Abstract
We have identified diatoms among other thermophilic microorganisms as the main agents for the colonization of thermal mud resulting in a 'maturation' which renders the mud suitable to be used for mud-pack treatment of osteoarthrosis patients. The main effects of the diatom growth are the progressive enrichment of mud extracts in chlorophyll a parallel to the building up of a sulfoglycolipid endowed with an anti-inflammatory action. The sulfoglycolipid was also produced by diatoms isolated from the mud and cultivated in vitro.
Publication types
-
Research Support, Non-U.S. Gov't
MeSH terms
-
Chlorophyll / analysis
-
Chlorophyll / metabolism
-
Chlorophyll A
-
Diatomaceous Earth / chemistry*
-
Diatomaceous Earth / metabolism
-
Diatomaceous Earth / therapeutic use
-
Diatoms / chemistry
-
Diatoms / growth & development*
-
Diatoms / metabolism
-
Glycolipids / analysis
-
Glycolipids / metabolism
-
Hot Temperature*
-
Humans
-
Mud Therapy*
-
Osteoarthritis / therapy*
-
Pigments, Biological / analysis
-
Pigments, Biological / metabolism
-
Plant Proteins / analysis
-
Plant Proteins / metabolism
Substances
-
Glycolipids
-
Pigments, Biological
-
Plant Proteins
-
sulfoglycolipids
-
Chlorophyll
-
Diatomaceous Earth
-
Chlorophyll A