary microscopy, there is still a surprising discrepancy between its potential application and its still limited use in rheumatological practice. This contrast is really surprising because few diagnostic techniques can combine all the positive features typical of capillaroscopy (low cost, uninvasiveness, repeatability, high sensitivity, good specificity, easy interpretation of results). The lack of guidelines and recommendations concerning the right way to carry out a correct capillaroscopic examination and the interpretation of the most relevant capillaroscopic abnormalities may represent one of the major drawbacks for its widespread use. Discussion about controversies on this topic should be encouraged, leading to a progressive development of capillaroscopy as a routine investigation in rheumatology.
Where and who need the metatron diagnostic machine review?
Where and who need the metatron diagnostic machine review?
The microcirculation microscope is widely used in the field of hospitals, school laboratories, clinics, etc., as the best auxiliary testing equipment. And it is also used in health food industry, as a communication platform for product promotion when, making money equipment, beauty industry.
For it is non-invasive, only to observe the end of the finger armor section, you can do the blood microcirculation review. You can observe microcirculation pipe loop patterns, the number of pipe loop, blood flow, bleeding, etc., help determine the sub-health status and blood stasis and brain / cardiovascular related diseases.
What is metatron diagnostic machine review?
What is metatron diagnostic machine review?
ardiovascular and cerebrovascular detection equipment is a novel photoelectric instrument, no trauma, without any side effects, mainly used for human nail fold microcirculation examination, widely used in clinical disease (cardiovascular and cerebrovascular, hypertension, stroke, diabetes, rheumatism Arthritis, etc.) occurred in the early diagnosis of microcirculation changes, disease prediction, efficacy judgments and prognosis estimates, etc., to provide a basis for clinical diagnosis and treatment. Not only that, but also in the human health, beauty and other areas of life played an important role.
Abnormal metatron diagnostic machine review findings in patients with coronary
Abnormal metatron diagnostic machine review findings in patients with coronary
1. Tambe AA, Demany MA, Zimmerman HA, Mascarenhas E. Angina pectoris and slow flow velocity of dye in coronary arteries – new angiographic finding. Am Heart J. 1972;84:66–71.
2. Beltrame JF, Limaye SB, Horowitz JD. The coronary slow flow phenomenon – a new coronary microvascular disorder. Cardiology. 2002;97:197–202.
3. Goel PK, Gupta SK, Agarwal A, Kapoor A. Slow coronary flow: a distinct angiographic subgroup in syndrome X. Angiology. 2001;52:507–14.
4. Mangieri E, Macchiarelli G, Ciavolella M, Barillà F, Avella A, Martinotti A, Dell’Italia LJ, Scibilia G, Motta P, Campa PP. Slow coronary flow: clinical and histopathological features in patients with otherwise normal epicardial coronary arteries. Cathet Cardiovasc Diagn. 1996;37:375–81.
5. Hawkins BM, Stavrakis S, Rousan TA, Abu-Fadel M, Schechter E. Coronary slow flow–prevalence and clinical correlations. Circ J. 2012;76:936–42.
6. Wozakowska-Kapłon B, Niedziela J, Krzyzak P, Stec S. Clinical manifestations of slow coronary flow from acute coronary syndrome to serious arrhythmias. Cardiol J. 2009;16:462–8.
7. Saya S, Hennebry TA, Lozano P, Lazzara R, Schechter E. Coronary slow flow phenomenon and risk for sudden cardiac death due to ventricular arrhythmias: a case report and review of literature. Clin Cardiol. 2008;31:352.
8. Wang X, Nie SP. The coronary slow flow phenomenon: characteristics, mechanisms and implications. Cardiovasc Diagn Ther. 2011;1:37–43. [PMC free article]
9. Cutolo M, Pizzorni C, Secchi ME, Sulli A. Capillaroscopy. Best Pract Res Clin Rheumatol. 2008;22:1093–108.
10. Cutolo M, Sulli A, Smith V. How to perform and interpret capillaroscopy. Best Pract Res Clin Rheumatol. 2013;2:237–48.
11. Cortes S, Cutolo M. Capillaroscopic patterns in rheumatic diseases. Acta Rheumatol Port. 2007;32:29–36.
12. Dinc A, Melikoglu M, Korkmaz C, Fresko I, Ozdogan H, Yazici H. Nail fold capillary abnormalities in patients with familial Mediterranean fever. Clin Exp Rheumatol. 2001;19:S42–4.
13. Movasat A, Shahram F, Carreira PE, Nadji A, Akhlaghi M, Naderi N, Davatchi F. Nail fold capillaroscopy in Behçet’s disease, analysis of 128 patients. Clin Rheumatol. 2009;28:603–5.
14. Gibson CM, Cannon CP, Daley WL, Dodge JT Jr, Alexander B Jr, Marble SJ, McCabe CH, Raymond L, Fortin T, Poole WK, Braunwald E. TIMI frame count: a quantitative method of assessing coronary artery flow. Circulation. 1996;93:879–88.
15. Bergman R, Sharony L, Schapira D, Nahir MA, Balbir-Gurman A. The handheld dermatoscope as a nail-fold capillaroscopic instrument. Arch Dermatol. 2003;139:1027–30.
16. Yilmaz H, Demir I, Uyar Z. Clinical and coronary angiographic characteristics of patients with coronary slow flow. Acta Cardiol. 2008;63:579–584.
17. Mosseri M, Yarom R, Gotsman MS, Hasin Y. Histologic evidence for small-vessel coronary artery disease in patients with angina pectoris and patent large coronary arteries. Circulation. 1986;74:964–72.
18. Sezgin AT, Sigirci A, Barutcu I, Topal E, Sezgin N, Ozdemir R, Yetkin E, Tandogan I, Kosar F, Ermis N, Yologlu S, Bariskaner E, Cehreli S. Vascular endothelial function in patients with slow coronary flow. Coron Artery Dis. 2003;14:155–61.
19. Cin VG, Pekdemir H, Camsar A, Cicek D, Akkus MN, Parmaksiz T, Katircibas T, Doven O. Diffuse intimal thickening of coronary arteries in slow coronary flow. Jpn Heart J. 2003;44:907–19.
20. Li JJ, Qin XW, Li ZC, Zeng HS, Gao Z, Xu B, Zhang CY, Li J. Increased plasma C-reactive protein and interleukin-6 concentrations in patients with slow coronary flow. Clin Chim Acta. 2007;385:43–7.
21. Turhan H, Saydam GS, Erbay AR, Ayaz S, Yasar AS, Aksoy Y, Basar N, Yetkin E. Increased plasma soluble adhesion molecules; ICAM-1, VCAM-1, and E-selectin levels in patients with slow coronary flow. Int J Cardiol. 2006;108:224–30.
22. Selcuk H, Selcuk MT, Temizhan A, Maden O, Saydam GS, Ulupinar H, Dogan M, Aydin C, Topcu DI, Sasmaz A. Decreased plasma concentrations of adiponectin in patients with slow coronary flow. Heart Vessels. 2009;24:1–7.
23. Camsari A, Pekdemir H, Cicek D, Polat G, Akkus MN, Doven O, Cin VG, Katircibasi T, Parmaksiz T. Endothelin-1 and nitric oxide concentrations and their response to exercise in patients with slow coronary flow. Circ J. 2003;67:1022–1028.
24. Nie SP, Wang X, Geng LL, Liu BQ, Li J, Qiao Y, Liu XM, Luo TY, Dong JZ, Liu XH, Li JJ, Ma CS. Anatomic properties of coronary arteries are correlated to the corrected thrombolysis in myocardial infarction frame count in the coronary slow flow phenomenon. Coron Artery Dis. 2012;3:174–80.
25. Karakaya O, Koçer A, Esen AM, Kargin R, Barutcu I. Impaired cerebral circulation in patients with slow coronary flow. Tohoku J Exp Med. 2011;225:13–6.
26. Camsari A, Ozcan T, Ozer C, Akcay B. Carotid artery intima-media thickness correlates with intravascular ultrasound parameters in patients with slow coronary flow. Atherosclerosis. 2008;200:310–4.
27. Sezgin N, Barutcu I, Sezgin AT, Gullu H, Turkmen M, Esen AM, Karakaya O. Plasma nitric oxide level and its role in slow coronary flow phenomenon. Int Heart J. 2005;46:373–82.
28. Riza Erbay A, Turhan H, Yasar AS, Ayaz S, Sahin O, Senen K, Sasmaz H, Yetkin E. Elevated level of plasma homocysteine in patients with slow coronary flow. Int J Cardiol. 2005;102:419–23.
29. Barutcu I, Sezgin AT, Sezgin N, Gullu H, Esen AM, Topal E, Ozdemir R. Elevated plasma homocysteine level in slow coronary flow. Int J Cardiol. 2005 May;101:143–5.
30. Selcuk MT, Selcuk H, Temizhan A, Maden O, Ulupinar H, Baysal E, Ozeke O, Sasmaz A. Asymmetric dimethylarginine plasma concentrations and L-arginine/asymmetric dimethylarginine ratio in patients with slow coronary flow. Coron Artery Dis. 2007;18:545–51.
31. Kantarci M, Gündogdu F, Doganay S, Duran C, Kalkan ME, Sagsoz ME, Kucuk O, Karakaya A, Kucuk A, Akgün M. Arterial bending angle and wall morphology correlate with slow coronary flow: determination with multidetector CT coronary angiography. Eur J Radiol. 2011;77:111–7.
32. Lambova SN, Müller-Ladner U. Capillaroscopic pattern in systemic sclerosis – an association with dynamics of processes of angio- and vasculogenesis. Microvasc Res. 2010 Dec;80:534–9.
33. Beltrán E, Toll A, Pros A, Carbonel J, Carbonel J, Pujol RM. Assessment of nail fold capillaroscopy by x 30 digital epiluminescence (dermoscopy) in patients with Raynaud phenomenon. Br J Dermatol. 2007;156:892–8.
34. Nagy Z, Czirjak L. Nail fold digital capillaroscopy in 447 patients with connective tissue disease and Raynaud’s disease. J Eur Acad Dermatol Venereol. 2004;18:62–8.
35. Harper FE, Maricq HR, Turner RE, Lidman RW, Leroy EC. A prospective study of Raynaud phenomenon and early connective tissue disease. A five-year report. Am J Med. 1982;72:883–8.
36. Gallucci F, Russo R, Buono R, Acampora R, Madrid E, Uomo G. Indications and results of videocapillaroscopy in clinical practice. Adv Med Sci. 2008;53:149–57.
37. Gasser P, Bühler FR. Nail fold microcirculation in normotensive and essential hypertensive subjects, as assessed by video-microscopy. J Hypertens. 1992;10:83–6.
38. Irving RJ, Walker BR, Noon JP, Watt GC, Webb DJ, Shore AC. Microvascular correlates of blood pressure, plasma glucose, and insulin resistance in health. Cardiovasc Res. 2002;53:271–6.
39. Górska A, Rutkowska-Sak L, Musiej-Nowakowska E, Chlabicz S, Górski S. Nail fold videocapillaroscopy – a useful tool for screening patients with juvenile idiopathic arthritis at the risk of development of premature atherosclerosis. Postepy Hig Med Dosw. 2010;64:296–302.
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