View clinical trials related to Neurocognitive Disorders.
Filter by:Periperative neurocognitive disorder(PND) is consistently associated with increased morbidity and mortality, but its mechanisms remain unclear. Moreover, valid biomarkers for the prediction or diagnosis of the development of delayed neurocognitive recovery in aged patients have not been identified so far. The purpose of this study is trying to find the functional MRI marker of PND.
Neurocognitive disorders (NCD) are today often largely underdiagnosed or diagnosed in late stages in France. Indeed the ALzheimer COoperative Valuation in Europe (ALCOVE) study stated that about 50% of people living with NCD remain undiagnosed until late severe stages with a deep autonomy loss inducing at risk behaviours and/or behavioural crisis. The French High Authority of Health (Haute Autorité de Santé - HAS) and ALCOVE recommend a timely diagnosis at a time when the specific intervention help to implement secondary or tertiary prevention dynamics that would delay severe complications and help to maintain a reasonable quality of life for both the patient and the caregiver. Moreover, the representatives of the National College of General Practitioners, the French Federation of Memory Centres, the French Federation of Gerontology and Geriatrics, the French Federation of Neurology, the French Society of Psychogeriatrics and the National Plan on Neurodegenerative Diseases designed a hierarchized and tailored diagnosis strategy of NCD promoting a shared diagnosis between the General Practitioner (GP) and specialists of NCD. It therefore appears crucial to determine the diagnosis value of a short duration strategy assessing the complaint, cognition and autonomy in primary care to detect NCD and referring to a specialist to perform the etiological diagnosis. The identification of NCD by GP in primary care (TROCOMEGE) study aims at assessing the positive and negative predictive values of a NCD diagnosis strategy through the assessment of the subjective memory complaint, the cognitive status and the autonomy level in primary care. It relies on the clinical impression of the GP, a cognitive complaint interview for complaint and functional assessment thanks to the General Practitioner assessment of Cognition (GP-Cog, part 2) tool and the cognitive assessment thanks to the Six-Item Cognitive Impairment test (6-CIT).
Due to the demographical development, age-related diseases will drastically increase over the next decades. To face this healthcare challenge, early and accurate identification of cognitive impairment is crucial. The assessment of neurocognitive functioning ideally requires a tool that is short, easy to administer and interpret, and has high diagnostic accuracy. In this context, the use of computerized test batteries is receiving increasing attention. Compared to paper-pencil tests, computerized test batteries have many advantages. The possibility to measure reaction times may provide additional information. Moreover, test questions are always presented the exact same way, examiner-related bias is eliminated, and results are available immediately after examination. Due to the ability to adjust the level of difficulty to the performance of the individual, floor and ceiling effects may be minimized. Additionally, costs are reduced, and fewer materials and less trained personnel are required. Finally, big data approaches and the use of machine learning algorithms are becoming more popular in the field of clinical diagnostics, and computerized cognitive test batteries may facilitate future data collection to this aim. In 2014, we developed a self-administered tablet computer program for the iPad (CogCheck) to assess preoperative cognitive functioning in surgery patients. The cognitive tests used in the CogCheck application are identical or similar to the paper-and-pencil tests that are currently used in dementia diagnostics. Replacing some of the paper-and-pencil tests by a computerized test battery may facilitate the routine neuropsychological examinations. Thus, we aim to investigate the diagnostic accuracy and user-friendliness of CogCheck when applied in a cognitively impaired patient sample. In a first step, the diagnostic properties of CogCheck will be examined by differentiating between healthy controls and patients with mild or major neurocognitive disorder (NCD) predominantly due to Alzheimer's disease (AD). Data from healthy controls have been collected (EKNZ Req-2016-00393) in a previous normative study of CogCheck. Thus a further aim is to investigate the user-friendliness of CogCheck in patients with mild or major NCD predominantly due to AD. The primary aim of our study is to investigate the diagnostic accuracy of CogCheck for patients with mild or major NCD predominantly due to AD in a German-speaking population. Secondary aims are: (1) to examine the user-friendliness of CogCheck in patients with mild or major NCD predominantly due to AD, (2) to compare the results between cognitively healthy individuals (EKNZ Req-2016-00393) and patients with mild or major NCD predominantly due to AD on each of the CogCheck subtest, (3) to establish an algorithm with the CogCheck subtests that optimally distinguishes between cognitively healthy controls (EKNZ Req-2016-00393) and patients with mild or major NCD predominantly due to AD, (4) to compare the diagnostic properties of CogCheck with the ones of the currently used paper-pencil tests.
Dexmedetomidine(DEX)is a potent and highly selective α 2 adrenergic receptor agonist. It has the pharmacological effects of sedation, hypnosis, analgesia, anti-sympathetic and neuroprotective. Its sedative effect is similar to normal sleep, and easy to wake up. DEX is widely used clinically because of its advantages and acceptable side effects. The best clinical use of DEX is uncertain, including intravenous, intramuscular, oral, intralnasal and sublingual administration. Its clinical recommended use is intravenous load infusion for more than 10 minutes, followed by continuous infusion. However, the clinical recommended usage is inconvenient, time-consuming and other shortcomings, for the growing popularity of daytime surgery, will inevitably affect the operation process and turnover. If a suitable dose range of DEX can be found for a single intravenous injection to achieve clinical efficacy quickly without significant hemodynamic effects, this will improve the patient's postoperative recovery. We will speed up the utilization and turnover of medical resources. The aim of this study was to investigate the optimal dosage of DEX for single intravenous injection.
The HKU Neurocognitive Disorder (NCD) Cohort is a hospital-based, prospective, observational study of older HK Chinese adults with cognitive impairment, with a special focus on studying patients with subjective cognitive decline and mild cognitive impairment.
The main goal of the investigation is to identify the incidence of cognitive dysfunction and POD in patients older than 65 years of age undergoing neurosurgical elective surgery and determine if an association between cognitive dysfunction, basal NIRS and POD exists.
Human Immunodeficiency Virus (HIV) remains in infected patients receiving highly active antiretroviral therapy (HAART) for many years. Stopping HAART usually leads to re-emergence of small reservoirs of latent (inactive) HIV that reside inside certain types of infected cells, that can replicate and cause a full HIV infection. Chronic HIV infection also leads to long-term immune activation which is associated with higher incidence of serious non-AIDS events including cardiovascular disease and cancers. Thus HIV+ patients must remain on HAART indefinitely or replication-competent latent HIV reservoirs must be eradicated. The central nervous system (CNS) is a sanctuary site for latent HIV. For example, HIV-associated neurocognitive disorders (HAND) develop and persist in about 40% of HIV+ persons despite long-term HAART and viral suppression in blood and cerebrospinal fluid (CSF). Continued CSF immune activation is also frequently observed despite viral suppression. Both of these are likely to indicate ongoing low-level HIV replication in the CNS. Several strategies to eradicate latent HIV are being explored. One of these, known as "shock and kill" involves "awakening" latent HIV and inducing replication to make it more susceptible to host immune responses and HAART. However, there are several major caveats to its application in the CNS such as the risk of triggering a serious immunoinflammatory response (e.g., meningoencephalitis) that cannot be easily controlled by HAART. Other eradication strategies may also be problematic given that many latency-reversing agents have limited penetration of the blood brain barrier and limited efficacy in astrocyte cells. To improve the effectiveness of new eradication therapies it will be crucial to develop better methods to identify and quantify latent HIV reservoir sites with greater precision. To identify potential HIV latency biomarkers in the CNS, the investigators will study HIV+ patients stable on HAART and virally-suppressed in blood and CSF over 24 months. Because such a marker should be associated with HAND or its development without changing significantly with HAND progression, half of the sample will have HAND at study entry and half will not. Patients will undergo neuropsychological testing and give blood and CSF samples every 6 months to identify candidate biomarkers and track them prospectively against HAND development and progression. MRI brain scan will also occur at study entry and after 24 months.