Statistics show that a significant percentage of adults suffer from sleep apnea, and it is one of the major causes of cardiovascular and neural diseases. Our research focuses on obstructive sleep apnea (OSA), with which the primary cause is regarding the low tension around oral muscle related to age and obesity. The low tension results in upper airway obstruction by gravity during sleep. As the tongue is one of the major muscles around the airway, tongue hypertrophy reduces or blocks the retroglossal space as it does not adequately support surrounding tissues. Previous works show that dynamic changes of airspace and tongue motion are correlated with OSA severity. Upper airway anatomy is important and has strong connection with OSA pathogenesis. However, images of retropharyngeal space are difficult to acquire and determination of the landmarks is challenging. In contract, tongue motion measurements are relatively more robust in the capturing process and suitable for most patients when awake. Currently, the clinical diagnosis of OSA is performed by using apnea-hypopnea index (AHI) and polysomnography (PSG) that are collected at the sleep center overnight. The procedure is time-consuming and easily affected during monitoring. On the other hand, ultrasound examinations may be preferred because the procedure is simple, time-efficient, and non-invasive. It is the goal of this research to correlate the tongue muscle stiffness characteristics with the degree of OSA as defined by AHI. Specifically, maneuver and tongue pressure measurements (TP) are adopted to quantify the functions of the genioglossus muscle. In addition, other ultrasound parameters such as maximum tongue base apex (TBA), the distance between lingual arteries (DLA), and tongue apex (TA) are also used to measure muscle deformation and strain curves by the speckle tracking method. In this study, 12 healthy volunteers, 60 patients with mild-moderate OSA, and 30 severe OSA patients were recruited. PSG was performed at the sleep center of National Taiwan University Hospital, along with the ultrasound examinations and MRI for the healthy volunteers. The TBA and TP results show that the proposed method is able to separate severe and non-severe OSA patients. In addition, the area under the receiver operating characteristic curve is 0.81, and sensitivity is 73%, specificity is 78 percent. Thus, the clinical potential of the proposed method for OSA diagnosis is demonstrated.