Effects of age, sex, and breed on the composition of free extractable ceramides in the stratum corneum of healthy dogs.

Ceramide (CER), an important component of the extracellular lamellar lipids in the stratum corneum (SC), plays a critical role in maintaining the cutaneous barrier function. This study aimed to determine whether the quantity of free extractable SC CERs in dogs was affected by the age, sex, or breed. Fifty-eight dogs from the breeds Shiba Inu, beagle, miniature dachshund, shih tzu, and golden retriever, without any history of skin problems, were enrolled in this study. Lipid extracts from the SC were subjected to high-performance thin-layer chromatography to quantify the free extractable CERs. There were weak negative correlations between the age and the amount of free extractable CERs, CER [NP] (non-hydroxy fatty acids linked to phytosphingosines), CER [AS/NH] (α-hydroxy fatty acids linked to sphingosines/non-hydroxy fatty acids linked to 6-hydroxysphingosines), and CER [AP] (α-hydroxy fatty acids and phytosphingosines). There were no significant sex- or breed-related differences in the amounts of free extractable SC CERs in the dogs. These findings imply that aging causes a decline in the amount of free extractable SC CERs in dogs, similar to that observed in humans. The sex or breed of the dogs investigated in this study did not influence the amount of free extractable SC CERs.

Transepidermal water loss in cats: comparison of three differently clipped sites to assess the influence of hair coat on transepidermal water loss values.

BACKGROUND: The measurement of transepidermal water loss (TEWL) is one of the parameters that can be used to assess skin barrier function. The variability and reliability of TEWL measurements in dogs have been controversial, and the hair coat has been considered as one of the factors that may cause variation of TEWL values. HYPOTHESIS/OBJECTIVES: The aims of the study were to establish a suitable procedure for measuring feline TEWL, to evaluate the influence of hair coat on TEWL measurements and to assess variations of TEWL at different anatomical sites. METHODS: Transepidermal water loss was measured using a closed-chamber evaporimeter, the VapoMeter(®). We compared three adjacent sites in the groin area of 10 clinically normal, domestic short hair cats. One site was unclipped, the second was trimmed with scissors and the third was shaved using electric clippers. Values of TEWL were obtained for 48 h after trimming with scissors and clippers. Five sites were clipped (upper back, lumbar back, lateral thigh, axillae and groin), and the TEWL was measured. RESULTS: The mean and SD of TEWL values of the clipper-trimmed site were the smallest, followed in order by the site trimmed with scissors and the unclipped site. The TEWL values were statistically constant in the clipper-trimmed site, while the values in the unclipped sites were not. There was no statistically significant difference in TEWL values between all of the anatomical sites except for the axillae. CONCLUSIONS AND CLINICAL IMPORTANCE: Hair clipping of sites with electric clippers is recommended for TEWL measurement in cats.

A new method of measuring the transepidermal water loss (TEWL) of dog skin.

Human skin barrier function is evaluated by measuring transepidermal water loss (TEWL). However, this conventional method has not been applied to assess canine skin barrier function because the equipment is not suitable for dogs due to the effects of air turbulence resulting from movement of the subject and vapor from the subject's hair coat. The TEWL analyzer CC-01 was developed as a closed-chamber method device; this means that instead of using the open-chamber method, it has a ventilated chamber that uses dry air. TEWL values measured by CC-01 show less variability than those measured by the conventional method. An ambient temperature of 20-26 degrees C is optimal for measurement with the CC-01, and humidity affects the length of measurement but not the values. The CC-01 may be more reliable for measurement of TEWL than the conventional methods and may give new insights in the evaluation of skin barrier function in dogs.