Google Scholar Profile
1. Murugan NJ, Cariba S, Abeygunawardena S, Rouleau N, Payne SL (2024). Biophysical control of plasticity and patterning in regeneration and cancer. Cellular and Molecular Life Sciences; 81:9.
2. Noble A, Qubrosi R, Cariba S, Favaro K, Payne SL (2024). Neural dependency in wound healing and regeneration. Developmental Dynamics; 253(2):181-203.
3. Conner S, Guarin JR, Le TT, Fatherree J, Kelley C, Payne SL, Salhany K, McGinn R, Henrich E, Yui A, Parker S, Srinivasan D, Bloomer H, Borges H, Oudin MJ. (2024). Cell morphology best predicts tumorigenicity and metastasis in vivo across multiple TNBC cell lines of different metastatic potential. Breast Cancer Research. 26(1):43.
4. Payne SL, Ram P, Srinivasan DH, Le TT, Levin M, Oudin MJ (2022). Potassium channel-driven bioelectric signaling regulates metastasis in triple-negative breast cancer. EBioMedicine; 75: 103767.
5. Le TT, Payne SL, Buckwald MN, Hayes LA, Parker SR, Burge CB, Oudin MJ (2022). Sensory nerves enhance triple-negative breast cancer migration and metastasis via the axon guidance molecule PlexinB3. npj Breast Cancer; 8:116.
6. McMillen P, Oudin MJ, Levin M, Payne SL (2021). Beyond neurons: Long distance communication in development and cancer. Frontiers in Cell and Developmental Biology; doi:10.3389/fcell.2021.739024.
7. Ali M, Payne SL (2021). Biomaterial-based cell delivery strategies to promote liver regeneration. Biomaterials Research; 5:25.
8. Payne SL*, Choi UY*, Joshi HP*, Kim KT, Kyung JW, Choi H, Cooke MJ, Kwon SY, Roh EJ, Sohn S, Shoichet MS, Han I (2020). An injectable hyaluronan-methylcellulose (HAMC) hydrogel combined with Wharton’s jelly-derived mesenchymal stem cells (WJ-MSCs) promotes degenerative disc repair. International Journal of Molecular Sciences; 21:7391. *co-first author
9. Tuladhar A, Obermeyer JM, Payne SL, Siu RCW, Morshead CM, Shoichet MS (2020). Injectable hydrogel enables local and sustained co-delivery to the brain: Two clinically approved biomolecules, cyclosporine and erythropoietin, accelerate functional recovery in rat model of stroke. Biomaterials; 235:119794.
10. Payne SL*, Bonzanni M*, Adelfio M*, Kaplan DL, Levin M, Oudin MJ (2020). Defined extracellular ionic solutions to study and manipulate the cellular resting membrane potential. Biology Open; 9: bio048553. *co-first author
11. Payne SL, Levin M, Oudin MJ (2019). Bioelectric control of metastasis in solid tumors. Bioelectricity; 1(3):114-130.
12. Payne SL, Tuladhar A, Obermeyer JM, Varga BV, Teal CJ, Morshead CM, Nagy A, Shoichet MS (2019). Initial cell maturity changes following transplantation in a hyaluronan-based hydrogel and impacts therapeutic success in the stroke-injured rodent brain. Biomaterials; 192: 309-322.
13. Hettiaratchi MH, O’Meara MJ, Teal CJ, Payne SL, Pickering AJ, Shoichet MS (2019). Local delivery of stabilized chondroitinase ABC degrades chondroitin sulfate proteoglycans in stroke-injured rat brains. Journal of Controlled Release; 297:14-25.
14. Obermeyer JM, Tuladhar A, Payne SL, Ho E, Morshead CM, Shoichet MS (2019). Local delivery of BDNF enables behavioural recovery and tissue repair in stroke-injured rats. Tissue Engineering Part A, 10.1089/ten.TEA.2018.0215.
15. Payne SL, Ballios BG, Baumann DM, Cooke MJ, Shoichet MS (2019). “Tissue Therapy: Central Nervous System” in Principles of Regenerative Medicine – 3rd Edition, p 1199-1221, edited by A Atala, R Lanza, J Thomson, R Nerem. Elsevier, Philadelphia.
16. Payne SL*, Tuladhar A*, Shoichet MS (2018). Harnessing the potential of biomaterials for brain repair after stroke. Frontiers in Materials; 5: 1-25. *co-first author
17. Payne SL, Anandakumaran PN, Varga BV, Morshead C, Nagy A, Shoichet MS (2018). In vitro maturation of human iPSC-derived neuroepithelial cells influences transplant survival in the stroke-injured rat brain. Tissue Engineering Part A; 24(3-4): 351-360.
18. Yu L, Delplace V, Payne SL, Shoichet MS (2018). Bioengineered and Regenerative Medicine Strategies for Retina Repair. In: Ballios B., Young M. (eds) Regenerative Medicine and Stem Cell Therapy for the Eye. Fundamental Biomedical Technologies. Springer, Cham.
19. Payne SL, Peacock H, Vickaryous MK (2017). Blood vessel formation during tail regeneration in the leopard gecko (Eublepharis macularius): the blastema is not avascular. Journal of Morphology; 278(3):380-389.
20. Führmann T, Anandakumaran PN, Payne SL, Varga B, Nagy A, Tator C, Shoichet MS (2017). Combined delivery of chondroitinase ABC and human induced pluripotent stem cell-derived neuroepithelial cells promote tissue repair in an animal model of spinal cord injury. Biomedical Materials; 13: 024103.
21. Delplace V, Payne SL, Shoichet M (2015). Delivery strategies for treatment of age-related ocular diseases: From a biological understanding to biomaterial solutions. Journal of Controlled Release; 219: 652-668.
22. Gilbert EB, Payne SL, Vickaryous MK (2013). The anatomy and histology of caudal autotomy and regeneration in lizards. Physiological and Biochemical Zoology; 86(6): 631-644.
23. Payne SL, Holliday C, Vickaryous M (2011). An osteological and histological investigation of cranial joints in geckos. The Anatomical Record; 294(3): 399-405.