de'Montmorency College of dentistry Alumni Association

de'Montmorency College of dentistry Alumni Association This is an attempt of reunion, for graduates of de'Montmorency college of
dentistry.

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10/30/2025

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Recent research has revealed something extraordinary — wisdom teeth may not be as useless as once thought. Studies suggest that the soft tissue inside these teeth contains mesenchymal stem cells (MSCs) — the same powerful type used in regenerative medicine.

These MSCs have the remarkable ability to transform into heart cells, aiding in the repair of damaged cardiac tissue; neurons, which could help in treating brain injuries and neurodegenerative diseases; and bone or cartilage cells, useful in healing fractures and arthritis.

Scientists found that stem cells from wisdom teeth are easier to extract than bone marrow, non-controversial since no embryos are involved, and multiply rapidly in laboratory conditions, making them ideal for research and potential therapies.

This opens a fascinating door for future treatments of Alzheimer’s, Parkinson’s, heart attacks, spinal injuries, and osteoporosis. In fact, some people are now banking their wisdom teeth, much like cord blood, to preserve their stem cells for future use.

What was once considered a mere evolutionary leftover might actually be the body’s hidden healing reserve — a natural backup kit for regeneration and recovery.

Three Icons Class of 1982, Tahir Paul in private practice, San Diego, Ca. Khalid Almas Renowned  professor at University...
09/27/2025

Three Icons Class of 1982, Tahir Paul in private practice, San Diego, Ca. Khalid Almas Renowned professor at University in Saudi Arabia, Khalil Ibrahim Pillodia, private Practice in Zeerast, South Africa.

09/16/2025

Bruxism is identified as the source of a young woman’s pain and headaches, emphasising the importance of oral examination in general practice.

05/31/2025

Global trial shows immunotherapy drug significantly lowers chance of cancer spreading or returning

This is absolute tragedy
04/27/2024

This is absolute tragedy

Ramazan Yilmaz, 40, went to a private dental clinic in Bursa with a toothache. But he was rushed to hospital after an implant allefedly pierced his jawbone.

04/27/2024

Many penicillin drug allergy labels are inaccurate — an issue Anjeli Kalra, MD, is working to address to improve patients' health.

04/21/2024

APRIL 15, 2024
4 MIN READ
Colon Cancer Linked to Mouth Bacteria
Genomic research of Fusobacterium nucleatum isolated from colon cancer tumors may help researchers develop future screening tests and cancer vaccines
BY MAGGIE CHEN
Computer illustration of orange worm like bacteria on green background.
Fusobacterium bacteria. Kateryna Kon/Science Photo Library/Getty Images
Cancer
A healthy colon is a marvelously effective organ that squeezes nutrients and water out of food while pumping out waste. But sometimes small clumps of abnormal cells grow on the colon’s lining and turn into cancer. Colon cancer is relatively common but tricky to catch; it can only be confirmed with a colonoscopy or surgery. And a recent, so-far-unexplained rise in colon cancer rates among younger people has ramped up urgency in learning more about how the disease works—and how to prevent it.

Pinning down colon cancer’s genetic or environmental causes has been a complex and long-running quest, but a new study in Nature points to a promising clue: a bacterium typically found in the human mouth. The study found that a specific subtype, or clade, within a subspecies of Fusobacterium nucleatum was linked to colon cancer growth and progression. These results, the study authors say, could lead to better noninvasive diagnostic methods for colon cancer and could even suggest new therapies targeting these bacteria for tumor elimination.

F. nucleatum, associated with dental plaque and gingivitis, occurs naturally in the mouth microbiome. A decade ago scientists discovered that the bacterium was also found in colon cancer more often than in normal colon tissue. “This was particularly interesting because this microbe in noncancerous individuals is usually not present below the [mouth],” says the new study’s co-senior author Susan Bullman, a biologist at the Fred Hutchinson Cancer Center.

To further explore the microbe’s relationship to colon cancer, Bullman and her colleagues conducted extensive sequencing on F. nucleatum within colon cancer tumors and looked at how the microbe influenced the intestinal environment. The team first analyzed the genomes of F. nucleatum found in colon tumors in order to compare them with those found in the mouth. It collected colon tumors from approximately 100 people and then broke up the tumors and placed them on agar plates to allow the microbes present to grow.

After isolating the F. nucleatum from these cultures, the scientists performed a process called long-read sequencing to get a comprehensive look at the bacterium’s genome. Most traditional sequencing methods rely on what scientists call “short reads”—which is like “assembling a puzzle where you’re not able to get the whole picture,” says the study’s first author, Martha Zepeda-Rivera. “With long-read sequencing, it’s like taking a picture with your camera, where you get the entire picture.”

The team compared these sequences from the colon cancer tissues with those of F. nucleatum from the mouth of healthy individuals. This revealed two main clades within a subspecies (called F. nucleatum animalis) that were distinguished by differences in DNA bases and patterns of encoded proteins. Bacteria in the two clades also had distinct appearances under the microscope: specimens in the second clade were longer and thinner than those from the first.

F. nucleatum animalis from the colon tumors fell overwhelmingly into the second clade. This clade’s genomes seemed to code for characteristics that would help the bacteria survive the perilous journey from the mouth to the intestine—such as the ability to gain nutrients in hostile environments (such as an inflamed gastrointestinal tract) or to better invade cells. These microbes also have “one of the most potent acid-resistant systems” found in bacteria, which lets them tolerate the stomach’s acidic environment, explains Christopher Johnston, a geneticist at Fred Hutchinson Cancer Center and co-senior author of the study.

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The findings suggested that the microbes in the second clade were more strongly associated with colon cancer, leading the researchers to explore further how these microbes interacted with the intestine in a mouse model. They gave one group of mice a single oral dose of F. nucleatum animalis from clade 1 and another a dose of clade 2 and then counted the number of tumors that formed. Mice in the clade 2 group developed a significantly higher number of large intestinal tumors in comparison with those given clade 1 bacteria or a nonbacterial control.

When the scientists measured metabolic molecules inside tumors from the mice with clade 2 bacteria, they found more molecules associated with cellular damage from oxidative stress, cancer cell division and inflammation than mice in the control and clade 1 bacteria groups. “This supports the idea that clade 2 bacteria are contributing to this proinflammatory, pro-oncogenic environment,” Zepeda-Rivera says.

Identifying the F. nucleatum variant linked to colon cancer provides helpful insight into its role in disease development, says Shuji Ogino, a Harvard Medical School pathologist, who was not involved with the new study. He notes, though, that more evidence from a larger group of people with colon cancer is needed, as well as more research to see how exactly the bacteria might contribute to inflammation and cancer progression.

The study’s findings might also help in the search for a low-cost, noninvasive strategy to identify people at higher risk for colon cancer, says Cynthia Sears, a biologist at Johns Hopkins University, who peer-reviewed the study. “We need an approach that enables us to zero in on people with higher risk,” she adds. Sears says a test could be developed to simply screen for the presence of this bacteria with a mouth swab or stool sample; clade 2 bacteria were found to be more prevalent in f***l samples from those with colon cancer, too.

In addition to diagnostic tools to predict cancer progression, Bullman, Johnston and Zepeda-Rivera also envision developing a vaccine against the F. nucleatum animalis in clade 2. This approach would be similar to that used with the human papillomavirus vaccine, which targets specific virus subtypes that are most linked to disease.

The study authors say the new findings are an exciting and important step in learning how these microbes can be leveraged to tackle colon cancer. “These results are like a roadmap since we’ve identified the specific clade in tumors,” Johnston says. “And now we’ve outlined the differences that can be investigated moving forward.”

ABOUT MAGGIE CHEN
Maggie Chen is a science journalist and M.D./Ph.D. candidate at Stanford University.
More by Maggie Chen

We are thrilled to announce that our friend and esteemed classmate from the Class of 1984, Dr. Rizwan J. Rahman, has bee...
04/05/2024

We are thrilled to announce that our friend and esteemed classmate from the Class of 1984, Dr. Rizwan J. Rahman, has been honored with the prestigious Presidential Medal for his exceptional contributions to the field of dentistry. This recognition is a testament to his dedication, expertise, and the significant impact he has made on both his patients and the broader dental community. On behalf of the Class of 1984 and the Alumni Association, we extend our heartfelt congratulations to Dr. Rizwan. We are immensely proud of his achievements and grateful for the shining example he sets for all of us.

Good news! Hospitals in China treat cancer by freezing the tumor and then removing it without chemotherapy: A specialize...
01/28/2024

Good news!

Hospitals in China treat cancer by freezing the tumor and then removing it without chemotherapy:

A specialized hospital for treating all types of tumors, especially cancer. The hospital in China is called (Fuda) in the city of Guangzhou (Guangzhou), in the south of China.
Qatar Airways and Emirates operate almost daily flights to Guangzhou. The hospital has performed more than 5,000 operations, and God made them all successful, by freezing the tumor and removing it without using chemicals (chemotherapy), as well as other types of treatment, all of which are mentioned on the hospital's website:

www.fudahospital.com

The website is available in several languages.

Hospital phone number in China :
0086-20-38993919

Please share this post, maybe Allah will grant it to be the cause of recovery and save the patient's life.

广州复大肿瘤医院,是一所集医疗、教学、科研、预防、康复为一体的三级肿瘤专科医院,划归省卫计委直接管理,为国家临床重点专科(肿瘤科)建设单位、广东省临床重点专科(肿瘤科),广东省文明单位。医院先后多次被...

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