Proteomics and Metabolomics of Body Fluid in Patients With Narcolepsy

1. Study design The baseline proteomics and metabolomics analysis of body fluid of narcolepsy (type 1 and type 2) and healthy volunteers, and the proteomics and metabolomics analysis of body fluid of narcolepsy patients after drug treatment were performed, and the differential metabolites and differential protein spots that could be used as potential molecular markers of narcolepsy were found by cross-sectional study.
2. Study subjects Source of study subjects: inpatients/healthy volunteers (Study subjects were well matched in gender, age, physical condition, etc.).
3. Study variables (factors) and measurements 3.1 Data collected from all subjects included: medical record information (basic information, scale score, sleep data, imaging examination) (10KB/ sample), body fluid (blood (3ml/ case)/urine (3ml/ case)/stool (2g/ case)/cerebrospinal fluid (3ml/ case) collected from narcolepsy patients).

Basic information (10KB/ sample), body fluids (blood (3ml/ case)/urine (3ml/ case)/stool (2g/ case)) of healthy subjects were collected (cerebrospinal fluid was not collected from healthy subjects).

Baseline proteomic and metabolomics assays were performed. Proteomics and metabolomics of body fluid in narcolepsy patients after drug treatment. (Sample collection requires metabolomics sampling in the same season and time period) 3.2 Assessment of sleepiness

1. Sleepiness assessment: Epworth sleepiness scale (ESS), Pittsburgh sleep quality index (PSQI)
2. Diagnostic evaluation of sleepiness: sleep apnea monitoring (PSG) and multiple sleep latency test (MSLT) were completed. Overnight polysomnography (PSG) can provide detailed physiological sleep information and multiple sleep latency test (MSLT) can objectively measure sleepiness. The multiple Sleep latency testing experiment (MSLT) was performed the day after an overnight PSG recording that showed ≥ 6 hours of adequate sleep at night and could effectively explain the MSLT data. The MSLT was based on 20-min PSG recordings that were repeated every 2 h, 4-5 times per day, starting approximately 2 h after morning awakening. Individuals were asked to attempt to fall asleep at each time point. The ICSD-3 states that in order to diagnose narcolepsy, the mean sleep latency of MSLT should be 8 minutes or less and more than two sleep-onset rapid eye movement periods (SOREMPs).

Study outcomes

1. omics analysis of metabolic mechanisms related to narcolepsy and screening of co-enriched pathways. To screen potential molecular markers related to the biological characteristics and prognosis of narcolepsy.
2. To study the body fluid and imaging characteristics of narcolepsy patients. 5. Data collection and management Data collection was performed using a paper case report form, and subject information (basic information, scale scores, sleep data, imaging examination) was entered into a computer by someone. Baseline proteomics and metabolomics of body fluid (blood/urine/stool/cerebrospinal fluid) in patients with narcolepsy (type 1 and type 2) and body fluid (blood/urine/stool) in healthy volunteers. Proteomics and metabolomics of body fluid in narcolepsy patients after drug treatment. Statistical analysis was performed by a clinical statistician.