# Follicle architecture and innervation of functionally distinct rat vibrissae

**Authors:** Ben Gerhardt, Tobias Rodde, Jette Alfken, Jakob Reichmann, Tim Salditt, Michael Brecht

PMC · DOI: 10.1038/s42003-025-08336-w · 2025-07-01

## TL;DR

This study uses advanced imaging to explore how the structure of rat whisker follicles relates to their sensory functions.

## Contribution

The paper introduces high-resolution synchrotron X-ray imaging to analyze follicle architecture and afferent innervation in functionally distinct rat vibrissae.

## Key findings

- The ringwulst and club-like afferents form a non-scalable sensory module with consistent dimensions across vibrissae.
- Longer vibrissae have more club-like afferents, possibly for sensing small deflections.
- Trident vibrissae have few, polarized afferents, suggesting a role in sensing forward motion.

## Abstract

The vibrissa follicle is a complex mechanotransducer with intricate accessory structures such as vibrissa, ring sinus and ringwulst as well as rich innervation by diverse afferent types. Establishing how afferent types and accessory structures operate together to derive specific kinds of sensory information has been challenging, because we often lack precise information on afferent types, accessory structures and vibrissa function. Here we address this challenge by synchrotron X-ray imaging of vibrissa follicles of rat vibrissae with distinct function. Specifically, we characterize accessory structures and trace myelinated axons of the all-purpose-sensing C2-, an object-sensing micro-, the wind-sensing supraorbital- and the ground-sensing trident-vibrissa. We find that while vibrissa length and follicle size differ widely across these vibrissae, the ringwulst and the associated club-like afferents are of near constant diameter and height and appear to form a non-scalable sensory module. The two longer vibrissae (supraorbital and C2 vibrissa) have noticeably more club like afferents, suggesting a special role of the ringwulst in transducing presumably smaller deflection angles encountered by long sensory hairs. The trident vibrissa receives overall few afferents, which are strongly polarized to the posterior vibrissa-shaft, a putative specialization to sensing forward-egomotion. We conclude that high-resolution structural analysis allows relating follicle architecture and function.

Structure-function relationship of the vibrissa follicle and associated afferents are revealed by synchrotron X-ray imaging of rat vibrissae with distinct functions.

## Linked entities

- **Species:** Rattus norvegicus (taxon 10116)

## Full-text entities

- **Species:** Rattus norvegicus (brown rat, species) [taxon 10116]

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12216610/full.md

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Source: https://tomesphere.com/paper/PMC12216610