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→Equilibrium of agni
''Tridosha'' play role in impairing immunity and depending on the dominance of a particular ''dosha'' they are classified as ''vataja, pittaka'' and ''kaphaja'' disorders.(Ca. Su. 28/7)
''Tridosha'' play role in impairing immunity and depending on the dominance of a particular ''dosha'' they are classified as ''vataja, pittaka'' and ''kaphaja'' disorders.(Ca. Su. 28/7)
==== Equilibrium of agni ====
==== Equilibrium of ''agni'' ====
Agni should be associated with balance of vāta, pitta and kapha or Samāgni. Digestive enzyme secretion is controlled by sympathetic and parasympathetic nerve supply. Samāgni may be compared with balanced state of sympathetic/ parasympathetic activity which explains the role of balanced or Samān vāta. It may also be noted that prāṇa vāta and apāna vāta also have impact on balancing the normal status of agni.
''Agni'' should be associated with balance of ''vata, pitta'' and ''kapha'' or ''samagni''. Digestive enzyme secretion is controlled by sympathetic and parasympathetic nerve supply. ''Samagni'' may be compared with balanced state of sympathetic/ parasympathetic activity which explains the role of balanced or ''samana vata''. It may also be noted that ''prana vata'' and ''apana vata'' also have impact on balancing the normal status of ''agni''.
Acidic and alkaline pH of digestive secretions explains the balanced pitta. Modern science explains specific range of pH of digestive secretions e.g. pancreatic juice has pH in range of 7.1 – 8.2 that buffers acidic gastric juice in chyme, stops the action of pepsin from the stomach and creates proper pH for action of digestive enzymes in small intestine. Specific pH of gastric juice is essential to convert pepsinogen into pepsin, an active form of proteolytic enzyme thus improper pH will cause variation in digestion.
Acidic and alkaline pH of digestive secretions explains the balanced ''pitta''. Modern science explains specific range of pH of digestive secretions e.g. pancreatic juice has pH in range of 7.1 – 8.2 that buffers acidic gastric juice in chyme, stops the action of pepsin from the stomach and creates proper pH for action of digestive enzymes in small intestine. Specific pH of gastric juice is essential to convert pepsinogen into pepsin, an active form of proteolytic enzyme thus improper pH will cause variation in digestion.
Mucosal resistance explains role of kapha in maintaining samāgni. Intact mucosal lining is present in stomach and small intestine. Breach in mucosal lining causes gastritis, burning sensation etc whereas increased size of mucosal cells alters the pH thereby a balanced kapha plays essential role in samāgni. Role of prostaglandins to maintain gastric mucosal resistance to prevent the action of HCl in gastric mucosa is to be considered as part of kledaka kapha as sodium bicarbonate and mucus is secreted by prostaglandins. Drugs which inhibit prostaglandins e.g. aspirin, impairs gastric mucosal barriers leading to gastritis, duodenitis and peptic ulcers.
Mucosal resistance explains role of ''kapha'' in maintaining ''samagni''. Intact mucosal lining is present in stomach and small intestine. Breach in mucosal lining causes gastritis, burning sensation etc whereas increased size of mucosal cells alters the pH thereby a balanced ''kapha'' plays essential role in ''samagni''. Role of prostaglandins to maintain gastric mucosal resistance to prevent the action of HCl in gastric mucosa is to be considered as part of ''kledaka kapha'' as sodium bicarbonate and mucus is secreted by prostaglandins. Drugs which inhibit prostaglandins e.g. aspirin, impairs gastric mucosal barriers leading to gastritis, duodenitis and peptic ulcers.
==== Clinical features ====
==== Clinical features ====