# Effectiveness of an Autologous Micrografting Technology for Treating Stretch Marks

**Authors:** Andrea Garelli, Valeria Pessei, Ruggero Tagliabue, Olha Sles, Ratchathorn Panchaprateep

PMC · DOI: 10.1111/jocd.70321 · 2025-06-30

## TL;DR

This pilot study shows that autologous micrografting can improve the appearance of stretch marks by boosting collagen and elastin production in the skin.

## Contribution

The study introduces autologous micrografting as a novel, biologically active treatment for stretch marks.

## Key findings

- Patients showed reduced striae visibility and improved skin texture after treatment.
- Molecular analysis revealed upregulation of ECM-related genes like COL4A1, COL6A1, and ELN.
- High patient satisfaction was reported with the treatment protocol.

## Abstract

Stretch marks or striae distensae (SD) are common dermal lesions caused by the disruption of collagen and elastin fibers in the skin, often triggered by rapid mechanical stretching. Despite the availability of numerous treatment modalities, from topical agents to energy‐based devices, no single therapy has demonstrated consistent, long‐term efficacy across all patient populations. The pathophysiology of SD involves complex alterations in the extracellular matrix (ECM), particularly affecting fibroblast activity and collagen/elastin synthesis.

This pilot study aims to evaluate the clinical and molecular efficacy of autologous micrografting technology as a novel therapeutic option for SD. Specifically, it investigates the treatment's impact on ECM‐related gene expression and overall skin appearance.

Fourteen patients (13 females, 1 male) with clinically evident SD were enrolled. All participants underwent a standardized treatment protocol comprising microneedling followed by intradermal injection of autologous micrografts, obtained via a minimally invasive procedure. Clinical assessments were performed through standardized photography at baseline, 1 month, and 6 months post‐treatment. In vitro assays were conducted on cultured human dermal fibroblasts exposed to the micrograft suspension.

Clinical evaluations showed noticeable aesthetic improvements, including reduced striae visibility and improved skin texture, with high patient‐reported satisfaction. Molecular analyses revealed the upregulation of key ECM genes, including COL4A1, COL6A1, and ELN, indicating enhanced fibroblast activation and regenerative potential.

Autologous micrografting appears to be a promising, biologically active approach for SD treatment. It promotes ECM remodeling by stimulating fibroblast function and may represent a valuable addition to the therapeutic landscape for stretch marks.

## Linked entities

- **Genes:** COL4A1 (collagen type IV alpha 1 chain) [NCBI Gene 1282], COL6A1 (collagen type VI alpha 1 chain) [NCBI Gene 1291], ELN (elastin) [NCBI Gene 2006]

## Full-text entities

- **Genes:** ELN (elastin) [NCBI Gene 2006] {aka ADCL1, SVAS, WBS, WS}, COL6A1 (collagen type VI alpha 1 chain) [NCBI Gene 1291] {aka BTHLM1, BTHLM1A, OPLL, UCHMD1, UCHMD1A}, COL4A1 (collagen type IV alpha 1 chain) [NCBI Gene 1282] {aka BSVD, BSVD1, COL4A1s, PADMAL, RATOR}
- **Diseases:** dermal lesions (MESH:D016136), SD (MESH:D057896)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12207717/full.md

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Source: https://tomesphere.com/paper/PMC12207717