Keloid Scarring: Understanding the Genetic Basis, Advances, and Prospects
Ahmad Sukari Halim, Azadeh Emami, Iman Salahshourifar, Thirumulu Ponnuraj Kannan
Arch Plast Surg. 2012;39(3):184-189.   Published online 2012 May 10     DOI:
Citations to this article as recorded by Crossref logo
Wound Healing: A Cellular Perspective
Melanie Rodrigues, Nina Kosaric, Clark A. Bonham, Geoffrey C. Gurtner
Physiological Reviews.2019; 99(1): 665.     CrossRef
Genetic influence on scar height and pliability after burn injury in individuals of European ancestry: A prospective cohort study
Hilary J. Wallace, Gemma Cadby, Phillip E. Melton, Fiona M. Wood, Sian Falder, Margaret M. Crowe, Lisa J. Martin, Karen Marlow, Sarah V. Ward, Mark W. Fear
Burns.2019; 45(3): 567.     CrossRef
Toward understanding scarless skin wound healing and pathological scarring
Sanna-Maria Karppinen, Ritva Heljasvaara, Donald Gullberg, Kaisa Tasanen, Taina Pihlajaniemi
F1000Research.2019; 8: 787.     CrossRef
Stem Cells in Keloid Lesions
Kim H. Lim, Tinte Itinteang, Paul F. Davis, Swee T. Tan
Plastic and Reconstructive Surgery - Global Open.2019; 7(5): e2228.     CrossRef
Complete excision of proliferating core in auricular keloids significantly reduces local recurrence: A prospective study
Yosep Chong, Chan Woo Kim, Yong Sung Kim, Choong Hyun Chang, Tae Hwan Park
The Journal of Dermatology.2018; 45(2): 139.     CrossRef
DNA methylation of the CDC2L1 gene promoter region decreases the expression of the CDK11p58 protein and reduces apoptosis in keloid fibroblasts
Gang Zhang, QiaoYu Guan, Guizong Chen, Fang Qian, Jie Liang
Archives of Dermatological Research.2018; 310(2): 107.     CrossRef
Successful Spine-Shortening Osteotomy for Recurrent Tethered Cord Syndrome in a Patient with Ehlers-Danlos Type III and Mosaic Trisomy 20: A Case Report
Pooria Hosseini, Gregory Mundis, Kevin Yoo
Shafa Orthopedic Journal.2018;[Epub]     CrossRef
Immunomodulation as Rescue for Chronic Atonic Skin Wounds
Ghislain Opdenakker, Jo Van Damme, Jan Jeroen Vranckx
Trends in Immunology.2018; 39(4): 341.     CrossRef
Gene-based evaluation of low-frequency variation and genetically-predicted gene expression impacting risk of keloid formation
Jacklyn N. Hellwege, Shirley B. Russell, Scott M. Williams, Todd L. Edwards, Digna R. Velez Edwards
Annals of Human Genetics.2018; 82(4): 206.     CrossRef
Coherency image analysis to quantify collagen architecture: implications in scar assessment
T. D. Clemons, M. Bradshaw, P. Toshniwal, N. Chaudhari, A. W. Stevenson, J. Lynch, M. W. Fear, F. M. Wood, K. Swaminathan Iyer
RSC Advances.2018; 8(18): 9661.     CrossRef
Identification and integrated analysis of microRNA expression profiles in keloid
Lianmei Zhong, Ligong Bian, Jing Lyu, Huiyan Jin, Zijie Liu, Lechun Lyu, Di Lu
Journal of Cosmetic Dermatology.2018; 17(5): 917.     CrossRef
Gallic acid inhibits fibroblast growth and migration in keloids through the AKT/ERK signaling pathway
Xiuxia Wang, Ke Liu, Mengying Ruan, Jun Yang, Zhen Gao
Acta Biochimica et Biophysica Sinica.2018;[Epub]     CrossRef
Cicatrisation normale et hypertrophique, influence de l’environnement mécanique
Dorothée Girard, Alexis Desmoulière
Revue Francophone de Cicatrisation.2018; 2(3): 12.     CrossRef
miR-21 promotes collagen production in keloid via Smad7
Renpeng Zhou, Chen Wang, Congji Wen, Danru Wang
Burns.2017; 43(3): 555.     CrossRef
Upregulation of microRNA-205 suppresses vascular endothelial growth factor expression-mediated PI3K/Akt signaling transduction in human keloid fibroblasts
Gang An, Shuzeng Liang, Chunhong Sheng, Yan Liu, Wei Yao
Experimental Biology and Medicine.2017; 242(3): 275.     CrossRef
Epidermal Growth Factor (EGF)-Like Repeats and Discoidin I-Like Domains 3 (EDIL3): A Potential New Therapeutic Tool for the Treatment of Keloid Scars
Yeon Hee Ryu, Yoon Jae Lee, Ki-Joo Kim, Su Jin Lee, Yu-Na Han, Jong-Won Rhie
Tissue Engineering and Regenerative Medicine.2017; 14(3): 267.     CrossRef
MicroRNA-21 in Skin Fibrosis: Potential for Diagnosis and Treatment
Yan Li, Juan Zhang, Yuying Lei, Lechun Lyu, Ruiling Zuo, Ting Chen
Molecular Diagnosis & Therapy.2017; 21(6): 633.     CrossRef
Pleiotrophin is downregulated in human keloids
Dong Hun Lee, Cheng Long Jin, Yeji Kim, Mi Hee Shin, Ji Eun Kim, Minji Kim, Min Jung Lee, Soyun Cho
Archives of Dermatological Research.2016; 308(8): 585.     CrossRef
The molecular basis of hypertrophic scars
Zhensen Zhu, Jie Ding, Edward E. Tredget
Burns & Trauma.2016;[Epub]     CrossRef
IL-6 Polymorphism and Susceptibility to Keloid Formation in a Japanese Population
Mamiko Tosa, Atsushi Watanabe, Mohammad Ghazizadeh
Journal of Investigative Dermatology.2016; 136(5): 1069.     CrossRef
Antifibrogenic effects of B16 melanoma-conditioned medium
Chung Hun Kim, Wang Kyun Kim, Chengjin Li, Jea Yong Song, Jong Hyuk Sung, Seung Yong Song
Journal of Surgical Research.2015; 194(2): 688.     CrossRef
High-mobility Group Box Protein-1, Matrix Metalloproteinases, and Vitamin D in Keloids and Hypertrophic Scars
Dylan E. Lee, Ryan M. Trowbridge, Nagi T. Ayoub, Devendra K. Agrawal
Plastic and Reconstructive Surgery - Global Open.2015; 3(6): e425.     CrossRef
Hypertrophe Narben und Keloide
Roland Aschoff
ästhetische dermatologie & kosmetologie.2015; 7(2): 28.     CrossRef
LncRNA expression profiles and validation in keloid and normal skin tissue
International Journal of Oncology.2015; 47(5): 1829.     CrossRef
Clinical Implications of Single- Versus Multiple-Site Keloid Disorder
Tae Hwan Park, Ji Hae Park, Michael H. Tirgan, Ahmad Sukari Halim, Choong Hyun Chang
Annals of Plastic Surgery.2015; 74(2): 248.     CrossRef
Molecular signalings in keloid disease and current therapeutic approaches from natural based compounds
Thitita Unahabhokha, Apirada Sucontphunt, Ubonthip Nimmannit, Pithi Chanvorachote, Nuttida Yongsanguanchai, Varisa Pongrakhananon
Pharmaceutical Biology.2015; 53(3): 457.     CrossRef
Effects of adipose-derived stem cells on keloid fibroblasts based on paracrine function
Sang Wha Kim, Ki Joo Kim, Jong Won Rhie, Sang Tae Ahn
Tissue Engineering and Regenerative Medicine.2015; 12(6): 435.     CrossRef
Inhibition of Hyaluronan Synthase 2 Reduces the Abnormal Migration Rate of Keloid Keratinocytes
Dorothy M. Supp, Jennifer M. Hahn, Kevin L. McFarland, Kathryn Glaser
Journal of Burn Care & Research.2014; 35(1): 84.     CrossRef
Synergistic Effect of Interleukin-6 and Hyaluronic Acid on Cell Migration and ERK Activation in Human Keratinocytes
Jee-Hyun Choi, Jin Hyun Jun, Ji Hyun Kim, Ho Joong Sung, Jong Hun Lee
Journal of Korean Medical Science.2014; 29(Suppl 3): S210.     CrossRef
Wound healing: an update
Elizabeth R Zielins, David A Atashroo, Zeshaan N Maan, Dominik Duscher, Graham G Walmsley, Michael Hu, Kshemendra Senarath-Yapa, Adrian McArdle, Ruth Tevlin, Taylor Wearda, Kevin J Paik, Christopher Duldulao, Wan Xing Hong, Geoffrey C Gurtner, Michael T L
Regenerative Medicine.2014; 9(6): 817.     CrossRef
Annexin A2 participates in human skin keloid formation by inhibiting fibroblast proliferation
Soon Heum Kim, Seung-Hyo Jung, Hong Chung, Dong In Jo, Cheol Keun Kim, Seung Hwa Park, Kyung-Jong Won, Hyun Soo Jeon, Bokyung Kim
Archives of Dermatological Research.2014; 306(4): 347.     CrossRef
Cochlear implant extrusion secondary to keloid formation
Michael J Loochtan, Shiayin Yang, Avinash V Mantravadi, Sam J Marzo
Cochlear Implants International.2014; 15(5): 276.     CrossRef
Therapie hypertropher Narben und Keloide
R. Aschoff
Der Hautarzt.2014; 65(12): 1067.     CrossRef
The Role of Eumelanin in Generating Reactive Oxygen and Reactive Nitrogen in Solution: Possible Relevance to Keloid Formation
Julian M. Menter, Comnuan Nokkaew, Danita Eatman, Aquilla Sprewell, Natalia Silvestrov, Abrienne M. Patta, Sandra Harris-Hooker
Open Journal of Physical Chemistry.2013; 03(04): 157.     CrossRef
Photodynamic therapy: an innovative approach to the treatment of keloid disease evaluated using subjective and objective non-invasive tools
Sara Ud-Din, Grace Thomas, Julie Morris, Ardeshir Bayat
Archives of Dermatological Research.2013; 305(3): 205.     CrossRef
Models of Abnormal Scarring
Bommie F. Seo, Jun Yong Lee, Sung-No Jung
BioMed Research International.2013; 2013: 1.     CrossRef
Keloids and non-diabetic kidney disease: Similarities and the APOL1–MYH9 haplotype as a possible genetic link
Brett H. Keeling, Brent R. Taylor
Medical Hypotheses.2013; 81(5): 908.     CrossRef