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Chronic Abdominal Pain and Recurrent Abdominal Pain


Jonathan Gotfried

, MD, Lewis Katz School of Medicine at Temple University

Last full review/revision Mar 2020| Content last modified Mar 2020

Chronic abdominal pain (CAP) is pain that persists for more than 3 months either continuously or intermittently. Intermittent pain may be referred to as recurrent abdominal pain (RAP). Acute abdominal pain is discussed elsewhere. CAP occurs any time after 5 years of age. Up to 10% of children require evaluation for RAP. About 2% of adults, predominantly women, have CAP (a much higher percentage of adults have some type of chronic gastrointestinal [GI] symptoms, including nonulcer dyspepsia and various bowel disturbances).

Functional bowel disorders are common causes of chronic abdominal pain. Irritable bowel syndrome (IBS) is a functional bowel disorder that causes recurrent abdominal pain and altered bowel habits. Functional abdominal pain is a similar but less common disorder that does not cause altered bowel habits.

Nearly all patients with CAP have had a prior medical evaluation that did not yield a diagnosis after history, physical, and basic testing.


Physiologic causes of chronic abdominal pain (see table Physiologic Causes of Chronic Abdominal Pain) result from stimuli of visceral receptors (mechanical, chemical, or both). Pain may be localized or referred, depending on innervation and specific organ involvement.

Irritable bowel syndrome and functional abdominal pain cause pain that persists > 6 months without evidence of physiologic disease. The pathophysiology of these functional disorders is complex and seems to involve altered intestinal motility, increased visceral nociception, and psychologic factors. Visceral hyperalgesia refers to hypersensitivity to normal amounts of intraluminal distention and heightened perception of pain in the presence of normal quantities of intestinal gas; it may result from remodeling of neural pathways in the brain-gut axis.


Perhaps 10% of patients have an occult physiologic illness (see Table: Physiologic Causes of Chronic Abdominal Pain); the remainder have a functional process. However, determining whether a particular abnormality (eg, adhesions, ovarian cyst, endometriosis) is the cause of CAP symptoms or an incidental finding can be difficult.

Physiologic Causes of Chronic Abdominal Pain


Suggestive Findings*

Diagnostic Approach

Genitourinary disorders

Congenital abnormalities

Recurrent UTIs




Discomfort before or during menses


Ovarian cyst, ovarian cancer

Vague lower abdominal discomfort, bloating

Sometimes a palpable pelvic mass

Pelvic ultrasonography

Gynecologic consultation

Renal calculi

Fever, flank pain, dark or bloody urine

Urine culture



Sequelae of acute PID

Pelvic discomfort

History of acute PID

Pelvic examination

Sometimes laparoscopy

Gastrointestinal disorders

Celiac disease

In children, failure to thrive

Abdominal bloating, diarrhea, and often steatorrhea

Symptoms that worsen when gluten-containing products are ingested

Serologic markers/HLA-DQ2/HLA-DQ8 haplotype testing

Small-bowel biopsy

Chronic appendicitis

Several previous discrete episodes of RLQ pain

Abdominal CT


Chronic cholecystitis

Recurrent colicky RUQ pain


Chronic hepatitis

Upper abdominal discomfort, malaise, anorexia

Jaundice uncommon

In about one third of patients, a history of acute hepatitis

Liver tests, international normalized ratio, albumin, and platelets

Titers for viral, autoimmune, or metabolic causes of hepatitis

Chronic pancreatitis, pancreatic pseudocyst

Episodes of severe epigastric pain

Sometimes malabsorption (eg, diarrhea, fatty stool)

Usually a history of acute pancreatitis

Serum lipase levels (frequently not elevated)


Stool tests (fecal elastase or fecal fat)

Colon cancer

Discomfort uncommon but possibly colicky discomfort if left colon is partially obstructed

Often occult or visible blood in stool


Crohn disease

Episodic severe pain with fever, anorexia, weight loss, diarrhea

Extraintestinal symptoms (joints, eyes, mouth, skin)

CT enterography or upper GI series with SBFT

Colonoscopy and esophagogastroduodenoscopy with biopsies

Gastric cancer

Dyspepsia or mild pain

Often occult blood in stool

Upper endoscopy

Granulomatous enterocolitis

Family history

Recurrent infections in other sites (eg, lungs, lymph nodes)



CT enterography

Hiatus hernia with gastroesophageal reflux


Sometimes cough and/or hoarseness

Symptoms relieved by taking antacids

Sometimes regurgitation of gastric contents into mouth

Barium swallow


Intestinal tuberculosis

Chronic nonspecific pain

Sometimes palpable RLQ mass

Fever, diarrhea, weight loss

Tuberculin test

Endoscopy for biopsy

CT with oral contrast

Chest x-ray

Lactose intolerance

Bloating and cramps after ingesting milk products

Hydrogen breath test

Trial of elimination of lactose-containing foods

Pancreatic cancer

Severe upper abdominal pain that

  • Often radiates to the back
  • Occurs late in disease, when weight loss is often present

May cause obstructive jaundice



Endoscopic ultrasonography

Parasitic infestation (particularly giardiasis)

History of travel or exposure

Cramps, flatulence, diarrhea

Stool examination for ova or parasites

Stool enzyme immunoassay (for Giardia)

Peptic ulcer disease

Upper abdominal pain relieved by food and antacids

May awaken patient at night

Endoscopy and biopsy for Helicobacter pylori

H. pylori breath test or stool antigen assays

Evaluation of nonsteroidal anti-inflammatory drug, alcohol, and tobacco use

Stool examination for occult blood

Postoperative adhesive bands

Previous abdominal surgery

Colicky discomfort accompanied by nausea and sometimes vomiting

Upper GI series, SBFT, or CT enterography

Abdominal CT

Ulcerative colitis

Crampy pain with bloody diarrhea


Rectal biopsy


Systemic disorders

Abdominal epilepsy

Very rare

Episodic pain

No other GI symptoms


Acute porphyria

Recurrent severe abdominal pain, vomiting

Benign abdominal examination

Sometimes neurologic symptoms (eg, muscle weakness, seizures, mental disturbance)

In some types, skin lesions

Urine porphobilinogen and delta-aminolevulinic acid screening

RBC deaminase assay

Familial Mediterranean fever

Family history

Quotidian fever and peritonitis often accompanying the bouts of pain

Starting in childhood or adolescence

Genetic testing

Food allergy

Symptoms developing only after consuming certain foods (eg, seafood)

Elimination diet

Immunoglobulin A–associated vasculitis (formerly Henoch-Schönlein purpura)

Palpable purpuric rash

Joint pains

Occult blood in stool

Biopsy of skin lesions

Intestinal angioedema

Family history

Pain often with peripheral angioedema and fever

Serum complement level (C4) during attacks

Testing for C1 inhibitor deficiency

Lead poisoning

Cognitive/behavioral abnormalities

Blood lead level

Migraine equivalent

Rare variant with epigastric pain and vomiting

Mainly in children

Usually family history of migraine

Clinical evaluation

Sickle cell disease

Family history

Severe episodes of abdominal pain lasting over a day

Recurrent pain in nonabdominal sites

Sickle preparation

Hemoglobin electrophoresis

* Findings are not always present and may be present in other disorders.

EEG = electroencephalography; ERCP = endoscopic retrograde cholangiopancreatography; ESR = erythrocyte sedimentation rate; GI = gastrointestinal; IVU = intravenous urography; MRCP = magnetic resonance cholangiopancreatography; PID = pelvic inflammatory disease; RBC = red blood cell; RLQ = right lower quadrant; RUQ = right upper quadrant; SBFT = small-bowel follow-through; UTI = urinary tract infection.

Modified from Barbero GJ: Recurrent abdominal pain in childhood. Pediatr Rev 4(1):29–34, 1982, doi: 10.1542/pir.4-1-29, and from Greenberger NJ: Sorting through nonsurgical causes of acute abdominal pain. J Crit Illn 7:1602–1609, 1992.



History of present illness should elicit pain location, quality, duration, timing and frequency of recurrence, and factors that worsen or relieve pain (particularly eating or moving bowels). A specific inquiry as to whether milk and milk products cause abdominal cramps, bloating, or distention is needed because lactose intolerance is common, especially among blacks, Hispanics, Asians (particularly East Asian countries), and American Indians with increasing frequency with aging.

Review of systems seeks concomitant GI symptoms such as gastroesophageal reflux, anorexia, bloating or “gas,” nausea, vomiting, jaundice, melena, hematuria, hematemesis, weight loss, and mucus or blood in the stool. Bowel symptoms, such as diarrhea, constipation, and changes in stool consistency, color, or elimination pattern, are particularly important.

Diet history is important. For example, ingestion of large amounts of cola beverages, fruit juices (which may contain significant quantities of fructose and sorbitol), or gas-producing foods (eg, beans, onions, cabbage, cauliflower) can account for otherwise puzzling abdominal pain.

Past medical history should include nature and timing of any abdominal surgery and the results of previous tests that have been done and treatments that have been tried. A drug history should include details concerning prescription and illicit drug use as well as alcohol.

Family history of RAP, fevers, or both should be ascertained, as well as known diagnoses of sickle cell trait or disease, familial Mediterranean fever, and porphyria.

Physical examination

Review of vital signs should particularly note presence of fever or tachycardia.

General examination should seek presence of jaundice, skin rash, and peripheral edema.

Abdominal examination should note areas of tenderness, presence of peritoneal findings (eg, guarding, rigidity, rebound), and any masses or organomegaly. Rectal examination and (in women) pelvic examination to locate tenderness and masses and stool examination for occult blood are essential.

Red flags

The following findings are of particular concern:

  • Fever
  • Anorexia, weight loss
  • Pain that awakens patient
  • Blood in stool or urine
  • Jaundice
  • Edema
  • Abdominal mass or organomegaly

Interpretation of findings

Clinical examination alone infrequently provides a firm diagnosis.

Determining whether CAP is physiologic or functional can be difficult. Although the presence of red flag findings indicates a high likelihood of a physiologic cause, their absence does not rule it out. Other hints are that physiologic causes usually cause pain that is well localized, especially to areas other than the periumbilical region. Pain that wakes the patient is usually physiologic. Some findings suggestive of specific disorders are listed in table Physiologic Causes of Chronic Abdominal Pain.

Functional CAP may result in pain similar to that of physiologic origin. However, there are no associated red flag findings, and psychosocial features are often prominent. A history of physical or sexual abuse or an unresolved loss (eg, divorce, miscarriage, death of a family member) may be a clue.

The Rome IV criteria for diagnosis of irritable bowel syndrome are the presence of abdominal pain for at least 1 day/week in the last 3 months along with at least 2 of the following:

  • Pain is related to defecation.
  • Pain is associated with a change in frequency of defecation.
  • Pain is associated with a change in consistency of stool (1).

Evaluation reference

  • 1. Drossman DA: Functional gastrointestinal disorders: History, pathophysiology, clinical features, and Rome IV. Gastroenterology 150:1262–1279, 2016. doi: 10.1053/j.gastro.2016.02.032.


In general, simple tests (including urinalysis, complete blood count, liver tests, blood urea nitrogen, glucose, and lipase) should be done. Abnormalities in these tests, the presence of red flag findings, or specific clinical findings mandate further testing, even if previous assessments have been negative. Specific tests depend on the findings (see Table: Physiologic Causes of Chronic Abdominal Pain) but typically include ultrasonography for ovarian cancer in women > 50 years, CT of the abdomen and pelvis with contrast, upper GI endoscopy (particularly in patients > 60 years old) or colonoscopy, and perhaps small-bowel imaging or stool testing.

The benefits of testing patients with no red flag findings are unclear. Patients > 50 or with risk factors for colon cancer (eg, family history) should probably have a colonoscopy; patients ≤ 50 can be observed or have CT of the abdomen and pelvis with contrast if an imaging study is desired. Magnetic resonance cholangiopancreatography (MRCP), endoscopic retrograde cholangiopancreatography (ERCP), and laparoscopy are rarely helpful in the absence of specific indications.

Between the initial evaluation and the follow-up visit, the patient (or family, if the patient is a child) should record any pain, including its nature, intensity, duration, and precipitating factors. Diet, defecation pattern, and any remedies tried (and the results obtained) should also be recorded. This record may reveal inappropriate behavior patterns and exaggerated responses to pain or otherwise suggest a diagnosis.


Physiologic conditions are treated.

If the diagnosis of functional CAP is made, frequent examinations and tests should be avoided because they may focus on or magnify the physical complaints or imply that the physician lacks confidence in the diagnosis.

There are no modalities to cure functional CAP; however, many helpful measures are available. These measures rest on a foundation of a trusting, empathic relationship between the physician, patient, and family. Patients should be reassured that they are not in danger; specific concerns should be sought and addressed. The physician should explain the laboratory findings and the nature of the problem and describe how the pain is generated and how the patient perceives it (ie, there may be a tendency to feel pain at times of stress). It is important to avoid perpetuating the negative psychosocial consequences of chronic pain (eg, prolonged absences from school or work, withdrawal from social activities) and to promote independence, social participation, and self-reliance. These strategies help the patient control or tolerate the symptoms while participating fully in everyday activities.

Drugs such as antispasmotics and tricyclic antidepressants can be effective. Opioids should be avoided because of the concern about potential dependency and possibility of narcotic bowel syndrome. Evidence supporting the use of probiotics for functional abdominal pain is currently limited.

Cognitive methods (eg, relaxation training, biofeedback, hypnosis) may help by contributing to the patient’s sense of well-being and control. Regular follow-up visits should be scheduled weekly, monthly, or bimonthly, depending on the patient’s needs, and should continue until well after the problem has resolved. Psychiatric referral may be required if symptoms persist, especially if the patient is depressed or there are significant psychologic stressors at home.

Key Points

  • Most cases represent a functional process.
  • Red flag findings indicate a physiologic cause and need for further assessment.
  • Testing is guided by clinical features.
  • Repeated testing after physiologic causes are ruled out is usually counterproductive.

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