| An overview of extrusion-based bioprinting with a focus on induced shear stress and its effect on cell viability S Boularaoui, G Al Hussein, KA Khan, N Christoforou, C Stefanini Bioprinting 20, e00093, 2020 | 192 | 2020 |
| Nanocomposite conductive bioinks based on low-concentration GelMA and MXene nanosheets/gold nanoparticles providing enhanced printability of functional skeletal muscle tissues S Boularaoui, A Shanti, M Lanotte, S Luo, S Bawazir, S Lee, ... ACS Biomaterials Science & Engineering 7 (12), 5810-5822, 2021 | 49 | 2021 |
| Efficient transdifferentiation of human dermal fibroblasts into skeletal muscle SM Boularaoui, KMA Abdel‐Raouf, NSA Alwahab, ME Kondash, ... Journal of tissue engineering and regenerative medicine 12 (2), e918-e936, 2018 | 36 | 2018 |
| Stiffness of extracellular matrix components modulates the phenotype of human smooth muscle cells in vitro and allows for the control of properties of engineered tissues SBH Timraz, R Rezgui, SM Boularaoui, JCM Teo Procedia Engineering 110, 29-36, 2015 | 34 | 2015 |
| Alternating magnetic field plate for enhanced magnetofection of iron oxide nanoparticle conjugated nucleic acids MK Yapici, A Al Nabulsi, N Rizk, SM Boularaoui, N Christoforou, S Lee Journal of Magnetism and Magnetic Materials 469, 598-605, 2019 | 18 | 2019 |
| Screening ST segments in patients with cardiac autonomic neuropathy AH Khandoker, S Boularaoui, GM Alhussein, NSO Almatroushi, ... 2012 Computing in Cardiology, 621-624, 2012 | 12 | 2012 |
| Harnessing shear stress preconditioning to improve cell viability in 3D post-printed biostructures using extrusion bioprinting S Boularaoui, A Shanti, KA Khan, S Iacoponi, N Christoforou, C Stefanini Bioprinting 25, e00184, 2022 | 11 | 2022 |
| An overview of extrusion-based bioprinting with a focus on induced shear stress and its effect on cell viability. Bioprinting, 20: e00093 S Boularaoui, G Al Hussein, KA Khan, N Christoforou, C Stefanini | 9 | 2020 |
| An overview of extrusion-based bioprinting with a focus on induced shear stress and its effect on cell viability. Bioprinting. 2020; 20: e00093 S Boularaoui, G Al Hussein, KA Khan, N Christoforou, C Stefanini | 9 | |
| Mending the heart through in situ cardiac regeneration JCM Teo, SM Boularaoui, NSA AlWahab, N Christoforou In Situ Tissue Regeneration, 313-344, 2016 | 2 | 2016 |
| Three-Dimensional Extrusion Bioprinting: Process Optimization and Novel Technology Development for Fabricating Skeletal Muscle Tissue S Boularaoui | | 2021 |
| Quantifying Amino Acids Specificity in the Protein Radiation Damage SS Khrais, HA AlNaqpi, SM Boularaoui, SM Tariq, DL Gater, AF Isakovic Biophysical Journal 110 (3), 507a, 2016 | | 2016 |
| Enhancing the Transdifferentiation Process of Human Dermal Fibroblasts into Skeletal Muscle Cells using Small Molecules and Extracellular Matrix Components S Boularaoui, N Christoforou TISSUE ENGINEERING PART A 21, S315-S315, 2015 | | 2015 |
| Multi-purpose advanced teaching and basic research analytical and physical chemistry laboratory at khalifa university's biomedical engineering department AF Isakovic, SSF Ling, SM Boularaoui, SB Timraz, M Kara 2013 ASEE International Forum, 2013 | | 2013 |
| Optimization of radiation damage to proteins using X-ray nanofocusing optics S Boularaoui, K Evans-Lutterodt, S Lee, AF Isakovic APS March Meeting Abstracts 2013, F46. 005, 2013 | | 2013 |
| Efficient transdifferentiation of human dermal fibroblasts into skeletal muscle EHSM Transdifferentiation, SM Boularaoui, KMA Abdel-Raouf, ... | | |
