Last reviewed · How we verify
NCT05921851
Exploration of Early Warning System of Cardiac Arrest and Early Intervention
trial testing no intervention in Cardiac Arrest in 12,500 participants. Status unknown.
30 September 2025
Quick facts
| Lead sponsor | Peking Union Medical College Hospital |
|---|---|
| Status | Status unknown |
| Study type | OBSERVATIONAL |
| Enrollment | 12,500 |
| Start date | 1 October 2022 |
| Primary completion | 30 September 2025 |
| Estimated completion | 30 September 2025 |
| Sites | 1 location across China |
Drugs / interventions tested
- no intervention
Conditions studied
- Cardiac Arrest — all drugs for Cardiac Arrest →
Sponsor
Peking Union Medical College Hospital
Who can join
18 and older, any sex, with Cardiac Arrest. Patients with the condition only — healthy volunteers not accepted.
Sponsor's own description
The high incidence rate, high Case fatality rate rate and high rate of neurological impairment of cardiac arrest pose a serious threat to the health of the whole population, and also bring a huge economic burden. In recent years, the "American Heart Association AHA Cardiopulmonary resuscitation and Cardiovascular Emergency Guide" has always emphasized the importance of "life chain" for the survival of patients with cardiac arrest. The hospital's survival chain emphasizes early warning recognition and activation of emergency response systems, immediate high-quality CPR, rapid defibrillation, advanced life support, and post arrest care. However, there is an urgent need for improvement and enhancement in all aspects of the chain of life for cardiac arrest. Millimeter wave radar can transmit radar signals that penetrate non-metallic substances such as clothing, detect the micro motion signals caused by human respiration and heartbeat, and then process the signals. By calculating the frequency or phase shift information in the radar echo, patient activity information can be obtained, achieving contactless and real-time detection of patient activity in the room. And it can achieve tracking of targets in scenarios where multiple people exist, while monitoring the physical signs of each target in real-time \[7\]; Our team has developed Cardiopulmonary resuscitation Quality Monitoring Index (CQI) and Cardiopulmonary resuscitation Ventilation Mode (CPRV) in the early stage, which are very helpful to monitor and improve the quality of Cardiopulmonary resuscitation; In recent years, the application of bedside echocardiography (PoCUS) in emergency has been significantly expanded. Although transthoracic echocardiography (TTE) can provide valuable diagnostic information for patients with cardiac arrest, it has important limitations in dynamic compression of Cardiopulmonary resuscitation. TEE can overcome many limitations of TTE, and the combination of the two can achieve visualization of resuscitation, Many signs of Cardiopulmonary resuscitation that had not been found before have been found. On the other hand, international guidelines recommend that the compression site of Cardiopulmonary resuscitation should be in the lower half of the sternum. However, research shows that there are great changes in the shape of the chest and the organizational structure directly below the compression site in normal people. The left ventricle is located in the lower quarter of the sternum, lower than the lower third of the sternum. When Cardiopulmonary resuscitation is carried out according to the current guidelines, only a small part of the ventricle is subjected to external compression, and for spinal deformity, obesity There is no corresponding research and recommendation for pregnant women and other special groups, and the extensive development of chest CT Iterative reconstruction provides the possibility of individualized evaluation. In addition, the COVID-19 in China has not yet been completely controlled. For patients suspected or confirmed to be infected with novel coronavirus, it is still challenging to carry out Cardiopulmonary resuscitation that may produce aerosols when wearing protective equipment. In summary, establishing a clinical decision-making system for the survival chain under the new situation and optimizing the survival chain process in the guidelines is of great significance for improving the survival rate and prognosis of patients with cardiac arrest, and is of great value for improving national health levels and reducing the economic burden on the government.
Publications & conference data
No peer-reviewed publications indexed yet for this trial.
Verify or expand the search:
- PubMed search for NCT05921851
- Europe PMC full search
- ASCO Meeting Library
- ESMO Meeting Library
- bioRxiv preprints
- medRxiv preprints
- Google Scholar
Related trials
Other trials of no intervention
Trials testing the same drug.
- NCT07480057 — Assessment of Changes in Bone Mineral Metabolism After Liver Transplantation by Bone Mineral Densitometry · recruiting
- NCT07253506 — Turkish Adaptation, Validity, and Reliability Study of the Patient Experience With Treatment and Self-Management Scale i · not yet recruiting
- NCT07253519 — The Relationship Between Mood and Insomnia Severity and Caregiver Burden in Caregivers of Stroke · not yet recruiting
- NCT07194096 — Stress Hyperglycemia Ratio and Postoperative Delirium · not yet recruiting
- NCT07240337 — Botulinum Toxin Applications in Hemiplegic Patients · recruiting
Other recruiting trials for Cardiac Arrest
Currently open trials in the same condition.
- NCT07239206 — Serious Game for Improving Targeted Temperature Management Knowledge and Situational Awareness in Critical Care Nurses · NA · recruiting
- NCT06780722 — Study of the Occurrence of Cardiocirculatory Arrest as a Function of the Level of Hypoxemia During a Maastricht 3 Proced · recruiting
- NCT06405581 — The Impact of Frailty on Cardiopulmonary Resuscitation Adverse Outcomes in Patients Requiring Code Blue Activation · recruiting
- NCT06511999 — Continuous Jugular Venous Oxygen Saturation (SjO2) Measurement After Cardiac Arrest · recruiting
- NCT07113769 — Plasma Biomarkers and Platelet Morphology of Extracorporeal CardioPulmonary Resuscitation · recruiting
Other Peking Union Medical College Hospital trials
Trials by the same sponsor.
- NCT07466251 — PCSK9 Inhibitor for Intracranial Atherosclerosis Related Acute Ischemic Stroke · Phase 4 · not yet recruiting
- NCT06743321 — Speech-to-speech Voice-cloning Care (SVCC) to Improve ICU-acquired Anxiety for Critically Ill Patients · NA · not yet recruiting
- NCT07590336 — 68Ga-NYM207 PET/CT Imaging in Hepatocellular Carcinoma · Phase 1, PHASE2 · not yet recruiting
- NCT07515976 — Mapping of Genomic Structural Variations in Major Birth Defects · not yet recruiting
- NCT07386756 — Early Precise Identification and Intervention Strategies for Individuals at High Risk of Prediabetes · not yet recruiting
Verify against primary sources
- ClinicalTrials.gov — authoritative US registry record
- WHO ICTRP — international registry index
- EU Clinical Trials Register
- Sponsor press releases (Google)
- Trial protocol + status: ClinicalTrials.gov NCT05921851 (US National Library of Medicine, public domain)
- Drug + disease cross-links: matched in real time against Drug Landscape's normalised drug + company + condition tables
- Sponsor: as reported to ClinicalTrials.gov by Peking Union Medical College Hospital
- Last refreshed: 27 June 2023
Drug Landscape aggregates and links these public records for informational use only. Always verify against the primary source before clinical or regulatory decisions. Canonical URL: https://druglandscape.com/trial/NCT05921851.
Primary sources · FDA · ClinicalTrials.gov · EMA · SEC EDGAR · ChEMBL · Wikidata · full sourcing