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O p e n  A c c e s s   
 

                   A breakthrough in Alzheimer’s Disease  
 

Taimoor Hassan 
Lecturer, Department of Health Professional Technologies, University of Lahore. 

 

 

Dear Editor, 

I am writing to you in order to highlight one of the 

causative factors of Alzheimer's disease which is 

among the most prevalent types of dementia 

worldwide. Australian researchers discovered one of 

the possible origins of Alzheimer's disease which is a 

"breakthrough" according to some. Scientists have 

gained a better grasp of why and how Alzheimer's 

disease arises by researching the blood-brain 

barrier. Their findings point to possible therapy and 

preventive strategies for the neurodegenerative 

disorder.1 

Alzheimer's disease is a neurodegenerative illness 

that affects areas of the brain involved in memory, 

thinking, and language. Its symptoms range from 

moderate memory loss to inability to hold 

conversations to disorientation and mood swings in 

the environment. Centers for Disease Control and 

Prevention (CDC) opines that, up to 7 million 

American residents have Alzheimer's disease. 

Previous literature has demonstrated that a person's 

risk of getting Alzheimer's disease is influenced by 

plethora of factors.2 Nevertheless, scientists in 

Australia have now uncovered a new component 

that may be to blame for the onset of this 

neurodegenerative disease. Dr. John Mamo, head of  

 

Correspondence: Taimoor Hasaan 
Email:taimoorhassan408.th@gmail.com 
Cite this editorial: Hassan T. A breakthrough in 
Alzheimer’s Disease J Islamabad Med Dental Coll. 2022; 
11(3):135-137 
 DOI: https://doi.org/10.35787/jimdc.v11i3.793 

the Curtin Health Innovation Research Institute at 

Curtin University in Perth, Australia and lead study 

author described the new research's findings to 

Medical News Today. 

 “To identify new chances to prevent and cure 

Alzheimer's, we need to understand what truly 

causes the illness, which is currently unknown,” he 

added.1 “This work indicates that an excess of 

potentially hazardous fat-protein complexes in the 

blood can damage small brain blood vessels called 

capillaries and then seep into the brain, triggering 

inflammation and brain cell death,” Changes in 

dietary habits and some medicines may possibly 

reduce blood concentrations of these hazardous fat-

protein complexes, thus lowering the risk of 

Alzheimer's or slowing disease progression,” he 

concluded.1,2,3 

Dr. Mamo and his colleagues are attempting to 

identify previously unknown origins of Alzheimer's 

disease. They believe that this may lead to new areas 

of research and unique possible therapies for the 

disease.4 

The researchers utilized two mouse models in their 

latest study. They genetically changed the test 

animals' livers such that they produced human 

amyloid-beta. This is the protein component of the 

deadly protein-fat complex that scientists suspected 

was the cause of Alzheimer's disease. The control 

group showed no genetic changes. The researchers 

treated both groups to a fear-motivated memory 

test for cognitive skills over time and recorded the 

findings. 

L E T T E R  T O  E D I T O R  
 

mailto:taimoorhassan408.th@gmail.com


 
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The researchers discovered that when amyloid-beta 

proteins produced in the test mice's liver merged 

with lipids and went to the brain, they disrupted the 

correct functioning of the brain's tiny blood vessels, 

or capillaries. Because of the malfunction in the 

blood-brain barrier, protein-fat complexes leaked 

from the blood into the brain, causing inflammation. 

This inflammation occurred in both the test and 

control groups, although it began considerably 

earlier in the test group.6 The researchers also 

looked at a neurodegenerative marker and 

discovered that it was around two times higher in 

the test animals than in control mice of the same 

age. As a result, it was expected that during the 

cognitive function test, the test mice did around half 

as well as the control group in terms of learning 

retention. These findings provide answers to long-

standing concerns concerning the function of 

amyloid-beta in the development of Alzheimer's 

disease. The importance of the study results was 

conveyed to MNT by Warren Harding, board 

chairman of Alzheimer's WA. He stated: “Without 

significant medical advances like the one made by 

Prof. Mamo's team, the number of Australians living 

with dementia is expected to exceed one million by 

2058. These findings have the potential to have a 

large global impact on the millions of people living 

with Alzheimer's disease.”1,6 

Previously, it was considered that genetic variables 

had a significant influence in the likelihood of getting 

Alzheimer's disease (AD). Early-onset familial 

Alzheimer's disease is caused by rare mutations in at 

least three genes. A frequent variation in the 

apolipoprotein E gene is the main risk factor among 

families with late-onset AD, and in the local 

population. However, advanced age remains the 

most well-established risk factor for Alzheimer's 

disease. Environmental factors may also play a role 

in disease manifestation.7 Oxidative damage and 

messenger RNA alterations are two pathogenic 

causes that are directly linked to aging. Other 

variables unrelated to aging may be susceptible to 

therapeutic intervention in the future, such as 

estrogen replacement treatment for 

postmenopausal women, anti-inflammatory 

medication therapy, and lowering vascular risk 

factors. Older beliefs, such as aluminum's role in the 

pathogenesis of Alzheimer's disease, have mainly 

been abandoned as our understanding of the 

pathogenic pathways of Alzheimer's disease has 

evolved.8 With limited known risk factors associated 

with Alzheimer’s disease, we have also very limited 

choice of allopathic treatment for AD patients such 

as Cholinesterase inhibitors (tacrine, donepezil, 

metrifonate etc.). Plant extracts such as alpha-

tocopherol, selegiline, gingko biloba etc., are also 

being used widely to treat this neurodegenerative 

disorder.8 

The fact that the researchers only used animal 

models is one of the study's limitations. This means 

that, despite promising results, more research, 

particularly in humans, is required. Nevertheless, 

acknowledging how the amyloid-beta-fat complex 

affects brain capillaries could start opening potential 

medical possibilities to either cure Alzheimer’s 

disease or slow down the condition’s development. 

Although, it is a long road from mouse studies to 

human treatments, but such laboratory research is 

critical to making the advances needed to combat 

this severe, and increasingly common, condition.2,4 

Keywords: Alzheimer Disease, Blood brain barrier, 

Beta-amyloid protein, Dementia. 

 

R E F E R E N C E S  

1. Yahaya H. Likely cause of Alzheimer’s identified 
in a new study. Medical News Today. [Available 
online from September 18, 2021]. Available 
online at: 
https://www.medicalnewstoday.com/articles/li
kely-cause-of-alzheimers-identified-in-new-
study?utm_source=Sailthru%20Email&utm_me
dium=Email&utm_campaign=dedicated&utm_c
ontent=2021-10-
03&apid=38880177&rvid=099b221a12ebaa5e8f



 
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c3f5857833d63a836dcadcdfaaffb83ce4c7db6a7
76d2f [Cited on October 4, 2021] 

2. Centers for Disease control and Prevention. 
Alzheimer’s disease and related dementias. CDC. 
[Online]. Available online at: 
https://www.cdc.gov/aging/aginginfo/alzheime
rs.htm [Cited on October 4, 2021] 

3. NIH. What causes Alzheimer’s Disease?. NIH. 
[Online]. Available online at: 
https://www.nia.nih.gov/health/what-causes-
alzheimers-disease [Cited on October 4, 2021] 

4. Curtin University. Likely cause of Alzheimer’s 
disease identified. Sciencedaily. [Available online 
from September 15, 2021]. Available online at: 
https://www.sciencedaily.com/releases/2021/0
9/210915161348.htm [Cited on October 4, 2021] 

5. Scitechdaily. Groundbreaking Research 
Identifies Likely Cause of Alzheimer’s Disease – 
Potential for New Treatment. [Available online 
from September 15, 2021]. Available online at: 
https://scitechdaily.com/groundbreaking-
research-identifies-likely-cause-of-alzheimers-
disease-potential-for-new-treatment/ [Cited on 
October 4, 2021] 

6. Robtizski D. Scientists may have been discovered 
the cause of Alzheimer’s disease. Futurism. 
[Available online from September 2021]. 
Available online at: 
https://futurism.com/neoscope/scientists-
cause-alzheimers-disease [Cited October 4, 
2021] 

7. Armstrong RA. What causes Alzheimer's 
disease?. Folia Neuropathol. 2013 Dec 
31;51(3):169-88. 

8. Hassan T, Saeed S, Hassan M, Naseem S, 
Siddique S. Ethnomedicinal plants in the 
treatment of neurodegenerative diseases: a 
narrative. Gomal j med sci. 2021 Jan;19(1):35-44. 

https://www.sciencedaily.com/releases/2021/09/210915161348.htm
https://www.sciencedaily.com/releases/2021/09/210915161348.htm