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Corneal sensitivity following lacrimal gland excision in the rat.大鼠泪腺切除术后的角膜敏感性
Invest Ophthalmol Vis Sci. 2015 May;56(5):3347-54. doi: 10.1167/iovs.15-16717.
2
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Curr Ophthalmol Rep. 2015;3(2):111-121. doi: 10.1007/s40135-015-0073-9.
3
Dry eye symptoms align more closely to non-ocular conditions than to tear film parameters.干眼症状与非眼部疾病的关联比与泪膜参数的关联更为密切。
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Evidence for TRPA1 involvement in central neural mechanisms in a rat model of dry eye.在干眼大鼠模型中TRPA1参与中枢神经机制的证据。
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Capsaicin-responsive corneal afferents do not contain TRPV1 at their central terminals in trigeminal nucleus caudalis in rats.辣椒素敏感的角膜传入神经在大鼠三叉神经尾侧核的中枢终末不含有TRPV1。
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The TFOS International Workshop on Contact Lens Discomfort: report of the subcommittee on neurobiology.眼表疾病研究基金会(TFOS)国际隐形眼镜不适问题研讨会:神经生物学小组委员会报告。
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在一种新型水性干眼症大鼠模型中,泪腺去神经支配导致角膜痛觉减退。

Denervation of the Lacrimal Gland Leads to Corneal Hypoalgesia in a Novel Rat Model of Aqueous Dry Eye Disease.

作者信息

Aicher Sue A, Hermes Sam M, Hegarty Deborah M

出版信息

Invest Ophthalmol Vis Sci. 2015 Oct;56(11):6981-9. doi: 10.1167/iovs.15-17497.

DOI:10.1167/iovs.15-17497
PMID:26513503
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4627470/
Abstract

PURPOSE

Some dry eye disease (DED) patients have sensitized responses to corneal stimulation, while others experience hypoalgesia. Many patients have normal tear production, suggesting that reduced tears are not always the cause of DED sensory dysfunction. In this study, we show that disruption of lacrimal innervation can produce hypoalgesia without changing basal tear production.

METHODS

Injection of a saporin toxin conjugate into the extraorbital lacrimal gland of male Sprague-Dawley rats was used to disrupt cholinergic innervation to the gland. Tear production was assessed by phenol thread test. Corneal sensory responses to noxious stimuli were assessed using eye wipe behavior. Saporin DED animals were compared to animals treated with atropine to produce aqueous DED.

RESULTS

Cholinergic innervation and acetylcholine content of the lacrimal gland were significantly reduced in saporin DED animals, yet basal tear production was normal. Saporin DED animals demonstrated normal eye wipe responses to corneal application of capsaicin, but showed hypoalgesia to corneal menthol. Corneal nerve fiber density was normal in saporin DED animals. Atropine-treated animals had reduced tear production but normal responses to ocular stimuli.

CONCLUSIONS

Because only menthol responses were impaired, cold-sensitive corneal afferents appear to be selectively altered in our saporin DED model. Hypoalgesia is not due to reduced tear production, since we did not observe hypoalgesia in an atropine DED model. Corneal fiber density is unaltered in saporin DED animals, suggesting that molecular mechanisms of nociceptive signaling may be impaired. The saporin DED model will be useful for exploring the mechanism underlying corneal hypoalgesia.

摘要

目的

一些干眼症(DED)患者对角膜刺激有敏感反应,而另一些患者则有痛觉减退。许多患者泪液分泌正常,这表明泪液减少并不总是DED感觉功能障碍的原因。在本研究中,我们表明泪腺神经支配的破坏可导致痛觉减退,而不改变基础泪液分泌。

方法

将皂草素毒素偶联物注射到雄性Sprague-Dawley大鼠眶外泪腺中,以破坏该腺体的胆碱能神经支配。通过酚线试验评估泪液分泌。使用擦眼行为评估角膜对有害刺激的感觉反应。将皂草素DED动物与用阿托品治疗以产生水性DED的动物进行比较。

结果

皂草素DED动物的泪腺胆碱能神经支配和乙酰胆碱含量显著降低,但基础泪液分泌正常。皂草素DED动物对角膜应用辣椒素表现出正常的擦眼反应,但对角膜薄荷醇表现出痛觉减退。皂草素DED动物的角膜神经纤维密度正常。阿托品治疗的动物泪液分泌减少,但对眼部刺激的反应正常。

结论

由于仅薄荷醇反应受损,在我们的皂草素DED模型中,冷敏角膜传入神经似乎被选择性改变。痛觉减退不是由于泪液分泌减少,因为我们在阿托品DED模型中未观察到痛觉减退。皂草素DED动物的角膜纤维密度未改变,这表明伤害性信号传导的分子机制可能受损。皂草素DED模型将有助于探索角膜痛觉减退的潜在机制。