Development, Application and Utility of a Machine Learning Approach for Melanoma and Non-Melanoma Lesion Classification Using Counting Box Fractal Dimension

Overview

Journal Diagnostics (Basel)

Specialty Radiology

Date 2024 Jun 19

PMID 38893659

Authors

Pablo Romero-Morelos

Elizabeth Herrera-Lopez

Beatriz Gonzalez-Yebra

Affiliations

Soon will be listed here.

Abstract

The diagnosis and identification of melanoma are not always accurate, even for experienced dermatologists. Histopathology continues to be the gold standard, assessing specific parameters such as the Breslow index. However, it remains invasive and may lack effectiveness. Therefore, leveraging mathematical modeling and informatics has been a pursuit of diagnostic methods favoring early detection. Fractality, a mathematical parameter quantifying complexity and irregularity, has proven useful in melanoma diagnosis. Nonetheless, no studies have implemented this metric to feed artificial intelligence algorithms for the automatic classification of dermatological lesions, including melanoma. Hence, this study aimed to determine the combined utility of fractal dimension and unsupervised low-computational-requirements machine learning models in classifying melanoma and non-melanoma lesions. We analyzed 39,270 dermatological lesions obtained from the International Skin Imaging Collaboration. Box-counting fractal dimensions were calculated for these lesions. Fractal values were used to implement classification methods by unsupervised machine learning based on principal component analysis and iterated K-means (100 iterations). A clear separation was observed, using only fractal dimension values, between benign or malignant lesions (sensibility 72.4% and specificity 50.1%) and melanoma or non-melanoma lesions (sensibility 72.8% and specificity 50%) and subsequently, the classification quality based on the machine learning model was ≈80% for both benign and malignant or melanoma and non-melanoma lesions. However, the grouping of metastatic melanoma versus non-metastatic melanoma was less effective, probably due to the small sample size included in MM lesions. Nevertheless, we could suggest a decision algorithm based on fractal dimension for dermatological lesion discrimination. On the other hand, it was also determined that the fractal dimension is sufficient to generate unsupervised artificial intelligence models that allow for a more efficient classification of dermatological lesions.

References

Legaria-Pena J, Sanchez-Morales F, Cortes-Poza Y . Evaluation of entropy and fractal dimension as biomarkers for tumor growth and treatment response using cellular automata. J Theor Biol. 2023; 564:111462. DOI: 10.1016/j.jtbi.2023.111462. View

Jenkins R, Fisher D . Treatment of Advanced Melanoma in 2020 and Beyond. J Invest Dermatol. 2020; 141(1):23-31. PMC: 7541692. DOI: 10.1016/j.jid.2020.03.943. View

Bizzarri M, Giuliani A, Cucina A, DAnselmi F, Soto A, Sonnenschein C . Fractal analysis in a systems biology approach to cancer. Semin Cancer Biol. 2011; 21(3):175-82. PMC: 3148285. DOI: 10.1016/j.semcancer.2011.04.002. View

Yang Y, Xie F, Zhang H, Wang J, Liu J, Zhang Y . Skin lesion classification based on two-modal images using a multi-scale fully-shared fusion network. Comput Methods Programs Biomed. 2022; 229:107315. DOI: 10.1016/j.cmpb.2022.107315. View

Cuocolo R, Caruso M, Perillo T, Ugga L, Petretta M . Machine Learning in oncology: A clinical appraisal. Cancer Lett. 2020; 481:55-62. DOI: 10.1016/j.canlet.2020.03.032. View

Perez-Aldrete B, Matildes-Mariscal J, Gomez-Padilla F, Guevara-Gutierrez E, Barrientos-Garcia J, Hernandez-Peralta S . Cutaneous melanoma in patients from western Mexico: Clinical pathology characteristics and their relationship to prognosis. Australas J Dermatol. 2019; 60(4):e298-e303. DOI: 10.1111/ajd.13054. View

Bobos M . Histopathologic classification and prognostic factors of melanoma: a 2021 update. Ital J Dermatol Venerol. 2021; 156(3):300-321. DOI: 10.23736/S2784-8671.21.06958-3. View

Huang S, Yang J, Fong S, Zhao Q . Artificial intelligence in cancer diagnosis and prognosis: Opportunities and challenges. Cancer Lett. 2019; 471:61-71. DOI: 10.1016/j.canlet.2019.12.007. View

Dinnes J, Deeks J, Chuchu N, Ferrante di Ruffano L, Matin R, Thomson D . Dermoscopy, with and without visual inspection, for diagnosing melanoma in adults. Cochrane Database Syst Rev. 2018; 12:CD011902. PMC: 6517096. DOI: 10.1002/14651858.CD011902.pub2. View

10.

Moldovanu S, Damian Michis F, Biswas K, Culea-Florescu A, Moraru L . Skin Lesion Classification Based on Surface Fractal Dimensions and Statistical Color Cluster Features Using an Ensemble of Machine Learning Techniques. Cancers (Basel). 2021; 13(21). PMC: 8582408. DOI: 10.3390/cancers13215256. View

11.

Bhinder B, Gilvary C, Madhukar N, Elemento O . Artificial Intelligence in Cancer Research and Precision Medicine. Cancer Discov. 2021; 11(4):900-915. PMC: 8034385. DOI: 10.1158/2159-8290.CD-21-0090. View

12.

Losa G . Fractal morphometry of cell complexity. Riv Biol. 2002; 95(2):239-58. View

13.

BRESLOW A . Tumor thickness, level of invasion and node dissection in stage I cutaneous melanoma. Ann Surg. 1975; 182(5):572-5. PMC: 1344040. DOI: 10.1097/00000658-197511000-00007. View

14.

Heymans O, FISSETTE J, Vico P, Blacher S, Masset D, Brouers F . Is fractal geometry useful in medicine and biomedical sciences?. Med Hypotheses. 2000; 54(3):360-6. DOI: 10.1054/mehy.1999.0848. View

15.

Thomsen K, Iversen L, Titlestad T, Winther O . Systematic review of machine learning for diagnosis and prognosis in dermatology. J Dermatolog Treat. 2019; 31(5):496-510. DOI: 10.1080/09546634.2019.1682500. View

16.

Kumar A, Peters M, Jakub J, Harmsen W, Baum C . Primary cutaneous melanoma features predict development of in-transit metastases/satellite lesions: Mayo Clinic experience, 2010 to 2014. J Am Acad Dermatol. 2022; 88(2):455-457. DOI: 10.1016/j.jaad.2022.06.010. View

17.

Lino-Silva L, Dominguez-Rodriguez J, Aguilar-Romero J, Martinez-Said H, Salcedo-Hernandez R, Garcia-Perez L . Melanoma in Mexico: Clinicopathologic Features in a Population with Predominance of Acral Lentiginous Subtype. Ann Surg Oncol. 2016; 23(13):4189-4194. DOI: 10.1245/s10434-016-5394-x. View

18.

Hasan M, Ahamad M, Yap C, Yang G . A survey, review, and future trends of skin lesion segmentation and classification. Comput Biol Med. 2023; 155:106624. DOI: 10.1016/j.compbiomed.2023.106624. View

19.

Breki C, Dimitrakopoulou-Strauss A, Hassel J, Theoharis T, Sachpekidis C, Pan L . Fractal and multifractal analysis of PET/CT images of metastatic melanoma before and after treatment with ipilimumab. EJNMMI Res. 2016; 6(1):61. PMC: 4967051. DOI: 10.1186/s13550-016-0216-5. View

20.

Losa G . The fractal geometry of life. Riv Biol. 2009; 102(1):29-59. View