Clinical Research Directory

Development and Validation of a Prognostic Model for Neurocritical Patients Using Multimodal Brain Monitoring

This study aims to develop and validate a prognostic model for neurocritical patients using multimodal brain monitoring data. By combining data from various monitoring techniques such as EEG, TCD, and NIRS, this model will help predict 90-day outcomes (awake, comatose, or deceased) and support personalized treatment decisions. The study is observational and involves no experimental interventions.

Effect of Semi-elemental Enteral Nutrition on Gastrointestinal Tolerance in Patients With Traumatic Brain Injury.

Study Objective This clinical trial primarily aims to investigate whether semi-elemental enteral nutrition (SEN) improves gastrointestinal tolerance in patients with severe traumatic brain injury (TBI) and to evaluate its impact on clinical outcomes. The safety profile of SEN will also be assessed. Key Research Questions Does SEN reduce the incidence of acute gastrointestinal injury (AGI) in severe TBI patients? Study Design Participants will be randomized 1:1 into either: Intervention group: Receives SEN initiated within 48 hours post-injury and continued for ≥7 days. Control group: Receives standard enteral nutrition over the same period.

Safety and Efficacy of Enhanced Recovery After Surgery in Neurocritical Care

Enhanced recovery after surgery (ERAS) is a strategy of perioperative management aimed to accelerate the rehabilitation of patients through various optimized perioperative managements as well as ongoing adherence to a patient-focused, multidisciplinary, and multimodal approach. Alleviating the injury and stress caused by surgery or disease is the core principle of ERAS, which has been shown to reduce complication rates after surgery, promote patient recovery, decrease hospital length of stay and reduce costs. ERAS has been widely applied in many surgical perioperative fields, and it has achieved remarkable effects. However, there are few applications of ERAS in neurosurgery, especially in clinical trials of neurocritical care patients. Therefore, the investigators attempt to conduct the study of ERAS in neurosurgical intensive patients using a series of optimized perioperative managements that have been verified to be effective by evidence-based medicine, and to evaluate the safety and effectiveness of ERAS in neurocritical care. The aim of this study is to explore the most suitable ERAS protocols to accelerate the postoperative rehabilitation process of neurocritical care patients, and to provide more evidence-based medicine for the effectiveness and safety of ERAS in neurosurgery.

Efficacy of Thyroid Hormone Replacement for Secondary Hypothyroidism Following Intracerebral Hemorrhage

Low levels of serum triiodothyronine (T3) thyroid hormones (T4) are a strong predictor of mortality and poor prognosis in critical care patients. Few reports, however, have focused on neurocritical patients. Patients with severe neurological diseases often experience more complications and exhibit higher mortality rates, and many studies have provided evidence for a low T3/T4 state being an important prognostic indicator in such cases; Lieberman et al. found that 87% of individuals with severe traumatic brain injury have thyroid function below the mid-normal range. Other researchers showed that low T3 syndrome is a predictor of poor prognosis in cerebral infarction patients; their findings indicated the central hypothyroidism and disturbance of thyroid hormone metabolism were involved. Low T3 syndrome is common in patients with brain tumors and has been shown to be associated with shorter survival in glioma patients. Despite these observations, however, whether the thyroid hormone abnormalities in the critically ill are a physiological adaptation or a pathological change, and whether hormone replacement therapy (HRT) can benefit such patients, remain to be established. As acute progression ceases, thyroid hormone levels may return to normal. This may imply that thyroid hormone supplements could improve the prognosis of patients with secondary hypothyroidism. Previous clinical studies have examined the effect of thyroid HRT on patients undergoing cardiac surgery; patients with malnutrition, heart failure, or acute renal failure; and premature infants with acute respiratory distress syndrome. Most of these past studies found no significant positive effects on prognosis, and no harmful effects either. Some smaller studies have demonstrated potential promise for the use of HRT; for example, one study showed that T3 supplementation in patients undergoing cardiac surgery could lead to less need for inotropic support and better hemodynamic parameters. There are no reports of thyroid HRT improving the prognosis of neurocritical patients with secondary hypothyroidism. The application of hormone replacement therapy in the treatment of neurocritical patients with secondary hypothyroidism remains controversial. This study aims to explore the safety and effectiveness of thyroid hormone replacement therapy in patients with spontaneous intracerebral hemorrhage and concomitant secondary hypothyroidism.