http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
나용호(Yong Ho Nah),정양호(Yang Ho Jeong),손봉국(Bong Gook Shon),임종채(Jong Chae Lim) 대한소화기학회 1988 대한소화기학회지 Vol.20 No.1
N/A The aim of this study was to determine gastrointestinal manometric patterns of functional dyspepsia. We studied 10 healthy volunteers and 19 patients with functional dyspepsia during fasting and 2 hour after a 650-Kcal meal. This results showed: 1) Healthy subjects: During fasting, the migrating motor complex (MMC) was present in all subjects and at all levels of upper small intestine and propagated aborally. Migrating motor cornplex occurred each 103+32 min (grand mean for all loci), but intervals between MMC varied markedly (63-360). Rates of continuous, rhythmic contractions during activity fronts were 11.5+0.5 cpm and the duration of activity fronts was 7.0+3.6 min. The velocity of aboral migration was 11.2+5.7 cm/min. Eating disrupted the cycle of interdigestive motor activity at levels of the stomach and the upper gut. Progression of MMC was interrupted and a postcibal pattern of motility was established. This consisted of short bursts of irregular, randorn contractions, interspersed with transient periods of quiescence. 2. Functional dyspepsia: Manometric abnormalities were found in 12 patients (63%). In the upper intestine, unpropagated bursts of phasic and tonic contractile activity were a relatively frequent abnormalities (37%) but a number of other altered manometric patterns also were observed. In one patients, there were good corelation between manometric abnormalities and symptoms. Ive conclude that in patients with functional dyspepsia gastrointestinal manometry is a useful technique to evidence the underlying gut motor disturbance that is present in a relatively high proportion of these patients. This sudy suggests also that there are several subtypes of gastrointesti- nal motility in functional dyspepsia.