Ovarian follicular dynamics is not well known in dogs. Imaging of ovaries is technically difficult; however, ovaries clamped at a subcutaneous site can more easily be monitored using ultrasound imaging. This study investigated the follicular development of canine ovaries stimulated by hormone treatment using ultrasound imaging of the ovaries clamped at a subcutaneous site. Oestrus was induced using subcutaneous administration of 500 IU equine chorionic gonadotropin (eCG) and 1000 IU human chorionic gonadotropin (hCG) (eCG/hCG). Five bitches were given 1000 IU hCG 11 days after eCG/hCG administration. Examinations with ovarian ultrasonography using a 7.5‐MHz sector transducer, vaginal cytology, and assays of serum oestrogen and progesterone were performed daily until 20 days after eCG/hCG administration. Serosanguineous vaginal discharges and vaginal cytology of two of the bitches were observed. New follicular growth (>1.0 mm in diameter) was observed in all bitches from 2 to 8 days after eCG/hCG administration. The mean diameter of follicles and maximum numbers of follicles per ovary ranged from 2.8 to 5.5 mm and 4 to 16, respectively. The elevation in oestrogen concentrations after eCG/hCG administration was observed in all bitches, and elevation in progesterone concentration (>2 ng mL−1) was observed in three bitches. However, no follicles ovulated until 9 days after hCG administration. In conclusion, although the number of examined bitches were limited, follicular growth in ovaries clamped at a subcutaneous site can be monitored using ultrasound imaging. Ovarian ultrasonography showed that eCG/hCG administration induced new follicular growth and hCG administration induced increases in oestrogen concentrations but not ovulation by hCG administration.
Mycobacterium kansasii is one of the most prevalent and pathogenic nontuberculous mycobacteria in the world. Herein, we report the first case of M. kansasii infection in an indoor domestic cat in Japan. Complete genome sequence analysis of the isolate showed this pathogen is genetically identical to human pathogenic M. kansasii.
Nontuberculous mycobacterial (NTM) infections in humans have increased in prevalence in recent decades.
Mycobacterium kansasii
is one of the most prevalent human pathogenic NTM species worldwide
.
Herein, we report the first isolation of
M. kansasii
from an indoor domestic cat in Japan. Comparative genome sequence analysis of the feline isolate showed this pathogen is genetically identical to human pathogenic
M. kansasii
.
This finding suggests that
M. kansasii
has a potential risk of zoonoses and requires the “One Health” approach to control NTM infection.
This study reports about follicular development on the surface of canine ovarian tissue after autografting under the fascia of the thoracolumbar muscle and about meiotic resumption of follicle-derived oocyte after maturation culture. After ovarian excision from a bitch, each ovary of the pairs was cut approximately into half. The hemi-ovaries were transplanted into the bitch of origin at three different body sites (under the fascia of the quadriceps femoris muscle and the thoracolumbar muscle, and in the deltoid muscle in the scapular region). All grafted ovaries were recovered from the bitch at 35 days post-transplantation. A visible antral follicle was observed on the surface of the ovary grafted under the thoracolumbar fascia. Histological examination revealed viable follicles at different stages of development irrespective of graft site. Most granulosa cells in the follicles at different stages of development expressed proliferating cell nuclear antigen (PCNA). A total of three oocytes were collected from an ovary grafted under the fascia of the thoracolumbar muscle, wherein an oocyte reached metaphase I after maturation culture. This is the first report to demonstrate follicular development and meiotic resumption of oocytes recovered from autografted canine ovarian tissues.
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