Tag Archives: Neuroscience

Exciting New UBC Research Could Provide A Cure For Spinal Cord Injuries

Introduction

Yearly, there are between 250,000 to 500,000 people who suffer a spinal cord injury (SCI) worldwide. In Canada, an SCI will cost on average $1.5 to 3 million per person over their lifetime. Also, people with SCIs are 2 to 5 times more likely to die earlier than a person without an SCI. The significant amount of SCIs and the cost associated with this traumatic event has researchers eager to find a cure, but there has not been a successful solution so far. However, UBC researchers think they may have found a potential solution.

What is The Spinal Cord?

The spinal cord is a column of nerves that runs down the middle of your back. It functions to carry sensory information from your body to your brain, motor signals from your brain to your body and controls an individual’s reflex responses. The spinal cord is an essential part of the human body and allows us to sense and interact with our surrounding environment. Therefore, it can have profound implications when the spinal cord gets damaged. 

Cause of Spinal Cord Injuries

The most common cause for SCIs is from trauma to the back: motor vehicle accidents for younger individuals and falls for those over 65 in the USA. Over 50% of spinal cord injuries occur in individuals between the ages of 16-30 years, with most being males. 

Statistics associated with SCIs show the significance of this injury to society.
Source: https://mendthegap.ubc.ca/approach/

EXCITING NEW UBC RESEARCH

UBC researchers just received a $24 million grant for their “Mend the Gap” project working on spinal cord regeneration. The UBC scientist Dr. John Madden leads this project and works with engineers and researchers from Canada, the United States, Europe and Australia. The projects have 32 researchers from many disciplines, including electrical engineers, material chemists, microbiologists, neurobiologists, and neurosurgeons. Dr. Madden and his team hope to have the project completed in seven years. 

UBC’s Mend the Gap teams unimaginable breakthrough in the world of SCI research. Source:  Project Video By UBC Applied Science 

The team’s research aims to use a soft gel containing small magnetic pieces that will help guide and reconnect the nerves damaged in the spinal cord. “Mend the Gap” has had success doing this in an artificial environment and is now working toward how this concept can be applied to the human body. The soft gel can modify itself to perfectly fit different shapes and sizes of gaps within the spinal cord in a non-invasive way. Furthermore, the gel contains medication that could help reduce scar tissue and help speed up the regeneration process. 

The research method has complex procedural steps that rely on the use of a magnetic field. Source: https://mendthegap.ubc.ca/approach/

Importance of the Research 

There are many people with SCIs globally; thus, they have a higher risk of mortality, demonstrating just how important this potentially life-saving research is and the impact it can have. Ultimately, this research has vast potential for impacting the lives of those with SCIs and provides hope for the future of spinal cord injury research.

Video

Exercise can Improve Brain Chemistry by Protecting Aging Synapses

 

Covid-19 pandemic has impacted communities across the world. In order to mitigate the spread of virus, the government is promotoming  ‘social distacing’ at a population level and ‘self-isolation’ of elderly people. However, despite the importance of Public Health and Social Measures (PHSM), the government face challenges to maintaining a physically active lifestyle, particularly for older adults.

According to the United Nations Department of Economic and Social Affairs Population Division, it is predicted that the global population of elderly people in developed and developing countries will double by 2050. As the number of people aged over 80 years is rising rapidly, it is increasingly important for individuals to maintain their quality of life, whilst preventing chronic conditions.

Physical activity among elders is one of the most widely recommended practices to support the brain, cognitive aging, and even delay memory loss from Alzheimer’s disease.

Elderly People Should Exercise Regularly           Credit: Donald Davis

According to a UC San Francisco study which was the first to utilize a set of data from human subjects, it has been discovered that proteins, which aid connection between neurons to maintain healthy cognition function, are found more abundantly in elderly people who remain more active.

This discovery has also been proven true in people with toxic proteins linked to Alzheimer’s and other neurodegenerative diseases.

Furthermore, microglia is a specialized population of macrophages in the central nervous system (CNS) that can regulate a potent inflammatory response by clearing away biological debris in the brain.

YouTube Preview ImageSource: What Are Microglia?

During communication between neurotransmitters, the neuron releases a small peptide called amyloid-beta. An accumulation of amyloid-beta, in severe cases, result in memory loss and other cognitive diseases; the microglia is important because it clears such accumulation.

YouTube Preview Image Source:What you can do to prevent Alzheimer’s 

One such cognitive disease that is affected by accumulation of amyloid beta is Alzheimer’s. While the main cause of Alzheimer’s is still debated among many scientists, most neuroscientists believe that this is true.

To prove the effectiveness of elderly physical activity on cognitive health and wellbeing, Kaitlin Casaletto, Ph.D., an assistant professor of Neurology, conducted a study to show the relationship between synaptic protein regulation and physical activity.

More Proteins Mean Better Nerve Signals

Her study traced the late-life physical activity of elderly participants who gave consent to donate their brains after death. Researchers examined 167 stored brains to trace lingering biochemical markers of microglia activity.

The research found a strong linear relationship between levels of activity and healthy microglia, especially in the hippocampus, which is known to regulate memory as well as other functions in the brain. Also, more protein was found in the brains of elderly people who remained more active during their late years.

Greater average late-life physical activity relates to higher synaptic protein
Credit: Kaitlin Casaletto PhD

On the other hand, the relatively less active participants’ microglia tended to look very dysfunctional with low memory capacity compared to those with more active lifestyles.

While there is no perfect cure for Alzheimer’s disease, there are things we can still do to delay or alter complete memory loss. Since recent research has exemplified the positive overall effect of physical activity on cognitive health and function, a greater focus on educating elders and caretakers to support a more proactive and physical lifestyle may be worth pursuing. Turns out, exercise is not only good for the heart and the body, but also for our most used organ – the brain.

-Yeonjun (Irene) Choi