Description

1. Background Obesity (BMI ≥27 kg/m²) affects over 2.2 billion adults globally and exacerbates comorbidities including cardiovascular disease(CVD), obstructive sleep apnea (OSA) and type 2 diabetes mellitus (T2DM). Semaglutide, a GLP-1 receptor agonist(GLP-1RA), demonstrates significant weight loss (5-20% at 2.4 mg/week) and metabolic benefits in trials. Emerging evidence suggests it may improve OSA by reducing central respiratory dysregulation. However, real-world data on its short-term effects on AHI remain scarce.
2. Objectives Primary: Assess change in apnea-hypopnea index (AHI) after 1-week semaglutide treatment.

   Secondary

AHI change at 4 weeks. Weight, BMI, waist circumference, blood pressure, glucose (fasting glucose, glycated albumin), liver function, and lipids at 1 and 4 weeks. 3. Study Design Type: Single-center observational real-world study. Data Source: Structured electronic medical records (EMR) from Fengxian Central Hospital. 4. Study Population 4.1 Inclusion Criteria:

(1) Age 18-65 years. (2) BMI ≥27 kg/m²,with ≥1 comorbidity (hypertension, dyslipidemia, CVD) or T2DM.

(3) On the basis of dietary control and exercise, the therapeutic effect is not satisfactory. There are indications for the use of semaglutide in clinical practice.

(4) Combined with obstructive sleep apnea syndrome. (5) Within the past month, no hormone drug treatment that affects glucose and lipid metabolism, nor any drugs such as antibiotics that significantly interfere with the oral flora, or bariatric surgery has been received。 (6) With complete information for this study. 4.2 Exclusion Criteria.

1. Abnormal weight gain caused by endocrine diseases (pituitary/adrenal diseases, such as Cushing's syndrome; Or hypothyroidism, etc.)
2. Severe renal/hepatic impairment (eGFR \<45 mL/min; ALT/AST \>2.5×ULN).
3. Severe metabolic diseases, such as diabetic ketoacidosis and hyperosmolar hyperglycemic state, etc.
4. Patients with type 1 diabetes or other special types of diabetes, patients with type 2 diabetes with severely impaired pancreatic islet function, or patients with type 2 diabetes who use insulin.
5. There is a known history of drug use that affects glycolipid metabolism within three months, such as ① glucocorticoids; ② Fluoroquinolone antibiotics; ③ Beta-blockers such as metoprolol, etc. ④ Thyroid preparations such as thyroid hormone tablets; ⑤ Psychotropic drugs, including antipsychotic drugs such as chlorpromazine and olanzapine, as well as anti-anxiety or anti-depression drugs like SSRIS and NaSSAs; ⑥ SABA bronchodilators such as salbutamol and terbutaline; ⑦ Other known drugs that affect glycolipid metabolism, such as statins.
6. Severe bleeding tendency, urinary and reproductive system infections; There are contraindications for the use of semaglutide, such as a history of acute or chronic pancreatitis, medullary thyroid carcinoma, and multiple endocrine neoplasia (MEN) type 2.
7. Patients with contraindications to radiological examinations.
8. Patients with advanced malignant tumors.
9. Severe cardiovascular and cerebrovascular diseases, such as heart failure, etc.
10. Rheumatic immune diseases, etc.
11. Pregnant women and lactating women.
12. Patients who have taken or are currently taking diuretics such as loop diuretics and thiazides within the past month.
13. Currently involved in other interventional researchers.
14. Other situations that the researchers consider unsuitable for the study, such as poor compliance, etc.

5\. Treatment Records 5.1 Drug: Semaglutide subcutaneous injection. 5.2 Dosing: 1ml of the injection contains 1.34mg of semaglutide. Each pre-filled injection pen contains 2mg of semaglutide and is placed in 1.5ml of solution. This product should be injected once a week. It can be administered at any time of the day without the need to follow meal times. This product is administered by subcutaneous injection. The injection site can be selected from the abdomen, thigh or upper arm. There is no need to adjust the dosage when changing the injection site. In all cases, patients should resume a regular weekly dosing schedule.

5.3 Concomitant Medications: The patient's medical records should detail the situation of concomitant medication during the study period and must comply with the management regulations for the concomitant medication of semaglutide In particular, metformin, sulfonylurea drugs, glucocorticoids, fluoroquinolone antibiotics, beta-blockers such as metoprolol, thyroid preparations such as thyroid hormone tablets, psychotropic drugs, anti-anxiety or anti-depression drugs such as SSRIS and NaSSAs, SABA bronchodilators, and other known drugs that affect glucose and lipid metabolism should be recorded.

6\. Endpoints

The study will evaluate the following endpoints:

6.1 Primary Endpoint: Change in AHI measured by PSG from baseline (T0) to 1 week post-treatment (T1).

6.2 Secondary Endpoints:

1. Changes in weight (units: kg), from T0 to T1 and 2 weeks post-treatment (T2);
2. Changes in BMI, from T0 to T1 and T2;
3. waist circumference (units: cm), from T0 to T1 and T2;
4. blood pressure (units: mmHg), from T0 to T1 and T2;
5. Changes in metabolic markers from T0 to T1 and T2 inlcuding
   • fasting glucose (mmol/L)
   • glycated albumin (%) ③ liver enzymes (U/L)
   • lipid profiles (mmol/L)

7\. Statistical Analyses 7.1 Sample Size Estimation 15 patients (80% power, α=0.05, paired Wilcoxon Signed-Rank test; anticipated ΔAHI=-10.58±10 from pilot data).

7.2 Data Handling Missing Data: Patients with missing baseline or follow-up AHI measurements will be excluded from the primary analysis.

Outliers: Values outside the 95% normal range will be reviewed for potential data entry errors or biological plausibility before analysis.

7.3 Primary Analyses The primary endpoint (sleep PSG parameters) was compared with the baseline treatment at 4 weeks after treatment using the paired rank sum test to assess whether the change was statistically significant. If the P value was less than 0.05, it could be considered that the sleep PSG parameters had decreased after treatment. Other secondary endpoint indicators (liver function, blood glucose, etc.) were also compared with baseline treatment at 4 weeks after treatment using the paired rank sum test to assess whether the change was statistically significant. If the P value was less than 0.05, it could also be considered that there was a change.

7.4 Secondary Analyses If the dosage of medication for some patients is adjusted during the study period, subgroup analyses will be conducted based on different doses. For instance, if the first dose is 0.25mg and then adjusted to 0.5mg or maintained at 0.25mg, further analysis will be conducted in different subgroups.

7.5 Sensitivity Analyses To assess the stability of the research results, external controls, published data, and data from other patients treated concurrently will be introduced for evaluation, and the differences before and after treatment will be compared. To minimize the impact of outliers, data outside the 95% range will be presented during the analysis to assess the consistency of the results. For some doses that are inconsistent, the results will be evaluated through inclusion and exclusion, and the consistency will be compared.

7.6 Quality control The quality control of this study consists of two parts. The data collected in the retrospective study must ensure the completeness of the data and the consistency of the equipment. The data collected in the prospective study will be subject to quality control on the standardization of the CRF table, the parameters of the equipment, and the operators to avoid measurement errors caused by human or equipment factors.

8\. Ethics Approved by Fengxian Central Hospital (IRB No.：2025-KY-56-02) De-identified EMR data extracted under broad consent for secondary research. Compliance with China's Personal Information Protection Law (PIPL).

9\. Timeline Data collection: Jan 2025-Dec 2025. Analysis: Jan 2026. Study completion: 31-Jan-2026.