Some components of the diet could promote the growth of certain bacterial strains present in the intestine, which are closely associated with benefits for host health. An intestinal commensal Parabacteroides goldsteinii (Pg) was highlighted to be significantly negatively associated with severity of COPD. Furthermore, the investigators identify the potential prebiotics (PHGG) which may enrich the abundance of P. goldsteinii and increase the probiotic effect of P. goldsteinii. The investigators designed a randomized control study, which enroll adults diagnosed with COPD. Then the two groups will receive PHGG or not. Stool samples will be collected. The ameliorative efficacy will be evaluated by questionnaire and lung function test. Intestinal microbiota and metabolome will be analyzed and the correlation with lung function indices will be further investigated.
It is well known that some components of the diet could promote the growth of certain bacterial strains present in the intestine, which are closely associated with benefits for host health. In the previous study, the investigators found that an intestinal commensal Parabacteroides goldsteinii (Pg) was highlighted to be significantly negatively associated with severity of COPD. Furthermore, the investigators identify the potential prebiotics (PHGG) which may enrich the abundance of P. goldsteinii and increase the probiotic effect of P. goldsteinii. However, the effect of PHGG supplement on compositional and functional properties of the human microbiota with COPD still remains unclear. In this proposal, the investigators designed a randomized control study, which enroll adults diagnosed with COPD. The investigators will review their past medical records and related image and lung function test. Then the two groups will receive PHGG or not. Stool samples will be collected. The ameliorative efficacy will be evaluated by questionnaire and lung function test. Intestinal microbiota and metabolome will be analyzed and the correlation with lung function indices will be further investigated. In the future, it may be used to investigate and analyze the change of microbiota and metabolome, then develop possible treatment options of COPD.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
60
Partially Hydrolyzed Guar Gum 5 gram/day for 1 month
Yen-Liang Kuo
New Taipei City, Taiwan
RECRUITINGModified Medical Research Council Dyspnea Scale (mMRC)
change of mMRC scale, 0 the best, 4 the worst
Time frame: after PHGG 5 gram/day for 1 month
COPD Assessment Test (CAT)
change of CAT (0 the best, 40 the worst)
Time frame: after PHGG 5 gram/day for 1 month
St. George's Respiratory Questionnaire (SGRQ)
change of SGRQ score, 0 the best, 100 the worst
Time frame: after PHGG 5 gram/day for 1 month
FEV1
change of FEV1
Time frame: after PHGG 5 gram/day for 1 month
FEV1%
change of FEV1%
Time frame: after PHGG 5 gram/day for 1 month
FVC
change of FVC
Time frame: after PHGG 5 gram/day for 1 month
FVC%
change of FVC%
Time frame: after PHGG 5 gram/day for 1 month
FEV1/FVC%
change of FEV1/FVC%
Time frame: after PHGG 5 gram/day for 1 month
FEV3
change of FEV3
Time frame: after PHGG 5 gram/day for 1 month
FEV3%
change of FEV3%
Time frame: after PHGG 5 gram/day for 1 month
FEV3/FVC%
change of FEV3/FVC%
Time frame: after PHGG 5 gram/day for 1 month
MMEF
change of MMEF
Time frame: after PHGG 5 gram/day for 1 month
MMEF%
change of MMEF%
Time frame: after PHGG 5 gram/day for 1 month
PEF
change of PEF
Time frame: after PHGG 5 gram/day for 1 month
PEF%
change of PEF%
Time frame: after PHGG 5 gram/day for 1 month
blood cytokine
change of blood cytokine
Time frame: after PHGG 5 gram/day for 1 month
Microbiota of stool
change of stool microbiota contribution
Time frame: after PHGG 5 gram/day for 1 month
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