Sensory receptors
are detectors (or senses), which indicate about the physical and chemical
changes in our environment, Psychologists recognize 22 special senses, out of
which 5 are primary senses and perceive stimuli. These senses are sight,
hearing, touch, smell, and taste. Other senses include: temperature, pain, visceral,
hunger, thirst, fatigue, sex (drive) and equilibrium.
In human beings at
least three different senses respond to specific chemical stimuli:taste, smell
and common chemical or pain sense. The sense organs consist of sensory cells or
group of cells, which respond to stimuli and transmit an impulse via the
nervous system to the brain. Human nervous system constitute of chemical senses,
somatic senses and auditory. The type of stimulus, corresponding receptors and
human experience exhibited by these senses is shown in Table
i.
Taste Receptors
The tongue serves
as the major organ of taste. The raised portions on the tongue,known as
papillae, are considered to be sites of taste buds, the receptors of taste.The
tongue is insensitive to taste in the regions where there are no papillae.Gustatory
(taste) sensibility is mainly confined to the tip and edges of the tongue and
absent in middle of the tongue.Four kinds of papillae are found on the human
tongue as shown in Fig. These are Foliate, Circumvallate, Fungi form,
and Filli form.
 |
| BasicTastes are Perceived |
Filli form
papillae, evenly distributed on the anterior 2/3 of the tongue are most numerous
but have no taste buds. Fungi form papillae, large and round and mushroom-like
in appearance are large in number at the tip and sides of the tongue. Foliate
papillae are found on the posterior one third of the tongue, usually in folds
on the sides. These are also not well developed in man and have little function.
The circumvallate papillae present in form of “V-shape” on the back of the
tongue are large and easily visible.
Human taste buds
are located on moist surfaces within the oral cavity and pharynx. A few
non-papillae associated taste buds may also be found in such locations as the
Soft palate, Pharynx and Larynx. These taste buds are simply embedded within
the epithelium of the mucous membrane. The group of epithelium cells, some of
which are supporting cells and other taste cells are innervated (stimulated) by
sensory nerve endings. When a taste bud is exposed to the taste stimulus,strong
taste signals are transmitted by taste nerves into the central nervous system and finally taste
reflexes are integrated into the brain stem directly into superior and inferior
nuclei. Based on transmission of these impulses to the sub maxillary, sublingual
and parotid glands, excretion of saliva is controlled during ingestion of food.
Taste perception: Taste buds differ
somewhat in their response to stimuli. The four basic taste solutions are
perceived by different regions of the tongue (Fig.).
- Sour taste may be noted chiefly along the sides of the tongue
- Saltiness along the sides and tip
- Sweet taste generally at the tip
- Bitter taste perceived at the base of the tongue.
ii.
Odour/ Smell Receptors
The sense of smell
is far more sensitive than the sense of taste. An average person requires relatively concentrated solution to
perceive taste sensation. In contrast an odoriferous substance, e.g. mercaptan
may be diluted to the extent of 0.43 x 10-15 mg/litre
of air and yet be recognized as such by the sense of smell.
The nose equipped
with olfactory nerves, is the special organ of smell. The olfactory receptors
are located mainly in the uppermost region (roof) of the nasal cavity and are
lined with so-called olfactory epithelium, which is yellowish in colour with
pink respiratory epitherial cells around it. The surface of the olfactory epithelium
is coated with a layer of mucous. Embedded in the mucous layer is a mat of fine
hair-like appendages of the olfactory cells called cilica. The cilia are excited
by molecules of odorous substances. The olfactory area, about 2.5 cm size, is
reached chiefly by eddy currents rather than the direct passage of air during
inhalation. The odorous substance must, therefore, be sniffed or whiffed rather
slowly but strongly. The molecules of odorous substances also reach the olfactory
area from the mouth during mastication of the food. Therefore, during the
tasting of dairy products the judge/ evaluator actually is sensing the odour
and taste of the product at the same time. The overall physiological concept of
odour perception is schematically shown in Fig.
 |
| Physiological concept of odour perception |
Odour Perception: In order to
properly perceive the odour of a substance, the following aspects are important
and should be kept in mind.
i) The prospective
odorous substance/chemical must be volatile. The volatility of a substance
depends on its molecular weight and molecular bonding properties.The upper
limit of a ‘smellability’ is usually a molecular weight of about 300, although
a compound of molecular weight, 394 has odour. This means that substances with
heavier molecular weight, such as proteins, fats, starches and sugars are too
heavy to be airborne. The breakdown of these heavy molecular weight compounds
produces low molecular weight substances, which impart desirable and
undesirable flavours in dairy products. The volatility of chemical substances
also increases with the increase in temperature.
ii) The odour-laden
air must reach the olfactory receptors. The substance must, therefore, be
strongly sniffed.
iii) Odorous
substances must be adsorbed or adhered to the chemoreceptors sites in the nose.
To be absorbed, the volatile substance must be soluble to some extent in the
receptor cell membrane, which consists of lipids, proteins and water.
iv) The evaluator
should have normal smelling capacity. People with obstructed nasal passage,
brain lesions or injured olfactory nerve are unable to smell, either partially
or of have a particular substance or group of substances. The situation is
called as “anosmia”.
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.