OBJECTIVETo study the infection status of Bartonella spp. in rodents in western part of Yunnan province.

METHODSBlood samples were collected from four species of rodents captured in four counties in western Yunnan in 2004. Bartomella was isolated through being cultured in brain and heart infusion agar media containing 5% rabbit blood. Suspective Bartomella strains isolates were confirmed by amplification of 379 bp of citrate synthase (gltA) gene with specific primer by polymerase chin reaction (PCR).

RESULTSFifty-four strains of Bartomella isolates were obtained from 397 samples including four rodent species captured in the fields with an overall isolation-rate of 13.6% (54/397). The rates of isolation among different species were: 22.0% (22/100) in Rattus nitidus, 14.8% (31/210) in Rattus flavipectus and 1.2%(1/87) in Rattus norvegicus while in R. t. yunnanensis it was negative.

CONCLUSIONThese findings demonstrated that the local rodents in western Yunnan were widely infected by Bartomella spp. It is indispensable to study the vector and the route of transmission to discover the relations between Bartomella and human diseases.

Animals ; Bartonella ; isolation & purification ; physiology ; Bartonella Infections ; transmission ; veterinary ; Female ; Humans ; Male ; Rabbits ; Rats ; Rodentia ; microbiology

Empathy is traditionally thought to be a unique ability of humans to feel, understand, and share the emotional state of others. However, the notion has been greatly challenged by the emerging discoveries of empathy for pain or distress in rodents. Because empathy is believed to be fundamental to the formation of prosocial, altruistic, and even moral behaviors in social animals and humans, studies associated with decoding the neural circuits and unraveling the underlying molecular and neural mechanisms of empathy for pain or distress in rodents would be very important and encouraging. In this review, the author set out to outline and update the concept of empathy from the evolutionary point of view, and introduce up-to-date advances in the study of empathy and its neural correlates in both humans and rodents. Finally, the author highlights the perspectives and challenges for the further use of rodent models in the study of empathy for pain or distress.
Animals ; Biological Evolution ; Empathy ; physiology ; Humans ; Pain ; psychology ; Rodentia ; Social Behavior ; Stress, Psychological ; psychology

Captured wild chipmunks which have been extensively used for leprosy research, were studied in our laboratory for the reproductive potentials. Histologically normal organs, which are involved in reproduction in both sexes, were observed. Functionally active viable sperms in sufficient amount were produced by the males, and were used for artificial inseminations. A state of normal reproductive physiology of the females was also confirmed by studies on histologic analysis of oogenesis in the ovaries and in cultured ovaries in vitro. Regularity in ovulation was also determined by vaginal epithelial cell examinations. Thus these animals appeared to be normal in terms of fecundity. It was considered that the inability of these animals to have successful breeding in the captured state was due to problems in fertility, especially in maintaining the pregnancy.
Animal ; Animals, Wild/physiology ; Breeding ; Estrus ; Female ; Fertility* ; In Vitro ; Insemination, Artificial/veterinary ; Male ; Pregnancy ; Rodentia/physiology* ; Sciuridae/physiology* ; Sperm Motility ; Vagina/cytology

Animals ; Cognitive Dysfunction ; metabolism ; Cystatin C ; pharmacology ; Hippocampus ; drug effects ; Insulin Resistance ; physiology ; Neurons ; drug effects ; Rats ; Rodentia

To investigate the difference between the functions of oxygen uptake in skeletal muscle and living habits of plateau zokor (Myospalax rufescens baileyi) and plateau pika (Ochotona curzoniac), the microvessel densities (MVD) of skeletal muscle of plateau zokor, plateau pika and Sprague-Dawley (SD) rat were measured by immunohistochemical staining; the numerical density on area (N(A)) of mitochondria, and surface density (S(V), external surface area density of mitochondria per unit volume of skeletal muscle fiber) were obtained by stereo microscope technique; mRNA levels of myoglobin (Mb) in skeletal muscle were determined by real-time PCR, and the contents of Mb protein in skeletal muscle were determined by spectro-photometer. The results showed that MVD, N(A) and S(V) of mitochondria in skeletal muscle of plateau pika were significantly lower than those of plateau zokor and SD rat (P<0.05). The mRNA levels of Mb gene in skeletal muscle of plateau zokor and plateau pika were notably higher than that of SD rat (P<0.05). There were significant differences in the contents of Mb among these three species, and plateau zokor and SD rat presented the highest and the lowest value, respectively (P<0.05). The results suggest that even though plateau zokor inhabits in the hypoxia environment, most of its skeletal muscle fiber are red muscle fiber. While most of skeletal muscle fibers of plateau pika are white muscle fibers. This kind of white muscle has low MVD, N(A) and S(V) of mitochondria and less content of Mb compared with the red one, suggesting it obtains most energy from aerobic oxidation. The above-mentioned differences in skeletal muscles may be related to not only the different species, but also the different living habits of these two high altitude species.
Animals ; Hypoxia ; Lagomorpha ; physiology ; Microvessels ; physiology ; Mitochondria, Muscle ; physiology ; Muscle Fibers, Skeletal ; physiology ; Muscle, Skeletal ; blood supply ; physiology ; Myoglobin ; metabolism ; Oxygen ; metabolism ; RNA, Messenger ; Rats ; Rats, Sprague-Dawley ; Rodentia ; physiology

PURPOSE: To characterize the electromyographic activity of abdominal striated muscles during micturition in urethane-anesthetized female mice, and to quantitatively evaluate the contribution of abdominal responses to efficient voiding. METHODS: Cystometric and multichannel electromyographic recordings were integrated to enable a comprehensive evaluation during micturition in urethane-anesthetized female mice. Four major abdominal muscle domains were evaluated: the external oblique, internal oblique, and superior and inferior rectus abdominis. To further characterize the functionality of the abdominal muscles, pancuronium bromide (25 μg/mL or 50 μg/mL, abdominal surface) was applied as a blocking agent of neuromuscular junctions. RESULTS: We observed a robust activation of the abdominal muscles during voiding, with a consistent onset/offset concomitant with the bladder pressure threshold. Pancuronium was effective, in a dose-dependent fashion, for partial and complete blockage of abdominal activity. Electromyographic discharges during voiding were significantly inhibited by applying pancuronium. Decreased cystometric parameters were recorded, including the peak pressure, pressure threshold, intercontractile interval, and voiding duration, suggesting that the voiding efficiency was significantly compromised by abdominal muscle relaxation. CONCLUSIONS: The relevance of the abdominal striated musculature for micturition has remained a topic of debate in human physiology. Although the study was performed on anesthetized mice, these results support the existence of synergistic abdominal electromyographic activity facilitating voiding in anesthetized mice. Further, our study presents a rodent model that can be used for future investigations into micturition-related abdominal activity.
Abdominal Muscles* ; Animals ; Electromyography ; Female* ; Humans ; Lower Urinary Tract Symptoms ; Mice* ; Muscle, Striated ; Neuromuscular Junction ; Pancuronium ; Physiology ; Rectus Abdominis ; Relaxation ; Rodentia ; Urinary Bladder ; Urination*