Senna belongs to Anthraquinone class of glycosides.
Glycosides
(Non-reducing organic substances) are formed by condensation of hydroxyl group
of aglycone and hemiacetal hydroxyl group of sugar.
SENNA
LEAF
Biological
source: Dried leaflets of Cassia acutifolia
(Alexandrian Senna) or Cassia angustifolia (Tinnevelly and
Indian Senna). Family: Leguminosae.
Cultivation:
Cultivation
of Cassia angustifolia by Planting in Tinnevelly, Madhurai
& Ramnathpurm district of Tamil Nadu, Cudappa district of Andhra
Pradesh, Kutch in Gujarat and Rajasthan.
After 2-3 months of sowing, the harvesting of leaves
is done in three stages:-
- Plucking-when leaflets are thick, full-grown and greenish in colour.2. After one month-Second plucking.3. After 4-6 weeks last plucking.Content of sennoside in leaves is maximum when they are fully grown & goes on decreasing along with maturation of pods.After rice crop, senna give best yield.Leaflet dried under shade or indoor→for 7-10 days-yellowish green colour/ or under sunlight.Protected from light on storage.Macroscopic & Microscopic Character: Cassia angustifolia (Tinnevelly and Indian Senna).→Yellowish-green colour→Taste › Mucilaginous & bitterLeaf- Lanceolate, entire, apex is acute with spine at top.Trichomes→On both surface.→Unicellular, Conical, Thick walled warty trichomes.Stomata-Rubecious (Paracytic)Pericyclic fibre (A patch of sclerenchyma towards upper epidermis and above xylem), Cluster sheet, Collenchyma, Calcium oxalate cluster.
Indian Seena
|
Alexandrian Senna
|
|
Vein-islet
No.
|
19.5
- 22.5
|
25-29.5
|
Stomatal
Index
|
17
-20
|
11.4-13.3
|
Palisade ratio
|
7.5
(Upper epidermis)
|
9.5
|
5.1
(Lower epidermis)
|
7.0
|
Chemical
Constituents :
→Anthraquinone
glycosides- Sennoside A, B- Purgative in
Nature
Tutin in 1913 isolated→Rhein and aloeemodin
Stoll in 1941 isolated→Crystalline sennosides A
& B
Sennoside A and B= Stereoisomers
Dimeric glycosides with rhein dianthrone as glycone.
In Sennoside A →Aglycone dextrorotatory
In Sennoside B → Aglycone mesoform
The purgative activity of sennoside A and B accounts
upto 40-60% activity of crude drug.
Sugar part of these glycosides has transporting
function for aglycone upto large intestine and also protective action so that
oxidation of aglycone to other very less active anthraquinones is prevented.
Other glycoside › Rhein-8-glycoside, Aloe-emodin,
Kaempferol, Isorhamnetin
Napthalene glycosides › Tinnevellin glycoside
› 6-Hydroxy musizin glycoside
› Chryosophanic acid found in Senna.
› All glycosides are O-glycosides.
Chemical
test: Brontragers test→for Anthraquinone glycosides
Drug + Dilute H2SO4 +
boil→Filtrate + Benzene/Ether/Chloroform (CHCl3)→Shaken well→Organic
layer + Ammonia → Ammonia layer→ Pink red colour→ Anthraquinone glycosides.
Assay:
Biological
assay on mice→Number of wet faeces produced by group of mice in 24 hr. counted.
Use:
Purgative
in habitul constipation Anthraquinone glycosides absorbed first in intestinal
tract→aglycone part separated→excreted in colon.
Excreted Anthraquinones→irritate & stimulate
colon→movements are increased due to local action.
Increase in peristalsis→reduction in water
absorption→ soft and bulk faces.
Griping effect by→Resin or emodin content
Adultered
& Substituted by:
Dog
senna (Cassia obovata)→Obovate
shape of leaf
→1% Anthraquinones
→ Papillose cells in lower epidermis,
Tapering apex
Palthe
senna (Cassia auriculata)→Absence
of Anthraquinone glycosides long haired leaf.
→Test-leaf+Chloral hydrate
+boil+crimson colour.
Bombay
senna/ Mecca/ Arabian senna→Brownish green colour.
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