New Delhi: Arthritis is a clear sign of poor bone health that approaches primarily as one starts ageing. It mainly affects the joints and people suffering from it complain of joint pain and stiffness.
While there are numerous treatments for the condition, like medication, physiotherapy or sometimes surgery, which help reduce symptoms and improve quality of life, there is still no cure.
However, you can certainly do certain things to help fight the condition. According to a study, eating a fibre-rich breakfast consisting of muesli and enough fruit and vegetables throughout the day everyday can help maintain a rich variety of bacterial species in the gut, which may have positive influence on chronic inflammatory joint diseases, and prevent bone loss.
The findings, led by researchers at the Friedrich-Alexander-Universitat Erlangen-Nurnberg (FAU) in Germany, showed that a healthy diet rich in fibre is capable of changing intestinal bacteria in such a way that more short-chained fatty acids, in particular propionate, are formed.
Short-chained fatty acids are important for the body as they provide energy, stimulate intestinal movement and have an anti-inflammatory effect.
"We were able to show that a bacteria-friendly diet has an anti-inflammatory effect, as well as a positive effect on bone density," said lead author Mario Zaiss from the FAU.
"We are not able to give any specific recommendations for a bacteria-friendly diet at the moment, but eating muesli every morning as well as enough fruit and vegetables throughout the day helps to maintain a rich variety of bacterial species," Zaiss added.
In the study, published in Nature Communications, the team focussed on the short-chain fatty acids propionate and butyrate, which are formed during the fermentation processes caused by intestinal bacteria.
These fatty acids can be found, for example, in the joint fluid and it is assumed that they have an important effect on the functionality of joints.
The researchers also proved that a higher concentration of short-chained fatty acids, for example in bone marrow, where propionate caused a reduction in the number of bone-degrading cells, slowing bone degradation down considerably.
"Our findings offer a promising approach for developing innovative therapies for inflammatory joint diseases as well as for treating osteoporosis, which is often suffered by women after the menopause," Zaiss noted.
(With IANS inputs)