Pardis Khosravani
Royan Institute
12 Papers
23 Citations
Pardis Khosravani is an academic researcher from Royan Institute. The author has contributed to research in topics: Stem cell & Cancer stem cell. The author has an hindex of 6, co-authored 9 publications.
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Papers
Distinct molecular profiles of skull bone marrow in health and neurological disorders
Z. I. Kolabas,L. B. Kuemmerle,Robert Perneczky,Benjamin Förstera,Selin Ulukaya,Mayar Ali,Saketh Kapoor,L. Bartos,Maren Büttner,Ozum S. Caliskan,Zhouyi Rong,Hongcheng Mai,Luciano Höher,Denise Jeridi,Muge Molbay,Igor Khalin,I.K. Deligiannis,Moritz Negwer,Kenny Roberts,Alba Simats,O Carofiglio,Mihail Ivilinov Todorov,Izabela Horvath,Furkan Ozturk,Selina Hummel,Gloria Biechele,A.V Zatcepin,Marcus Unterrainer,Johannes Gnörich,Jay Roodselaar,Joshua Shrouder,Pardis Khosravani,Benjamin Tast,Lisa Richter,Laura Díaz-Marugán,Doris Kaltenecker,Laurin Lux,Ying Chen,Shan Zhao,Boris-Stephan Rauchmann,Michael Sterr,I. Kunze,Karen Stanic,Vanessa W. Y. Kan,S. Besson-Girard,Sabrina Katzdobler,Carla Palleis,Julia Schädler,Johannes C. Paetzold,Sabine Liebscher,Anja E. Hauser,Ozgun Gokce,Heiko Lickert,Hanno Steinke,Corinne Benakis,Christian Braun,Celia P. Martinez-Jimenez,Katharina Buerger,Nathalie L. Albert,Günter U. Höglinger,Johannes Levin,Christian Haass,Anna Kopczak,Martin Dichgans,Joachim Havla,Tania Kümpfel,Martin Kerschensteiner,Martina Schifferer,Mikael Simons,Arthur Liesz,Natalie Krahmer,Omer Ali Bayraktar,Nicolai Franzmeier,Nikolaus Plesnila,Suheda Erener,Victor G. Puelles,Claire Delbridge,Harsharan S. Bhatia,Farida Hellal,Markus Elsner,Ingo Bechmann,Benjamin Ondruschka,Matthias Brendel,Fabian J. Theis,Ali Erturk +84 more
TL;DR: The mouse skull has the most distinct transcriptomic profile compared with other bones in states of health and injury, characterized by a late-stage neutrophil phenotype, and the unique molecular profile and anatomical and functional connections of the skull show its potential as a site for diagnosing, monitoring, and treating brain diseases.
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Evaluation of the expressions pattern of miR-10b, 21, 200c, 373 and 520c to find the correlation between epithelial-to-mesenchymal transition and melanoma stem cell potential in isolated cancer stem cells
Motahareh Rajabi Fomeshi,Marzieh Ebrahimi,Seyed Javad Mowla,Pardis Khosravani,Javad Firouzi,Hamid Khayatzadeh +5 more
TL;DR: Melanospheres were found to upregulate miR-10b, 21, 200c, 373 and 520c, so it is suggested that they may control both metastasis and stemness potential.
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In vitro and in vivo investigation of a novel amniotic-based chitosan dressing for wound healing.
Maryam Momeni,Mohammad Zarehaghighi,Mirhamed Hajimiri,Ghasemali Khorasani,Rassoul Dinarvand,Abdolhossein Nekookar,Niloofar Sodeifi,Pardis Khosravani,Niloofar Shayanasl,Marzieh Ebrahimi +9 more
TL;DR: Results revealed that AME‐Gel induces epidermal and dermal regeneration at a shorter time through formation of granulation tissue, enhancement of fibroblast proliferation, and improvement of blood capillary formation concomitant with developing collagen bundles, and could be considered a simple and easy to be used as a biological dressing for any type of superficial burn wounds, without any adverse effects.
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MicroRNA-203 reinforces stemness properties in melanoma and augments tumorigenesis in vivo.
Parisa Sahranavardfard,Javad Firouzi,Masoumeh Azimi,Pardis Khosravani,Raheleh Heydari,Raheleh Heydari,Amirnader Emami Razavi,Mahshad Dorraj,Faezeh Keighobadi,Marzieh Ebrahimi +9 more
TL;DR: It is determined that miR‐203 could be down‐regulateddownregulated in melanoma tissues but be overexpressed in melanomas stem cells, and has an important role as oncomiR and promote repopulation, tumorigenicity, self‐renewal, and migration.
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Defining microRNA signatures of hair follicular stem and progenitor cells in healthy and androgenic alopecia patients.
Parvaneh Mohammadi,Mohammad Ali Nilforoushzadeh,Khalil Kass Youssef,Ali Sharifi-Zarchi,Sharif Moradi,Pardis Khosravani,Raheleh Aghdami,Payam Taheri,Ghasem Hosseini Salekdeh,Hossein Baharvand,Nasser Aghdami +10 more
TL;DR: It is found that miR-324-3p promotes differentiation and migration of cultured keratinocytes likely through the regulation of mitogen-activated protein kinase (MAPK) and transforming growth factor (TGF)-β signaling.
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