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FISIOLOGI PERTUMBUHAN JANIN DAN FAKTOR YANG MEMPENGARUHI Rahmatina B. Herman Bagian Fisiologi Fakultas Kedokteran Universitas Andalas
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FISIOLOGIPERTUMBUHAN JANIN

DAN FAKTOR YANG MEMPENGARUHI

Rahmatina B. HermanBagian Fisiologi

Fakultas Kedokteran Universitas Andalas

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Fertilization

Definition: the union of male and female gametesCan take place during fertile period in each cycleNormally occurs in ampullaThus, both ovum and sperm must be transported from their site of production to the ampullaDuring first 3-4 days following fertilization, zygote remains within ampulla, because of constriction between ampulla and remainder oviduct canal prevents further movement of zygote into uterusA number mitotic cell divisions of zygote to form morula during in ampulla

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Descent of Morula to Uterus

± 3-4 days after ovulation, progesterone produce is sufficient to relax oviduct contraction morula rapidly propelled into uterus by oviductal peristaltic and ciliary activity

Temporary delay of descending embryo into uterus, lets enough nutrients accumulate in uterine lumen to support embryo until implantation can take place

Morula will die, if it arrives prematurely

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……Descent of Morula to Uterus

Morula floats freely within uterine cavity for 3-4 days, living on endometrial:- secretions and continuing to divide - being prepared for implantation under

influence of luteal-phase progesterone - storing up glycogen- becoming richly vascularized

Morula which fails to descend into uterus will lead to ectopic tubal pregnancy (95% of ectopic pregnancy)

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Implantation

± 1 week after ovulation, morula has descended into uterus and continued to proliferate and differentiate into blastocyst which capable to implantation

Blastocyst is consisted of 2 parts: inner cell mass (which become fetus) and trophoblast (outermost layer of blastocyst)

Trophoblast accomplish implantation, after which develops into fetal portion of placenta

When blastocyst is ready to implant, its surface becomes sticky, by the time endometrium is ready to accept the early embryo

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Formation of Placenta and Amniotic Sac

By day 12: - embryo is completely embedded in decidua- trophoblastic layer (2 cell layers) thick chorion

Chorion continues to release enzymes and expand - forms extensive network of cavities within decidua- erodes decidual capillary walls maternal blood

leaks and fills the cavities- produces anticoagulant to keep blood clotting

Developing embryo sends out capillaries into chorionic projections to form placental villi

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Each placental villus contains embryonic/ fetal capillaries surrounded by a thin layer of chorionic tissue, which separates the embryonic/fetal blood from maternal blood in intervillus spaces barrier

All exchanges between fetal and maternal bloodstreams take place across the extremely thin barrier

…..Formation of Placenta and Amniotic Sac

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Entire system of interlocking maternal (decidual) and fetal (chorionic) structures makes up the placenta

By 5 weeks after implantation: - Placenta is well established and operational (even though not fully developed)- Heart of developing embryo is pumping blood into placental villi as well as to embryonic tissues

…..Formation of Placenta and Amniotic Sac

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Placenta

Specialized organ of exchange between maternal and fetal blood

Derived from: - trophoblastic tissue, and

- decidual tissue

Function: to sustain the growing embryo / fetus during intrauterine life

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Functions of Placenta

Transport system between maternal blood and fetal blood:- Nutrition & O2 and metabolic wastes & CO2- Drugs, pollutants, cigarette smokes, chemical agents, microorganisms harmful (thalidomide, AIDS, drug abuse)

Temporary endocrine organ:Fetally derived portion has remarkable capacity to secrete peptide and streoid hormones for maintaining pregnancy

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Placental HormonesHORMONES FUNCTION

1. Human chorionic gonadotropin (hCG)

- Maintains CL of pregnancy- Stimulates secretion of testosterone by

developing testes in XY embryo

2. Estrogen - Stimulates growth of myometrium, increasing uterine strength for parturition

- Helps prepare mammary glands for lactation

3. Progesterone - Suppresses uterine contraction to provide a quiet environment for fetus

- Promotes formation of cervical mucus plug to prevent uterine contamination

- Helps prepare mammary glands for lactation

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…..Placental Hormones

HORMONES FUNCTION4. Human Chorionic

Somatomammo tropin (hCS) similar to GH and prolactin

- Believed to reduce maternal use of glucose and to promote breakdown of stored fat so that greater quantities of glucose and free fatty acids may be shunted to fetus

- Helps prepare mammary glands for lactation

5. Relaxin - Soften cervix in preparation cervical dilation at parturition

- Loosens connective tissue between pelvic bones in preparation for parturition

3. Placental PTHrp (Parathyroid Hormone-related peptide)

- Increases maternal plasma Ca2+ level for use in calcifying fetal bones, if necessary promotes localized dissolution of maternal bones, mobilizing their Ca2+ stores for use by developing fetus

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Preventing Rejection of Embryo

Theory I:• Trophoblast produce Fas ligand which binds with

Fas, a specialized receptor on surface of approaching activated maternal cytotoxic T cells (immune cells that carry out the job of destroying foreign cells)

• The binding triggers immune cells that are targeted to destroy the developing foreigner to undergo apoptosis, sparing embryo/fetus from immune rejection

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…..Preventing Rejection of Embryo

Theory II:• Fetal portion of placenta which derived from

trophoblast produce enzyme indoleamine 2,3-dioxygenase (IDO) which destroy tryptophan (critical factor in activation of maternal cytotoxic T cells)

Theory III:• In pregnancy production of regulatory T cells is

doubled or tripled which suppress maternal cytotoxic T cells

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Growth and Functional Development of Fetus

Initial development of placenta and fetal membranes occurs far more rapidly than development of fetus

2-3 weeks after implantation of blastocyst, the fetus remains almost microscopic in size

But thereafter the length of fetus increases in proportion to age:- At 12 weeks : 10 cm- At 20 weeks : 25 cm- At 40 weeks (at term) : 53 cm

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Development of Organ Systems

Gross characteristics of different organs: - Within 1 month after fertilization begun to develop- During the next 2-3 months, most of details are established- Beyond the 4th month: mainly the same as those of the

neonate

Cellular development in each organ is usually far from complete: - Requires the full remaining 5 months for complete

development- Even at birth certain structures (nervous system, kidneys, and liver) lack full development

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Circulatory System

Heart: Begins beating during the 4th week after fertilization ± 65 bpm and increases to ± 140 bpm before birth

Blood cells:- During the midportion of fetal life:

Extra marrow areas are the major sources of blood cells- During the latter 3 months of fetal life:

Bone marrow gradually take over, while other areas lose their ability, except for lymphocytes and plasma cells produce in lymphoid tissue

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Respiratory System

Respiration cannot occur during fetal life

At the end of 1st trimester of pregnancy: respiratory movements caused by tactile stimuli or fetal asphyxia

During the latter 3-4 months of pregnancy for unclearly reasons:- Respiratory movements are inhibited - Lungs remain almost completely deflated- It prevents filling of lungs with debris from meconium- Fluid is secreted into the lungs by alveolar epithelium

up until birth → keeping only clean fluid in the lungs

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Nervous System

Most of skin reflexes are present by 3rd – 4th month of pregnancy

However, functions of central nervous system that involve cerebral cortex are still mainly undeveloped, even at birth

Myelinization of some major tracts of central nervous system becomes complete only after ± 1 year of postnatal life

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Gastrointestinal Tract

By midpregnancy: fetus ingests and absorbs large quantities of amniotic fluidDuring the last 2-3 months: gastrointestinal function approaches that of normal neonateSmall quantities of meconium are continually formed in gastrointestinal tract and excreted from bowel into amniotic fluidMeconium is composed of: - Residue from amniotic fluid- Excretory products from gastrointestinal mucosa and

glands

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The Kidneys

Fetal kidneys are capable of excreting urine during at least the latter half of pregnancy and urination occurs normally in utero

However, renal control systems for regulating:- Extracellular fluid electrolytes balances

- Acid-base balanceare almost nonexistent until after midfetal life and do not reach full development until a few months after birth

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Fetal Metabolism

Fetal uses mainly glucose for energy

Fetal has a high rate of storage of fat and protein

Most of fat being synthesized from glucose, rather than being absorbed from mother’s blood

Some special problems of fetal metabolism in relation to:- Calcium and phosphate- Iron- Some vitamins

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Metabolism of Calcium and Phosphate

± 22.5 gr of calcium and 13.5 gr of phosphorus are accumulated during gestation:

± ½ of it accumulates during the last 4 weeks of gestation which is coincident with the period of rapid ossification of fetal bones as well as rapid weight gainDuring the earlier part of fetal life, fetal bones are relatively unossified and have mainly cartilagous matrix until ± 4th month of pregnancyTotal amount of calcium and phosphate needed during gestation represent only ± 1/50 quantities of these substances in mother’s bone → minimal drain from motherA much greater drain occurs after birth during lactation

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Metabolism of Iron

Iron accumulates in fetus more rapidly than calcium and phosphates

Most of iron is in the form of Hb, which begin to be formed at 3rd week after fertilization

Small amounts of iron are concentrated in mother’s uterine progestational endometrium even before implantation, which then ingested into embryo by trophoblastic cells for early formation of RBC

± 1/3 of iron in a fully developed fetus is stored in liver that can be used for several months after birth

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Metabolism of Vitamins

Fetus needs vitamins equally as much as adult and in some instances to a far greater extentVitamins function the same in fetus as in adult:- Vit B: especially B12 and folic acid for formation of

RBC and nervous tissue as well as for overall growth- Vit C: for appropriate formation of intercellular substances, especially bone matrix and fibers of connective tissue- Vit D: probably for normal bone growth in fetus

But more important for adequate absorption of calcium from mother’s gastrointestinal tract → large quantities will be stored by fetal liver to be used for several months after birth

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…..Metabolism of Vitamins

- Vit E: necessary for normal development of early embryo although the mechanisms are not clear

In its absence in laboratory animals: spontaneous abortion usually occurs at an early age

- Vit K: for formation of Factor VII, pro-thrombin, and several other blood coagulation factors

When vit K is insufficient in mother: Factor VII and pro-thrombin become deficient in fetus as well as in mother

Because most vit K is formed by bacterial action in colon, neonate has no adequate source of vit K → prenatal storage in fetal liver derived from mother is helpful in preventing hemorrhage, particularly when head is traumatized by squeezing through birth canal

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Thank You