Tape worm :Taenia solium
Order: Taenioidea
Genus: Taenia
Species: solium
Taenia is a digenetic parasite. Man is the
primary or definitive host, the secondary host for T.solium is pig. The body is
elongated, dorso-ventrally flattened and ribbon-like. It is also called
tapeworm as the shape of the body is like a tape. The size of adult worm varies
from 3-5 metres i.e., 9-16 feet, but few are recorded to attain a length of
about 8 metres. The body is opaque white but may be grey, yellow or creamy. The
body of Taenia is modified for parasitic mode of life.
It is distinguished into three parts:
1. Head and scolex
2. Neck
3. Body or strobila.
1. Head or scolex:
The scolex is the anterior-
most knob like part of the size of pin head. It is a four- sided, pear-shaped
structure distinguished into two parts-
(i) Rostellar part
Rostellum is the proximal
conical part bearing at its base two rows of curved and pointed chitinous
hooks. These are about 28 in number and of two different sizes and the smaller
hoods alternate with the larger ones. The rostellum is slightly retractile.
(ii) Distal four-sided
part:
It lies posterior to the
rostellum and possesses four cup-shaped suckers. One of them is dorsal, one
ventral and two are lateral.
2. Neck:
The scolex is followed by a
narrow un-segmented neck region. New segments are budded off from this region
by budding. Hence it is also known as the region of proliferation or area of
segmentation
3. Strobila:
The rest of the body is
known as strobila. It is composed of linear series of 800 to 1,000 sets of
reproductive organs or genitalia, each set being contained in a segment. This
linear repetition of genital organs is termed as proglottisation and each segment
is known as proglottid. Since the segments are budded off from the neck region
in an orderly succession, the youngest segments are towards the neck and the
oldest segments are posterior most.
Reproductive System:
The taenia solium is hermaphrodite animal in which bothe the sex organs are present in one and same individual. The reproductive organs are segmentally repeated
and each segment carries a complete set of male and female reproductive organs.
A. Male Reproductive Organs:
The male reproductive organs are:
1. Testes
2. Vasa efferentia
3. Vas deferens
4. Cirrus and cirrus sac
The male reproductive organs are:
1. Testes
2. Vasa efferentia
3. Vas deferens
4. Cirrus and cirrus sac
1. Testes:
The testes are numerous minute round bodies scattered throughout the dorsal part of the proglottid. The number of testes varies from 15 to 200.
2. Vasa efferentia:
These are numerous minute ducts which arise from testes and collectively open into the vas deferens.
3. Vas deferens:
It is a long coiled tube which arises from the middle of the segment and runs transversely either to the left or right to open into the genital atrium.
4. Cirrus and cirrus sac:
The distal end of vas deferens is modified into a protrusible cirrus which is surrounded by a muscular pouch, the cirrus sac. The cirrus is beset with spines, bristles, or hooks and opens into the genital atrium through male genital pore.
The testes are numerous minute round bodies scattered throughout the dorsal part of the proglottid. The number of testes varies from 15 to 200.
2. Vasa efferentia:
These are numerous minute ducts which arise from testes and collectively open into the vas deferens.
3. Vas deferens:
It is a long coiled tube which arises from the middle of the segment and runs transversely either to the left or right to open into the genital atrium.
4. Cirrus and cirrus sac:
The distal end of vas deferens is modified into a protrusible cirrus which is surrounded by a muscular pouch, the cirrus sac. The cirrus is beset with spines, bristles, or hooks and opens into the genital atrium through male genital pore.
B. Female Reproductive Organs:
1. Ovaries
2. Oviducts
3. Ootype
4. Vagina
5. Uterus
6. Vitelline gland
7. Mehlis glands.
1. Ovaries
2. Oviducts
3. Ootype
4. Vagina
5. Uterus
6. Vitelline gland
7. Mehlis glands.
1. Ovaries:
There are two ovaries situated in the medulla towards the posterior end. These are dorsoventrally flattened, highly branched and connected together by a transverse bridge.
2. Oviduct:
The oviduct arises from the middle of the bridge. It is a short and wide duct and opens into the ootype.
3. Ootype:
It is a small rounded chamber developed at the junction of oviduct with the vitelline duct. It is surrounded by numerous unicellular shell glands or Mehlis glands.
4. Uterus:
A blind sac-like or tube -like uterus arises from the ootype and runs forward in the segment. In gravid proglottids the uterus enlarges and gets branched to occupy the whole of the proglottid. It remains filled with the fertilized ova or developing embryos.
5. Vagina:
It is the narrow tubular part. It opens into the genital chamber by female reproductive opening. The seminal receptacle is a small wide tube connected on one hand with the ootype by a narrow spermatic duct and on the other with vagina.
6. Vitelline gland:
The vitelline gland is a compact, elliptical mass of numerous follicles situated posterior to the ovaries. The secretion of the vitelline duct is rich in yolk and forms a covering to yolk around the fertilized egg.
7. Shell gland or Mehlis glands:
These are numerous minute unicellular glands situated at the ootype.
There are two ovaries situated in the medulla towards the posterior end. These are dorsoventrally flattened, highly branched and connected together by a transverse bridge.
2. Oviduct:
The oviduct arises from the middle of the bridge. It is a short and wide duct and opens into the ootype.
3. Ootype:
It is a small rounded chamber developed at the junction of oviduct with the vitelline duct. It is surrounded by numerous unicellular shell glands or Mehlis glands.
4. Uterus:
A blind sac-like or tube -like uterus arises from the ootype and runs forward in the segment. In gravid proglottids the uterus enlarges and gets branched to occupy the whole of the proglottid. It remains filled with the fertilized ova or developing embryos.
5. Vagina:
It is the narrow tubular part. It opens into the genital chamber by female reproductive opening. The seminal receptacle is a small wide tube connected on one hand with the ootype by a narrow spermatic duct and on the other with vagina.
6. Vitelline gland:
The vitelline gland is a compact, elliptical mass of numerous follicles situated posterior to the ovaries. The secretion of the vitelline duct is rich in yolk and forms a covering to yolk around the fertilized egg.
7. Shell gland or Mehlis glands:
These are numerous minute unicellular glands situated at the ootype.
The vitelline gland is a
compact, elliptical mass of numerous follicles situated posterior to the
ovaries. The secretion of the vitelline duct is rich in yolk and forms a
covering to yolk around the fertilized egg.
7. Shell gland or Mehlis
glands:
These are numerous minute
unicellular glands situated at the ootype.
Life- History:
The life-history of taenia is is complicated
into two host i.e. digenetic. The primary host is man and the
secondary host is pig.
1. Fertilization:
In T. solium Self-fertilization is occurs. The cirrus of the segment is inserted into the vagina of the same
segment or some time nearby segment. The sperms received are stored in the seminal receptacle. The eggs are
fertilized in the oviduct and get surrounded with yolk and egg-shell in the
ootype. The capsulated egg enters the uterus and is collected there. The uterus
enlarges in size, gets branched and occupies the whole space. The eggs are very
small in size measuring about 40 microns in diameter. These contain a large
amount of yolk and each is surrounded by an egg-shell or egg-capsule.
.
2. Cleavage:
The division in the eggs start,
within the uterus. The first cleavage is unequal so that
a large vitelline cell and a small embryonic cell is formed. The embryonic cell
undergone repeated divisions and a solid ball of cells, the morula is formed.
The divisions are unequal so the morula consists of a few larger cells, the
macromeres forming an outer or peripheral layer and inner mass of small cells
or micromeres.
3. Hexacanth larva:
The micromeres develop into a
hexacanth or onchosphere larva.
4. Infection to secondary host:
The development of egg up to
the formation of onchosphere takes place inside the uterus of gravid
proglottid. The further development is not possible inside the host body. The
gravid proglottids detach from the body of the parasite and come out along with
the host faeces. These infect the secondary host when pig feeds upon the
contaminated faeces.
5. Cysticerus or hydatid larva
or bladderworm stage:
The numerous hexacanths are set
free in the stomach of pig , where the embryonic membranes of onchospheres is dissolved. It penetrate through the intestinal wall with the help of hooks and enter
the blood stream or lymph vessels. Then travelling through blood circulation through heartand enter
the muscles of various parts in the body. The usual site where the hexacanths
gey encysted is the voluntary muscles of tongue, heart, liver and shoulder etc.
6. Infection of final host:
Further development of the bladder worm takes place
only inside the definitive host i.e. man. Infection of man occurs when immproperly
cooked pork infected with bladderworms is eaten. The cysticerci become active
in the intestine. The scolex takes a firm hold or grip of intestinal wall of the host.
The bladder is thrown off and the neck starts budding off segments an adult
tapeworm is formed 
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