# Regeneration of Bone, Cartilage, and Tooth Following Lower Jaw Amputation in Newts

**Authors:** Kento Tsubosaki, Taisuke Hani, Kazuya Fujita, Kaori Sato, Tomoo Kudo, Yuuichi Soeno, Tatsuyuki Ishii, Kazuo Kishi, Chikafumi Chiba, Yuji Taya

PMC · DOI: 10.3390/biomedicines14020434 · Biomedicines · 2026-02-14

## TL;DR

Newts can regenerate their lower jaws, including bone, cartilage, and teeth, after amputation, offering insights for human jaw reconstruction.

## Contribution

This study provides the first detailed sequence of lower jaw regeneration in adult newts, including full functional recovery.

## Key findings

- Newts regenerate lower jaw bone, cartilage, and teeth to pre-amputation states within 64 weeks.
- Epithelial coverage, ectopic cartilage formation, and bone resorption are key steps in the regeneration process.
- Dental lamina invagination and tooth germ formation contribute to dentition restoration.

## Abstract

Background/Objectives: In humans, diseases such as oral cancer may require surgical amputation of the jaw. This severe disruption causes impairments in eating, swallowing, and speech, leading to a significant decline in quality of life. In contrast, newts, a group of urodele amphibians, can regenerate their jaws even in adulthood. This study explored how adult newts reconstruct lower jaws after substantial loss and clarified how this process contributes to rapid functional recovery when feeding becomes impossible. Methods: Adult Japanese fire-bellied newts (Cynops pyrrhogaster) underwent surgical amputation of the anterior half of their lower jaws. Regeneration was monitored for 64 weeks using histological analyses of bone, cartilage, and dental tissues and micro-computed tomography (micro-CT)-based osteomorphometry to quantify structural changes in the regenerating lower jaw. Results: Histological observations and osteomorphometry revealed the following: epithelial coverage of the amputation margin; ectopic cartilage formation, growth, and regression; bone resorption at the amputation margin prior to bone regeneration; anterior extension of the lower jaw bone along the original dentition position, followed by its thickening; and dental lamina invagination with tooth germ formation. Through these processes, the lower jaw bone, Meckel’s cartilage, and dentition were restored by 64 weeks post-amputation to their pre-amputation states. Conclusions: This study delineates the full sequence of lower jaw regeneration in adult newts, demonstrating complete restoration of bone, cartilage, and teeth after substantial lower jaw loss. These findings provide a detailed framework for understanding urodele jaw regeneration and may inform future strategies for promoting jaw reconstruction in humans.

## Linked entities

- **Diseases:** oral cancer (MONDO:0023644)
- **Species:** Cynops pyrrhogaster (taxon 8330), Mus musculus (taxon 10090)

## Full-text entities

- **Genes:** ATHS (atherosclerosis susceptibility (lipoprotein associated)) [NCBI Gene 470] {aka ALP}, SOX9 (SRY-box transcription factor 9) [NCBI Gene 6662] {aka CMD1, CMPD1, ENH13, SRA1, SRXX2, SRXY10}
- **Diseases:** injury to (MESH:D014947), Jaw (MESH:D007571), calcification (MESH:D002114), swelling (MESH:D004487), oral cancer (MESH:D009062), Cartilage (MESH:D002357), amputation (MESH:C565682), impairments in eating, swallowing, and speech (MESH:D003680), bone loss (MESH:D001847), resorption (MESH:D014091), impaired mastication and speech (MESH:D013064), underweight (MESH:D013851)
- **Chemicals:** ethylenediaminetetraacetic acid (MESH:D004492), acetic acid (MESH:D019342), AB (MESH:D000423), EDTA 2Na (-), hematoxylin (MESH:D006416), hydroxyapatite (MESH:D017886)
- **Species:** Ambystoma mexicanum (axolotl, species) [taxon 8296], Homo sapiens (human, species) [taxon 9606], Cynops pyrrhogaster (Japanese common newt, species) [taxon 8330]

## Full text

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## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12938529/full.md

## References

15 references — full list in the complete paper: https://tomesphere.com/paper/PMC12938529/full.md

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Source: https://tomesphere.com/paper/PMC12938529