A Rachev
Overview
Explore the profile of A Rachev including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
12
Citations
271
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Agianniotis A, Rachev A, Stergiopulos N
J Biomech
. 2012 Jun;
45(11):1924-7.
PMID: 22698830
The study verifies the development of active axial stress in the wall of mouse aorta over a range of physiological loads when the smooth muscle cells are stimulated to contract....
2.
Rachev A, Greenwald S
J Biomech
. 2003 Apr;
36(5):661-70.
PMID: 12694996
Residual strains and stresses are those that exist in a body when all external loads are removed. Residual strains in arteries can be characterized by the opening angle of the...
3.
Stergiopulos N, Vulliemoz S, Rachev A, Meister J, Greenwald S
J Vasc Res
. 2001 Jun;
38(3):237-46.
PMID: 11399896
Most previous studies of arterial wall elasticity and rheology have assumed that the properties of the wall are uniform across the thickness of the media and, therefore, that the relationship...
4.
Fridez P, Rachev A, Meister J, Hayashi K, Stergiopulos N
Am J Physiol Heart Circ Physiol
. 2001 May;
280(6):H2752-60.
PMID: 11356633
Recent experimental studies have shown significant alterations of the vascular smooth muscle (VSM) tone when an artery is subjected to an elevation in pressure. Therefore, the VSM participates in the...
5.
Rachev A, Manoach E, Berry J, Moore Jr J
J Theor Biol
. 2000 Sep;
206(3):429-43.
PMID: 10988028
The mismatch between the elastic properties and initial geometry of a host artery and an implanted stent or graft cause significant stress concentration at the zones close to junctions. This...
6.
Rachev A, Hayashi K
Ann Biomed Eng
. 1999 Sep;
27(4):459-68.
PMID: 10468230
To study the effects of smooth muscle contraction and relaxation on the strain and stress distribution in the vascular wall, a mathematical model was proposed. The artery was assumed to...
7.
Rachev A, Stergiopulos N, Meister J
J Biomech Eng
. 1998 Jul;
120(1):9-17.
PMID: 9675674
This study aimed to model phenomenologically the dynamics of arterial wall remodeling under hypertensive conditions. Sustained hypertension was simulated by a step increase in blood pressure. The arterial wall was...
8.
Greenwald S, Moore Jr J, Rachev A, Kane T, Meister J
J Biomech Eng
. 1998 Jan;
119(4):438-44.
PMID: 9407283
Arterial wall stresses are thought to be a major determinant of vascular remodeling both during normal growth and throughout the development of occlusive vascular disease. A completely physiologic mechanical model...
9.
Rachev A
J Biomech
. 1997 Aug;
30(8):819-27.
PMID: 9239567
Remodeling of arterial geometry was studied on the basis of a theoretical model. Sustained hypertension was simulated by a step increase in blood pressure. The artery was considered to be...
10.
Rachev A, Stergiopulos N, Meister J
J Biomech
. 1996 May;
29(5):635-42.
PMID: 8707790
The dynamics of arterial wall remodeling was studied on the basis of a phenomenological mathematical model. Sustained hypertension was simulated by a step increase in blood pressure. Remodeling rate equations...