Hair Shaft Damage from Heat and Drying Time of Hair Dryer

BACKGROUND: Hair dryers are commonly used and can cause hair damage such as roughness, dryness and loss of hair color. It is important to understand the best way to dry hair without causing damage. OBJECTIVE: The study assessed changes in the ultra-structure, morphology, moisture content, and color of hair after repeated shampooing and drying with a hair dryer at a range of temperatures. METHODS: A standardized drying time was used to completely dry each hair tress, and each tress was treated a total of 30 times. Air flow was set on the hair dryer. The tresses were divided into the following five test groups: (a) no treatment, (b) drying without using a hair dryer (room temperature, 20degrees C), (c) drying with a hair dryer for 60 seconds at a distance of 15 cm (47degrees C), (d) drying with a hair dryer for 30 seconds at a distance of 10 cm (61degrees C), (e) drying with a hair dryer for 15 seconds at a distance of 5 cm (95degrees C). Scanning and transmission electron microscopy (TEM) and lipid TEM were performed. Water content was analyzed by a halogen moisture analyzer and hair color was measured with a spectrophotometer. RESULTS: Hair surfaces tended to become more damaged as the temperature increased. No cortex damage was ever noted, suggesting that the surface of hair might play a role as a barrier to prevent cortex damage. Cell membrane complex was damaged only in the naturally dried group without hair dryer. Moisture content decreased in all treated groups compared to the untreated control group. However, the differences in moisture content among the groups were not statistically significant. Drying under the ambient and 95degrees C conditions appeared to change hair color, especially into lightness, after just 10 treatments. CONCLUSION: Although using a hair dryer causes more surface damage than natural drying, using a hair dryer at a distance of 15 cm with continuous motion causes less damage than drying hair naturally.

Analysis of Hair Protein from Extrinsic Hair Damage / 대한피부과학회지

BACKGROUND: Various kinds of hair products are widely used due to the increase of interest in hair styling. Cosmetic procedures such as permanent waving are very popular today, but the medical studies related to the meaning and restoration pattern of hair damage are mainly based on structural findings. In measuring the degree of hair damage by the moleculobiological methods rather than the structural studies, the findings seem to be highly objective and standardized. OBJECTIVE: The purpose of this study was to identify the patterns of hair damage and restoration through electrophoresis and western blot analysis of hair proteins. METHODS: The three volunteers who we selected as subjects did not have any specific medical illness and had not performed any special cosmetic procedures which could have caused hair damage during the six months before the study. We conducted permanent waving on them. Human hair samples were obtained from the occipital scalp, which were that was not affected by the androgen. We performed extraction and concentration of the whole and partial hair protein, then operated electrophoresis and western blot analysis of the hair protein. RESULTS: In the western blot analysis of whole hair proteins, there was one positive finding on subject A. This may have resulted from the small amount of partial proteins among the whole hair proteins. In the western blot analysis of partial hair proteins, subject A and B showed positive findings. In particular, positive findings were found on the 14th week of the experiment. CONCLUSION: These results show a change in the hair proteins due to hair damage, and ultrastructurally, we found the possibility of prologation of actual hair damage longer than expected.