Cargando…

Characterization of the Biomechanical Properties of Skin Using Vibrational Optical Coherence Tomography: Do Changes in the Biomechanical Properties of Skin Stroma Reflect Structural Changes in the Extracellular Matrix of Cancerous Lesions?

Early detection of skin cancer is of critical importance since the five-year survival rate for early detected skin malignancies is 99% but drops to 27% for cancer that has spread to distant lymph nodes and other organs. Over 2.5 million benign skin biopsies (55% of the total) are performed each year...

Descripción completa

Detalles Bibliográficos
Autores principales: Silver, Frederick H., Kelkar, Nikita, Deshmukh, Tanmay, Ritter, Kelly, Ryan, Nicole, Nadiminti, Hari
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8615800/
https://www.ncbi.nlm.nih.gov/pubmed/34827711
http://dx.doi.org/10.3390/biom11111712
_version_ 1784604193111146496
author Silver, Frederick H.
Kelkar, Nikita
Deshmukh, Tanmay
Ritter, Kelly
Ryan, Nicole
Nadiminti, Hari
author_facet Silver, Frederick H.
Kelkar, Nikita
Deshmukh, Tanmay
Ritter, Kelly
Ryan, Nicole
Nadiminti, Hari
author_sort Silver, Frederick H.
collection PubMed
description Early detection of skin cancer is of critical importance since the five-year survival rate for early detected skin malignancies is 99% but drops to 27% for cancer that has spread to distant lymph nodes and other organs. Over 2.5 million benign skin biopsies (55% of the total) are performed each year in the US at an alarming cost of USD ~2.5 B. Therefore there is an unmet need for novel non-invasive diagnostic approaches to better differentiate between cancerous and non-cancerous lesions, especially in cases when there is a legitimate doubt that a biopsy may be required. The purpose of this study is to determine whether the differences in the extracellular matrices among normal skin, actinic keratosis (AK), basal cell carcinoma (BCC) and squamous cell carcinoma (SCC) can be assessed non-invasively using vibrational optical coherence tomography (VOCT). VOCT is a new diagnostic technology that uses infrared light and audible sound applied transversely to tissue to measure the resonant frequencies and elastic moduli of cells, dermal collagen, blood vessels and fibrous tissue in skin and lesion stroma without physically touching the skin. Our results indicate that the cellular, vascular and fibrotic resonant frequency peaks are altered in AK, BCC and SCC compared to those peaks observed in normal skin and can serve as physical biomarkers defining the differences between benign and cancerous skin lesions. The resonant frequency is increased from a value of 50 Hz in normal skin to a value of about 80 Hz in pre- and cancerous lesions. A new vascular peak is seen at 130 Hz in cancerous lesions that may reflect the formation of new tumor blood vessels. The peak at 260 Hz is similar to that seen in the skin of a subject with Scleroderma and skin wounds that have healed. The peak at 260 Hz appears to be associated with the deposition of large amounts of stiff fibrous collagen in the stroma surrounding cancerous lesions. Based on the results of this pilot study, VOCT can be used to non-invasively identify physical biomarkers that can help differentiate between benign and cancerous skin lesions. The appearance of new stiff cellular, fragile new vessels, and stiff fibrous material based on resonant frequency peaks and changes in the extracellular matrix can be used as a fingerprint of pre- and cancerous skin lesions.
format Online
Article
Text
id pubmed-8615800
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-86158002021-11-26 Characterization of the Biomechanical Properties of Skin Using Vibrational Optical Coherence Tomography: Do Changes in the Biomechanical Properties of Skin Stroma Reflect Structural Changes in the Extracellular Matrix of Cancerous Lesions? Silver, Frederick H. Kelkar, Nikita Deshmukh, Tanmay Ritter, Kelly Ryan, Nicole Nadiminti, Hari Biomolecules Article Early detection of skin cancer is of critical importance since the five-year survival rate for early detected skin malignancies is 99% but drops to 27% for cancer that has spread to distant lymph nodes and other organs. Over 2.5 million benign skin biopsies (55% of the total) are performed each year in the US at an alarming cost of USD ~2.5 B. Therefore there is an unmet need for novel non-invasive diagnostic approaches to better differentiate between cancerous and non-cancerous lesions, especially in cases when there is a legitimate doubt that a biopsy may be required. The purpose of this study is to determine whether the differences in the extracellular matrices among normal skin, actinic keratosis (AK), basal cell carcinoma (BCC) and squamous cell carcinoma (SCC) can be assessed non-invasively using vibrational optical coherence tomography (VOCT). VOCT is a new diagnostic technology that uses infrared light and audible sound applied transversely to tissue to measure the resonant frequencies and elastic moduli of cells, dermal collagen, blood vessels and fibrous tissue in skin and lesion stroma without physically touching the skin. Our results indicate that the cellular, vascular and fibrotic resonant frequency peaks are altered in AK, BCC and SCC compared to those peaks observed in normal skin and can serve as physical biomarkers defining the differences between benign and cancerous skin lesions. The resonant frequency is increased from a value of 50 Hz in normal skin to a value of about 80 Hz in pre- and cancerous lesions. A new vascular peak is seen at 130 Hz in cancerous lesions that may reflect the formation of new tumor blood vessels. The peak at 260 Hz is similar to that seen in the skin of a subject with Scleroderma and skin wounds that have healed. The peak at 260 Hz appears to be associated with the deposition of large amounts of stiff fibrous collagen in the stroma surrounding cancerous lesions. Based on the results of this pilot study, VOCT can be used to non-invasively identify physical biomarkers that can help differentiate between benign and cancerous skin lesions. The appearance of new stiff cellular, fragile new vessels, and stiff fibrous material based on resonant frequency peaks and changes in the extracellular matrix can be used as a fingerprint of pre- and cancerous skin lesions. MDPI 2021-11-17 /pmc/articles/PMC8615800/ /pubmed/34827711 http://dx.doi.org/10.3390/biom11111712 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Silver, Frederick H.
Kelkar, Nikita
Deshmukh, Tanmay
Ritter, Kelly
Ryan, Nicole
Nadiminti, Hari
Characterization of the Biomechanical Properties of Skin Using Vibrational Optical Coherence Tomography: Do Changes in the Biomechanical Properties of Skin Stroma Reflect Structural Changes in the Extracellular Matrix of Cancerous Lesions?
title Characterization of the Biomechanical Properties of Skin Using Vibrational Optical Coherence Tomography: Do Changes in the Biomechanical Properties of Skin Stroma Reflect Structural Changes in the Extracellular Matrix of Cancerous Lesions?
title_full Characterization of the Biomechanical Properties of Skin Using Vibrational Optical Coherence Tomography: Do Changes in the Biomechanical Properties of Skin Stroma Reflect Structural Changes in the Extracellular Matrix of Cancerous Lesions?
title_fullStr Characterization of the Biomechanical Properties of Skin Using Vibrational Optical Coherence Tomography: Do Changes in the Biomechanical Properties of Skin Stroma Reflect Structural Changes in the Extracellular Matrix of Cancerous Lesions?
title_full_unstemmed Characterization of the Biomechanical Properties of Skin Using Vibrational Optical Coherence Tomography: Do Changes in the Biomechanical Properties of Skin Stroma Reflect Structural Changes in the Extracellular Matrix of Cancerous Lesions?
title_short Characterization of the Biomechanical Properties of Skin Using Vibrational Optical Coherence Tomography: Do Changes in the Biomechanical Properties of Skin Stroma Reflect Structural Changes in the Extracellular Matrix of Cancerous Lesions?
title_sort characterization of the biomechanical properties of skin using vibrational optical coherence tomography: do changes in the biomechanical properties of skin stroma reflect structural changes in the extracellular matrix of cancerous lesions?
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8615800/
https://www.ncbi.nlm.nih.gov/pubmed/34827711
http://dx.doi.org/10.3390/biom11111712
work_keys_str_mv AT silverfrederickh characterizationofthebiomechanicalpropertiesofskinusingvibrationalopticalcoherencetomographydochangesinthebiomechanicalpropertiesofskinstromareflectstructuralchangesintheextracellularmatrixofcancerouslesions
AT kelkarnikita characterizationofthebiomechanicalpropertiesofskinusingvibrationalopticalcoherencetomographydochangesinthebiomechanicalpropertiesofskinstromareflectstructuralchangesintheextracellularmatrixofcancerouslesions
AT deshmukhtanmay characterizationofthebiomechanicalpropertiesofskinusingvibrationalopticalcoherencetomographydochangesinthebiomechanicalpropertiesofskinstromareflectstructuralchangesintheextracellularmatrixofcancerouslesions
AT ritterkelly characterizationofthebiomechanicalpropertiesofskinusingvibrationalopticalcoherencetomographydochangesinthebiomechanicalpropertiesofskinstromareflectstructuralchangesintheextracellularmatrixofcancerouslesions
AT ryannicole characterizationofthebiomechanicalpropertiesofskinusingvibrationalopticalcoherencetomographydochangesinthebiomechanicalpropertiesofskinstromareflectstructuralchangesintheextracellularmatrixofcancerouslesions
AT nadimintihari characterizationofthebiomechanicalpropertiesofskinusingvibrationalopticalcoherencetomographydochangesinthebiomechanicalpropertiesofskinstromareflectstructuralchangesintheextracellularmatrixofcancerouslesions