STAFF PROFILE
Sara Baratchi
Position:
Adjunct Associate Professor
College / Portfolio:
STEM College
Email:
sara.baratchi@rmit.edu.au
Campus:
Offsite
4 PhD Completions and 1 Masters by Research Completions8 PhD Current Supervisions
Cell biology, Mechanobiology, Membrane traffic, Mechanosensitive ion channels, Biomicrofudics
- Moradi, H.,Hourani, A.,Concilia, G.,Khoshmanesh, F.,Nezami, F.,Needham, S.,Baratchi, S.,Khoshmanesh, K. (2023). Recent developments in modeling, imaging, and monitoring of cardiovascular diseases using machine learning In: Biophysical Reviews, 15, 19 - 33
- Zeller, J.,Shing, K.,Nero, T.,McFadyen, J.,Danish, H.,Baratchi, S.,Woollard, K.,Peter, K., et al, . (2023). A novel phosphocholine-mimetic inhibits a pro-inflammatory conformational change in C-reactive protein In: EMBO Molecular Medicine, 15, 1 - 32
- Lai, A.,Cox, C.,Chandra Sekar, N.,Thurgood, P.,Jaworowski, A.,Karlheinz, P.,Baratchi, S. (2022). Mechanosensing by Piezo1 and its implications for physiology and various pathologies In: Biological Reviews, 97, 604 - 614
- Sutterby, E.,Thurgood, P.,Baratchi, S.,Khoshmanesh, K.,Pirogova, E. (2022). Evaluation of in vitro human skin models for studying effects of external stressors and stimuli and developing treatment modalities In: View, 3, 1 - 19
- Concilia, G.,Lai, A.,Thurgood, P.,Pirogova, E.,Baratchi, S.,Khoshmanesh, K. (2022). Investigating the mechanotransduction of transient shear stress mediated by Piezo1 ion channel using a 3D printed dynamic gravity pump In: Lab on a Chip, 22, 262 - 271
- Zhang, B.,Yin, P.,Hu, Y.,Szydzik, C.,Khan, M.,Xu, K.,Thurgood, P.,Mahmood, N.,Dekiwadia, C.,Afrin, S.,Yang, Y.,Ma, Q.,McConville, C.,Khoshmanesh, K.,Mitchell, A.,Hu, B.,Baratchi, S.,Ou, J. (2022). Highly accurate and label-free discrimination of single cancer cell using a plasmonic oxide-based nanoprobe In: Biosensors and Bioelectronics, 198, 1 - 10
- Thurgood, P.,Chheang, C.,Needham, S.,Pirogova, E.,Peter, K.,Baratchi, S.,Khoshmanesh, K. (2022). Generation of dynamic vortices in a microfluidic system incorporating stenosis barrier by tube oscillation In: Lab on a Chip, 22, 1917 - 1928
- Lai, A.,Thurgood, P.,Cox, C.,Chheang, C.,Peter, K.,Jaworowski, A.,Khoshmanesh, K.,Baratchi, S. (2022). Piezo1 Response to Shear Stress Is Controlled by the Components of the Extracellular Matrix In: ACS Applied Materials and Interfaces, 14, 40559 - 40568
- Sutterby, E.,Chheang, C.,Thurgood, P.,Khoshmanesh, K.,Baratchi, S.,Pirogova, E. (2022). Investigating the effects of low intensity visible light on human keratinocytes using a customized LED exposure system In: Scientific Reports, 12, 1 - 11
- Dayawansa, N.,Baratchi, S.,Peter, K. (2022). Uncoupling the Vicious Cycle of Mechanical Stress and Inflammation in Calcific Aortic Valve Disease In: Frontiers in Cardiovascular Medicine, 9, 1 - 18
- A Bioengineered Model of Calcific Aortic Valve Disease. Funded by: NHMRC-Ideas Grants from (2023 to 2026)
- 3D printing of micron-sized structures and voids (administered by Deakin University). Funded by: ARC LIEF via other University from (2023 to 2024)
- Microfluidic platforms for studying foam cell formation in vessels. Funded by: ARC Linkage Project Grants 2019 from (2021 to 2024)
- A Microfluidic approach to study the mechanobiology of ageing blood vessel. Funded by: ARC Discovery Projects 2020 from (2020 to 2023)
- Modelling TRPV4 skeletal disorders using human iPSCs (administered by Murdoch Childrens Reserach Institute). Funded by: National Health and Medical Research Council (NHMRC) Project Grants 2017 (for funding commencing in 2018) from (2018 to 2021)