The earliest sign of pregnancy is a missed menstrual period. For sexually active women who are of reproductive age and have regular periods, a period that is ≥ 1 week late is very likely to be due to pregnancy, although other factors can cause secondary amenorrhea.
Pregnancy is considered to last:
266 days from the time of conception
280 days from the first day of the last menstrual period if periods occur regularly every 28 days
The estimated date of delivery (EDD) is based on the last menstrual period (LMP). One way to calculate the EDD is to subtract 3 months from the LMP and add 7 days (Naegele's rule).
Delivery up to 3 weeks earlier or 2 weeks later than the estimated date is considered normal. Delivery before 37 weeks gestation is considered preterm; delivery after 42 weeks gestation is considered postterm.
Physiology of Pregnancy
Pregnancy causes physiologic changes in all maternal organ systems; most return to normal after delivery. In general, the changes are more dramatic in multifetal than in singleton pregnancies.
Cardiovascular
Cardiac output (CO), determined by heart rate multiplied by stroke volume, increases 30 to 50% beginning by 6 weeks gestation and peaking between 16 and 28 weeks (usually at about 24 weeks). Mild maternal tachycardia is expected. CO remains near peak levels until after 30 weeks. Then, CO becomes sensitive to body position. Positions that cause the enlarging uterus to obstruct the vena cava the most (eg, the recumbent position) cause CO to decrease the most. On average, CO usually decreases slightly from 30 weeks until labor begins. During labor, CO increases another 30%. After delivery, the uterus contracts, and CO drops rapidly to about 15 to 25% above normal, then gradually decreases (mostly over the next 3 to 4 weeks) until it reaches the prepregnancy level at about 6 weeks postpartum.
The increase in CO during pregnancy is due mainly to demands of the uteroplacental circulation; volume of the uteroplacental circulation increases markedly, and circulation within the intervillous space acts partly as an arteriovenous shunt. As the placenta and fetus develop, blood flow to the uterus must increase to about 1 L/minute (20% of normal CO) at term. Increased needs of the skin (to regulate temperature) and kidneys (to excrete fetal wastes) account for some of the increased CO.
To increase CO, heart rate increases from the normal 70 to as high as 90 beats/minute, and stroke volume increases. During the second trimester, blood pressure (BP) usually decreases (and pulse pressure widens), even though CO and renin and angiotensin levels increase, because uteroplacental circulation expands (the placental intervillous space develops) and systemic vascular resistance decreases. Resistance decreases because blood viscosity and sensitivity to angiotensin decrease. During the third trimester, BP may return to normal. With twins, CO increases more and diastolic BP is lower at 20 weeks than with a single fetus.
Exercise increases CO, heart rate, oxygen consumption, and respiratory volume/minute more during pregnancy.
The hyperdynamic circulation of pregnancy increases frequency of functional murmurs and accentuates heart sounds. Radiograph or ECG may show the heart displaced into a horizontal position, rotating to the left, with increased transverse diameter. Premature atrial and ventricular beats are common during pregnancy. All of these changes are normal and should not be erroneously diagnosed as a heart disorder; they can usually be managed with reassurance alone. However, paroxysms of atrial tachycardia occur more frequently in pregnant women and may require prophylactic digitalization or other antiarrhythmic medications. Pregnancy does not affect the indications for or safety of cardioversion.
Hematologic
Total blood volume increases proportionally with cardiac output, but the increase in plasma volume is greater (close to 50%, usually by about 1600 mL for a total of 5200 mL) than that in red blood cell (RBC) mass (about 25%); thus, hemoglobin (Hb) is lowered by dilution, from about 13.3 to 12.1 g/dL. This dilutional anemia decreases blood viscosity. With twins, total maternal blood volume increases more (closer to 60%).
White blood cell count (WBC) increases slightly to between 9,000 and 12,000/mcL. Marked leukocytosis (≥ 20,000/mcL) occurs during labor and the first few days postpartum.
Iron requirements increase by a total of about 1 g during the entire pregnancy and are higher during the second half of pregnancy—6 to 7 mg/day. The fetus and placenta use about 300 mg of iron, and the increased maternal RBC mass requires an additional 500 mg. Excretion accounts for 200 mg. Iron supplements are needed to prevent a further decrease in Hb levels because the amount absorbed from the diet and recruited from iron stores (average total of 300 to 500 mg) is usually insufficient to meet the demands of pregnancy.
Urinary
< 10 mg/dL (<progesterone) and by backup due to pressure from the enlarged uterus on the ureters, which can also cause hydronephrosis. Postpartum, the urinary collecting system may take as long as 12 weeks to return to normal.
Postural changes affect renal function more during pregnancy than at other times; ie, the supine position increases renal function more, and upright positions decrease renal function more. Renal function also markedly increases in the lateral position, particularly when lying on the left side; this position relieves the pressure that the enlarged uterus puts on the great vessels when pregnant women are supine. This positional increase in renal function is one reason pregnant women need to urinate frequently when trying to sleep.
Respiratory
Lung function changes partly because progesterone increases and partly because the enlarging uterus interferes with lung expansion. Progesterone signals the brain to lower carbon dioxide (CO2) levels. To lower CO2 levels, tidal and minute volume and respiratory rate increase, thus increasing plasma pH. Oxygen consumption increases by about 20% to meet the increased metabolic needs of the fetus, placenta, and several maternal organs. Inspiratory and expiratory reserve, residual volume and capacity, and plasma PCO2 decrease. Vital capacity does not change. Thoracic circumference increases by about 10 cm.
Considerable hyperemia and edema of the respiratory tract occur. Occasionally, symptomatic nasopharyngeal obstruction and nasal stuffiness occur, eustachian tubes are transiently blocked, and tone and quality of voice change.
Mild dyspnea during exertion is common, and deep respirations are more frequent.
Gastrointestinal (GI) and hepatobiliary
As pregnancy progresses, pressure from the enlarging uterus on the rectum and lower portion of the colon may cause constipation. GI motility decreases because elevated progesterone levels relax smooth muscle. Heartburn and belching are common, possibly resulting from delayed gastric emptying and gastroesophageal reflux due to relaxation of the lower esophageal sphincter and diaphragmatic hiatus. Hydrochloric acid production decreases; thus, peptic ulcer disease is uncommon during pregnancy, and preexisting ulcers often become less severe.
Incidence of gallbladder disorders increases somewhat. Pregnancy subtly affects hepatic function, especially bile transport. Routine liver function test values are normal, except for alkaline phosphatase levels, which increase progressively during the third trimester and may be 2 to 3 times normal at term; the increase is due to placental production of this enzyme rather than hepatic dysfunction.
Endocrine
Pregnancy alters the function of most endocrine glands, partly because the placenta produces hormones and partly because most hormones circulate in protein-bound forms and protein binding increases during pregnancy.
estrogen and progesterone increase early during pregnancy because beta-hCG stimulates the ovaries to continuously produce them. After 9 to 10 weeks of pregnancy, the placenta itself produces large amounts of estrogen and progesterone to help maintain the pregnancy.
The placenta produces a hormone (similar to thyroid-stimulating hormone) that stimulates the thyroid, causing hyperplasia, increased vascularity, and moderate enlargement. Estrogen stimulates hepatocytes, causing increased thyroid-binding globulin levels; thus, although total thyroxine levels may increase, levels of free thyroid hormones remain normal. Effects of thyroid hormone tend to increase and may resemble hyperthyroidism, with tachycardia, palpitations, excessive perspiration, and emotional instability. However, true hyperthyroidism occurs in only 0.08% of pregnancies.
The placenta produces corticotropin-releasing hormone (CRH), which stimulates maternal adrenocorticotropic hormone (ACTH) production. Increased ACTH levels increase levels of adrenal hormones, especially aldosterone and cortisol, and thus contribute to edema.
Increased production of corticosteroids and increased placental production of progesterone lead to insulin resistance and an increased need for insulin, as does the stress of pregnancy and possibly the increased level of human placental lactogen. Insulinase, produced by the placenta, may also increase insulin requirements, so that many women with gestational diabetes develop more overt forms of diabetes.
The placenta produces melanocyte-stimulating hormone (MSH), which increases skin pigmentation late in pregnancy.
The pituitary gland enlarges by about 135% during pregnancy. The maternal plasma prolactin level increases by 10-fold. Increased prolactin is related to an increase in thyrotropin-releasing hormone production, stimulated by estrogen. The primary function of increased prolactin is to ensure lactation. The level returns to normal postpartum, even in women who breastfeed.
Dermatologic
Increased levels of estrogens, progesterone, and melanocyte-stimulating hormone (MSH) contribute to pigmentary changes, although exact pathogenesis is unknown. These changes include:
Melasma (mask of pregnancy), which is a blotchy, brownish pigment over the forehead and malar eminences
Darkening of the mammary areolae, axilla, and genitals
Linea nigra, a dark line that appears down the midabdomen
Melasma due to pregnancy usually regresses within a year.
Incidence of spider angiomas, usually only above the waist, and of thin-walled, dilated capillaries, especially in the lower legs, increases during pregnancy.
This photo shows brown patches on the cheek of a patient with melasma.
DR P. MARAZZI/SCIENCE PHOTO LIBRARY
A linea nigra is a dark line that appears down the midabdomen during pregnancy.
© Springer Science+Business Media
Spider angiomas (nevus araneus) are small, bright red spots that are surrounded by tiny blood vessels (capillaries), which resemble spider legs. After releasing pressure sufficient to blanch them, they refill from the central area. They are normal in many healthy people. They commonly develop in women who are pregnant or use oral contraceptives and in people who have cirrhosis of the liver.
Image provided by Thomas Habif, MD.