Luisa A. Meyer PhD

Associate

404-282-1252

Biography

Luisa Meyer’s patent prosecution experience crosses several technologies, including medical devices and therapies, aviation and automotive technologies, power generation systems, and plumbing fixtures.

Previously, Luisa was a lab supervisor and quality engineer in the lithium-ion battery industry, focused on the areas of research, product management, business development, and regulatory compliance. Her graduate research focused on characterizing and predicting trabecular bone remodeling and included both ex vivo studies and computational modeling.

Education

University of Wisconsin - Madison, B.S., Biomedical Engineering

University of Wisconsin - Madison, M.S., Biomedical Engineering

University of Wisconsin - Madison, PhD, Mechanical Engineering

University of Wisconsin - Madison, J.D.

Admissions

  • Wisconsin
  • U.S. Patent and Trademark Office

  • Experience

    • Associate – Foley & Lardner LLP
    • Laboratory Supervisor & Quality Engineer – Silatronix, Inc.

  • Practice Areas

  • Technologies

  • Publications & Presentations

    • Meyer, L.A., Collins, C.J., Van Klei, M., Correa-Belloso, A., Zojaji, M., Ploeg., H-L. Bone Adaptation to Mechanical Loading is Disrupted by Inhibition of Endothelin Receptor A in Ex Vivo Human Trabecular Bone. ASME. Journal of Biomechanical Engineering, February 2026 (Published online November 2025); volume 148, issue 2.

    • Meyer, L.A., Johnson, M.G., Cullen, D.M., Vivanco, J.F., Blank, R.D., Ploeg, H-L, Smith, E.L. Combined exposure to big endothelin-1 and mechanical loading in bovine sternal cores promotes osteogenesis. Bone, 2016, volume 85, pages 115-122.

    • Meyer, L.A., Collins, C.J., Suresh, K., Ploeg, H-L., Predictive Model for Simulating Human Bone Remodeling. Computer Methods in Biomechanics and Biomedical Engineering. Montreal, Quebec, Canada. September 2015, Oral.

    • Meyer, L.A., Vivanco, J.F., Ploeg, H-L., Macro-, Micro-, and Nano-level Mechanical Analysis of Injection Molded Beta Tricalcium Phosphate Bone Scaffolds. Computer Methods in Biomechanics and Biomedical Engineering. Montreal, Quebec, Canada. September 2015. Oral.

    • Meyer, L.A., Johnson, M.G., Smith, E.L., Squire, M.W., Hansen, K.E., Blank, R.D., Ploeg, H-L. Human Trabecular Bone Response to Mechanical Load is Dependent on Endothelin-1 Signaling. Orthopaedic Research Society Annual Meeting. Orlando, Florida, March 2016. Poster.

    • Johnson, M.G., Meyer, L.A., Collins, C.J., Ploeg, H-L., Smith, E.L., Blank, R.D., Hansen, K.E. Endothelin-1 Signaling is Required for SOST and IGF1 Secretion in Response to Mechanical Load. 2015 ASBMR 37th Annual Meeting. Seattle, WA, October 2015. Poster.

    • Meyer, L.A., Collins, C.J., Suresh, K., Ploeg, H-L., Predictive Model for Simulating Trabecular Bone Remodeling in Two Dimensions. 21st European Congress of Biomechanics. Prague, Czech Republic. July 2015. Poster.

    • Meyer, L.A., Johnson, M.G., Cullen, D.M., Vivanco, J.F., Blank, R.D., Ploeg, H-L, Smith, E.L. Exposure to Big Endothelin-1 in Bovine Sternal Cores Mimics Aspects Mechanical Loading. 7th World Congress of Biomechanics. Boston, Massachusetts, July 2014. Poster.