Видео о Обзор: сок нони (Сангам Хербалс), Натуральные соки от «Сангам Хербалс», Аюрведическая продукция от компании Sangam Herbals, Свежевыжатые соки для новичков. Чаванпраш сангам хербалс chyawanprash sangam herbals Sangam Herbals (Сангам Хербалс), 500 г.
Сок Амлы Сангам Хербалс 500 мл Sangam Herbals
повышает сопротивляемость организма к инфекциям. Предупреждает простудные заболевания. Thailand Medical News would to warn readers to be careful when buying supplements or herbal products as almost 90% of such products sold online or in shops are basically useless in treating. эффективное аюрведическое средство для укрепления сердца.
Товары бренда Сангам Хербалс
Компания Сангам Хербалс во главе с уважаемым доктором Правином Ратхи, директором компании Сангам Хербалс представляет вам аюрведическую продукцию. индийская компания, директором которой является аюрведический врач – Правин Рахти. Косметическое средство «Розовая вода» Сангам Хербалс представляет собой мягкий натуральный, ароматный антисептический тоник, является натуральным продуктом, который. Сангам Хербалс как НАТУРАЛЬНЫЕ ШАМПУНИ Сангам Хербалс помогут вам: обеспечить бережный и полноценный уход за волосами способствуют увлажнению волос восстанавливают.
Ашваганда чурна Сангам Хербалс 100 гр.
Освежает дыхание, укрепляет десна и используется для профилактики кровоточивости десен. Обладает выраженным противовоспалительным и обезболивающим действием, что обусловливает ее показания к наружному применению. В странах Юго-Восточной Азии издавна применялась при лечении зубной боли, невралгиях лицевого нерва, катарах верхних дыхательных путей. Интенсивный аромат и мощный жгучий вкус обусловливают обильное слюноотделение, уменьшая сухость , боль в горле и полости рта, что в сочетании с противоболевыми и антисептическими свойствами дает великолепный лечебный эффект. БАКУЛ — является одной из трав, упоминаемых во всех древних аюрведических трактатах и используемая в лечебных целях на протяжении веков. Согласно Аюрведе, эта трава считается Данта дадхарьякара. Это означает, что она используется для лечения стоматологических проблем. Санскритские тексты называют это растение Бакул из-за ее привлекательных цветов, не теряющих своей свежести и аромата долгое время. Кора, цветы плоды и семена обладают вяжущим, охлаждающим, тонизирующим, жаропонижающим, антисептическим, противоболевым, а также кровеостанавливающим свойством.
Соответственно, их использование эффективно как кровеостанавливающее средство для оздоровления десен. Восстанавливает эластичность и тонус десен, способствуя укреплению расшатанных зубов, обладает выраженным противоболевым и антисептическим эффектом. Благоприятно действует при лечении кариеса. Издавна отвар этого растения использовался для устранения неприятного запаха изо рта, оздоровления слизистой полости рта, помогал сохранять здоровыми десна. МАДЖУФАЛЬ — известен как «волшебный орех» , очень полезен при повышенной кровоточивости, которые варьируются от простых кровотечений их десен до чрезмерного кровотечения во время менструального цикла у женщин. Плоды этого растения содержат дубильные вещества, антиоксиданты, витамины особенно витамины А и С , минералы — кальций, железо, небольшое количество галловой и эллаговой кислоты, обладают мощным антисептическим, противовоспалительным свойством, а также способностью восстанавливать упругость и эластичность мышечной ткани. Издавна применялся как зубной порошок для лечения зубной боли и воспаления десен. НИМ — кора дерева имеет целебные свойства и используется повсеместно.
Традиционно Ним издавна применяется в ряде традиционных систем медицины, таких как Аюрведа, Юнани унани , медицине Сиддхов и т.
Производитель старается максимально сохранить силу и природные целительные свойства трав. Причины купить продукцию Sangam Herbals в интернет-магазине Biofam. Выгодные условия: лучшая цена, скидка при первом заказе на сайте Доставка на дом в день заказа или на следующий для жителей Екатеринбурга.
While most bacteria showing variance were either in low abundance or relatively rare within the groups, two exceptions stood out: bacteria from the Massilia genus and those from the Anaerococcus genus Fig. The identification of Massilia in this demographic is notable, given its rarity or complete absence in male participants. Nasal microbiome composition in health and disease When the nasal microbiomes of all the study participants clinical cohort and healthy volunteers was analysed, in the nasal microbiota of 878 different bacterial species were detected. However, only half of them 404 species were found in 2 or more individuals.
Since the species variation was very high, we aimed to analyze only the presence or absence of certain species and other taxa in the microbiota, not taking the relative abundance of each taxon into account, as our aim was to detect potential biomarkers that could indicate pathology-related changes in the lower respiratory tract. Some phylum Firmicutes representatives were also observed in higher prevalence, such as Streptococcus mitis, Streptococcus oralis and Veillonella dispar. Clustering nasal microbiomes for respiratory biomarkers To identify potential biomarkers associated with respiratory system diseases, we conducted a series of clustering analyses employing different beta diversity indices. Our initial analysis with the weighted UniFrac distance did not yield a specific separation of clinical groups in the nasal microbiome Fig. Therefore, we shifted our focus to the Ochiai distance, which prioritizes the presence of species rather than their abundance. Utilizing the Ochiai distance led to a better separation between the groups. Hierarchical clustering based on this distance allowed us to delineate three distinct clusters Fig. The first and the third casal clusters assembled the majority of the samples.
The Nasal cluster 2 contained only 7 samples, and they were equal parts belonging to healthy volunteers and patients 4 and 3 samples, respectively. The green dots represent healthy individuals, while the red dots denote the clinical group, which includes BE patients and others with chronic inflammatory lower airway conditions. The ellipses encase clusters within each group, showcasing the microbiome variability between health and disease states. B PCoA based on the Ochiai distance, focusing solely on the presence metrics of the species. The data points are colored by clusters identified via hierarchical clustering based on Ochiai distance. Each cluster is distinctly colored to illustrate the microbiome composition differences discerned through this method. C The bubble plot of the most prevalent species differentiating the clusters, with the circle size representing the percentage of individuals harboring a specific species. The colors correspond to the taxonomic class of each species.
The only noticeable difference between the patients in Nasal Clusters 1 and 3 was the disease duration - the patients from Cluster 1 have had a longer diagnosed disease average was 11. When we analyzed the microbiota composition between Nasal Clusters 1 and 3, similarities and differences in the presence of bacteria belonging to different phyla could be observed Fig. The Firmicutes representatives belonging to classes Bacilli, Tissierellia, Negativicutes had no clear differences between the clusters, apart from V. More pronounced differences could be observed in phylum Proteobacteria, where representatives from several classes had distinct profiles in Nasal Clusters 1 and 3. Several bacterial species from Gammaproteobacteria class were more common in Nasal Cluster 3. Although P. A similar pattern was observed for another opportunistic pathogen of Gammaproteobacteria class, Stenotrophomonas maltophilia, as well as Delftia acidovorans belonging to class Betaproteobacteria. Class Alphaproteobateria also had several representatives that were significantly more common in Cluster 3 Bosea sp.
F3-2, Mesorhizobium sp. Pch-S, Sphingomonas leidyi. Phylum Baicteroidetes had a few bacterial species Porphyromonas pasteri, Capnocytophaga gingivalis that were more common in cluster 3; however, the mentioned bacteria were found in a very limited number of microbiomes. Discussion When comparing a cohort of BE patients who donated nasal, nasopharyngeal, and BAL samples for this study, we have found that nasal and nasopharyngeal microbiomes are very closely correlated. These findings open the possibility of relying on nasal samples when planning a broad, self-collecting testing campaign in case of a pandemic or similar situation. It was already shown that self-collected and staff-collected samples function equally well [ 36 ]. As our study confirmed, the upper airway nose and nasopharynx does not accurately represent the microbiome composition of the lower airways and lungs, which has been previously observed in other studies [ 37 ]. However, the upper airways can be considered a potential microbial source for the lower ones [ 38 ].
Therefore, for the direct diagnostic assessment of the lower respiratory tract, one should use induced sputum, bronchoscopy, etc. On the other hand, nasal samples are sufficient for the evaluation of the microbiome of the upper airways.
A comprehensive analysis of the lung microbiota in BE patients was conducted and is presented in another of our studies Konovalovas et al. Our first interest in this study was comparing the lung microbiota profiles with nasal and nasopharyngeal samples. Our findings indicated a similarity in the dominant species in both nasal and nasopharyngeal samples Fig. The comparative evaluation of nasal and nasopharyngeal samples, as indicated by the complement of the ThetaYC index Fig.
We also found that the Shannon index and Inverted Simpson index were more elevated in nasal swab samples than those from the nasopharynx Fig. Additionally, nasal samples exhibited a significantly higher DNA concentration data not shown , underscoring their better suitability for detailed analysis, thus we decided to use only nasal samples for the following assessments. A The relative abundance of microbial species in the nose, nasopharynx, and lungs. Each color represents a different species, with the key below indicating the specific organisms. B The principal coordinate analysis PCoA based on weighted UniFrac distances, comparing the microbial communities from the nose orange , nasopharynx blue , and lungs green. C The beta-diversity comparison across the three respiratory sites uses the complement of the ThetaYC index 1 - ThetaYC dissimilarity index , where individual data points represent distinct samples.
D Boxplots of alpha-diversity metrics: Shannon index, Inverted Simpson index, and species richness across the sampled sites. These visualizations collectively suggest distinct microbial profiles and diversity within the upper and lower respiratory tracts, with nasal swabs demonstrating higher species richness and diversity indices, making them potential non-invasive diagnostic biomarkers for lower respiratory tract disorders Full size image Variations of nasal microbiomes across demographic and environmental factors in healthy individuals To explore the utility of upper respiratory tract microbiome composition as an indicator for lower respiratory tract conditions, we examined whether variations in nasal microbiomes among healthy individuals could be attributed to demographic sex and environmental pet ownership and intense plant-derived VOCs and plant-derived microorganism exposure factors. Nasal microbiome composition analysis did not reveal significant differences in bacterial species at any taxonomic level between herbal distillery workers and other healthy volunteers Supplementary Fig. Initial principal coordinate analysis PCoA utilizing weighted UniFrac distances revealed no distinct clustering by sex or environmental factors such as pet ownership and aromatic compound exposure Fig. The PCoA plot demonstrates that these metadata categories do not lead to overt segregation within the microbiome data, suggesting a homogeneous distribution of microbial communities regardless of the investigated factors. A A PCoA plot based on the weighted UniFrac distance, with orange dots indicating those from herbal distillery companies, and blue dots representing participants from other workplaces.
Overlaid dashed ellipses categorize the groups based on sex, with triangles for male participants and circles for females, showing no distinct clustering within groups. B Boxplots displaying alpha diversity indices: Shannon, Inverted Simpson, and Richness number of unique identified taxonomies across herbal distillery and other workplace groups. D Boxplots comparing alpha diversity indices between male and female participants, revealing no statistical differences. This could imply that exposure to diverse aromatic compounds may contribute to an equally diverse nasal microbiome, perhaps due to a broader spectrum of microbial substrates available in these environments. However, the observed trend in the Inverted Simpson index, without reaching statistical significance, might suggest that while the variety of species is greater, the dominance of particular species remains unaltered. No significant differences were observed in alpha diversity measures between different sexes Fig.
To verify the presence of specific organisms associated with these factors we conducted Wilcoxon rank-sum tests with Benjamini-Hochberg correction for multiple comparisons. However, distinct differences emerged when examining the factors of aromatic compound exposure and sex Fig. Additionally, bacteria from the Lactobacillales order within the Firmicutes phylum were found to be increased by an average relative abundance fold of 3. These bacteria were present in all individuals exposed to herbal distillery environment and nearly all other healthy volunteers. Continuing our analysis of the influence of sex on nasal microbiome composition, we discovered several statistically significant differences at the genus level between females and males. While most bacteria showing variance were either in low abundance or relatively rare within the groups, two exceptions stood out: bacteria from the Massilia genus and those from the Anaerococcus genus Fig.
The identification of Massilia in this demographic is notable, given its rarity or complete absence in male participants. Nasal microbiome composition in health and disease When the nasal microbiomes of all the study participants clinical cohort and healthy volunteers was analysed, in the nasal microbiota of 878 different bacterial species were detected. However, only half of them 404 species were found in 2 or more individuals. Since the species variation was very high, we aimed to analyze only the presence or absence of certain species and other taxa in the microbiota, not taking the relative abundance of each taxon into account, as our aim was to detect potential biomarkers that could indicate pathology-related changes in the lower respiratory tract. Some phylum Firmicutes representatives were also observed in higher prevalence, such as Streptococcus mitis, Streptococcus oralis and Veillonella dispar. Clustering nasal microbiomes for respiratory biomarkers To identify potential biomarkers associated with respiratory system diseases, we conducted a series of clustering analyses employing different beta diversity indices.
Our initial analysis with the weighted UniFrac distance did not yield a specific separation of clinical groups in the nasal microbiome Fig. Therefore, we shifted our focus to the Ochiai distance, which prioritizes the presence of species rather than their abundance. Utilizing the Ochiai distance led to a better separation between the groups. Hierarchical clustering based on this distance allowed us to delineate three distinct clusters Fig.
каталог Sangam Herbals
Сангам Хербалс как НАТУРАЛЬНЫЕ ШАМПУНИ Сангам Хербалс помогут вам: обеспечить бережный и полноценный уход за волосами способствуют увлажнению волос восстанавливают. Будьте первым, кто оставил отзыв на “Ашваганда Сангам Хербалс таблекти (Ashwagandha Sangam Herbals), 60 таб, 650 мг” Отменить ответ. Правдивые отзывы о Таблетки Sangam Herbals Ашваганда чурна №60! У нас вы найдёте 6 отзывов от реальных покупателей. Узнайте про все плюсы и минусы Таблетки Sangam. Про-Пайлес, Pro-Piles Sangam Herbals (Сангам Хербалс), 750 мг, 60 таб.
Sangam herbals (Сангам Хербалс)
Хербалс — растения, травы. Доктор Правин до сих пор является разработчиком многих составов Sangam Herbals, основа которых - древние рецепты Аюрведы. Адаптированные к современности, препараты марки выпускаются по принципу «Делать для других так, как мы бы делали для себя». Средства «Сангам Хербалс» - это высокое качество сырья, отсутствие сульфатов, парабенов, синтетических красителей, искусственные загустителей и наполнителей.
Сангам - место встречи трех рек в Индии Ганг, Ямуна, Сарасвати , считается священным, в Индии верят, что купание в Сангаме очищает от всех грехов и омрачений, а также несет освобождение от цикла перерождений. Хербалс — растения, травы. Доктор Правин до сих пор является разработчиком многих составов Sangam Herbals, основа которых - древние рецепты Аюрведы. Адаптированные к современности, препараты марки выпускаются по принципу «Делать для других так, как мы бы делали для себя».
Амла известна как Индийский крыжовник, настоящий кладезь витаминов, микроэлементов и разнообразных полезных для здоровья веществ.
Амла — фрукт с богатейшим содержанием витамин С. Плод амлы содержит его в 4-8 раз больше,чем в апельсин средних размеров.
Abstract: Effective treatments for patients experiencing temperature-related symptoms are limited. The hot and cold effects of traditional herbal medicines have been utilized to treat and manage these symptoms, but their molecular mechanisms are not fully understood. Previous studies with arbitrarily selected herbs and ingredients may have produced biased results.
Here, we aim to systematically elucidate the molecular mechanisms of the hot and cold properties of herbal medicines through an unbiased large-scale investigation of herbal ingredients, their target genes, and the transcriptome signatures induced by them.