REVIEW Corneal Epithelial “Neuromas”: A Case of Mistaken Identity? Mary Ann Stepp, PhD,* Sonali Pal-Ghosh, MS,* Laura E. Downie, PhD,† Alexis Ceecee Zhang, BOptom (Hons),† Holly R. Chinnery, PhD,† Joshua Machet, BMedSc,‡ and Nick Di Girolamo, PhD‡ IVCM can be used to diagnose disease in patients presenting Abstract: Laser scanning in vivo confocal microscopy is a useful with various ocular and nonocular symptoms.3–9 Figure 1 clinical tool to assess the corneal nerves in human and laboratory shows examples of the corneal nerves from healthy human animals. With this new technology, the use of terms such as (Figs. 1A–C) and mouse corneas (Fig. 1D); these images “neuromas” and “microneuromas” is becoming popular to describe emphasize the sites where stromal nerves enter the epithelium. nerve structures seen in humans. Here, we point out that the sites Although a powerful clinical tool, IVCM is not without where stromal nerves enter the corneal epithelium are often hyper- limitations, as described by Tervo et al10 and De Silva et al.11 reflective and can appear dysmorphic when imaged using in vivo Imaging the corneal epithelial basal axons is relatively straight- confocal microscopy. Furthermore, we clarify what is known forward, but the apical extensions cannot be readily visualized. anatomically about how the nerves enter the corneal epithelium from The curved surface of the cornea can also limit resolution, the stroma, and we urge colleagues to differentiate between hyper- particularly in the periphery. IVCM uses reflected light to fl – re ective foci at the corneal stromal epithelial nerve penetration sites obtain images; backscatter from disrupted extracellular matrix and alterations in nerve morphology secondary to injury or disease. can affect the quality of the images obtained. In addition, the Key Words: neuroma, intraepithelial corneal basal nerves, in vivo cost of the IVCM device is substantial and, unlike optical confocal microscopy coherence tomography, it is still not readily available in many outpatient ophthalmology clinics or practices. (Cornea 2020;39:930–934) To make full use of IVCM as a clinical tool requires an appreciation of the knowledge gained from human and animal studies using fixed tissues stained to reveal the corneal nerves he confocal scanning microscope was invented in 1955 by at a high resolution.12–14 In 1983, Rozsa et al15 described TProfessor Marvin Minsky.1 In 1988, it provided the first reinnervation of the sensory nerves in the rabbit cornea after images of the epithelial cells, keratocytes, and endothelial different types of corneal injury, including incisions and cells in the living human cornea.2 In the 1990s, in vivo confocal keratectomies. The method used to study the morphology of microscopy (IVCM) was being used to characterize the human the nerves was state of the art at that time: gold chloride corneal nerves, which were referred to as the subbasal nerves. staining using bright-field microscopy. In images shown of rabbit corneas 60 days after radial keratectomy, Rozsa et al15 “ ” Received for publication November 13, 2019; revision received January 2, referred to disorganized epithelial nerves as neuromas, as 2020; accepted January 2, 2020. Published online ahead of print February shown in Figure 2A. Figures 2B–E show the IVCM images 29, 2020. we acquired from people with diabetes. Since that time, From the *Departments of Anatomy and Cell Biology and Ophthalmology, several authors have used the term “microneuroma” or George Washington University School of Medicine and Health Sciences, “ ” Washington, DC; †Department of Optometry and Vision Sciences, The neuroma to describe anomalous nerve features typically 6,16,17 University of Melbourne, Parkville, Victoria, Australia; and ‡Department associated with corneal injury and disease. Here, we of Ophthalmology, School of Medical Sciences, Faculty of Medicine, propose that, in some contexts, the terms neuroma and University of New South Wales, Sydney, New South Wales, Australia. microneuroma may be misleading, given that similar nerve Supported by the NIH/NEI EY08512 (M.A.S.); the National Health and Medical Research Council of Australia, APP1101078 and APP1156944 morphologies are evident in healthy corneas, with no reported (N.D.), and APP1126540 (H.R.C.); and the Rebecca L. Cooper Medical pathology. In addition, we believe there is a need for Foundation (L.E.D.). a standardized terminology to accurately describe corneal The authors have no conflicts of interest to disclose. nerve anatomy in healthy corneas and anomalies seen in Correspondence: Mary Ann Stepp, PhD, Department of Anatomy and Cell patients (Table 1). Biology, George Washington University School of Medicine and Health ’ fi Sciences, Ross Hall, Room 231, 2300 I St NW, Washington, DC 20037 The online Merriam Webster s Dictionary lists the rst (e-mail: [email protected]). use of the term neuroma in 1829 to describe “a tumor growing Copyright © 2020 The Author(s). Published by Wolters Kluwer Health, Inc. from a nerve and consisting of nerve fibers.” 18 In medicine, This is an open-access article distributed under the terms of the Creative the term is no longer limited to tumors. Although the online Commons Attribution-Non Commercial License 4.0 (CCBY-NC), where 19 “ it is permissible to download, share, remix, transform, and buildup the medical dictionary states that neuroma is a general term for work provided it is properly cited. The work cannot be used commercially any neoplasm derived from cells of the nervous system,” it without permission from the journal. then describes several types of noncancerous neuromas, 930 | www.corneajrnl.com Cornea Volume 39, Number 7, July 2020 Cornea Volume 39, Number 7, July 2020 Corneal Epithelial “Neuromas” FIGURE 1. Corneal stromal-epithelial nerve penetration sites. A, An IVCM image from a human cornea highlighting a feature (black arrow) that has similarities to previous reports of “stumps of severed nerves/abrupt endings of a nerve fiber.” Bar = 50 mm. B, A montage of serial images from a depth volume scan of inset in (A). These images show that the apparently “abrupt” nerve ending is actually continuous with a stromal nerve trunk. Bar = 50 mm. C, An en face image from Marfurt et al30 of an unwounded human cornea shown after staining the tissue with an antibody against bIII-tubulin and visualized by 3,39-diaminobenzidine. Black circles highlight the sites where stromal nerves penetrate the epithelium (CSENPS). Bar = 150 mm. D, An en face image of an unwounded mouse cornea stained with an antibody against bIII-tubulin and visualized using a fluorescent secondary antibody. The magenta circles highlight the CSENPS, that is, the sites where stromal nerves enter the epithelium. Bar = 50 mm. including acoustic neuromas, amputation neuromas, neuroma The sites where the corneal stromal nerves exit the cutis, plexiform neuromas, and traumatic neuromas. Trau- stroma, penetrate the basement membrane, and enter the basal matic neuromas19 arise from trauma to the nerves and consist epithelial cell layer have complex morphologies. The stromal of tangles of nerves, Schwann cells, and perineural fibroblasts nerves, like other nerves of the peripheral nervous system, and are found in the dermis or other interstitial tissues where have 2 types of neural crest–derived cells, namely the they can persist and cause pain and discomfort. Schwann cells and endoneurial fibroblasts, associated with In 1982, corneal sensory nerve fibers were believed to them. The Schwann cells can be of 2 types: myelinating and be located beneath the corneal epithelial basement mem- nonmyelinating. Studies have shown that the myelinating brane.20 They were called the subbasal nerves; the network Schwann cells in the cornea are restricted to the periph- the nerves assume was referred to as the subbasal nerve ery12,14; in the central cornea, the nonmyelinating Schwann plexus. Nerve terminals branched apically from the subbasal cells wrap their plasma membranes around each axon. The nerves.20 Since then, improved imaging procedures have endoneurial fibroblasts secrete collagen around the axons to shown that the subbasal nerves actually localize within the insulate individual axons from one another and increase their basal cell layer and are enclosed by the cell membranes of the ability to resist mechanical forces without severing. As the corneal epithelial basal cells.13,21 To minimize confusion stromal nerves penetrate the epithelial basement membrane, regarding where these sensory nerves localize within the they shed associated Schwann cells, endoneurial fibroblasts, cornea, in 2017, the term intraepithelial corneal nerves (ICNs) and the matrix proteins they secrete. was proposed21 to include the subbasal nerves and nerve Al-Aqaba et al14 have used scanning electron micros- terminals. This terminology has yet to be broadly adopted in copy and transmission electron microscopy to demonstrate the literature. Here, we propose that once the sensory nerves the unique anatomical features of the junction between the enter the epithelium and travel within the basal epithelial cell stromal nerves and ICBNs in human corneas. They observed layer above the basement membrane, they be referred to not bulb-like structures; a stromal nerve entered the stromal side as the subbasal nerves but as the intraepithelial corneal basal of the bulb and a thinner ICBN exited the epithelium. The nerves (ICBNs); the ICBNs branch and extend between the bulbs did not stain with antibodies against bIII-tubulin or epithelial