Categories
Scar mitigation

Chondroitinase improves anatomical and functional outcomes after primate spinal cord injury

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Abstract

Inhibitory extracellular matrices form around mature neurons as perineuronal nets containing chondroitin sulfate proteoglycans that limit axonal sprouting after CNS injury. The enzyme chondroitinase (Chase) degrades inhibitory chondroitin sulfate proteoglycans and improves axonal sprouting and functional recovery after spinal cord injury in rodents. We evaluated the effects of Chase in rhesus monkeys that had undergone C7 spinal cord hemisection. Four weeks after hemisection, we administered multiple intraparenchymal Chase injections below the lesion, targeting spinal cord circuits that control hand function. Hand function improved significantly in Chase-treated monkeys relative to vehicle-injected controls. Moreover, Chase significantly increased corticospinal axon growth and the number of synapses formed by corticospinal terminals in gray matter caudal to the lesion. No detrimental effects were detected. This approach appears to merit clinical translation in spinal cord injury.

Categories
Scar mitigation

Chondroitinase ABC promotes functional recovery after spinal cord injury

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Abstract

The inability of axons to regenerate after a spinal cord injury in the adult mammalian central nervous system (CNS) can lead to permanent paralysis. At sites of CNS injury, a glial scar develops, containing extracellular matrix molecules including chondroitin sulphate proteoglycans (CSPGs)1,2. CSPGs are inhibitory to axon growth in vitro3,4,5, and regenerating axons stop at CSPG-rich regions in vivo6. Removing CSPG glycosaminoglycan (GAG) chains attenuates CSPG inhibitory activity7,8,9,10. To test the functional effects of degrading chondroitin sulphate (CS)-GAG after spinal cord injury, we delivered chondroitinase ABC (ChABC) to the lesioned dorsal columns of adult rats. We show that intrathecal treatment with ChABC degraded CS-GAG at the injury site, upregulated a regeneration-associated protein in injured neurons, and promoted regeneration of both ascending sensory projections and descending corticospinal tract axons. ChABC treatment also restored post-synaptic activity below the lesion after electrical stimulation of corticospinal neurons, and promoted functional recovery of locomotor and proprioceptive behaviours. Our results demonstrate that CSPGs are important inhibitory molecules in vivo and suggest that their manipulation will be useful for treatment of human spinal injuries.

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Stem cells

World’s first: Drug guides stem cells to desired location, improving their ability to heal

Article

Scientists at Sanford Burnham Prebys Medical Discovery Institute have created a drug that can lure stem cells to damaged tissue and improve treatment efficacy — a scientific first and major advance for the field of regenerative medicine. The discovery, published in the Proceedings of the National Academy of Sciences (PNAS), could improve current stem cell therapies designed to treat such neurological disorders as spinal cord injury, stroke, amyotrophic lateral sclerosis?(ALS) and other neurodegenerative disorders; and expand their use to new conditions, such as heart disease or arthritis. (excerpt)

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Stem cells

Why Stem Cells Work: Trials for Spinal Cord Injury, MS, Rheumatoid Arthritis, and Duchenne’s

Neil Riordan, PhD speaks at the Riordan-McKenna Institute and Stem Cell Institute fall seminar in Southlake, Texas on October 10, 2015.

Categories
Stem cells

Umbilical Cord Blood Cell Transplant Into Injured Spinal Cord With Lithium Carbonate or Placebo Followed by Locomotor Training

Clinical Trial

Recruitment Status  : Not yet recruiting

First Posted  : June 7, 2019

Last Update Posted  : October 27, 2020

Categories
Stem cells

The Wild West of Stem Cells in the United States – Roberta Shapiro

Dr. Roberta Shapiro, Assistant Clinical Professor at Columbia University Medical Center discusses the “Wild West of Stem Cells in the United States. She touches upon topics that include: promises of “miracle” cures for a wide variety of diseases and conditions, unwarranted warnings of danger, FDA oversight, types of stem cell treatments and other treatments such as PRP, safety, sham clinical trials, and how to properly assess a lab.

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Stem cells

Stem Cells journal paper describes breakthrough in producing neurons from stem cells

https://www.eurekalert.org/pub_releases/2020-12/ai-scj110620.php#

MINNEAPOLIS, MN — October 20th, 2020 — New work published in the scientific journal Stem Cells by investigators from the Stem Cell Institute at the University of Minnesota describes a scientific breakthrough that could help accelerate development of new treatments for neurological conditions. Researchers from the laboratories of Drs. James R. Dutton and Ann M. Parr for the first time overcame a major “speed limit” in manufacturing human neurons from human induced pluripotent stem cells (hiPSCs). (excerpt)

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Stem cells

Stem Cell Spinal Cord Injury Exoskeleton and Virtual Reality Treatment Study (SciExVR)

Clinical trial

Recruitment Status  : Recruiting

First Posted  : July 21, 2017

Last Update Posted  : September 11, 2020

Categories
Stem cells

Stem Cell Grafts Make Functional Connections In Spinal Injuries In Mice

Article

A study published in Cell Stem Cell has demonstrated that implanted neural stem cells can form connections not only between themselves but also with the host’s own neural network in mice. (excerpt)

Categories
Stem cells

Steering Stem Cells to Repair Sites Using Inflammo-Free Inflammo-Attraction