Kaori Yamamoto scite author profile

– The continuous observation of salmon behaviour in some wild environments can be extremely difficult. We recorded spawning behaviour of female chum salmon (Oncorhynchus keta) in the field simultaneously using visual observation and fish‐borne data loggers with two‐axis accelerometer sensors. Using only acceleration records, behaviours were successfully classified into the eight well‐known components of spawning behaviour: swimming, nosing, exploratory digging, nest digging, probing, oviposition, covering and post‐spawning digging. To understand how the female chum salmon modulates spawning behaviours in relation to changes in environmental conditions, we compared the behaviours of salmon during normal flow of clear water to those of salmon during the heavy flow of turbid water after a storm. Salmon in the normal flow showed all eight behaviours, whereas salmon in the heavy flow showed only three behaviours: swimming, nosing and exploratory digging. The proportion of time spent on swimming was greater in the heavy flow than in the normal flow (mean of 98.47% vs. 92.84%). Moreover, the proportion of tail beating in swimming was greater in the heavy flow (77.86%) than in the normal flow (15.63%). Our results indicate that the behaviour of female chum salmon was strongly affected by the heavy flow of turbid water after a storm. The recording of accelerations is a promising method for clarifying the spawning behaviour of salmonids in the wild where continuous visual observation is too difficult.

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Overactive bladder in diabetes: A peripheral or central mechanism?

Yamaguchi

Sakakibara

Uchiyama

et al. 2007

Neurourology and Urodynamics

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Incomplete emptying and urinary retention in multiple‐system atrophy: When does it occur and how do we manage it?

et al. 2006

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Neurogenic urinary retention can be a major cause of morbidity in multiple-system atrophy (MSA). However, the timing of its appearance has not been entirely clear, and neither have the medical and surgical modalities for managing patients. We present the data obtained from our uroneurological assessment and therapeutic interventions at various stages of MSA. We recruited 245 patients with probable MSA. We measured postvoid residuals (PVR) and performed EMG cystometry in all patients. The grand average volume of PVR was 140 mL (range, 0-760) in our patients. The average PVR volume was 71 mL in the first year, increasing to 129 mL in the second year and 170 mL by the fifth year. The percentages of patients with complete urinary retention, acontractile detrusor, and detrusor-sphincter dyssynergia (DSD) also increased. The increase in PVR resulted in a decrease in functional bladder capacity, together with an increase in detrusor overactivity and neurogenic sphincter EMG. Clean intermittent self-catheterization (CISC) was introduced in most patients. Bladder-oriented therapy (cholinergic agents) had a limited value, whereas urethra-oriented therapy benefited patients with DSD (surgery) for up to 2 years, but syncope occurred in a subset of patients (alpha-blockers). MSA patients present with large PVR by the second year of illness, and that large PVR secondarily causes urinary frequency. CISC is the recommended treatment for most patients. Urethra-oriented medication and surgery benefit patients who would have difficulty performing CISC, although careful consideration of the short-term efficacy and potential adverse effects of these alternatives is mandatory.

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Response to tolvaptan and its effect on prognosis in cirrhotic patients with ascites

Kogiso

Yamamoto

Kobayashi

et al. 2016

Hepatology Research

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Thyrotropin induces G1 cyclin expression and accelerates G1 phase after insulin-like growth factor I stimulation in FRTL-5 cells

Yamamoto

1996

Endocrinology

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We have investigated the mechanism by which TSH pretreatment potentiates insulin-like growth factor I (IGF-I)-induced DNA synthesis in FRTL-5 cells. As previously described, pretreatment with TSH increased IGF-I-induced DNA synthesis, suggesting that the effect of TSH is mediated through the cAMP pathway. TSH and A kinase activators required at least 12 h to precondition cells to respond to IGF-I stimulation. The presence of cycloheximide abolished the effect of TSH to increase IGF-I-induced DNA synthesis. When the time course of thymidine uptake after IGF-I addition was studied, TSH pretreatment increased the maximum DNA incorporation and shortened the G1 phase interval. These results indicated that some proteins induced by TSH are required for the effect of TSH on IGF-I activity, and the proteins are important for cell cycle progression. Cyclins are key regulators of the cell cycle; therefore, we investigated the expression of cyclins D1 and E after TSH stimulation. TSH- and A kinase-activating agents increased the expression of cyclins D1 and E after 24 h. The same amounts of cyclins D1 and E induced by IGF-I were increased after TSH pretreatment. TSH pretreatment induced the expression of G1 cyclin in FRTL-5 cells, and IGF-I caused the accumulation of enough G1 cyclins to drive the cell cycle from G1 to S phase in a short time, which accounts for the effect of TSH on IGF-I induced DNA synthesis.

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Kaori Yamamoto

Monitoring the spawning behaviour of chum salmon with an acceleration data logger

Overactive bladder in diabetes: A peripheral or central mechanism?

Incomplete emptying and urinary retention in multiple‐system atrophy: When does it occur and how do we manage it?

Response to tolvaptan and its effect on prognosis in cirrhotic patients with ascites

Thyrotropin induces G1 cyclin expression and accelerates G1 phase after insulin-like growth factor I stimulation in FRTL-5 cells

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