Hiroshi Ikeoka scite author profile

Hiroshi Ikeoka

5Publications

96Citation Statements Received

1Citation Statement Given

How they've been cited

141

How they cite others

Affiliations

Fukuyama University, Osaka City University

Publications

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Topical immunology of nasal allergy and mucosal IgE antibodies

Ōhashi

Nakai

Kuroki

et al. 1985

Arch Otorhinolaryngol

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In the present study, the in vitro tissue-radioallergosorbent test (t-RAST) was performed in two groups of patients: one with perennial attacks of sneezing, serous hypersecretion and nasal congestion, the other with nasal congestion only. The results obtained were compared with those obtained by a series of conventional allergy tests. We then found that t-RAST provided objective data comparable to those obtained with serum-RAST and that the t-RAST is a reliable means of quantitatively detecting specific IgE antibodies in the nasal mucosa. t-RAST is of special value to diagnosticians because it is able to discern unequivocally and easily those patients with localized nasal allergy.

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Regeneration of Nasal Mucosa Following Mechanical Injury

Ōhashi

Nakai

Ikeoka

et al. 1991

Acta Oto-Laryngologica

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Functional and morphological pathology of the nasal mucosa after x-ray irradiation

Ōhashi¹,

Nakai²,

Ikeoka³

et al. 1988

Clin Otolaryngol

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In our present study we examined the pathology of the nasal mucociliary system after x-ray irradiation in an animal model namely the rabbit. A reduced ciliary activity was observed immediately after the irradiation and did not show any recovery during our observation. No ciliary activity was seen in the nasal mucosa 8 weeks after the irradiation. Morphologically, hypersecretion of goblet cells was observed immediately after irradiation. Cytoplasmic vacuolation and nuclear pyknosis of ciliated cells started after irradiation, and sloughing of ciliated cells was observed for up to 3 weeks. Epithelial metaplasia started from 4 weeks, and no cilia were seen in the nasal mucosa and the surface of the epithelium was covered with flat squamous cells. Our present study shows that x-ray irradiation has serious influence on the function and structure of the nasal mucociliary system and that recovery from degeneration due to x-ray irradiation cannot be expected within several weeks.

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Degeneration and regeneration of respiratory mucosa of rats after exposure to styrene

Ōhashi¹,

Nakai²,

Ikeoka³

et al. 1986

J of Applied Toxicology

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The recovery process of pathological changes in the respiratory mucosa following exposure to styrene were experimentally studied to improve the understanding of the respiratory toxicity of styrene. Thirty male SD rats were exposed to 150 ppm or 1000 ppm of styrene for 4 h a day over 3 weeks (5 days a week). They were killed for examination at 1 day or 12 weeks after completion of the exposure sequence. Bilateral mucosal samples from the nasal septum and the trachea of the animals were examined for ciliary activity and subjected to electron microscopy. Complete functional and morphological recovery of the nasal and tracheal mucosa was observed at the 12th week post-exposure to 150 ppm of styrene. After exposure to 1000 ppm of styrene, almost normal function and morphology of the tracheal mucosa was found at the 12th week post-exposure, but the nasal mucosa continued to show decreased ciliary activity and an affected morphology.

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Ciliary activity in patients with nasal allergies

Ōhashi

Nakai

Kihara

et al. 1985

Arch Otorhinolaryngol

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Nasal allergy is a disease ensuing from type-I allergic reactions in the nasal cavity. A correct understanding of this process requires further investigation of the non-allergic pathology present. In the allergic state, the function of the nasal cilia is considered to be involved in the invasion of allergens into the nasal mucosa, and may also be involved with the manifestation and progression of the disease produced. In the present study, we examined the ciliary activity of the nasal mucosa of 35 patients with nasal allergies by using the photo-electric method of Ohashi and Nakai to better understand the non-allergic pathologies present. The nasal cilia of four healthy volunteers served as controls. In addition, a multivalent analysis was made according to quantifying theory I in order to define the effects of various factors on ciliary activity in the nasal mucosa during the allergic state. The following results were found in our present study. Ciliary activity was observed in 32 of 35 patients with nasal allergy. The mean value of the ciliary activity in these patients was 498 +/- 195 beats/min, while that of the normal controls was 753 +/- 46 beats/min. The ciliary activity in the nasal mucosa in the allergic state declined as the morbid period was prolonged; this decline in ciliary activity was relatively great in cases of perennial allergies aggravated by season-specific allergens.

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Hiroshi Ikeoka

Topical immunology of nasal allergy and mucosal IgE antibodies

Regeneration of Nasal Mucosa Following Mechanical Injury

Functional and morphological pathology of the nasal mucosa after x-ray irradiation

Degeneration and regeneration of respiratory mucosa of rats after exposure to styrene

Ciliary activity in patients with nasal allergies

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