1. Open source and automatic subregional assessment of knee cartilage degradation using quantitative T2 relaxometry and deep learning. Thomas, K.A., Krzeminski, D., Kidzinski, L., Paul, R., Rubin, E.B., Halilaj, E., Black, M.S., Chaudhari, A., Gold, G.E. and Delp, S.L. Osteoarthritis and Cartilage. PMID: 34496667 PMCID: PMC8808775

2. A neural network to predict the knee adduction moment in patients with osteoarthritis using anatomical landmarks obtainable from 2D video analysis. Boswell, M.A., Uhlrich, S.D., Thomas, K., Kolesar, J.A., Gold, G.E., Beaupre, G.S. and Delp, S.L. Osteoarthritis and Cartilage. PMID: 33422707 PMCID: PMC7925428

3. An open-source and wearable system for measuring 3D human motion in real-time. Slade, P., Habib, A., Hicks, J.L., Delp, S.L. IEEE Trans Biomed Eng. PMID: 34383640 PMCID: PMC8792207


1. Deep neural networks enable quantitative movement analysis using single-camera videos. Kidziński, L., Yang, B., Hicks, J.L., Rajagopal, A., Delp, S.L., Schwartz, M. Nature Communications. 11:4054. PMCID: PMC7426855 DOI: 10.1038/s41467-020-17807-z

2. Best practices for analyzing large-scale health data from commercial wearables and smartphone apps. Hicks, J.L., Althoff, T.A. Sosic, R., King, A.C., Leskovec, J., Delp, S.L. Nature Partner Journal in Digital Medicine, 2:45. PMID: 31304391. PMCID: PMC6550237 DOI: 10.1038/s41746-019-0121-1

3. OpenSim Moco: Musculoskeletal optimal control. Dembia, C. L., Bianco, N. A., Falisse, A., Hicks, J. L., & Delp, S. L. PLOS Computational Biology. PMID: 33370252 PMCID: PMC7793308

4. Generalized Matrix Factorization. Kidziński, L., Hui, F. K.C., Warton, D.I., Hastie, T.J. Preprint. PMCID: Pending