Kevin D Browne

Overview

Explore the profile of Kevin D Browne including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 74

Citations 1263

Followers 0

Related Specialties

Neurology

Biomedical Engineering

Critical Care

Top 10 Co-Authors

Douglas H Smith

D Kacy Cullen

Justin C Burrell

Victoria E Johnson

John A Wolf

Jose L Pascual

Kathryn L Wofford

John E Duda

Franco A Laimo

Xiao-Han Chen

Published In

J Trauma Acute Care Surg

J Neurotrauma

Int J Offender Ther Comp Criminol

Exp Neurol

Tissue Eng Part A

Affiliations

Soon will be listed here.

Recent Articles

11.

Tissue-engineered grafts exploit axon-facilitated axon regeneration and pathway protection to enable recovery after 5-cm nerve defects in pigs

Smith D, Burrell J, Browne K, Katiyar K, Ezra M, Dutton J, et al.

Sci Adv . 2022 Nov; 8(44):eabm3291. PMID: 36332027

Functional restoration following major peripheral nerve injury (PNI) is challenging, given slow axon growth rates and eventual regenerative pathway degradation in the absence of axons. We are developing tissue-engineered nerve...

12.

Engineered neuronal microtissue provides exogenous axons for delayed nerve fusion and rapid neuromuscular recovery in rats

Burrell J, Das S, Laimo F, Katiyar K, Browne K, Shultz R, et al.

Bioact Mater . 2022 Apr; 18:339-353. PMID: 35415305

Nerve injury requiring surgical repair often results in poor functional recovery due to the inability of host axons to re-grow long distances and reform meaningful connections with the target muscle....

13.

Neurorrhaphy in Presence of Polyethylene Glycol Enables Immediate Electrophysiological Conduction in Porcine Model of Facial Nerve Injury

Petrov D, Burrell J, Browne K, Laimo F, Roberts S, Ali Z, et al.

Front Surg . 2022 Mar; 9:811544. PMID: 35341161

Facial nerve trauma often leads to disfiguring facial muscle paralysis. Despite several promising advancements, facial nerve repair procedures often do not lead to complete functional recovery. Development of novel repair...

14.

Relationships between injury kinematics, neurological recovery, and pathology following concussion

Wofford K, Grovola M, Adewole D, Browne K, Putt M, ODonnell J, et al.

Brain Commun . 2021 Dec; 3(4):fcab268. PMID: 34934944

Mild traumatic brain injury affects millions of individuals annually primarily through falls, traffic collisions, or blunt trauma and can generate symptoms that persist for years. Closed-head rotational loading is the...

15.

Biopreservation of living tissue engineered nerve grafts

Shultz R, Katiyar K, Laimo F, Burrell J, Browne K, Ali Z, et al.

J Tissue Eng . 2021 Aug; 12:20417314211032488. PMID: 34394908

Tissue engineered nerve grafts (TENGs) built from living neurons and aligned axon tracts offer a revolutionary new approach as "living scaffolds" to bridge major peripheral nerve defects. Clinical application, however,...

16.

Diverse changes in microglia morphology and axonal pathology during the course of 1 year after mild traumatic brain injury in pigs

Grovola M, Paleologos N, Brown D, Tran N, Wofford K, Harris J, et al.

Brain Pathol . 2021 May; 31(5):e12953. PMID: 33960556

Over 2.8 million people experience mild traumatic brain injury (TBI) in the United States each year, which may lead to long-term neurological dysfunction. The mechanical forces that are caused by...

17.

Dietary manipulation of vulnerability to traumatic brain injury-induced neuronal plasma membrane permeability

Keating C, Browne K, Cullen D

Exp Neurol . 2021 Feb; 340:113649. PMID: 33600812

Traumatic brain injury (TBI) can produce physical disruptions in the plasma membranes of neurons, referred to as mechanoporation, which lead to increased cell permeability. We suspect that such trauma-induced membrane...

18.

Biomanufacturing of Axon-Based Tissue Engineered Nerve Grafts Using Porcine GalSafe Neurons

Katiyar K, Burrell J, Laimo F, Browne K, Bianchi J, Walters A, et al.

Tissue Eng Part A . 2021 Jan; 27(19-20):1305-1320. PMID: 33514288

Existing strategies for repair of major peripheral nerve injury (PNI) are inefficient at promoting axon regeneration and functional recovery and are generally ineffective for nerve lesions >5 cm. To address...

19.

Implantation of Engineered Axon Tracts to Bridge Spinal Cord Injury Beyond the Glial Scar in Rats

Sullivan P, AlBayar A, Burrell J, Browne K, Arena J, Johnson V, et al.

Tissue Eng Part A . 2021 Jan; 27(19-20):1264-1274. PMID: 33430694

Regeneration after spinal cord injury (SCI) is limited by the presence of a glial scar and inhibitory cell signaling pathways that favor scar formation over regrowth of endogenous neurons. Tissue...

20.

Tissue engineered axon-based "living scaffolds" promote survival of spinal cord motor neurons following peripheral nerve repair

Maggiore J, Burrell J, Browne K, Katiyar K, Laimo F, Ali Z, et al.

J Tissue Eng Regen Med . 2020 Oct; 14(12):1892-1907. PMID: 33049797

Peripheral nerve injury (PNI) impacts millions annually, often leaving debilitated patients with minimal repair options to improve functional recovery. Our group has previously developed tissue engineered nerve grafts (TENGs) featuring...