Classification of Pressure Gradient of Human Common Carotid Artery and Ascending Aorta on the Basis of Age and Gender

@article{Saini2016ClassificationOP,
  title={Classification of Pressure Gradient of Human Common Carotid Artery and Ascending Aorta on the Basis of Age and Gender},
  author={Renu Saini and Sharda Vashisth and Ruchika Bhatia},
  journal={International Journal of Computer Applications},
  year={2016},
  volume={145},
  pages={15-19}
}
The current work is done to see which artery has more chance of having cardiovascular diseases by measuring value of pressure gradient in the common carotid artery (CCA) and ascending aorta according to age and gender. Pressure gradient is determined in the CCA and ascending aorta of presumed healthy volunteers, having age between 10 and 60 years. A real 2D model of both aorta and common carotid artery is constructed for different age groups using computational fluid dynamics (CFD). Pressure… 

Modelling of the carotid artery Modelamiento de la arteria carótida

rEsumEn This study presents a modelling for the carotid artery that allows to analyze the theoretical behavior of pressure, flow and arterial volume in it, from the variation of both physical and

References

SHOWING 1-10 OF 19 REFERENCES

Flow velocity patterns in and distensibility of the carotid artery bulb in subjects of various ages.

TLDR
The velocity patterns in the carotid artery bulb of younger subjects corroborate the patterns observed in models, and the diminished flow and recirculation in the older subjects might result from alterations in distensibility at the transition from common to internal carotids artery with increasing age.

Piezoelectric sensor to non-invasively detect age associated changes in human carotid pulse

TLDR
The developed work presents a simple and cost-effective method wherein carotid artery pressure waveform of subjects of different age groups is recorded using piezoelectric sensor and then analysed using MATLAB to find the systolic, diastolic and inflection points that are used to calculate augmentation index and find the changes that occur in the augmentation Index with age.

WALL SHEAR STRESS IN A SUBJECT SPECIFIC HUMAN AORTA - INFLUENCE OF FLUID-STRUCTURE INTERACTION

TLDR
It was found that the influence of wall motion was low on time-averaged WSS and oscillating shear index, but when regarding instantaneous WSS values the effect from the wall motionWas clearly visible, and a FSI simulation should be considered.

Online acquisition and wireless transmission of carotid pulse waveforms to analyse posture related changes

TLDR
Carotid pulse waveforms obtained from the human subject with the help of piezoelectric transducer may be used to analyse the cardiac activity and change in heart rate due to change in the posture may help explain G stress effect on humans.

Age‐related changes in aortic 3D blood flow velocities and wall shear stress: Implications for the identification of altered hemodynamics in patients with aortic valve disease

To investigate age‐related changes in peak systolic aortic 3D velocity and wall shear stress (WSS) in healthy controls and to investigate the importance of age‐matching for 3D mapping of abnormal