Abnormal Uterine Bleeding
The average age of menarche in the United States is 12.8 years, which is approximately two years after breast budding and consistent with the Tanner IV stage of pubertal development. The normal interval between periods ranges from 21 to 35 days, with 3–7 days of bleeding. With normal menstrual flow, a girl uses 3–6 tampons or pads a day, and the average blood loss is 30–60 mL. Menstrual blood loss of >80 mL is abnormal and can lead to lower hemoglobin, hematocrit, and serum iron levels.
Abnormal uterine bleeding (AUB) is irregular, painless bleeding of endometrial origin. Most cases are secondary to anovulation, which is common during the first 2–3 years after menarche, although up to 20% may have anovulatory bleeding 4–5 years after menarche. The etiologies of abnormal vaginal bleeding are listed in Table 11.1.
| Bleeding disorders |
| Factor deficiencies |
| ITP |
| Platelet dysfunction |
| von Willebrand disease |
| Chronic illness |
| Chronic renal disease |
| Inflammatory bowel disease |
| Liver disease |
| Complications of pregnancy |
| Ectopic pregnancy |
| Implantation bleeding |
| Molar pregnancy |
| Spontaneous abortion |
| S/P termination of pregnancy |
| Endocrine disorders |
| Adrenal disorders |
| Pituitary adenoma |
| Polycystic ovarian syndrome |
| Thyroid disease |
| Medications and devices |
| Aspirin |
| Chemotherapy |
| Depo-medroxyprogesterone |
| Implantable contraception |
| IUD |
| Oral, ring, and patch contraceptives |
| Prednisone |
| Warfarin |
| Other gynecological |
| First intercourse |
| Sexual assault |
| Vaginal trauma |
| Sexually transmitted infections |
| Acute salpingitis |
| Cervicitis |
| Endometritis |
Clinical Presentation
A typical pattern of AUB is prolonged or excessive flow alternating with periods of oligomenorrhea or amenorrhea. Pain, fever, chills, abdominal pain, and vaginal discharge are absent. Below are the definitions of the three clinical stages of AUB. Management is dependent on the severity of vaginal bleeding.
Mild AUB
With mild AUB the menses may be somewhat prolonged or the cycle shortened for 2–3 months. The hemoglobin and hematocrit are normal, >11 g/dL and >35%, respectively.
Moderate AUB
Moderate AUB is characterized by prolonged periods and an increased flow severe enough to cause a decrease in hemoglobin and hematocrit to 9–11 g/dL and 25–35%, respectively.
Severe AUB
Severe AUB results in significant decreases in the hemoglobin and hematocrit, to <9 g/dL and <25%, respectively. Clinical signs of acute blood loss (tachycardia, orthostatic vital sign changes, delayed capillary refill) with a hemoglobin <11 g/dL is also consistent with severe AUB.
Diagnosis
Abnormal uterine bleeding is a diagnosis of exclusion. Inquire about the age of menarche, date of last normal menstrual period, length of last menstrual period, frequency and regularity of menses, typical length of flow, the number of pads or tampons used, and when the period before the last menstrual period was and whether it was normal. Ask about other bleeding manifestations such as nosebleeds or easy bruisability, epistaxis, bleeding gums, hematuria, and, rarely, hematochezia. Ask about sexual activity (including genital trauma, history of pregnancy, history of sexually transmitted infections), foreign bodies (tampon use, self-insertion), contraceptive history (particularly oral contraceptives, depo-medroxyprogesterone acetate, intrauterine device [IUD], contraceptive patch, ring, or implant), medications used (aspirin, coumadin, antipsychotics, antidepressants, steroids), endocrine disorders (specifically symptoms related to thyroid disease, pituitary adenoma, or androgenizing symptoms such as acne or hirsutism, which may be associated with polycystic ovary syndrome), emotional stress, eating habits (including pica) and chronic illnesses.
Pregnancy (pp. 325–330) is suggested by a history of amenorrhea, but a positive serum βhCG confirms the diagnosis. Breast tenderness and an enlarged uterus may be noted. Salpingitis (p. 331) may present with a vaginal discharge, lower abdominal pain, fever, chills, cervical motion tenderness, and/or adnexal tenderness.
On physical examination, the priorities are the vital signs, manifestations of a bleeding diathesis, and the gynecologic examination. Check for orthostatic hypotension, bradycardia (hypothyroidism), tachycardia (hyperthyroidism, significant blood loss), delayed capillary refill (shock), petechiae or ecchymoses (bleeding diathesis), or evidence of a chronic illness such as cachexia or swollen joints.
Inspect the external genitalia to look for signs of trauma or bleeding sources. If the patient is sexually active, perform a speculum exam looking for evidence of trauma or infection (cervical discharge; cervical or intravaginal warts or herpes). Also perform a bimanual examination to check the cervix for tenderness on motion (salpingitis). Palpate the uterus to determine size and tenderness, and examine the adnexae for masses and tenderness. If the patient is not sexually active, but has abdominal pain, perform a recto-abdominal examination assessing for a pelvic mass. Obtain a pelvic ultrasound if the patient is pregnant, or there is abdominal or pelvic pain, suspicion of a tubo-ovarian abscess, or suspicion of an abdominal or pelvic mass or one is palpated.
ED Management
The management of AUB is almost exclusively based on the level of anemia caused by the vaginal bleeding. The goal of the work-up is to exclude other causes of bleeding that may require different ED management.
For all patients, obtain a CBC with platelet count, thyroid function tests (TSH and free T4), pregnancy test, and clotting studies (PT, PTT). If the patient is sexually active, also obtain a gonorrhea and chlamydia test, rapid plasma reagin (RPR), and a quantitative pregnancy test if the urine pregnancy test is positive. A type and cross-match is indicated for moderate, severe, or prolonged bleeding or orthostasis. Severe bleeding at menarche warrants testing for von Willebrand disease (von Willebrand factor [VWF] antigen, VWF activity and factor VIII activity), which may not manifest until that time. If the patient has signs of hyperandrogenism or is obese, or polycystic ovary syndrome is suspected, obtain a free and total testosterone, DHEAS, androstenedione, and sex hormone binding globulin, as once a girl begins hormonal treatment these parameters cannot be accurately assessed. If a pelvic mass is appreciated or ectopic pregnancy suspected, obtain an ultrasound.
Mild AUB
Observation and reassurance are all that are needed. Advise the patient to keep a menstrual calendar. Iron supplementation (325 mg/day of ferrous gluconate or multivitamin with iron) may be necessary, but the majority of these patients spontaneously convert to normal menstrual cycles within several months.
Moderate AUB
Treat with a monophasic combined oral contraceptive pill (COCP) with 30–35 mcg estrogen/varying progesterone (e.g., Sprintec, Ortho-Novum1/35, Lo-Ovral) if there is no contraindication to estrogen. These include migraine with aura, untreated hypertension, known clotting risk (e.g., antiphospholipid antibody), untreated hyperlipidemia, cardiovascular disease, history of a stroke or deep vein thrombosis, active liver disease, pregnancy, and breast cancer. If a first-degree relative has a clotting disorder, it is prudent to have the patient tested for hereditary hypercoagulable states such as Antithrombin III deficiency and Protein C and Protein S deficiency before prescribing an estrogen-containing OCP.
Always prescribe the 21-day pill pack, as taking the placebos of the 28-day pack will cause a withdrawal bleed. Give two pills per day until the follow-up visit with adolescent medicine or gynecology in one week. If the bleeding does not stop or slow significantly in two days, advise the patient to contact adolescent medicine or gynecology. Once the bleeding completely stops, the patient may be transitioned to one pill per day. Give the patient and parent/guardian detailed written instructions, as this regimen is complicated, and if not followed exactly may result in breakthrough bleeding. Also prescribe an oral antiemetic, such as prochlorperazine (10 mg q 6–8h 40 mg/day maximum) or ondansetron (15–30 kg: 4 mg bid; >30 kg: 8 mg bid).
If the patient has a contraindication to estrogen, prescribe medroxyprogesterone acetate (Provera) 10 mg PO daily, and give the first dose in the ED. Arrange follow-up with adolescent medicine or gynecology within one week. Eventually, these patients may be prescribed a progestin-only pill (depot-medroxyprogesterone acetate) or a long-acting reversible progestin-only contraceptive (IUD or implant).
When the patient is at the point of taking one OCP per day, add ferrous gluconate (325 mg tid) to treat the associated anemia. Starting the iron while the patient is taking more than one OCP per day may exacerbate the gastrointestinal side effects. At the follow-up visit, obtain a hemoglobin, and if it is >12 g/dL, allow a withdrawal bleed. A week after stopping the COCP, begin a new 28-day pill pack and cycle the patient for six months, or institute the progestin-only method outlined above for six months.
Severe AUB
The priority is restoration of adequate perfusion (see Shock, pp. 28–35) with 20 mL/kg boluses of isotonic crystalloid (normal saline or Ringer’s lactate). A packed RBC transfusion (10 mL/kg) is indicated if the patient is symptomatic (tachycardia, dizziness), either at rest or standing, or remains orthostatic after the boluses. To stop the bleeding immediately, begin monophasic COCP (35 mcg estrogen) qid, if there are no estrogen contraindications. If the patient is bleeding profusely or is in shock, give a conjugated estrogen (Premarin), 25 mg IV over 20 minutes q 4–6h. This is usually effective after the first or second dose, but a maximum of four doses may be given. An antiemetic may be needed (as above). If the bleeding does not subside or increases after the third dose of Premarin, or the vital signs continue to deteriorate, consult a gynecologist to determine whether a dilation and curettage is indicated. Continue treatment with monophasic COCP as outlined for moderate AUB above. If the patient has a contraindication to estrogen, begin medroxyprogesterone acetate (Provera) 10 mg PO and tranexamic acid 1300 mg PO q 8h, and give the first dose immediately. Consult adolescent medicine and, if a bleeding diathesis exists, hematology/oncology.
Follow-up
Mild AUB: routine primary care follow-up. Have the patient maintain a menstrual diary. Advise her to call her primary care provider if bleeding continues for another week.
Moderate AUB: Refer the patient to an adolescent medicine specialist or gynecologist for follow-up within a week, but sooner (within 2–3 days) if the bleeding does not stop
Indication for Admission
Bibliography
Breast Disorders
Common breast disorders include neonatal hypertrophy, premature thelarche (either alone or with precocious puberty), breast masses, breast abscesses, and gynecomastia.
Clinical Presentation
Neonatal Breast Hypertrophy
Neonatal breast hypertrophy occurs in up to two-thirds of normal newborns of both genders. It results from maternal hormonal stimulation, and presents as palpable breast tissue, present from birth, in an otherwise healthy infant. Occasionally, in female infants, there is also galactorrhea, clitoral hypertrophy, and a bloody vaginal discharge, also resulting from the effect of maternal hormones. Most cases resolve within a month, although breast hypertrophy may persist for several months.
Premature Thelarche
The mean onset of breast development in the United States is approximately ten years for white girls and nine years for African-American girls. Premature thelarche is defined as breast enlargement, in the absence of other signs of puberty, before seven years of age in white girls and six years of age in African-American girls. At times it is the result of neonatal breast hypertrophy failing to regress. Bilateral breast buds (2–4 cm) are present with no associated nipple or areolar change, nipple discharge, axillary or pubic hair, clitoral enlargement, acne, or growth spurt. The presence of any of these other findings suggests more significant pathology, including true precocious puberty, CNS disorders, ovarian tumors, and exogenous estrogens.
Breast Masses
Breast masses are a common source of fear and anxiety in the adolescent female, but most cases are benign, secondary to fibrocystic changes or physiologic breast tissue. While adolescents typically have dense breast tissue at baseline, fibrocystic changes can ensue, appearing as cord-like thickening that may present as “lumps.” These “lumps” may become tender and enlarged prior to menses each month.
The most common discrete masses in adolescents are fibroadenomas. These are benign lesions that present as firm, rubbery, mobile masses with clearly defined borders. Other common benign findings include simple cysts, capillary hemangiomas, and fat necrosis.
Cystosarcoma phyllodes is a rare primary tumor that is usually, but not always, benign. The tumor is generally large (about 6 cm), and there may be overlying skin changes (tautness, retraction, necrosis). Invasive breast cancer (adenocarcinoma) is exceedingly rare in children and adolescents. A positive family history of breast cancer and prior radiation treatment are risk factors. The most common malignant breast masses in adolescents are metastases from other primary cancers, such as rhabdomyosarcoma, lymphoma, neuroblastoma, and melanoma.
Mastitis and Breast Abscesses
Mastitis (inflammation of the breast) and breast abscesses (a local accumulation of pus in the breast) are infections that can occur in newborns as well as adolescent females. Staphylococcus aureus is the most common pathogen in both age groups. In adolescents, abscesses are most frequent during lactation, while in non-lactating teenagers the etiology is unclear, but may be due to duct ectasia or metaplasia of the duct epithelium. Trauma or manipulation of the skin can also lead to infection. The abscess presents on the skin adjacent to the areola as a warm, erythematous, tender mass, which may be fluctuant. The patient may be febrile.
Gynecomastia
Nearly 50% of adolescent males undergo benign, usually bilateral, increase in the glandular and stromal tissue of the breast, generally at Tanner stages II–III. It results from an increase in estrogen that is usually part of normal adolescent development.
Gynecomastia resolves within 1–2 years. Persistence beyond adolescence may be pathologic, secondary to disorders that cause increased estrogen, decreased androgen, or abnormality at the receptors for estrogen or androgen. These include testicular, adrenal, or other hCG-producing tumors. Hypogonadotropic hypogonadism, androgen insensitivity, hyperthyroidism, hyperprolactinemia, liver disease, kidney disease, or obesity can also cause gynecomastia. Drug use, either medical (spironolactone, cimetidine, digoxin), or recreational (marijuana) are other etiologies.
Diagnosis
Neonatal Breast Hypertrophy
A history and physical examination, including a genital exam to assess for other signs of maternal estrogenization, are all that is required.
Premature Thelarche
A complete physical examination must be performed to rule-out true precocious puberty. Premature thelarche is the diagnosis if no other pubertal changes are present. Note the presence of secondary sexual characteristics, such as pubic hair, estrogenized vaginal mucosa, and clitoral enlargement. The presence of any of these findings is indicative of precocious puberty, not isolated premature thelarche.
Breast Masses
A breast examination is usually sufficient to diagnose fibrocystic changes and to distinguish an abscess from a true breast mass. If a cyst is suspected, schedule the patient to be reexamined after her next menstrual period, as the lesion will often disappear. If a discrete lesion persists, arrange for an ultrasound, which is the imaging modality of choice for evaluating breast masses in adolescents.
Mastitis and Breast Abscess
The diagnosis of mastitis is usually evident on inspection of the warm, tender, erythematous breast bud. An adolescent may have a history of a recent pregnancy and may or may not be lactating. A neonate may be febrile, although associated symptoms in infant mastitis are uncommon. If the area is fluctuant, presume the child has an associated abscess and arrange for aspiration. This can help confirm the diagnosis and provide a specimen for culture.
Gynecomastia
Gynecomastia can be differentiated from adipose tissue in that gynecomastia presents with a firm, rubbery, discrete mass that is usually <3 cm in diameter. The breast tissue is symmetrically located under the nipple/areolar complex. Although the subareolar nodule may extend beyond the margin of the areola, an asymmetric mass in relation to the areola is not consistent with benign gynecomastia.
In addition, examine the abdomen to evaluate for an adrenal tumor and the testicles to assess testicular volume (or presence of atrophy) and to palpate any masses.
ED Management
Neonatal Breast Hypertrophy
Reassurance, cool compresses, and avoidance of breast massaging are all that is necessary. Refer the infant to a primary care provider.
Premature Thelarche/Precocious Puberty
If there are no other signs of puberty, reassure the patient and family that the condition is not serious and refer the patient to a primary care physician for routine follow-up. If other signs of puberty are present, arrange for a pediatric endocrinology visit within one week.
Breast Masses
Reassurance is all that is needed for a patient with either physiologic or fibrocystic changes. If a cyst is palpated, arrange for follow-up with the patient’s primary doctor after her period. If the lesion persists, or if there is a more concerning finding on examination, obtain an ultrasound and refer to either an adolescent medicine specialist or a surgeon.
Mastitis and Breast Abscesses
Infants <4 weeks old, or 4–8 weeks of age with either fever >100.6 °F (38.1 °C) or a “toxic” appearance, require a complete sepsis evaluation, hospitalization, and IV antibiotics (pp. 391–392). If a patient 4–8 weeks of age is afebrile and nontoxic, obtain a blood culture and admit for IV antibiotics.
Treat a patient >8 weeks of age with IV nafcillin (150 mg/kg/day div q 6h), oxacillin (100–200 mg/kg/day div q 6h; 12 g/day maximum), or cefazolin (100 mg/kg/day div q 6–8h; 6 g/day maximum). If MRSA is a concern or there is a life-threatening penicillin allergy, use IV vancomycin (8 weeks to 11 years of age: 10–15 mg/kg div q 6–8h; 1 g/dose maximum; ≥12 years of age: 10–15 mg/kg q 12h or 1 g IV q 12h) or IV clindamycin (40 mg/kg/day q 6h) for 7–10 days. Supportive care with warm packs and elevation of the breast are important adjuncts. If the patient has an abscess, prior to instituting antibiotic therapy arrange for a needle aspiration by an experienced pediatric or breast surgeon and send a specimen for culture to guide further therapy.
Treat afebrile, well-appearing, older children and adolescents with mastitis with cephalexin (40 mg/kg/day div q 6h or q 12h, respectively) for 7–10 days. If MRSA is a concern, either use clindamycin (20 mg/kg/day q 6h) or add trimethoprim-sulfamethoxazole (8 mg/kg/day of trimethoprim div bid). Warm compresses 4–6 times daily are an important adjunctive measure. Follow-up within 24 hours; if the mass enlarges or becomes fluctuant, or if the patient becomes febrile, admit her for intravenous antibiotics and possible incision and drainage (if an abscess has developed).
Gynecomastia
If the patient has findings consistent with pubertal gynecomastia (duration <2 years, Tanner stages II–III), no laboratory work-up is indicated. If there is concern that this is not benign gynecomastia, or if it has persisted for more than two years, obtain a urinalysis, electrolytes, BUN/creatinine, liver function tests, serum testosterone, estradiol, LH, and hCG, and refer the patient to their primary care provider.
Follow-up
Breast abscess or mastitis in the older child: follow-up with primary care provider in 24 hours
Breast mass: follow-up with adolescent medicine or surgery
Premature thelarche, asymmetry or gynecomastia: follow-up with primary care provider
Precocious puberty (premature thelarche associated with other secondary sexual characteristics): pediatric endocrinologist within one week
Indications for Admission
Mastitis and breast abscess in the neonate and infant
Breast abscess in the older child who has fever or is ill-appearing
Bibliography
Dysmenorrhea
Dysmenorrhea (painful menstruation) is very common in teenagers and may be a response to elevated levels of prostaglandin. The majority of cases are classified as primary dysmenorrhea, which generally do not present at menarche and are not associated with significant pelvic pathology. In secondary dysmenorrhea there is pelvic pathology, most often salpingitis, endometriosis, or genital tract obstruction secondary to a congenital malformation of the uterus or vagina.
Clinical Presentation
Primary Dysmenorrhea
Primary dysmenorrhea usually presents within 6–12 months of menarche. Typically, colicky suprapubic pain begins several hours before or after the start of a period. The pain may radiate to the back or down the thighs. In 50% of patients there may be nausea, vomiting, diarrhea, and migraine headaches. The symptoms can last from a few hours to several days and there is often a family history of dysmenorrhea.
Secondary Dysmenorrhea
Secondary dysmenorrhea generally presents years after menarche, although dysmenorrhea with the first menses may be a sign of a congenital anomaly with a gynecologic outflow tract obstruction. As in primary dysmenorrhea, the pain occurs during menstruation. There may be a history of pelvic inflammatory disease, vaginal discharge, abdominal or pelvic surgery, menorrhagia, or endometriosis, or an IUD might be in place.
Diagnosis
The most important aspect in managing a girl with lower abdominal pain who is peri-menstrual is to determine if she has primary or secondary dysmenorrhea. Additionally, non-gynecologic causes of lower abdominal pain must be ruled out (see Abdominal Pain, pp. 234–238).
Obtain a menstrual history, including age of menarche, last menstrual period, regularity of menses, frequency and severity of the pain, and its relation to the periods. Ask about a history of vaginal discharge, sexual activity, IUD use, previous pelvic inflammatory disease, or abdominal/pelvic surgery. Ask about family or personal history of dysmenorrhea.
Perform a complete physical examination to exclude any gastrointestinal or urinary causes of lower abdominal pain, such as appendicitis, gastroenteritis, constipation, inflammatory bowel disease, renal colic, or urinary tract infection. Perform an external vaginal examination to assess hymenal patency. If secondary dysmenorrhea is suspected in a girl who is not sexually active, perform a recto-abdominal examination to assess for a pelvic mass, which usually reflects uterine enlargement. If the patient is sexually active, perform a pelvic examination, looking for causes of secondary dysmenorrhea, including cervical motion tenderness, an IUD, and adnexal or uterine enlargement or tenderness. A pelvic sonogram may be helpful when a bimanual examination cannot be performed, or is inconclusive or unreliable. Obtain a pregnancy test for all patients who have had previous menses, or if a girl is Tanner III, or more mature, with no previous menses. See Table 11.2 for the differential diagnosis of dysmenorrhea.
| Diagnosis | Differentiating features |
|---|---|
| Congenital anomalies | Cyclical lower abdominal pain at menarche or in an amenorrheic patient |
| Ectopic pregnancy | Positive βhCG |
| Unilateral adnexal mass | |
| Endometriosis | Pain starts before bleeding and persists beyond |
| Uterus/ovaries tender or enlarged | |
| Imperforate hymen | Bulging vaginal mass with no patent hymen |
| Patient is ≥Tanner III without history of menses | |
| Intrauterine pregnancy | Positive βhCG |
| Enlarged uterus (greater than pear or orange sized) | |
| Ovarian cyst/tumor | Mass palpated on bimanual or recto-abdominal exam |
| Salpingitis | Fever, cervical motion tenderness, vaginal discharge |
| Adnexal enlargement/tenderness (can be unilateral) |
ED Management
Primary Dysmenorrhea
Oral prostaglandin synthetase inhibitors (nonsteroidal anti-inflammatories) are effective in 70–100% of patients. Use ibuprofen (Motrin, Advil) 400–600 mg q 6h, naproxen (Anaprox 550 mg first dose, then 275 mg q 12h; Aleve 440 mg first dose, then 220 mg q 12h), or mefenamic acid (Ponstel), 500 mg first dose, then 250 mg q 6h.
Since a patient with primary dysmenorrhea ovulates monthly and therefore has regular cycles, have the patient keep track of her menses with a menstrual calendar or the calendar on her cell phone. Advise the patient to start the medication one day before the onset of each period, beginning with a loading dose taken with food. If one nonsteroidal anti-inflammatory agent is ineffective, try an alternative. Side effects include nausea, dizziness, dyspepsia, and gastric irritation. These medications are contraindicated in patients with ulcers and aspirin allergy; use with caution in patients taking anticoagulants or with liver or kidney disease.
Other treatments that may be helpful include heating pads, exercise, a low-salt diet, a well-balanced diet, and reduction of stress. Suppression of ovulation by oral contraceptives is effective, but reserve this therapy for the primary care setting, where appropriate follow-up can be arranged.
Secondary Dysmenorrhea
Refer the patient to a gynecologist to treat the underlying cause. If a patient has a congenital anomaly causing obstruction with hematocolpos, consult with a gynecologist to determine if immediate surgical intervention is indicated. The management of salpingitis is discussed on pp. 337–340. If endometriosis is suspected, refer the patient to a gynecologist to arrange for laparoscopic confirmation of the diagnosis, followed by hormone therapy.
Follow-up
Primary dysmenorrhea: primary care follow-up before the next period
Secondary dysmenorrhea: gynecological follow-up before the next period
Bibliography
Ovarian Emergencies
Ovarian masses are common causes of lower abdominal and pelvic pain, particularly in adolescents. The vast majority of these masses are benign, with the majority being functional cysts, such as follicular, corpus luteum, and theca-lutein types. However, many cysts are asymptomatic, and the incidence of ovarian cysts may be underestimated. They may be noted incidentally on an ultrasound performed for other indications.
Ovarian neoplasms are uncommon in children and adolescents. They represent 1% of the malignant neoplasms discovered in girls ≤17 years of age.
Ovarian torsion can occur with normal ovaries, or in the context of an ovarian mass or cyst. Ovarian masses are a major risk factor for torsion, implicated in 50–95% of cases. The risk for torsion increases with increased size of the mass, (>5 cm). In younger children, the presence of a long ligament increases the risk of torsion, and they are less likely to have an ovarian cyst or mass than postpubertal females. Ovarian torsion is a surgical emergency.
Clinical Presentation
Ovarian Cysts
In young children, ovarian cysts typically present as a mass noted by a parent or clinician. Pain is typically present, ranging from dull and achy to severe pain that can mimic appendicitis or peritonitis. The pain may also be intermittent, suggestive of a partial torsion. In adolescents, pain is usually the presenting complaint, along with menstrual irregularities. If the cyst is hormonally active, there may be premature breast development or vaginal bleeding. There may also be precocious puberty, as in McCune–Albright syndrome.
In all age groups, nausea and vomiting, as well as a “full” bloated feeling may be present. If the cyst is large, there may be mass effect on the bladder or bowel, causing voiding or stooling changes. In such cases, malignancy is a concern.
When a cyst ruptures, the fluid or blood within the peritoneum can cause pain and irritation. Depending on the volume of blood, patients may experience lightheadedness or other signs of hemodynamic instability.
Ovarian Torsion
Ovarian torsion presents with the sudden onset of moderate to severe pelvic pain, which is typically unilateral. It occurs in both young girls and adolescents, commonly in the setting of an ovarian mass, though this may not be known at the time of presentation. The patient may have nausea and vomiting, and possibly fever, as well as signs of peritonitis. The patient may have a recent history of similar, intermittent symptoms (representing partial torsion) which had spontaneously resolved prior to the current symptoms.
Diagnosis
Ovarian Cysts
Obtain a detailed medical history, including current symptoms, occurrence of similar symptoms in the past, and any pertinent past medical/surgical or social history. In younger girls, ask about any early signs of puberty, such as vaginal bleeding or the presence of breast development or pubic hair. In adolescents, a menstrual history is important, including date of last menstrual period, age at menarche, length and duration of cycle, and presence of irregular or excessive bleeding. Obtain a sexual history, as sexually transmitted infection is an important cause of pelvic pain. Review any current medications (including hormonal birth control methods). Upon review of systems, new onset of constipation or urinary retention might be a sign of an ovarian cyst or mass.
Check vital signs for hemodynamic instability, which may be associated with a ruptured cyst, and perform a detailed abdominal examination. In sexually active females a pelvic exam is indicated, particularly a bimanual examination, to assess ovarian size, presence of a mass, and signs of infection (such as pelvic inflammatory disease). In younger girls and virginal adolescents, perform a recto-abdominal examination instead.
Laboratory work-up includes a urine or serum pregnancy test if the patient has attained menarche or is pubertal (pregnancy can occur prior to menarche). Obtain relevant STI testing in sexually active patients, including gonorrhea and chlamydia, as well as an RPR and HIV testing. In patients with signs of hemodynamic instability or peritoneal signs, obtain a CBC, as well as a type and screen, as these patients may need surgical intervention.
The definitive diagnostic imaging study for ovarian masses is pelvic ultrasound, which can detail both the size and the character of the mass. Ultrasound can identify follicular cysts, corpus luteal cysts, and more complex masses and tumors, including teratomas and masses suspicious for malignancy. If a cyst has ruptured, fluid may be seen in the pelvis. A large amount of fluid may indicate hemorrhage from the ruptured cyst.
Further laboratory testing may be indicated depending on ultrasound findings. A gynecology consult is indicated for cysts ≥6 cm, if a malignancy is suspected, or the ultrasound results are equivocal.
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