Department of Otolaryngology, Massachusetts Eye and Ear, Harvard Medical School, Boston, MA.
Department of Otolaryngology and Department of Genetics, Washington University School of Medicine, St Louis, MO.
Int Forum Allergy Rhinol. 2019 Feb;9(2):158-164. doi: 10.1002/alr.22237. Epub 2018 Nov 27.
Anosmia has an estimated prevalence of 5% of the general population. Outside of inflammatory causes, therapeutic options are limited despite research advances. Bypassing peripheral neuronal damage through central stimulation is a potential therapeutic option that has shown success in other sensory systems, most notably with hearing. We performed a pilot study to determine the feasibility of inducing smell through artificial electrical stimulation of the olfactory bulbs in humans.
Subjects with a history of sinus surgery, including total ethmoidectomy, with intact ability to smell were enrolled. The ability to smell was confirmed with a 40-item smell identification test. Awake subjects underwent nasal endoscopy and either a monopolar or bipolar electrode was positioned at 3 areas along the lateral lamella of the cribriform plate within the ethmoid sinus cavity. A graded stimulation current of 1-20 mA at 3.17 Hz was administered while cortical evoked potential (CEP) recordings were collected. Subjective responses of perceived smell along with reports of discomfort were recorded. Subjects with artificially induced smell underwent repeat stimulation after medically induced anosmia.
Five subjects (age, 43-72 years) were enrolled. Three subjects reported smell perception smell with electrical stimulation. This was reproducible after inducing anosmia, but CEP recordings could not provide objective support. All subjects tolerated the study with minimal discomfort.
This is the first report of induced smell through transethmoid electrical stimulation of the olfactory bulb. These results provide a proof of concept for efforts in development of an olfactory implant system.
嗅觉障碍在普通人群中的患病率估计为 5%。除了炎症原因外,尽管研究取得了进展,但治疗选择仍然有限。通过中枢刺激绕过外周神经元损伤是一种潜在的治疗选择,这种方法在其他感觉系统中已经取得了成功,在听觉中最为显著。我们进行了一项初步研究,以确定通过人工电刺激嗅球在人体中诱导嗅觉的可行性。
我们招募了有鼻窦手术史(包括全筛窦切除术)但嗅觉完整的受试者。通过 40 项嗅觉识别测试确认嗅觉能力。在清醒状态下进行鼻内窥镜检查,将单极或双极电极放置在筛窦腔内筛板外侧缘的 3 个区域。在 3.17 Hz 的频率下给予 1-20 mA 的分级刺激电流,同时收集皮质诱发电位 (CEP) 记录。记录感知到的气味的主观反应以及不适的报告。在医学诱导嗅觉丧失后,有嗅觉的受试者接受重复刺激。
共纳入 5 名受试者(年龄 43-72 岁)。3 名受试者报告用电刺激感知到气味。这在诱导嗅觉丧失后是可重复的,但 CEP 记录无法提供客观支持。所有受试者都能耐受研究,仅有轻微不适。
这是首次通过经筛窦电刺激嗅球诱导嗅觉的报告。这些结果为开发嗅觉植入系统的努力提供了概念验证。
