Quantification of Tortuosity and Fractal Dimension of the Lung Vessels in Pulmonary Hypertension Patients

Helmberger, Michael; Pienn, Michael; Urschler, Martin; Kullnig, P; Stollberger, Rudolf; Kovàcs, Gabór; Olschewski, Andrea; Olschewski, Horst; Bálint, Zoltán

doi:10.1371/journal.pone.0087515

Cited by 88 publications

(74 citation statements)

References 46 publications

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“…Meticulous vessel preparation with pre-dilatation, use of short stents with thinner structures, guidewires with magnetic navigation systems, use of a second guidewire for material progression ("buddy wire technique and "crooked buddy technique"), and use of the "over the wire" [36][37][38][39][40][41] system are employed. Once the lesion is overpassed with the guidewire, it may be difficult to recognize the location to implant the stent due to the rectification of the tortuous segment and appearance of phantom lesions -Concertina effect.…”

Section: Coronary Tortuosity and Coronary Angioplastymentioning

confidence: 99%

Coronary tortuosity and its role in myocardial ischemia in patients with no coronary obstructions

Estrada

Lopes

Villacorta

2017

International Journal of Cardiovascular Sciences

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The objective of this study is to make a review of the narrative of coronary artery tortuosity (CAT) approaching several situations in clinical practice where tortuosity can have a relevant role, and also evaluate if tortuosity can be related to the presence of myocardial ischemia in patients without coronary obstruction using scientific evidences in medical literature. Textbook of applied Physiology in Cardiology with study of coronary circulation, theoretical articles with studies of Hemodynamics, Fluid and Mechanical Dynamic, and experimental articles with simulation in computers were used as support to answer this last question. Introduction Coronary circulationThere are two basic types of coronary vessels: conductance and resistance vessels. The epicardial arteries, right and left, and its main and major branches that emerge in acute angle of relative large caliber work as vessels of conductance offering in the diastole minimum resistance to the blood flow. The deep perforators that originate in a right angle of the epicardial arteries penetrate deeply in the myocardial walls and nurture sub endocardial layers offering great resistance to the flow mainly in the ventricular systole. They are responsible for the coronary flow autoregulation maintaining it adequately in broad spectrum of the pressure variation and increasing the flow in exercising situations mainly through the local metabolic regulation. Microcirculation is part of the coronary circulation constituted by arterioles and capillaries responsible for regulating the oxygen supply to the myocardium.The heart is a highly aerobic organ, but it depends almost exclusively on the oxidation of the substrates to generate energy which will move it and has almost no oxygen reserve. It receives about 5% of cardiac output and it is a little perfused organ, but it is the organ that has the highest oxygen extraction of the organism.Taking into consideration Fick's equation (oxygen consumption = coronary flow X arteriovenous difference of oxygen), we verified that the physiological determinants of the coronary flow are the same that command the demand and consumption of oxygen: blood pressure, heart rate, ventricular wall tension, dP/dt maximum.According to Poiseuille's law, the flow in any vessel system is directly proportional to the difference of pressure in its extremities, and inversely proportional to the resistance of the system, which is in turn proportional to the length of the tube, viscosity of the fluid and inversely proportional to the fourth power of the radius (most important factor). Influences of vasomotility of the autonomous nervous system, of drugs, mainly of local autoregulation, determine variations in the flow. Due to cyclical pressure and variations and myocardium tension, the coronary flow, in the systole represents from 25% to 30% of the total, and from 70% to 75% in the diastole.Factors that can affect myocardial consumption of oxygen and consequently the coronary flow can be divided into 3 groups: a) Factors that affect consump...

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Section: Coronary Tortuosity and Coronary Angioplastymentioning

confidence: 99%

Coronary tortuosity and its role in myocardial ischemia in patients with no coronary obstructions

Estrada

Lopes

Villacorta

2017

International Journal of Cardiovascular Sciences

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“…A hierarchal fractal structure that is devoid of any single prominent lengthscale as well as time-scale is often observed in various kinds of soft materials [1]. The typical examples of such structure are various kinds of chemical [2,3] and physical gels [4][5][6][7], protein gels [8,9], carbohydrates [10,11], long-chain branched polymer [12] and human tissues [13,14] at the critical point. Interestingly, the critical gel behavior is exhibited by many food ingredients like wheat flour dough [15,16], egg yolks [17], milk casein [18,19] and carrageenan solution [20,21].…”

Section: Introductionmentioning

confidence: 99%

Analyzing onset of nonlinearity of a colloidal gel at the critical point

Suman

Joshi

2019

Journal of Rheology

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In this work we study onset of nonlinear rheological behavior of a colloidal dispersion of a synthetic hectorite clay, LAPONITE ® , at the critical gel state while undergoing sol-gel transition. When subjected to step strain in the nonlinear regime, the relaxation modulus shifts vertically to the lower values such that the deviation from linearity can be accommodated using a strain dependent damping function. We also perform creep-recovery and start-up shear experiments on the studied colloidal dispersion at the critical gel state and monitor deviation in response as the flow becomes nonlinear. A quasi-linear integral model is developed with the time -strain separable relaxation modulus to account for the effect of nonlinear deformation.Remarkably, the proposed model predicts the deviation from linearity in the creeprecovery and start-up shear experiments very well leading to a simple formulation to analyze the onset of nonlinear rheological behavior in the critical gels. We also analyze the energy dissipation during the nonlinear deformation and validate the Bailey criterion using the developed viscoelastic framework. .The point of departure from linearity, which we consider as the point of initiation of rupture, can be independently obtained from linear viscoelastic principles. Since l  marks the largest strain associated with the linear regime, incorporating

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“…The use of fractals, a mathematical method for determining the branching pattern of structures, directly enumerates the simplification of airways in COPD and pulmonary arteries in pulmonary hypertension (6,8). It will be of interest to discover how the FAN method helps to further elucidate the number of airways in healthy adults and their fractal dimension.…”

Section: Mark L Schiebler Md • Grace Parraga Phdmentioning

confidence: 99%