Jeffrey H. Weinreb scite author profile

Background: Animal spinal cord injury (SCI) models have proved invaluable in better understanding the mechanisms involved in traumatic SCI and evaluating the effectiveness of experimental therapeutic interventions. Over the past 25 years, substantial gains have been made in developing consistent, reproducible and reliable animal SCI models. Study design: Review. Objective: The objective of this review was to consolidate current knowledge on SCI models and introduce newer paradigms that are currently being developed. Results: SCI models are categorized based on the mechanism of injury into contusion, compression, distraction, dislocation, transection or chemical models. Contusion devices inflict a transient, acute injury to the spinal cord using a weight-drop technique, electromagnetic impactor or air pressure. Compression devices compress the cord at specific force and duration to cause SCI. Distraction SCI devices inflict graded injury by controlled stretching of the cord. Mechanical displacement of the vertebrae is utilized to produce dislocation-type SCI. Surgical transection of the cord, partial or complete, is particularly useful in regenerative medicine. Finally, chemically induced SCI replicates select components of the secondary injury cascade. Although rodents remain the most commonly used species and are best suited for preliminary SCI studies, large animal and nonhuman primate experiments better approximate human SCI. Conclusion: All SCI models aim to replicate SCI in humans as closely as possible. Given the recent improvements in commonly used models and development of newer paradigms, much progress is anticipated in the coming years. Spinal Cord (2014) 52, 588-595; doi:10.1038/sc.2014.91; published online 10 June 2014 INTRODUCTIONSpinal cord injury (SCI) models have proved indispensible not only for investigating the efficacy of therapeutic interventions but also for better understanding the molecular pathways involved. SCI models have evolved significantly over the past century since Allen developed the first weight-drop contusion model in 1911. 1 SCI models aim to recreate features of human SCI as closely as possible. These models vary in terms of the animal utilized, site of injury infliction and injury mechanism.Rats are used most commonly in preliminary studies as they are relatively inexpensive, readily available and have demonstrated similar functional, electrophysiological, and morphological outcomes to humans following SCI. 2 Mice are particularly useful for genetic studies. 3 Nonhuman primate SCI models-including marmosets, macaques and squirrel monkeys-better approximate human SCI than rodent models, and they accommodate assessment of multiple recovery variables and rehabilitative therapy. 4 New world primates like marmosets confer advantages over old world primates as they are smaller, easier to handle, have a higher breeding efficiency and can be bred in experimental colonies. SCI models that incorporate large animals-such as pigs or dogs-can also be used when it is important for furth...

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The enthesis: a review of the tendon-to-bone insertion

Apostolakos

Durant

Dwyer

et al. 2019

Muscle Ligaments and Tendons J

204

163

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The integration of tendon into bone occurs at a specialized interface known as the enthesis. The fibrous tendon to bone enthesis is established through a structurally continuous gradient from uncalcified tendon to calcified bone. The enthesis exhibits gradients in tissue organization classified into four distinct zones with varying cellular compositions, mechanical properties, and functions in order to facilitate joint movement. Damage to tendinous insertions is common in the field of orthopaedic medicine and often involves surgical intervention that requires the attempted recreation of the natural organization of tendon into bone. The difficulty associated with recreating the distinct organization may account for the surgical challenges associated with reconstruction of damaged insertion sites. These procedures are often associated with high failure rates and consequently require revision procedures. Management of tendinous injuries and recon-struction of the insertion site is becoming a popular topic in the field of orthopaedic medicine.

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Tendon structure, disease, and imaging

Weinreb

Sheth

Apostolakos

et al. 2019

Muscle Ligaments and Tendons J

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Tendon imaging plays a critical role in evaluating tendon diseases and injuries including mechanical, degenerative, and overuse disease, inflammatory enthesitis, as well as partial and full thickness tears. Ultrasound and magnetic resonance imaging (MRI), each with unique benefits and limitations, are commonly utilized to assist in diagnosing these diseases and conditions. This review delineates important structural properties of tendon and biochemical changes occurring in tendon pathology. This review also examines commonly injured tendons including tendons of the elbow, tendons of the rotator cuff of the shoulder, hip abductor tendons, patellar tendons, and the Achilles tendon to help clinicians better recognize tendon disease. Finally, this paper introduces several emerging imaging techniques including T2 mapping, ultra-short echo time MRI, and sonoelastography as ways in which tendon imaging and evaluation may be improved.

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Comparison of complications, costs, and length of stay of three different lumbar interbody fusion techniques: an analysis of the Nationwide Inpatient Sample database

Goz¹,

Weinreb²,

Schwab³

et al. 2014

The Spine Journal

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Perioperative Complications and Mortality After Spinal Fusions

Goz

Weinreb

McCarthy

et al. 2013

Spine

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