2026 Paul L. McNeil: Biology and Biochemistry Researcher – H-Index, Publications & Awards

D-Index & Metrics

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Biology and Biochemistry	58	13078	12031	5576	4988	102	13649

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Biology and Biochemistry

13078

12031

5576

4988

102

13649

Biology and Biochemistry

D-Index

Citations

13649

World Ranking

13078

National Ranking

5576

Overview

Paul L. McNeil is affiliated with Augusta University in the United States. Their research primarily focuses on the fields of Biochemistry, Genetics and Molecular Biology, and Medicine, with a more specific emphasis on Molecular Biology and Cardiology and Cardiovascular Medicine.

The scientist's work addresses several main topics, including:

Muscle Physiology and Disorders
Signaling Pathways in Disease
Cardiac Fibrosis and Remodeling

A recent publication authored by McNeil includes the paper titled Osteocyte Sptbn1 Deficiency Alters Cell Survival and Mechanotransduction Following Formation of Plasma Membrane Disruptions (PMD) from Mechanical Loading, published in 2024 within Calcified Tissue International. This paper reflects ongoing investigation into cellular responses under mechanical stress.

McNeil frequently collaborates with several researchers, including:

Russ Bestley
Mackenzie L. Hagan
Anik Tuladhar
Kanglun Yu
Dima W. Alhamad

Additionally, McNeil has contributed to book publications, most notably publishing a work titled Visual Research in 2022 through Bloomsbury Publishing plc.

Publication venues where McNeil's work has appeared include:

Calcified Tissue International

The scope of McNeil's research encapsulates molecular mechanisms underlying muscle physiology as well as pathological conditions related to cardiac tissue. Their involvement in signaling pathways and disease progression contributes to a broader understanding of cardiovascular remodeling and fibrosis processes.

Best Publications

Defective membrane repair in dysferlin-deficient muscular dystrophy

Dimple Bansal;Katsuya Miyake;Steven S. Vogel;Séverine Groh

1129
Citations
Disruptions of muscle fiber plasma membranes. Role in exercise-induced damage.

P. L. McNeil;R. Khakee

581
Citations
Plasma membrane disruption: repair, prevention, adaptation

Paul L. McNeil;Richard A. Steinhardt

544
Citations
Growth factors are released by mechanically wounded endothelial cells.

P. L. Mcneil;Lakshmi Muthukrishnan;E. Warder;P. A. D'amore

529
Citations
An emergency response team for membrane repair.

Paul L. McNeil;Tom Kirchhausen

497
Citations
Duodenal ulcer : discovery of a new mechanism and development of angiogenic therapy that accelerates healing

J Folkman;S Szabo;M Stovroff;P McNeil

390
Citations
Loss, Restoration, and Maintenance of Plasma Membrane Integrity

Paul L. McNeil;Richard A. Steinhardt

368
Citations
A method for incorporating macromolecules into adherent cells.

P L McNeil;R F Murphy;F Lanni;D L Taylor

361
Citations
Membrane Repair: Mechanisms and Pathophysiology

Sandra T. Cooper;Paul L. McNeil

334
Citations
Large Plasma Membrane Disruptions Are Rapidly Resealed by Ca2+-dependent Vesicle–Vesicle Fusion Events

Mark Terasaki;Katsuya Miyake;Paul L. McNeil

325
Citations
Loss of cytoplasmic basic fibroblast growth factor from physiologically wounded myofibers of normal and dystrophic muscle

Mark S. F. Clarke;Robert Khakee;Paul L. McNeil

283
Citations
Contraction-induced cell wounding and release of fibroblast growth factor in heart.

Mark S. F. Clarke;Robert W. Caldwell;Hsi Chiao;Katsuya Miyake

259
Citations
Vesicle accumulation and exocytosis at sites of plasma membrane disruption.

Katsuya Miyake;Paul L. McNeil

259
Citations
Requirement for annexin A1 in plasma membrane repair.

Anna K. McNeil;Ursula Rescher;Volker Gerke;Paul L. McNeil

254
Citations
Patching plasma membrane disruptions with cytoplasmic membrane

Paul L. McNeil;Steven S. Vogel;Katsuya Miyake;Mark Terasaki

244
Citations
Glass beads load macromolecules into living cells

P.L. McNeil;E. Warder

243
Citations
Basic fibroblast growth factor is efficiently released from a cytolsolic storage site through plasma membrane disruptions of endothelial cells.

Lakshmi Muthukrishnan;Elizabeth Warder;Paul L. McNeil

238
Citations
Promotion of plasma membrane repair by vitamin E

Amber Cyran Howard;Anna K. McNeil;Paul L. McNeil

233
Citations
Coping with the inevitable: how cells repair a torn surface membrane.

Paul L. McNeil;Mark Terasaki

230
Citations
Antibody neutralization of vascular endothelial growth factor inhibits wound granulation tissue formation.

Thomas R. Howdieshell;Dianne Callaway;Whitney L. Webb;Michael D. Gaines

228
Citations