Long-term effects of intralymphatic immunotherapy (ILIT) on canine atopic dermatitis.

BACKGROUND: Subcutaneous allergen immunotherapy (SCIT) is an established and efficacious therapy for canine atopic dermatitis (AD). In humans, intralymphatic immunotherapy (ILIT) was reported to be associated with fewer and less severe adverse effects than subcutaneous allergen immunotherapy and to be efficacious for several years after three intralymphatic injections. OBJECTIVE: To evaluate safety and effects of ILIT in a case series of dogs with (AD). ANIMALS: Fifty one privately owned dogs with AD. METHODS: Dogs received injections of 0.2 mL alum-precipitated allergen extract into the popliteal lymph nodes at monthly intervals for 3-5 months. Lesion scores, pruritus and medication scores were determined before and at three and 12 months after beginning immunotherapy, and compared in a per protocol analysis (PP) and an intention-to-treat analysis (ITT). RESULTS: Twenty two dogs completed the study and 29 dogs did not fulfil study completion criteria due to lack of a final study visit (21 of 29) or due to insufficient improvement (14 of 29). All scores improved during the study with both analyses. For pruritus and Quality of Life scores this improvement was significant with both analyses; for Canine Atopic Dermatitis Extent and Severity Index (CADESI)-03 values and medication scores only with PP. The only rare adverse effects observed included mild swelling of the lymph node post-injection and increased pruritus. CONCLUSION AND CLINICAL RELEVANCE: ILIT is safe and feasible, and provides long-lasting relief in some atopic dogs with a limited number of injections.

Microneedling as a successful treatment for alopecia X in two Pomeranian siblings.

BACKGROUND: Alopecia X (hair cycle arrest) is a relatively frequent hair growth disorder in Pomeranians and several other breeds, characterized by symmetrical, noninflammatory alopecia without systemic signs. The cause and pathogenesis remain unknown. Previously reported treatments with various topical and systemic drugs have been variably successful. HYPOTHESIS: We hypothesized that superficial mechanical skin trauma applied with a microneedling device would induce long-term hair regrowth at treated sites. ANIMALS: Two neutered female Pomeranian siblings with histologically confirmed alopecia X. Previous treatments with deslorelin, melatonin and topical minoxidil had failed to produce significant hair regrowth. METHODS: The dogs were anaesthetized and the skin was punctured with a microneedling device. Dogs were followed over a period of 12 months. RESULTS: Five weeks after microneedling hair regrowth started, followed by a reduction in hyperpigmentation of affected skin. After 12 weeks there was a 90% improvement in coat coverage at previously alopecic areas. Twelve months after the procedure, coat conditions remained stable. No adverse effects were noted. CONCLUSIONS AND CLINICAL IMPORTANCE: This is the first report of microneedling to induce hair regrowth in dogs affected by alopecia X. Long-term studies with microneedling in a larger number of dogs with alopecia X will need to be performed to confirm these preliminary results and to further evaluate if hair-regrowth is permanent.

Spaying-induced coat changes: the role of gonadotropins, GnRH and GnRH treatment on the hair cycle of female dogs.

Although spaying can result in qualitative hair coat changes in dogs, the influence of spaying on the hair growth cycle has never been described. The study aims were to examine the effect of spaying and gonadotropin-releasing hormone (GnRH) treatment on canine hair coat, cycle stages of hair follicles, plasma gonadotropin concentrations and mRNA transcription of luteinizing hormone (LH) and GnRH receptors in hair follicles. Fifteen female dogs were examined before and 1 year after spaying and 24 spayed dogs before and after GnRH treatment. Spaying resulted in increased plasma gonadotropin concentrations and increased anagen : telogen ratio of hair follicles, but only 20% of the dogs developed coat changes. No differences were found in mRNA transcription of LH and GnRH receptors. GnRH treatment resulted in reduced plasma gonadotropin concentrations and improvement of coat changes in 79% of patients. This was associated with an increase in catagen hair follicles without changes in the anagen : telogen ratio. The present study demonstrated that spaying had an effect on the anagen : telogen ratio of hair follicles. Spaying-induced coat changes did not correlate with the anagen : telogen ratio. GnRH treatment reduced gonadotropin concentrations and reversed coat changes in some dogs, but had no effect on the hair growth cycle other than increasing the number of catagen hair follicles. A weak positive correlation between the plasma LH concentration and the anagen : telogen ratio was noted; however, our data did not suggest a direct receptor-mediated hormonal effect on the hair follicle. The present study did not identify the pathomechanism of spaying-induced coat changes.