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Investigation in Corneal Sensation

D

Daniela Nosch

Status

Completed

Conditions

Cornea; Sense Loss

Treatments

Device: Cochet Bonnet esthesiometer
Device: Tactile Esthesiometer Prototype
Device: Liquid Jet Esthesiometer Prototype

Study type

Interventional

Funder types

Other

Identifiers

NCT04045509
2019-01252

Details and patient eligibility

About

The aim is to find out more about how corneal sensory fibres react to different types of stimuli (liquid / tactile / nylon thread) and how this can be consciously perceived by the individual. Is it possible to generate a stimulus that delivers a repeatable and reliable response within a useful stimulus force range which allows an interpretation / evaluation of normal / expected activity of superficial nerve fibres in the cornea? The study group will be divided into two age groups, as sensitivity changes are thought to occur in dependence of age. In vivo confocal microscopy has shown that the density of corneal nerve fibres in the sub-basal nerve plexus decreases with age, which consequently would suggest that sensitivity should also decrease. A very interesting research question is to find out, if such sensitivity differences can be detected with the nature of the stimuli applied in this study.

Full description

The aim of this study is to gain more physiological knowledge about ocular surface sensation (corneal sensitivity), with application of three different concepts employing different types of stimuli for triggering a response from the pain sensitive nerve endings in the superficial cornea: 1) liquid jet (consisting of isotonic saline solution; prototype), 2) tactile stimulus (round plastic nozzle, prototype) 3) commercially available Cochet Bonnet esthesiometer (nylon thread). Measurements will be carried out on healthy eyes of subjects in two different age groups.

Current knowledge about human corneal sensitivity is limited, as applied methods for ocular surface sensation measurement are limited with regards to reproducibility / accuracy.

Corneal sensitivity represents a neurological response from the free nerve endings within the epithelium. They are sensitive to mechanical, electrical, chemical or thermal stimuli and hence have a protective function for the cornea. Corneal nerves play an important role in cell growth and proliferation of epithelial cells, wound healing and repair. In experimental studies, corneal denervation has been reported to result in epithelial changes: increased permeability, decreased proliferation, changed appearance and delayed wound healing. Therefore, intact corneal innervation is required to maintain the integrity of a normal corneal epithelium. Corneal sensory nerves are believed to play an important role in maintaining the resting tear flow, as their afferent impulses from the ocular surface lead to a reflex response, best described by the lacrimal functional unit: an integrated system comprising the ocular surface tissues (cornea, corneal limbus, conjunctiva, conjunctival blood vessels, and eyelids), the tear secreting components (main and accessory lacrimal glands, meibomian glands, conjunctival goblet, and epithelial cells), and the sensory and motor nerves that connect them.

Current knowledge about ocular surface sensitivity is insufficient, as currently available measurement possibilities lack repeatability and accuracy. Before a new instrument can be developed, more research is required, in order to find a suitable concept for precise sensitivity measurement. For this purpose, two new different concepts with different / new stimulus types will be applied repeatably on healthy eyes in this study. The aim is to find out more about how corneal sensory fibres react to different types of stimuli (liquid / tactile / nylon thread) and how this can be consciously perceived by the individual. Is it possible to generate a stimulus that delivers a repeatable and reliable response within a useful stimulus force range which allows an interpretation / evaluation of normal / expected activity of superficial nerve fibres in the cornea? The study group will be divided into two age groups, as sensitivity changes are thought to occur in dependence of age. In vivo confocal microscopy has shown that the density of corneal nerve fibres in the sub-basal nerve plexus decreases with age, which consequently would suggest that sensitivity should also decrease. A very interesting research question is to find out, if such sensitivity differences can be detected with the nature of the stimuli applied in this study.

Enrollment

90 patients

Sex

All

Ages

18 to 70 years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

  • Group 'young age': 18 - 30 years of age; healthy eyes with Ocular Surface Disease Index Score </= 13
  • Group 'advanced age': 50 - 70 years of age; healthy eyes with Ocular Surface Disease Index Score </= 13

Exclusion criteria

  • Systemic disease that may affect ocular health, such as diabetes
  • Injury and history of operations on the anterior segment of the eye
  • regular application of systemic or ocular medication known to affect the tear film, specifically on the day of measurement
  • rigid gas permeable contact lens wear
  • soft contact lens wear less than 48 hours before study visit

Trial design

Primary purpose

Basic Science

Allocation

Non-Randomized

Interventional model

Parallel Assignment

Masking

None (Open label)

90 participants in 2 patient groups

Group 'young age'
Other group
Description:
Group 'young age': 18 - 30 years of age; healthy eyes
Treatment:
Device: Cochet Bonnet esthesiometer
Device: Liquid Jet Esthesiometer Prototype
Device: Tactile Esthesiometer Prototype
Group 'advanced age'
Other group
Description:
Group 'advanced age': 50 - 70 years of age; healthy eyes
Treatment:
Device: Cochet Bonnet esthesiometer
Device: Liquid Jet Esthesiometer Prototype
Device: Tactile Esthesiometer Prototype

Trial contacts and locations

1

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Data sourced from clinicaltrials.gov

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