Takayasu arteritis (TA) is a primary, chronic, non-specific, inflammatory disease of the aorta and its larger branches. The pulmonary artery trunk and its branches could be impacted by TA, which could cause stenosis or occlusion of lesion vessels. TA also affects the normal function of the aortic valve and other heart valves, mainly due to valvular insufficiency. Aortic regurgitation caused by TA is mainly treated by surgical operation. In this review, the examination technique, operation timing, operation method and prognosis of aortic valve involved in TA are discussed systematically.
ObjectiveWearable devices refer to a class of monitoring devices that can be tightly integrated with the human body and are designed to continuously monitor individual's activity without impeding or restricting the user's normal activities in the process. With the rapid advancement of chips, sensors, and artificial intelligence technologies, such devices have been widely used for patients with cardiovascular diseases who require continuous health monitoring. These patients require continuous monitoring of a number of physiological indicators to assess disease progression, treatment efficacy, and recovery in the early stages of the disease, during the treatment, and in the recovery period. Traditional monitoring methods require patients to go to the doctor on a regular basis with the help of fixed devices and analysis by doctors, which not only increases the financial burden of patients, but also consumes medical resources and time. However, wearable devices can collect data in real time and transmit it directly to doctors via the network, thus providing an efficient and cost-effective monitoring solution for patients. In this paper, we will review the applications, advantages and challenges of wearable devices in the treatment of cardiovascular diseases, as well as the outlook for their future applications.
ObjectiveTo understand the latest development in lineage tracing techniques and their applications in the study of liver regeneration mechanisms. MethodA review of domestic and international literature on the application of lineage tracing techniques in liver regeneration was conducted. ResultsA variety of more reliable and advanced lineage tracing techniques had been developed, such as single-cell RNA sequencing, DNA barcode technology, etc., providing powerful tools for a deeper understanding of the mechanisms of liver regeneration. The marked progress had been made in identifying the origins of liver regeneration cells, identifying liver regeneration areas, and studying the mechanisms of liver regeneration after injury. The lineage tracing techniques help to understand the position and function of different types of liver cells within the liver structure, revealing the regenerative potential and contribution of different subpopulations of liver cells. Moreover, these techniques had supported the phenomenon of transdifferentiation between the hepatocytes and the bile duct cells under chronic liver injury conditions, aiding in understanding the specific roles of key signaling pathways in liver regeneration, such as Wnt/β-catenin, Hippo/YAP, and Notch signaling pathways.ConclusionsAlthough lineage tracing techniques have made marked progress in liver regeneration research, liver regeneration is a complex and important physiological process, and the technique still has limitations, such as challenges in marker specificity, longer research cycles and higher costs, potential limitations in translating from animal models to human clinical applications, inability to solve all questions about liver regeneration mechanisms, and ethical and legal issues. Therefore, more in-depth and comprehensive research is still needed to reveal more details of liver regeneration mechanism.
Anxiety is a strong behavioral and psychological reaction with fear components, while depression is a mental disorder dominated by high or low mood, both of which are accompanied by cognitive and behavioral changes, and are common comorbidities in patients with heart disease. Cardiac surgery is one of the important factors which trigger specific emotional and physiological reactions of patients. Persistent or initial depression and anxiety after surgery will not only increase surgical complications, short- or long-term mortality and medical costs, but also seriously affect patients' social function and quality of life. With the transformation of bio-psycho-social medical model, it is necessary to evaluate the perioperative psychological state and biological risk of patients undergoing cardiac surgery. This article reviews the characteristics, related mechanisms and therapeutic interventions of anxiety and depression in patients undergoing cardiac surgery.
Ischemic stroke (IS) is one of the important diseases threatening human health. The occurrence and development of IS can trigger a series of complex pathophysiological changes, including damage to the blood-brain barrier, ion imbalance, oxidative stress, mitochondrial damage, which ultimately lead to the apoptosis and necrosis of nerve cells in the ischemic area. Impaired blood-brain barrier is a key factor for cerebral edema, hemorrhagic transformation and poor prognosis in patients with IS, and neuroinflammatory response plays an important role in the damage and repair of the blood-brain barrier. This article mainly focuses on the neuroinflammatory response mediated by glial cells, pro-inflammatory cytokines and matrix metalloproteinases and the related mechanisms of IS blood-brain barrier damage and repair, in order to provide new directions for the treatment of IS.