Skip to main content

Hard food, strong jaw: Jawbone structure responds to forceful chewing

Throughout an animal's lifespan, bone tissue in the skeleton is continuously restructured in response to changes in applied force, such as those associated with exercise and locomotion. Examining how the structure of the jawbone varies with the intense chewing force, or masticatory force, may illuminate the mechanisms that lead to the reconstruction of bone tissue.
Masamu Inoue and Takehito Ono of Tokyo Medical and Dental University(TMDU) have now uncovered how and under what circumstances jawbone reconstruction takes place. Although previous studies found that the hardness of food is correlated with jaw structure, it was not yet clear whether masticatory force could directly impact bone structure. In this study, the researchers uncovered new information about the cellular and molecular changes that enable bone to adapt to changes in mechanical stress.
They did this by creating a novel mouse model of increased mastication in which mice were fed harder foods (hard diet: HD) to increase chewing force. They predict if increased chewing directly lead to changes in jawbone structure using a computer simulation. Histological and gene expression analyses revealed that the mechanical loading onto the jawbone changes cytokine expression of the osteocytes in the bone, resulting in enhanced bone formation. They recently published their findings in Scientific Reports.
"Although there was existing evidence for the correlation between variations in facial profile and differences in mastication force, evidence for causation was lacking" says Masamu Inoue, co-first author. "Additionally, the absence of an animal model of increased mastication made it difficult to study this topic in prior research."
The researchers found that the width of the masseter muscle, which is critical for mastication, increased in the HD-fed mice. The HD led to more activation in the primary motor cortex of the brain, which controls the masticatory muscles. Thus, the HD increased chewing and the amount of force applied to the jawbone.
In vivo micro-computed tomography (micro-CT) analysis showed that mechanical load onto the jawbone by the HD affected its shape, in the way that predicted by the computer simulation. The simulation also indicated that these morphological changes redistributed the mechanical stress generated in the bone by the HD, indicating that jawbone is able to adapt its shape to changes in mechanical force.
Additionally, they found that increasing the force applied to the jawbone stimulated osteocytes to produce more IGF-1, one of main growth factors that promotes bone formation. This alteration led to bone formation, resulting in morphological changes in the jawbone.
"Our data indicate that masticatory force can prompt changes in facial structure by modulating the function of cells that regulate bone reconstruction," says co-author Tomoki Nakashima. "This discovery -- that increased chewing itself can directly change the shape of the jawbone -- could facilitate the development of treatments for skeletal abnormalities, such as jaw deformities."
Story Source:
Materials provided by Tokyo Medical and Dental University
Note: Content may be edited.

Comments

Post a Comment

Popular posts from this blog

Dark matter may be older than the Big Bang

Dark matter, which researchers believe make up about 80% of the universe's mass, is one of the most elusive mysteries in modern physics. What exactly it is and how it came to be is a mystery, but a new Johns Hopkins University study now suggests that dark matter may have existed before the Big Bang. The study, published August 7 in  Physical Review Letters , presents a new idea of how dark matter was born and how to identify it with astronomical observations. "The study revealed a new connection between particle physics and astronomy. If dark matter consists of new particles that were born before the Big Bang, they affect the way galaxies are distributed in the sky in a unique way. This connection may be used to reveal their identity and make conclusions about the times before the Big Bang too," says Tommi Tenkanen, a postdoctoral fellow in Physics and Astronomy at the Johns Hopkins University and the study's author. While not much is known about its origins,...
Post a Comment
Read more

Home births as safe as hospital births: International study suggests

A large international study led by McMaster University shows that low risk pregnant women who intend to give birth at home have no increased chance of the baby's perinatal or neonatal death compared to other low risk women who intend to give birth in a hospital. The results have been published by  The Lancet 's  EClinicalMedicine  journal. "More women in well-resourced countries are choosing birth at home, but concerns have persisted about their safety," said Eileen Hutton, professor emeritus of obstetrics and gynecology at McMaster, founding director of the McMaster Midwifery Research Centre and first author of the paper. "This research clearly demonstrates the risk is no different when the birth is intended to be at home or in hospital." The study examined the safety of place of birth by reporting on the risk of death at the time of birth or within the first four weeks, and found no clinically important or statistically different risk between home...
Post a Comment
Read more

GSAT-11 satellite to be launched from French Guiana on Dec 5th

GSAT-11 satellite to be launched from French Guiana on Dec 5th GSAT-11 would be located at 74 East and is the fore-runner in a series of advanced communications satellite with multi-spot beam antenna coverage over Indian mainland and Islands, ISRO said. GSAT-11 is the next generation “high throughput” communication satellite configured around ISRO’s I-6K Bus. (PTI/Representational). Indian space agency ISRO is scheduled to launch GSAT-11, the “heaviest” satellite built by it, on-board Ariane-5 rocket of Arianespace from French Guiana on December 5. Weighing about 5,854 kg, GSAT-11 would play a vital role in providing broadband services across the country, and also provide a platform to demonstrate new generation applications, the Indian Space Research Organisation (ISRO) said. It is the “heaviest” satellite built by ISRO, the space agency said. GSAT-11 is the next generation “high throughput” communication satellite configured around ISRO’s  I-6K Bus, and it...
Post a Comment
Read more