Based on the applicant's previous work and combined with the clinical medical resources of our unit, tumor cells were isolated from the lesion site of cancer patients, dendritic cells or macrophages were isolated from peripheral blood, and personalized chimeric exosome vaccine was prepared for patients.
To evaluate the safety and tolerability of multiple administration of chimeric exosome vaccine in subjects with hatching or metastatic bladder cancer, explore the maximum tolerated dose (MDT) and dose-limiting toxicity (DLT) in humans, and recommend the safe dose range for the subsequent extended trials and subsequent clinical studies of this product.
To reveal the "double-effect" improvement mechanism of chimeric exosome vaccine on the activation of immune response and the microenvironment of bladder cancer lesions, improve the anti-recurrence treatment effect of bladder cancer, and realize the clinical transformation of "double-target and double-effect" chimeric exosome vaccine in the field of individualized precision treatment of bladder cancer patients.
To explore the clinical application value of this tumor therapeutic vaccine by using the T-cell receptor immunoomics and immunomolecular evaluation technology platform established by previous researchers, and to provide preliminary clinical research results for further vaccine development.

Start Date01 Sep 2022

Sponsor / Collaborator

Shanghai Pudong Hospital

100 Clinical Results associated with Chimeric exosomal tumor vaccines(Shanghai Pudong Hospital)

100 Translational Medicine associated with Chimeric exosomal tumor vaccines(Shanghai Pudong Hospital)

100 Patents (Medical) associated with Chimeric exosomal tumor vaccines(Shanghai Pudong Hospital)

Literatures (Medical) associated with Chimeric exosomal tumor vaccines(Shanghai Pudong Hospital)

01 May 2024·Oral Diseases

Effect of human periodontal ligament stem cell‐derived exosomes on cementoblast activity

Article

Author: Li, Shengnan ; Bai, Yuxing ; Yu, Wenting ; Sun, Yaxi ; Zhao, Zeqing ; Guan, Xiuchen

AbstractObjectivesExosomes derived from stem cells are a potential cell‐free tool for tissue regeneration with therapeutic potential. However, its application in cementum repair is unclear. This study aimed to investigate the effect of human periodontal ligament stem cell‐derived exosomes on the biological activity of cementoblasts, the main effector cells in cementum synthesis.Materials and MethodsOCCM‐30 cementoblasts were cultured with various human periodontal ligament stem cell‐derived exosome concentrations. OCCM‐30 cells proliferation, migration, and cementogenic mineralization were examined, along with the gene and protein expression of factors associated with cementoblastic mineralization.ResultsExosomal promoted the migration, proliferation, and mineralization of OCCM‐30 cells. The exosome‐treated group significantly increased the expression of cementogenic‐related genes and proteins. Furthermore, the expression of p‐PI3K and p‐AKT was enhanced by exosome administration. Treatment with a PI3K/AKT inhibitor markedly attenuated the gene and protein expression of cementoblastic factors, and this effect was partially reversed by exosome administration.ConclusionsHuman periodontal ligament stem cell‐derived exosomes can promote the activity of cementoblasts via the PI3K/AKT signaling pathway, providing a scientific basis for promoting the repair process in orthodontically induced inflammatory root resorption.

01 Nov 2020·Bundesgesundheitsblatt - Gesundheitsforschung - GesundheitsschutzQ4 · MEDICINE

Kombinationstherapien in der Immunonkologie: Differenzierte regulatorische Herangehensweisen

Q4 · MEDICINE

Review

Author: Sarac, Sinan B ; Schüssler-Lenz, Martina ; Müller-Berghaus, Jan

01 Jul 2020·Der InternistQ4 · MEDICINE

Tumorvakzinierung – therapeutische Vakzinierung gegen Krebs

Q4 · MEDICINE

Review

Author: Gouttefangeas, C ; Löffler, M W ; Walz, J S ; Haen, S P ; Rammensee, H-G ; Bokemeyer, C

100 Deals associated with Chimeric exosomal tumor vaccines(Shanghai Pudong Hospital)

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Indication	Highest Phase	Country/Location	Organization	Date
Bladder Cancer	Phase 1	CN	Shanghai Pudong Hospital	01 Sep 2022

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