Pharmacognosy
lab exercise 9
Herbs, flowers

Absinthii herba CzPh 2017
▪Mother plant: Artemisia absinthium, Asteraceae (Common wormwood)
01artemisia ArtemisiaAbsinthium1

Absinthii herba CzPh 2017
▪Macroscopy: ground leaves from greyish to greenish, silver-grey felt-like, leaf-stalked, leaf
segments from rounded to lanceolate, stem green-grey, felt-like, usually with 5 wrinkles, flowers
yellow, target-like, involucrum grey felt-like, aromatic odour and very bitter spicy taste.
artherb

Absinthii herba CzPh 2017
▪Content compounds: essential oil (thujone, thujole), bitter substances – sesquiterpenic lactones
(artemisin, artabsin, absinthin), flavonoids, polyalkyns
Thujon - neurotoxic (GABA receptors inhibitor)
▪Usage: amare, digestive, choleretic, spasmolytic
http://2.bp.blogspot.com/_zE8CzamN1Y0/S6UUJdPZu3I/AAAAAAAAA9U/CjgaENRssHw/s400/thujone.jpg
α-thujone     β-thujone
(Thuja, Artemisia, Salvia, Tanacetum )
artabsin
Obrázok, na ktorom je víno, stôl, nádoba, okuliare Automaticky generovaný popis

Ingredient for absinth. In the Middle Ages, wormwood was used to spice mead, and in Morocco it is
used with tea, called sheeba.^[16] In 18th century England, wormwood was sometimes used instead of
hops in beer.
Absinthe has often been portrayed as a dangerously addictive psychoactive drug and
hallucinogen.^[9] Thujone was blamed for its alleged harmful effects. By 1915, absinthe had been
banned in the United States and in much of Europe, including France, the Netherlands, Belgium,
Switzerland, and Austria–Hungary, yet it has not been demonstrated to be any more dangerous than
ordinary spirits. Recent studies have shown that absinthe's psychoactive properties have been
exaggerated, apart from that of the alcohol.

Absinthii herba CzPh 2017
▪Absinthism – syndrome connected to absinth drinking (thujon)
▪Hallucinations, insomnia, convulsions
▪Van Gogh, E. A. Poe, Ch. Baudelaire
▪Rise and fall of absinth: 20. century – increasing popularity (consumption  increased 15-fold only
in France between 1875 - 1913)
▪1915 – banned without any scientific proof of thujon content
▪“the trouble with alcohol lies not in the consumed amount but in
the quality of consumed alcohol”
▪Thujon content: pre-ban absinth 25,4 mg/l  (samples from 1895-1910)
post-ban absinth 7,6 mg/l   (samples from 1915-1988)
modern absinth  26,9 mg/l  (samples from 2003-2006)
Padosch SA, Lachenmeier DW, Kröner LU. Absinthism: a fictitious 19th century syndrome with present
impact. Substance Abuse Treatment, Prevention, and Policy 2006 1:14,
https://www.alandia.de/absinthe-blog/absinthe-prohibition/
Image result for green fairy

•Wine production was decreased due to infestations in that time and this helped to increase the
popularity of absinth. However, mass consumption of alcohol took its toll and an antialcohol
movement developed. Wine producers joined forces with church and together they demanded prohibition
of absinthe. Absinthe was blamed for many health issues including mind health issues.
•A common belief was that the trouble with alcohol lies not in the consumed amount but in the
quality of consumed alcohol.
•Wine producers supported antialcohol movement (haha) and thus helped to ban absinth

Absinthii herba CzPh 2017
▪ADI (acceptable daily intake) for thujon based on scientific data :
      0.11 mg/kg of body weight per day =  2-20 cups of wormwood tea
▪Where do the roots of absinthism lie?
▪Drinking of poor-quality absinth (samples from 19. century are from high-quality production)
▪Addition of wormwood essential oil or other additives just before consumption (copper salts,
antimony chloride)
▪Combination with other psychotropic substances
▪Drinking of such high amounts of absinth and other alcoholic beverages that ethanol was
responsible for the symptoms of absinthism
Obrázok, na ktorom je sedenie, stôl, budova, žena Automaticky generovaný popis
https://www.ebay.com/itm/Green-Fairy-Causes-Madness-8-5x11-Photo-Print-Anti-Absinthe-Propaganda-Pos
ter-/254472052339

Absinthii herba CzPh 2017
▪1988 EU regulation of thujone content in food and beverages:
▪0.5 mg/kg in food prepared with Artemisia species, excluding those prepared with sage and non
alcoholic beverages
▪10 mg/kg in alcoholic beverages not prepared with Artemisia species
▪25 mg/kg in food prepared with sage
▪35 mg/kg in alcoholic beverages prepared with Artemisia species
More about absinth and Absinthii herba:
▪10.1136/bmj.319.7225.1590
▪https://www.absinthes.com/absinthe-encyclopedia/thujone/thujone-and-absinthe-scientific-research/p
oison-on-line/
▪https://www.ema.europa.eu/en/medicines/herbal/absinthii-herba
(https://en.wikipedia.org/wiki/Thujone#cite_note-EU2008-29)

Absinthii herba CzPh 2017
▪Microscopy: leaf – upper and lower skin layer with characteristic T - trichomes, glandules of
Asteraceae type (squamous division), cells of lower skin layer wavy trunk-like
    trichomes

C:\Renata\temp\Ttrichom1.jpg
T-trichomes

Absinthii herba CzPh 2017
absint
Asteraceae  glandulae
T-trichomes
C:\Renata\PRAKTIKA\obr\absint1.JPG
glandules

Ribs - ridges

Absinthii herba CzPh 2017
▪Microscopy: Stem transversal section – surface glandules, schisogennic channel with essential oil
in parenchyma, collenchyma in ribs (ridges), endodermis, aggregates of sclerenchyma, sieve-tubes,
cambium, vessels with libriform, medullar rays, aggregates of calcium oxalate, collateral vascular
bundle
skin layer
collenchyma
endodermis
phloem
xylem
crystal aggregate
channel with
essential oil
C:\Renata\PRAKTIKA\obr\absint.JPG

Ribs - ridges

Absinthii herba CzPh 2017
C:\Renata\temp\herbabsinthi.JPG
xylem with libriform
phloem
sclerenchyma
colenchymatic hypodermis
essential oils channels

Ribs - ridges

Convallariae herba
▪Mother plant: Convallaria majalis, Ruscaceae (Liliaceae)
    Lily Of The Valley
02convalaria convallaria2

Convallariae herba
▪Macroscopy: leaves entire, elliptic, parallel veined; flowering stem bearing a one-sided raceme
(to 4-9” long) of nodding, bell-shaped, sweetly fragrant, white flowers without odour, taste
firstly sweet then sharp bitter
▪Content compounds:  cardioglycosides – cardenolides (0.2 - 0.3% - convallatoxin, convallatoxol),
saponins, flavonoids
▪Usage: cardiotonic
convalaria2

North European plants – high content of convallatoxin, convallatoxol
East European plants – rich in convalloside
Not used in therapy, whole plant is poisonous

Convallariae herba
▪Microscopy: epidermal cells of leaves rod-like elongated, parallel with venatio, sporadic stomata
without accompanying cells, non-differentiated palisade and spongeous parenchyma, raphides of
calcium oxalate
C:\Renata\temp\convalariabun.JPG C:\Renata\temp\rafidy1.JPG
C:\Renata\diplomanti\Renata-obr\konvalinka.jpg
palisades
raphides

Equiseti herba CzPh 2017
▪Mother plant: Equisetum arvense, Equisetaceae (Horsetail)
equisetum%20arvense equisetum_arvense

Equiseti herba CzPh 2017
▪Macroscopy: tough, fragile stems, articular, poly-costate, branched to simpler verticillate
branches, without taste and odour
▪Content compounds: flavonoids, silicic acid (or soluble silicates), organic acids, traces of
alkaloids (nicotine)
▪Usage: diuretic, skin disorders
D:\atlas\images\rost10mk.jpg Equisetum arvense

Flavonoids: glycosides of luteolin, kempferol, kvercetin, apigenin
Phenolic acids: caffeic, chlorogenic, ferulic
Only a small portion of silicates passes into water infusion

Equiseti herba CzPh 2017
▪Microscopy: transversal section: characteristic ribs/ridges reinforced by sclerenchyma and
incrusted with silicic acid, between ribs located valleys/grooves, valecular cavities between ribs,
under endodermis in ribs located carinal cavities, upon them collateral vascular bundles

Equiseti herba CzPh 2017
▪Microscopy: transversal section: characteristic ribs/ridges reinforced by sclerenchyma and
incrusted with silicic acid, between ribs located valleys/grooves, valecular cavities between ribs,
under endodermis in ribs located carinal cavities, upon them collateral vascular bundles
D:\atlas\images\rost10mi.jpg
collenchyma
sclerenchyma
valley/groove
rib/ridge
central cavity
vascular bundle
carinal cavity
endodermis
valecular cavity

Equiseti herba CzPh 2017
sclerenchyma
epidermis
rib
collenchyma
valecular cavity
endodermis
vascular bundle
collateral
carinal cavity
central cavity
C:\Renata\PRAKTIKA\obr\eqiseti.JPG
Microscopy:

Matricariae flos CzPh 2017
▪Mother plant: Chamomilla recutita syn. Matricaria recutita, Asteraceae, Chamomile, χαμαίμηλον
▪Matricariae etheroleum CzPh 2017
▪Matricariae extractum fluidum CzPh 2017
Matricaria recutita - heřmánek pravý

Európa, Ázia, Severná Amerika

Matricariae flos CzPh 2017
▪Macroscopy: anthodium (flower heads) with hollow semi-globular receptacle, circumferential
pistillate flowers with ray florets corolla, inner disc florets are duplicitous and yellow, several
rows of green bracts, strong aromatic odour and taste
http://195.178.84.227/html/images/plants/matricaria/flos.JPG

Matricariae flos CzPh 2017
▪Content compounds: essential oil – sesquiterpens (0.6-2.4%; chamazulene, guaiazulen, bisabolole),
bitter substances (matricin), mucilage, flavonoids (apigenin), coumarins
▪Usage: internally- antiphlogistic, spasmolytic, carminative, stomachic, diaphoretic, mild sedative
externally- healing effect, promotes epithelization (wounds, burns)
matricin (proazulene)
chamazulene

Essential oil gained by extraction is yellow or green.
Essential oil gained by distillation is blue.
Heating of water infusion of drug leads to decomposition of matricine – the lactone ring opens,
deacetylation occurs and chamazulencarboxylic acid forms. This acid is unstable, it gives CO2 away
and transforms to blue chamazulene.
Vodný zápar kvetov je možné užívať aj v tehotenstve
Terapeutický účinok sa pripisuje azulény, bisabolol, flavonoidy

Matricariae flos CzPh 2017
▪Microscopy: inner (a) and outer (b) epidermis of involucrum (rosette of bracts surrounding an
inflorescence) with sclereids (c)

Matricariae flos CzPh 2017
▪Microscopy: Ray florets – inner epidermis wavy deformed
inner epidermis -  transversal section
outer epidermis - aerial view
chamjaz5 chamjaz4 hermanek

Matricariae flos CzPh 2017
▪Microscopy:
C:\Renata\PRAKTIKA\obr\blizna.jpg http://www.lima.ohio-state.edu/biology/images/stigma.jpg
C:\Renata\temp\chamtrub.jpg
stigma with papillas
single tube flower

Verbasci flos CzPh 2017
▪Mother plant: Verbascum densiflorum, V. phlomoides, V. tapsus, Scrophulariaceae (Mullein)
05divizna Verbascum densiflorum - divizna velkokvětá Verbascum densiflorum - Großblütige
Königskerze

Európa

Verbasci flos CzPh 2017
▪Macroscopy: flat, pipe-like corollas 5-petalled (three lower corners bigger), yellow, 5 stamen,
weak honey-like odour, sweet taste, mucilaginous
http://caliban.mpiz-koeln.mpg.de/~stueber/lindman/111.jpg
▪Content compounds: saponins (verbascosaponin with aglycone verbascogenine), mucilage, flavonoids
(apigenin, luteolin), iridoids (aucubine, catalpol)
▪Usage: expectorant, mucilaginose, antiphlogistic, diaphoretic, mild diuretic
C:\Renata\temp\verbascum.JPG Hjertebladet Kongelys Rohtotulikukka Molène faux phlomis Keizerskaars
Pustenasta divizma Verbasco barbarastio Szöszös ökörfarkkóró Königskerze Windblumen-Königskerze
Hjartekongslys Dziewanna kutnerowata Коровяк мохнатый лекарственный Navadni lučnik Крупноцветна
дивизма Storkungsljus Sığır kuyruğu Дивина залізняковидна Verbascum phlomoides Divizna sápovitá
Divozel sápovitý Gordolobo anaranjado Orange Mullein Wooly Лопен лечебен

Ttriterpenoid Saponins.
The irritative expectorant effect of saponins is softened by mucilage
Expektoračný a protizápalový účinok majú aukubín, verbaskozid. Dráždivý expektoračný účinok
saponínov miernia slizy.

Verbasci flos CzPh 2017
▪Microscopy:
stamen - lower smooth, upper with one-cell club-like trichomes
C:\Renata\temp\verbascitri6.JPG C:\Renata\temp\verbascitri3.JPG
epidermis – big branched covering trichomes (candelabra-like), glandular trichomes

Verbasci flos CzPh 2017
▪Microscopy:
upper stamen
lower stamen
club-like trichome
candelabra-like trichome
C:\Renata\PRAKTIKA\obr\divizna.jpg

MACROSCOPY



Arnicae flos CzPh 2017
▪Mother plant: Arnica montana, Asteraceae Leopard´s bane, Mountain Arnica
▪Arnicae tinctura CzPh 2017
a_montana1 Arnica montana - prha arnika

Horské lúky strednej, južnej, východnej Európy, chránená rastlina

Arnicae flos CzPh 2017
▪Macroscopy: flower heads: ray florets creamy white, circular head yellow disc florets are
androgynous, ovary cylindrical, smoothly hairy, aromatic odour, sharp spicy taste
arnica
▪Content compounds: sesquiterpenic lactones (helenalin, dihydrohelenalin), flavonoids, carotenoids,
polyphenolic compounds (cynarin), essential oil, triterpenic saponins (arnidiole), polyacetylene
type substances
▪Usage:  only external – antiphlogistic, antirheumatic, derivans
▪(internally – cardiotonic, elevates blood pressure)

Calendulae flos CzPh 2017
▪Mother plant: Calendula officinalis, Asteraceae, Pot Marigold
c_officinalis2 Image:Calendula officinalis3.jpg

Calendulae flos CzPh 2017
▪Macroscopy: yellow flower head, circumferential ray florets, in disc tubular florets, bracts in
two rows, weak odour, bitterish acrid taste
▪Content compounds: glycosides of oleanolic acid (calendulosides), flavonoids, essential oil,
carotenoids and xantophylls, triterpenic alcohols (arnidiole, faradiole)
▪Usage: antiphlogistic
http://195.178.84.227/html/images/plants/calendula/flos.jpg
http://www.spandidos-publications.com/article_images/ol/4/1/OL-04-01-0022-g00.jpg
calenduloside  E

Caryophylli flos CzPh 2017
▪Mother plant: Syzygium aromaticum (Eugenia caryophyllus), Myrtaceae, Cloves
▪Caryophylli floris etheroleum CzPh 2017
s_aromaticum5

Caryophylli flos CzPh 2017
▪Macroscopy: long calyx, terminating in four spreading sepals, and four unopened petals which form
a small ball in the center, strong aromatic odour and taste
▪Content compounds: essential oil (eugenol, caryophyllene), flavonoids, phenolic acids, oil,
tannins, triterpenes
▪Usage: essential oil displays antiseptic and anaesthetic properties, antioxidant; analgesic and
antirheumatic effect
http://mladazena.maminka.cz/assets/mlada-zena-2/moje-zdravi/zdravi/zdravi/85bb.jpg
eugenol
β-caryophyllene

Farfarae flos
▪Mother plant: Tussilago farfara, Asteraceae, Coltsfoot
Image:Tussilago farfara.JPG

Farfarae flos
▪Macroscopy: flower heads with short stalk, ray florets in several lines, tubular florets with
feathers in disc, bracts in one row, felt-like, reddish, without odour, mucilaginous bitterish
taste
▪Content compounds: mucilage, flavonoids, tannins, xanthophylls, traces of pyrrolizidine alkaloids
(tussilagine, senkirkin)
▪Usage: mucilaginose, expectorant, mild astringent and spasmolytic
C:\Renata\temp\farfara.JPG Tussilago

Lamii albi flos
▪Mother plant: Lamium album, Lamiaceae, White Deadnettle
Lamium album 95

Lamii albi flos
▪Macroscopy: corolla without calyx, petals fused into an upper lip and a lower lip , upper lip
dished, side corners 2-3 toothed, creamy white colour, weak honey-like odour, bitterish taste
http://195.178.84.227/html/images/plants/lamium/flos.JPG
▪Content compounds: flavonoids, essential oil, tannins, triterpenic saponins, phenolic acids,
mucilage, iridoid glycosides
▪Usage: mucilaginose, expectorant, sedative; externally as astringent, antiphlogistic

Lavandulae flos CzPh 2017
▪Mother plant: Lavandula angustifolia (L. officinalis), Lamiaceae, Lavender
▪Lavandulae etheroleum CzPh 2017
lavandula-angustifolia-dwar 250px-Koeh-087

Lavandulae flos CzPh 2017
▪Macroscopy: small flowers with grey-blue poly-costate pubescent calyx and two-labiate corolla,
aromatic odour, bitter taste
▪Content compounds: essential oil (monoterpens - linalyl-acetate, linalool, cineol, camphor),
tannins, rosmarinic acid, flavonoids, coumarins, anthocyanins, bitter substances
▪Usage: nervinum, sedative, cholagogue, spasmolytic; externally antiseptic, derivans
herba
linalyl-acetate

Malvae sylvestris flos
CzPh 2017
▪Mother plant: Malva sylvestris, Malvaceae, Common Mallow
Malva sylvestris - sléz lesní

Malvae sylvestris flos
CzPh 2017
▪Macroscopy: flowers located axillary, petals dark-purple (5), opposite-oval, with dark veining,
calyx 5-cornered, ovary rounded, without odour, taste mucilaginous
mvflos

Malvae sylvestris flos
CzPh 2017
▪Content compounds: mucilage (more than 10%), tannins, essential oil, anthocyanins (malvin)
▪Usage: mucilaginose, mild astringent, dye
malvin
(= malvidin-3,5-diglucoside)

Primulae flos
▪Mother plant: Primula veris, P. elatior, Primulaceae, Primrose
Primula veris - prvosenka jarní
Primula veris
Primula elatior - prvosenka vyšší
Primula elatior

Primulae flos
▪Macroscopy: flowers with yolk-yellow corolla and spoon-like concave petals (veris) or
sulphur-yellow flowers with flat petals with deeper corners (elatior), honey-like odour, sweetish
taste
▪Content compounds: triterpenic saponins, phenolic glycosides, flavonoids, carotenoids, essential
oil
▪Usage: expectorant – secretolytic, mild diuretic
primula1
protoprimulagenine

Sambuci nigrae flos
CzPh 2017
▪Mother plant: Sambucus nigra, Adoxaceae (Sambucaceae), Black Elderberry
http://www.plant-identification.co.uk/images/caprifoliaceae/sambucus-nigra-4.jpg

Sambuci nigrae flos
CzPh 2017
▪Macroscopy: small flowers white to yellowish, 5-toothed calyx and deeply 5-cornered corolla with
many stamina, strong characteristic odour, mucilaginous taste
http://195.178.84.227/html/images/plants/sambucus/flos.jpg

Sambuci nigrae flos
CzPh 2017
▪Content compounds: flavonoids (quercetin glycosides – rutin, hyperoside, isoquercitrin), essential
oil, phenolic acids + esters, triterpenic saponins, mucilage, traces of sambunigrine
▪Usage: diaphoretic, diuretic
quercetin
sambunigrin

Tiliae flos CzPh 2017
▪Mother plant: Tilia cordata, Tilia platyphyllos, Tilia x vulgaris, Tiliaceae, Lime
Tilia cordata Tiliaceae - Tilia cordata - Tilia ulmifolia

Tiliae flos CzPh 2017
▪Macroscopy: whole small yellow-green hermaphrodite flowers in clusters of five to eleven with a
leafy yellow-green subtending bract, characteristic odour, sweet mucilaginous taste
http://195.178.84.227/html/images/plants/tilia/flos.JPG

Tiliae flos CzPh 2017
▪Content compounds: flavonoids (glycosides of quercetin and kaempferol + esters with acids such as
tiliroside), mucilage, tannins, phenolic acids (caffeic, chlorogenic), essential oil
▪Usage: diaphoretic, diuretic, mucilaginose
tiliroside

Echinaceae flos
▪Mother plant: Echinacea purpurea, Asteraceae, Purple Coneflower
▪Echinaceae angustifoliae radix CzPh 2009
▪Echinaceae pallidae radix CzPh 2009
▪Echinaceae purpureae radix CzPh 2009
▪Echinaceae purpureae herba CzPh 2017
Echinacea_purpurea

Echinaceae flos
▪Macroscopy: flower heads with strongly concaved receptacle, ray florets are purple, sterile, down
directed, tubular florets are androgynous, greenish
echinacea

Echinaceae flos
▪Content compounds: essential oil (mono- and sesquiterpens), polyphenols (esters of caffeic acid –
cichoric and caftaric acid), polysaccharides, anthocyans
▪Usage: stomachic, antitussic, immunomodulation
Cichoric acid Structure
cichoric acid

Increases phagocytose