Takaharu Mochizuki scite author profile

Takaharu Mochizuki

5Publications

14Citation Statements Received

84Citation Statements Given

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Affiliations

Santen (Japan), Toto (Japan)

Publications

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MALDI imaging mass spectrometry revealed atropine distribution in the ocular tissues and its transit from anterior to posterior regions in the whole-eye of rabbit after topical administration

et al. 2019

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It is essential to elucidate drug distribution in the ocular tissues and drug transit in the eye for ophthalmic pharmaceutical manufacturers. Atropine is a reversible muscarinic receptor used to treat various diseases. However, its distribution in ocular tissues is still incompletely understood. Matrix-assisted laser desorption/ionization–imaging mass spectrometry (MALDI-IMS) evaluates drug distribution in biological samples. However, there have been few investigations of drug distribution in ocular tissues, including whole-eye segments. In the present study, we explored the spatial distribution of atropine in the whole-eye segment by MALDI-IMS, and then evaluated the changes in atropine level along the anterior–posterior and superior–inferior axes. A 1% atropine solution was administered to a rabbit and after 30 min, its eye was enucleated, sectioned, and analyzed by MALDI-IMS. Atropine accumulated primarily in the tear menisci but was found at substantially lower concentrations in the tissue surrounding the conjunctival sacs. Relative differences in atropine levels between the anterior and posterior regions provided insights into the post-instillation behavior of atropine. Atropine signal intensities differed among corneal layers and between the superior and inferior eyeball regions. Differences in signal intensity among tissues indicated that the drug migrated to the posterior regions via a periocular-scleral route. Line scan analysis elucidated atropine transit from the anterior to the posterior region. This information is useful for atropine delivery in the ocular tissues and indicates that MALDI-IMS is effective for revealing drug distribution in whole-eye sections.

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Pseudopterygium: Unique Conjunctival Stricture Observed in Japanese White Rabbit

et al. 2008

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A unique conjunctive stricture was observed in the eye of a male 17-week-old Japanese White rabbit (Kbl:JW). The conjunctival membrane had proliferated centripetally and covered a large portion of the cornea. However, the membrane did not adhere to the cornea. Histopathologically, the inner epithelium of the conjunctival membrane appeared flattened, while the outer epithelium had become stratified and squamous. Goblet cells were observed on both sides of the epithelium. The lamina propria consisted of well-developed, vascularized collagen fiber. Myxoid change was seen near the tip of the membrane. In animals, these conjunctival membranes have been reported in a few dwarf rabbits, dogs and horses and have had various different terms applied to them due to their unknown etiology. Based on the conventions of human ophthalmology, such lesions should be regarded as pseudopterygia. Therefore, the present case was diagnosed as involving a pseudopterygium. The centripetal proliferation of the conjunctival membrane may be a characteristic finding in animal cases. Our goal is to encourage accumulation of such cases by researchers and practitioners working in the field of toxicology. (J Toxicol Pathol 2008; 21: 239-241)

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Spontaneous nephroblastoma with oncocytic differentiation in a Japanese White rabbit

et al. 2017

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Spontaneous nephroblastoma is an uncommon tumor in laboratory rabbits. We recently encountered this tumor, and we describe its histological characteristics in this report. A male 3-year-old Japanese White rabbit (JW/kbs), maintained as a stock animal, suddenly showed poor condition and was found dead a few days later. At necropsy, a large mass was found that extended from one side of the renal pelvis. The cut surface of the mass was dark red in color and velvety to the touch. The kidney on the contralateral side was normal. Microscopically, the tumor mass consisted of biphasic components, which consisted of epithelial (tubular and glomerular) and blastemal (nodular) elements. No sarcomatous proliferation was observed. In addition, some of the tubules were lined by cells with a large amount of eosinophilic cytoplasm. The cells were confirmed as oncocytes by immunohistochemical and electron microscopic examinations. The present case was therefore diagnosed as a nephroblastoma with oncocytic differentiation.

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Grain Size Dependence of Piezoelectricity and Actuator Characteristics for Piezoelectric Ceramics

Kiyohara

Katoh

Mochizuki

et al. 1994

J. Ceram. Soc. Japan

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Bilateral hamartomatous medullary lipoma within the nasal turbinate bones in a cynomolgus monkey (<i>Macaca fascicularis</i>)

Katsuta

Shibata

Kuriki-Yamamoto

et al. 2016

The Journal of Veterinary Medical Science

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A 15-year-old male cynomolgus monkey (Macaca fascicularis) showed large bilateral masses in the maxillary sinus. In histopathological examination, both masses revealed benign medullary lipomas within the turbinate bones. The tumors were composed of well-developed lipocytes, trabecular bones and a few blood vessels. Although we initially diagnosed the tumor as bilateral lipomas in the nasal turbinates, it was not differentiated from lipomatous hamartoma. Findings, such as unique symmetrical proliferation, lack of border from the normal marrow and the intact surrounding tissue, indicated a lipomatous hamartoma/hamartomatous lipoma, thought to be a suitable diagnosis of the lesion. Of most interest was that such a proliferating lesion occurred in the nasal turbinate.

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