Your search keyword '"Zhuojun Yu"' showing total 3 results

1. A homeostasis criterion for limit cycle systems based on infinitesimal shape response curves

Author

Peter Thomas and Zhuojun Yu

Subjects

Applied Mathematics, Modeling and Simulation, Agricultural and Biological Sciences (miscellaneous)

Published

2022

2. High efficacy and safety of CD38 and BCMA bispecific CAR-T in relapsed or refractory multiple myeloma

Author

Yuanyan Tang, Haisen Yin, Xinying Zhao, Dan Jin, Yan Liang, Tao Xiong, Lu Li, Wen Tang, Jiangzhao Zhang, Min Liu, Zhuojun Yu, Huimin Liu, Sibin Zang, and Zhiping Huang

Subjects

Male, Cancer Research, Receptors, Chimeric Antigen, Efficacy, Research, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, ADP-ribosyl Cyclase 1, Survival Analysis, BCMA, CAR-T, Oncology, Multiple myeloma, Humans, Safety, B-Cell Maturation Antigen, RC254-282, CD38

Abstract

Background B-cell maturation antigen (BCMA) chimeric antigen receptor T (CAR-T) cell therapy has obtained promising results in relapsed or refractory multiple myeloma (R/R MM), while some patients do not response, or relapse in short term after treatment. Combining with anti-CD38 might solve the problem of targeting BCMA alone. We aimed to assess the efficacy and safety of BCMA and CD38 (BCMA-CD38) bispecific CAR-T cells in R/R MM patients. Methods We did a single-center, single-arm clinical study at the Second Affiliated Hospital of Yangtze University in China. Patients meeting with the inclusion criteria were administered with fludarabine and cyclophosphamide before CAR-T cells infusion. Response and adverse events were assessed after infusion. This study was registered with the Chinese Clinical Trial Registration Center (ChiCTR1900026286). Results First, we found BCMA-CD38 CAR-T cells exhibited enhanced killing effect on BCMA+CD38+ cells in vitro, compared to BCMA CAR-T and CD38 CAR-T cells. We further demonstrated its anti-tumor activity in vivo. Then, we enrolled 16 R/R MM patients for safety and efficacy analyses. Of the 16 evaluable patients, 14 (87.5%) respond to the treatment, including 13 stringent complete response (sCR) and one partial response (PR), while two patients did not respond. At a median follow-up of 11.5 months, of the 13 patients who achieved sCR, 76.9% (10/13) did not relapse or progress during follow-up. Relapse occurred in 3 patients (Patient 2, 3 and 4) after achieving sCR. In sum, four patients died, of which one died of hemophagocytic lymphohistiocytosis syndrome secondary to severe cytokine release syndrome (CRS) and three died of disease progression or relapse. The 1-year progression-free survival rates was 68.8%. The 1-year overall survival rate was 75.0%. Extramedullary lesions were eliminated in 62.5% (5/8) patients. The most common symptoms after CAR-T infusion were cytopenia (16, 100%), fever (10, 62.5%), fatigue (8, 50.0%) and myalgias (8, 50.0%). Twelve patients (75.0%) were observed with various grades of CRS, of which five patients (31.3%) got serious CRS (Grade ≥ 3). The CAR+ cell expansion levels were associated with the severity of CRS. Transient clonal isotype switch was observed after CAR-T infusion. Conclusion Our results confirm that BCMA-CD38 CAR-T cells therapy is feasible in treating R/R MM patients, with high response rate, low recurrence rate and manageable CRS, which will be a promising treatment option for R/R MM. Trial registration ChiCTR1900026286, registered on September 29, 2019, retrospectively registered, URL: https://www.chictr.org.cn/showproj.aspx?proj=43805

Published

2022

3. Sounding fire for immersive virtual reality

Author

Zhuojun Yu and Shiguang Liu

Subjects

Human-Computer Interaction, Computer graphics, Depth sounding, Wavelet, Computer science, Computation, Computer graphics (images), Virtual reality, Computer Graphics and Computer-Aided Design, Software, Simulation, Rendering (computer graphics)

Abstract

Both visual information and sound are required in immersive virtual reality. This paper proposes a computational method for fast synthesis of plausible fire sound that is synchronized with physically based fire animations. We divide fire sound into two parts: low frequency and mid- to high frequency, and use two processes to separately synthesize these two parts. By simplifying calculations using a novel combustion sound model as well as leveraging GPU parallel computing in a marching-cube-like manner, our method speeds up the computation of low-frequency part by an order of magnitude. To run the time-stepping fire simulation at a relative low frequency rather than the audio rate, we add synchronized mid- and high-frequency wavelet details to low-frequency simulation contents with a post-process to generate complete fire sound. We validated our method with various experiments to build a solid physically based basis for real-time acoustic rendering that can be used for immersive virtual reality scenarios.

Published

2015