Context: Functional constipation which has no underlying organic causes is difficult to be allopathic treatment for long term due to its side effects and undeniable effect, thus a natural balanced and compatible formulation needs to be validated. Objectives: Current study aimed to assess a poly-herbal formulation in management of functional constipation. Material and Methods: This study was 28 days, two armed, randomized, open labeled, prospective clinical study. 60 clinically confirmed cases of functional constipation patients randomized to receive orally either 2 teaspoonful of PP/JLN/107/09-10 Syrup or 1 teaspoonful of 5- 6 gm of Isabgol powder. Results were analyzed as per Rome II criteria and other associated symptoms like headache, acidity, belching, barborgysmy, flatulence and abdominal dis tension or bloating which are recorded on VAS score. Results: PP/JLN/107/09-10 scored over Isabgol on four out of six parameters of Rome II Criteria viz., frequency of bowel movement, straining at defecation, lumpy I har dstool formation, feeling of incomplete evacuation, feeling of ano-rectal blockage and manual maneuvers (p less than 0.001). Trial drugs showed comparable effects (p > 0.05) in reducing the mean scores of associated symptoms like headache, acidity, belching, borgorgysmy, flatulence and abdominal distension. However, trial drug was found to perform statistically significant result in more number of parameters in comparison to Isabgol. Conclusion: PP/JLN/107/09-10 was found to be effective and safe in reliving functional constipation.
Background
Particulate matter (PM) is the major component of air pollution, which includes emissions from both anthropogenic and natural sources. PM, with aerodynamic diameter of 2.5 ± 10 μm can remain in the air for a long time and be deposited in the lungs through inhalation and hence, is a major threat to human health.
Objective
The objective of the present study was to examine the protective effect of
Chyawanprash
(CP) on PM-induced pulmonary disease through estimation of cytokines and immunoglobulins.
Materials and methods
CP, standard drug, and vehicle (Group G1 to Group G7) were administered orally at the dose volume of 10 ml/kg, for 28 consecutive days (Prophylactic treatment; i.e., Day 1 to Day 28) and next 10 days (i.e., Day 29 to Day 38) of co-treatment with inducing agent PM
2.5
intratracheally. Animals of group G6 (Inhalation + control) and G7 (Inhalation + CP) were exposed group-wise to PM
2.5
aerosol (2 mg/5 ml, 15 min) via inhalation in histamine chamber on Days 29, 31, 33, 35, and 37. On Day 38, animals were anesthetised and blood and broncho alveolar lavage fluid (BALF) were collected. Animals were sacrificed and lungs were collected for histology.
Results
Prophylactic benefit of CP against pulmonary pathology was evidenced by the inhibition of inflammatory cytokines (BALF: TNF a, IFN-g, IL-7, IL-6 and lung: TNFa, Histamine and IL-6), chemokines (Lung: MMP-9), inflammatory cell infiltration (cell counts in BALF), and histopatholoy in experimental mice model.
Conclusion
These findings suggest that CP has potential benefit in protecting from harmful effects caused by air pollutants such as PM
2.5
.
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