Role of Mechanical Versus Humoral Effects of Angiotensin II on Vascular Remodeling

Shanbhag, Preeti Pandurang

13 January 2006

In this study, we investigated the role of Ang II in pathological vascular remodeling. We sought to determine whether the humoral or the mechanical effects of Ang II are the dominant factor driving the remodeling process. The following experimental groups were used: control group (untreated mice), mice treated with an angiotensin receptor blocker (Candesartan, 0.5 mg/kg/day,SQ), an ACE inhibitor (Captopril, 6 mg/kg/day), and a calcium-channel blocker (Amlodipine, 7.5 mg/kg/day). All mice (n=6 per experimental group) were from the C57Bl/6 background. The carotid ligation model was implemented to study the differences in vascular remodeling. Additionally, multiple time points (7-, 14-, and 21-days post-surgery) were used to track the progression of remodeling. In Day-7 analysis, all three treatment groups yielded similar remodeling patterns as evidenced by a significant reduction in neointimal area, medial thickening and hypertrophy compared with the control group. Histomorphometric analysis of carotid sections collected 1mm below the ligation demonstrated that the Amlodipine group had 26% reduction in total vessel area, Candesartan a 36% reduction, and Captopril a 28% reduction (p less than 0.05 in all groups compared with Control), as well as a parallel 38-40% drop in medial thickness. In Day-14 analysis, no significant differences between the Controls and treatment groups were observed, although differences were emerging between the treatment groups. Candesartan was found to reduce the extent of negative remodeling observed between the 7- and 14-day Control data, whereas the Captopril group did not exhibit this trend. All treatment groups exhibited less neointimal formation than Controls, similar to Day-7. By the 21-day time point, the Captopril group underwent positive remodeling, resembling the Candesartan and Amlodipine groups. Although total vessel area was analogous among all groups, neointimal areas were significantly decreased in the treatment groups. Blood pressure plays a pivotal role in the modulation of vascular remodeling in response to mechanical injury. Although intermediate timepoint analysis suggests that humoral aspects of ACE inhibition or angiotensin-receptor blockade yielded unique effects on the overall vessel caliber, upon reaching the late, 21-day time point, the mechanical factors became predominant. These data support the importance of blood pressure control in the attenuation of pathological vascular remodeling.

Vascular remodeling

Cardiovascular disease

Angiotensin II

Cardiovascular system Diseases

Blood-vessels Diseases

Modulating the Functional Contributions of c-Myc to the Human Endothelial Cell Cyclic Strain Response

Hurley, Nicole Elizabeth

09 November 2007

With each heartbeat, major arteries experience circumferential expansion due to internal pressure changes. This pulsatile force is called cyclic strain and has been implicated in playing a pivotal role in the genetic regulation of vascular physiology and pathology. This dissertation investigates the hypothesis that in human umbilical vein endothelial cells (HUVEC), pathological levels of cyclic strain activate the c-Myc promoter, leading to c-Myc transcription and downstream gene induction. To determine expression and time-dependency of c-Myc in HUVEC, mRNA and protein expression of c-Myc under physiological (6-10% cyclic strain) and pathological conditions (20% cyclic strain) were studied. Both c-Myc mRNA and protein expression increased more than three-fold in HUVEC (P4-P5) cyclically-strained at 20%. This expression occurred in a time-dependent manner, peaking in the 1.5-2 hour range and falling to basal levels by 3 hours. Subsequently, the mechanism of c-Myc transcription was investigated by using specific inhibitors to modulate c-Myc transcriptional activation. These compounds, obtained from the University of Arizona Cancer Center, attenuated cyclic-strain-induced c-Myc transcription by about 50%. Having established this reduction in expression, it was investigated how these effects modulate downstream genes that are regulated by c-Myc. The results indicate that direct targeting of the c-Myc promoter may decrease stretch-induced gene expression of vascular endothelial growth factor (VEGF), proliferating cell nuclear antigen (PCNA) and heat shock protein 60 (HSP60). These findings may help in the development of a novel therapeutic opportunity in vascular diseases.

Drug-eluting stent

Atherosclerosis

Stretching

Blood-vessels Diseases

Cardiovascular system Diseases

Strains and stresses

Myc oncogenes

Dynamic Strength of Porcine Arteries

Fan, Jinwu

15 November 2007

The failure behavior of collagenous soft tissues is important for clinical problems of plaque rupture and trauma. Cyclic tests require high frequencies that may affect the strength properties of the soft tissues. Experimental results of mechanical response of blood vessels to physiologic loads can be used to model and predict plaque rupture and direct medical therapy or surgical intervention. The goal of the study is to measure the mechanical failure properties of arteries to determine if they are strain rate and cycle dependant and to measure the progressive damage of arteries with time dependent loading. Ring specimens of porcine carotid arteries were preconditioned and then pulled to failure. In all cases, the intima broke first. Ultimate stress increased as a weak function of increasing strain rates. The ultimate stress at 100 mm/s was 4.54 MPa, greater than the 3.26 MPa at 0.1 mm/s. Strain rates between 1 and 100 mm/s correspond to a cyclic frequency of 0.5 Hz to 5 Hz for fatigue testing. In contrast, ultimate strain in arteries was independent of strain rate over the range tested. The creep tests showed a logarithmic relationship between stress magnitude and stress duration for this soft tissue. The creep testing indicates that damage is accumulating above certain threshold stress levels. The values of ultimate strength showed a 35% increase after 10,000 cycling loading. In contrast, the ultimate strain had a 13% decrease after cycling and the difference was statistically significant with p=0.018. The testing results showed that there were no significant differences on strength among fresh arteries and arteries stored at 5¡ã C for up to two weeks. The test results may be useful for developing a mathematical model to predict the behavior of arterial soft tissues and may be extended to estimate fracture and fatigue in the atherosclerotic plaque cap.

Ultimate strength

Creep

Cyclic loading

Blood-vessels

Strength of materials

Arteries

Strains and stresses

Mathematical models

AN EXAMINATION OF THE CLOSE RELATIONSHIP BETWEEN LYMPHATIC VESSELS AND NERVE FIBERS CONTAINING CALCITONIN GENE-RELATED PEPTIDE AND SUBSTANCE P IN RAT SKIN

HOSHINO, TAKESHI, YAMADA, KANSHO

27 December 1996

No description available.

Immunohistochemistory

Rat skin

Blood vessels

Lymphatic vessels

Neuropeptide-containing nerve fibers

Human Tissue Engineered Small Diameter Blood Vessels

Arief, Melissa Suen

24 September 2010

The engineering of human vascular grafts is an intense area of study since there is crucial need for alternatives to native vein or artery for vascular surgery. This current study sought to prove that a tissue engineered blood vessel (TEBV) 1mm in diameter could be developed from human smooth muscle cells and that endothelial progenitor cells (EPCs) could be cultured and used to endothelialize these grafts. This project had four specific aims: the isolation and characterization of EPCs, the seeding of a novel scaffold with EPCs and exposure to physiologic shear stress in vitro, the development of TEBV from human smooth muscle cells that are strong enough to implant in vivo, and the in vivo implantation of TEBV into the rat aortic model with a comparison of EPC seeded TEBVs pretreated with shear stress and unseeded TEBVs. The results yielded isolation of four EPC lines and a flow system design capable of seeding EPCs onto a novel scaffold with preliminary studies indicating that it is capable of exposing the EPCs to physiologic shear stress, although further studies require more optimization. The development of mechanically strong TEBV was highly successful, yielding TEBVs comparable to native vessels in collagen density and burst pressure, but with much lower compliance. Current implantation studies indicated that unseeded TEBV grafts implanted into the rat aorta without anticoagulation is highly thrombogenic. However, anticoagulation using Plavix may be capable of maintaining graft patency. These TEBVs did not rupture or form aneurysm in vivo and the future completion of the in vivo studies are likely to demonstrate the high potential of these grafts.

human

blood vessels

blood vessel prosthesis

myocytes

smooth muscle

endothelial cells

rat

tissue engineering

Roles of prostaglandin E2 receptors and chloride channels in epoxyeicosatrienoic acids-induced relaxation in rat mesentericarteries

Yang, Cui, 杨淬

January 2010

published_or_final_version / Pharmacology and Pharmacy / Doctoral / Doctor of Philosophy

Prostaglandins E - Receptors.

Chloride channels.

Unsaturated fatty acids.

Blood-vessels - Dilatation.

Rats as laboratory animals.

Effect of cardiac rehabilitation on vascular function in patients withcoronary artery disease

Luk, Ting-hin., 陸庭軒.

January 2010

published_or_final_version / Medicine / Master / Master of Research in Medicine

Blood-vessels.

Vascular effects of vitamin D3 on endothelium-dependent contractions in SHR aorta

Wong, Sze-ka., 黃思伽.

January 2010

published_or_final_version / Pharmacology and Pharmacy / Doctoral / Doctor of Philosophy

Vitamin D.

Vascular endothelium.

Aorta.

Blood-vessels - Contraction.

Hypertension - Animal models.

Rats - Physiology.

Effects of HIV protease inhibitors and non-nucleoside reverse transcriptase inbibitors on vasomotor function in rat mesentericarteries

Yeung, Yuen-ting, Yukiona., 楊菀婷.

January 2011

published_or_final_version / Pharmacology and Pharmacy / Master / Master of Philosophy

Protease inhibitors.

Reverse transcriptase - Inhibitors.

Blood vessels - Effect of drugs on.

Rats as laboratory animals.

Research of blood flow and stresses in the pathological blood vessels / Kraujo tėkmės ir įtempių pažeistose kraujagyslėse tyrimas

Kuzborska, Zyta

31 January 2012

Physical load, age and gender influence to blood pressure and maximal stresses in the pathological blood vessel palaces was studies in this work. The main research subject – pathological blood vessel and its blood flow processes that depend on physical load, pathology degree and type, age, gender and blood vessels stress characteristics. The main aim of this work – to examine blood flow characteristics, local blood pressure, stress distribution in the pathological blood vessels dependent physical load assessing blood vessels mechanical properties variations due to age, gender, blood vessel pathology type; to make simplified human efficiency evaluation methodology. The paper analyse a few main tasks: to explore physical load, blood vessels pathology degree, age and gender influence to blood pressure and tensions increase in the pathological blood vessels locations; experimentally determine blood flow rates changes in pathological blood vessels assessing; additionally investigate blood pressure and heart rate characteristics variations during set physical load and human working age range. This paper consists of introduction, four chapters, summary, literature and authors publications theses lists and two annexes. Introductory chapter discusses the test problem, work topicality, research subject, also formulates work subject and tasks, and describes research methodology, work scientific novelty, practical value of the work results, defended propositions. In the introduction end... [to full text] / Disertacijoje nagrinėjama fizinio krūvio, amžiaus bei lyties įtaka kraujo spaudimui ir didžiausiems įtempiams pažeistoje kraujagyslės vietoje. Pagrindinis tyrimo objektas – ligos pažeista kraujagyslė ir joje vykstantys kraujo tėkmės procesai, priklausantys nuo fizinio krūvio dydžio, pažeidimo laipsnio ir rūšies, amžiaus, lyties, bei šių veiksnių įtaka didžiausiems įtempiams ir spaudimui pažeistose vietose. Pagrindinis disertacijos tikslas – ištirti kraujo tėkmės charakteristikas, lokalinį kraujo spaudimą, įtempių pasiskirstymą pažeistose kraujagyslėse priklausomai nuo fizinio krūvio, įvertinant kraujagyslių mechaninių savybių pokytį dėl amžiaus, lyties, kraujagyslės pažeidimo rūšies, ir sudaryti supaprastintą darbingumo verti-nimo metodiką. Darbe sprendžiami keli uždaviniai: ištirti fizinės apkrovos dydžio, kraujagyslių pažeidimų laipsnio, amžiaus ir lyties įtaką kraujo spaudimui ir įtempių padidėjimui pažeistose kraujagyslių vietose; ekspe-rimentiniu būdu nustatyti kraujo tėkmės rodiklių pokyčius pažeistose kraujagyslėse; ištirti kraujo spaudimo ir širdies susitraukimų dažnio charakteristikų pokyčius nustatytame fizinio krūvio ir žmogaus darbingo amžiaus intervale. Disertaciją sudaro įvadas, keturi skyriai, rezultatų apibendrinimas, naudotos literatūros ir autorės publikacijų disertacijos tema sąrašai ir du priedai. Įvadiniame skyriuje aptariama tiriamoji problema, darbo aktualumas, aprašomas tyrimų objektas, formuluojamas darbo tikslas bei uždaviniai, aprašoma tyrimų... [toliau žr. visą tekstą]

Mechanical Engineering

Blood vessels

Blood flow

Pathological

Kraujogyslė

Kraujo tėkmė

Patologija