Delving into the Latest Updates on Shenzhen People's Hospital with Synapse

Overview

Tags

Endocrinology and Metabolic Disease

Respiratory Diseases

Neoplasms

Nanobody

AAV based gene therapy

Recombinant polypeptide

Disease domain score

A glimpse into the focused therapeutic areas

Technology Platform

Most used technologies in drug development

Targets

Most frequently developed targets

Disease Domain	Count

Endocrinology and Metabolic Disease	1
Infectious Diseases	1
Neoplasms	1

Top 5 Drug Type	Count

Nanobody	2
AAV based gene therapy	1
Recombinant polypeptide	1

Top 5 Target	Count

PFKP(phosphofructokinase, platelet)	1
PPP6C(protein phosphatase 6 catalytic subunit)	1
SARS-CoV-2 antigen	1
NEGF2(Midkine)	1

We embarked on a prospective study to delve into the therapeutic benefits of combining stereotactic body radiation therapy (SBRT) with PD-1 monoclonal antibody treatment for patients with unresectable locally recurrent rectal cancer (ULRRC). Our aim is to ascertain the safety of this approach and to offer robust, evidence-based medical guidance for the management of ULRRC using this innovative combination therapy.
Researchers will combine SBRT with PD-1 for ULRRC to see if this treatment can provide a benefit of survival.
Participants will:
1. Receive chemotherapy combined with PD-1 therapy for 1 cycle → SBRT treatment → Chemotherapy combined with PD-1 therapy for 3-6 cycles (assessment 6 weeks after SBRT treatment) → Surgery/Maintenance therapy.
2. Visit the clinic once every 3 months for checkups and tests

Start Date30 Dec 2024

Sponsor / Collaborator

The Sixth Affiliated Hospital of Sun Yat-Sen University

[+4]

ChiCTR2400094124

/ SuspendedNot ApplicableIIT

EEG-based cognitive impairment early screening -- a multi-center validation study

Start Date20 Dec 2024

Sponsor / Collaborator

Shenzhen People's Hospital

NCT06458673

/ Not yet recruitingNot ApplicableIIT

Prediction of Growth Trend of Pulmonary Nodules Based on Multi-temporal and Multimodal Medical Data and Its Impact on Pulmonary Nodule Management Strategies

Some studies have shown that the model for judging and predicting the growth of sub-solid pulmonary nodules through big data and deep learning can detect nodule growth earlier. Since most of the training data come from large foreign samples, most of the validated data are CT data from a single center or a few centers, and their generalization ability needs to be further verified. In order to better study subsolid pulmonary nodules in the lungs in China, we plan to conduct a prospective, multicenter, non-interventional observational cohort study.

Start Date01 Dec 2024

Sponsor / Collaborator

Guangdong General Hospital

[+14]

100 Clinical Results associated with Shenzhen People's Hospital

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0 Patents (Medical) associated with Shenzhen People's Hospital

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3,614

Literatures (Medical) associated with Shenzhen People's Hospital

01 Dec 2025·Nano-Micro Letters

Ammonium Sensing Patch with Ultrawide Linear Range and Eliminated Interference for Universal Body Fluids Analysis

Article

Author: Xu, Jiarun ; Li, Jirong ; Huang, Mingli ; Shi, Yuqing ; Wu, Zongze ; Lin, Yuanjing ; Ma, Xiaohao ; Wang, Shuhan ; Yang, Teng ; Lv, Kongpeng

AbstractAmmonium level in body fluids serves as one of the critical biomarkers for healthcare, especially those relative to liver diseases. The continuous and real-time monitoring in both invasive and non-invasive manners is highly desired, while the ammonium concentrations vary largely in different body fluids. Besides, the sensing reliability based on ion-selective biosensors can be significantly interfered by potassium ions. To tackle these challenges, a flexible and biocompatible sensing patch for wireless ammonium level sensing was reported with an ultrawide linear range for universal body fluids including blood, tears, saliva, sweat and urine. The as-prepared biocompatible sensors deliver a reliable sensitivity of 58.7 mV decade−1 in the range of 1–100 mM and a desirable selectivity coefficient of 0.11 in the interference of potassium ions, attributed to the cross-calibration within the sensors array. The sensor’s biocompatibility was validated by the cell growth on the sensor surface (> 80%), hemolysis rates (< 5%), negligible cellular inflammatory responses and weight changes of the mice with implanted sensors. Such biocompatible sensors with ultrawide linear range and desirable selectivity open up new possibility of highly compatible biomarker analysis via different body fluids in versatile approaches.

01 May 2025·Current Diabetes Reviews

3-Phosphoinositide-Dependent Kinase 1 as a Therapeutic Target for Treating Diabetes

Review

Author: Xumei, Yang ; Jiamin, Zhang ; Jingjin, Liu ; Zihan, Zhang ; Shuya, Pan ; Xiang, Xie

:The role of 3-phosphoinositide-dependent kinase 1 (PDK1) has been welldocumented in the development of diabetes. This review offers a thorough examination of its composition and associated routes, specifically focusing on insulin signaling and glucose processing. By examining the precise connection between PDK1 and diabetes, various strategies specifically targeting PDK1 were also investigated. Additionally, recent discoveries from mouse models were compiled where PDK1 was knocked out in certain tissues, which demonstrated encouraging outcomes for focused treatments despite the absence of any currently approved clinical PDK1 activators. Moreover, the dual nature of PDK1 activation was discussed, encompassing both anti-diabetic and pro-oncogenic effects. Hence, the development of a PDK1 modifier is of utmost importance, as it can activate anti-diabetic pathways while inhibiting pro-oncogenic pathways, thus aiding in the treatment of diabetes. In general, PDK1 presents a noteworthy opportunity for future therapeutic strategies in the treatment of diabetes.

01 Mar 2025·Biomaterials

Reprogramming tumor microenvironment with precise photothermal therapy by calreticulin nanobody-engineered probiotics

Article

Author: Long, Ying ; Zhong, Xiaoru ; Shi, Guangwei ; Li, Zhijie ; Jiang, Yuke ; Huang, Zhenhui ; Yang, Runwei ; Dong, Zhiyu ; Li, Jiexuan ; Wang, Jigang ; Bai, Chongzhi ; Wang, Huifang ; Zheng, Liuhai ; Jia, Lin ; Chen, Chunbo ; Wei, Jinxi ; Dai, Lingyun

Targeted therapies have revolutionized traditional cancer treatments by precisely targeting tumor cells, enhancing efficacy and safety. Despite this advancement, the proportion of cancer patients eligible for such therapies remains low due to the absence of suitable targets. Here, we investigate whether the translocation of the immunogenic cell death (ICD) marker calreticulin (CALR) from the endoplasmic reticulum (ER) to the cell surface following ICD induction can serve as a target for targeted therapies. To target CALR, a nanobody Nb215 identified from a naïve VHH phage library with high binding affinity to both human and mouse CALR was employed to engineer probiotic EcN 1917. Our results demonstrated that CALR nanobody-modified EcN-215 coupled with the photothermal dye indocyanine green (ICG) was able to exert NIR-II imaging-guide photothermal therapy (PTT). Moreover, PTT with EcN-215/ICG can reshape the tumor microenvironment by enhancing the infiltration of CD45⁺CD3⁺ T cells and CD11b⁺F4/80⁺ macrophages. Furthermore, the antitumor activity of CALR-targeted EcN-215/ICG is synergistically enhanced by blocking CD47-SIRPα axis. Collectively, our study provides a proof of concept for CALR-targeted therapy. Given that CALR translocation can be induced by various anticancer therapies across numerous tumor cell lines, CALR-targeted therapies hold promise as a novel approach for treating multiple types of cancers.

100 Deals associated with Shenzhen People's Hospital

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100 Translational Medicine associated with Shenzhen People's Hospital

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Pipeline

Pipeline Snapshot as of 02 Feb 2025

The statistics for drugs in the Pipeline is the current organization and its subsidiaries are counted as organizations,Early Phase 1 is incorporated into Phase 1, Phase 1/2 is incorporated into phase 2, and phase 2/3 is incorporated into phase 3

Discovery

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2

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Current Projects

Drug(Targets)	Indications	Global Highest Phase

CN114478758 ( SARS-CoV-2 antigen )	Virus Diseases More	Discovery
CN116970079 ( NEGF2 )	Neoplasms More	Discovery
CN117589999 ( PFKP )	Male Urogenital Diseases More	Discovery
CN118063558 ( PPP6C )	Respiratory Diseases More	Discovery
DC vaccines targeting HPV 16/18 E6/ E7 protein(Shenzhen People's Hospital)	Cervical Intraepithelial Neoplasia More	Pending