View clinical trials related to Healthy Subjects.
Filter by:The study is to compare the rate and extent of absorption of a generic formulation with that of a reference for mulation when given as equal labeled dose. The study will be randomized, open-label, single dose, two way crossover design with two-period, two-treatment and two-sequence under fasting condition and at least 28 days washout period between the doses.
The study is to compare the rate and extent of absorption of a generic formulation with that of a reference for mulation when given as equal labeled dose. The study will be randomized, open-label, single dose, two way crossover design with two-period, two-treatment and two-sequence under fasting condition and at least 5 days washout period between the doses.
The study is to compare the rate and extent of absorption of a generic formulation with that of a reference for mulation when given as equal labeled dose. The study will be randomized, open-label, single dose, two way crossover design with two-period, two-treatment and two-sequence under fasting condition and at least 7 days washout period between the doses.
Patients with disorders of gut-brain interaction (DGBI) often present gastrointestinal symptoms that do not show noticeable irregularities in standard examinations. However, due to unclear causes and a high prevalence rate, this condition often exerts a profound impact on the physical and mental health of patients. The scope of DGBI encompasses conditions such as laryngopharyngeal reflux, functional dyspepsia, and irritable bowel syndrome. Previous research has confirmed that in patients with DGBI, their autonomic nervous system exhibits an imbalance, charact erized by decreased parasympathetic activity and dominant sympathetic activity. Diaphragmatic breathing helps reduce the respiratory rate and can stimulate parasympathetic activity while suppressing sympathetic activity. Hence, it is now officially recommended as an effective adjunct therapy for relieving symptoms of gastroesophageal reflux. Accordingly, this study plans to implement a randomized controlled trial, introducing diaphragmatic breathing to patients with DGBI who exhibit normal results in objective examinations. This work allows evaluate changes in their psychophysical symptoms before and after treatment, as well as alterations in the autonomic nervous system .
This study is a single-site, open-label, single-cohort, single-dose study to assess the absorption, metabolism, and excretion profile of [14C] ABSK021 in healthy adult male subjects. The study plans to enroll 6 to 10 healthy male subjects to ensure at least 6 evaluable subjects.
Stuttering negatively impacts communication and reduces the overall quality of life and well-being of individuals who stutter. This study will provide a strong foundation for developing neural and behavioral interventions for stuttering. Participants will be asked to name pictures, read words/sentences silently or aloud, and listen to speech and nonspeech sounds while their speech, muscle, and brain signals are collected. Some participants may also receive brain stimulation while reading and speaking.
This is a phase I study to evaluate drug-drug interactions (DDIs) of JAB-21822 as a perpetrator combined with midazolam , rosuvastatin, and digoxin and to evaluate DDIs of JAB-21822 as a victim combined with itraconazole, rifampicin, and omeprazole in healthy subjects.
The goal of this clinical trial is to evaluate the safety, tolerability and pharmacokinetic characteristics of Singletine in healthy adult subjects. The main questions it aims to answer are: safety and tolerability of Singletine in healthy subjects, the pharmacokinetic characteristics after single and multiple doses and the effect of food on the pharmacokinetic characteristics. Participants will be treated with Singletine orally and safety and pharmacokinetic evaluations will be conducted according to the protocol.
The purpose of the study is to learn how different forms of a study medication called danuglipron are taken into the blood in healthy adults.
Echointensity and echotexture have been used as a physiological marker for changes in skeletal muscle quality and structure caused by physical training, low activity, ageing and some neuromuscular disorders. However, there are some influencing factors on muscle echo-intensity and echotexture, such as temperature, which may not be taken into account when performing an ultrasound assessment and may alter the results. This study aims to investigate the effects of muscle temperature on echointensity and other 2nd order echotextures variables such as homogeneity, contrast, correlation and entropy of muscle tissue, in order to gain a better understanding of this correlation and minimise its influence, which would allow greater precision in the use of muscle ultrasound as a diagnostic tool. The methodology of this study includes firstly the acquisition of ultrasound images of the vastus lateralis muscle. This acquisition will be performed during the continuous recording of muscle temperature, carried out during a passive cooling process after 20 min of heating using microwave equipment. In addition, to standardise the results, a correction factor will be calculated to compensate for the influence of subcutaneous adipose tissue thickness on echogenicity and echotexture.