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David Nolan

David Nolan

Trinity College

H-index: 11

North America-United States

Contact David Nolan

About David Nolan

David Nolan, With an exceptional h-index of 11 and a recent h-index of 10 (since 2020), a distinguished researcher at Trinity College, specializes in the field of Biomedical Engineering, Orthopaedics, Cardiovascular, Biomechanics, Mechanobiology.

His recent articles reflect a diverse array of research interests and contributions to the field:

Computational analysis of the role of mechanosensitive Notch signaling in arterial adaptation to hypertension

Understanding the deformation gradient in Abaqus and key guidelines for anisotropic hyperelastic user material subroutines (UMATs)

An in-silico Investigation Into the Role of Strain and Structure on Vascular Smooth Muscle Cell Growth

Bovine pericardium of high fibre dispersion has high fatigue life and increased collagen content; potentially an untapped source of heart valve leaflet tissue

Pressure-induced collagen degradation in arterial tissue as a potential mechanism for degenerative arterial disease progression

Integrating finite element modelling and 3D printing to engineer biomimetic polymeric scaffolds for tissue engineering

Assessment of mechanical indicators of carotid plaque vulnerability: Geometrical curvature metric, plaque stresses and damage in tissue fibres

David Nolan Information

University

Position

Research Fellow

Citations(all)

691

Citations(since 2020)

521

Cited By

368

hIndex(all)

11

hIndex(since 2020)

10

i10Index(all)

13

i10Index(since 2020)

10

Email

University Profile Page

Google Scholar

David Nolan Skills & Research Interests

Biomedical Engineering

Orthopaedics

Cardiovascular

Biomechanics

Mechanobiology

Top articles of David Nolan

Computational analysis of the role of mechanosensitive Notch signaling in arterial adaptation to hypertension

journal of the mechanical behavior of biomedical materials

2022/9/1

Tommaso Ristori
Tommaso Ristori

H-Index: 6

Understanding the deformation gradient in Abaqus and key guidelines for anisotropic hyperelastic user material subroutines (UMATs)

Journal of the Mechanical Behavior of Biomedical Materials

2022/2/1

An in-silico Investigation Into the Role of Strain and Structure on Vascular Smooth Muscle Cell Growth

Frontiers in Bioengineering and Biotechnology

2021/4/20

Bovine pericardium of high fibre dispersion has high fatigue life and increased collagen content; potentially an untapped source of heart valve leaflet tissue

Annals of Biomedical Engineering

2021/3

Alix Whelan
Alix Whelan

H-Index: 2

Elizabeth Williams
Elizabeth Williams

H-Index: 30

Bruce Murphy
Bruce Murphy

H-Index: 24

Pressure-induced collagen degradation in arterial tissue as a potential mechanism for degenerative arterial disease progression

Journal of the Mechanical Behavior of Biomedical Materials

2020/9/1

Tommaso Ristori
Tommaso Ristori

H-Index: 6

Integrating finite element modelling and 3D printing to engineer biomimetic polymeric scaffolds for tissue engineering

2020/3/3

Assessment of mechanical indicators of carotid plaque vulnerability: Geometrical curvature metric, plaque stresses and damage in tissue fibres

Journal of the Mechanical Behavior of Biomedical Materials

2020/3/1

Milad Ghasemi
Milad Ghasemi

H-Index: 1

See List of Professors in David Nolan University(Trinity College)

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