Abdominal pain

Chapter 16
Abdominal pain


Jeffrey D. Ferguson and Jennifer Monroe


Introduction


Patients with abdominal complaints who activate the EMS system can be among the most challenging. Their histories may be non-specific and their exams and vital signs may be unreliable with regard to the etiology or severity of their illnesses. Vital signs are frequently abnormal in critically ill patients. However, normal vital signs do not preclude the presence of a life-threatening illness. Certain populations with abdominal pain commonly encountered by EMS personnel may deserve special attention, including the elderly, women of child-bearing age, children, post-bariatric surgery patients, and immunocompromised patients. Finally, many significant extraabdominal conditions can present with mostly abdominal complaints.


Abdominal pain is the most frequent chief complaint in the emergency department, accounting for 8% of total visits [1]. A recent survey from the Centers for Disease Control found that the chief complaint of non-traumatic abdominal pain increased by 37% between 1999 and 2008 [2]. It is also one of the most common reasons to call EMS. At least one in 20 EMS calls is for abdominal complaints [3]. Thus, EMS providers encounter patients with abdominal pain on a regular basis, but options for patient assessment and management are limited.


Approach to the patient with abdominal pain


Assessment and management of abdominal pain patients in the prehospital setting are difficult for a variety of reasons. The following objectives apply.



Anatomy and physiology considerations


The lungs, pleural cavity, and base of the heart are all in close proximity to the abdominal cavity and can be involved in conditions that can be perceived as abdominal pain. During development, the abdominal organs protrude into the peritoneal cavity and become enveloped with a layer of peritoneal lining, the visceral peritoneum. The outer surface of the peritoneal cavity is the parietal peritoneum. The peritoneal cavity allows for normal movement and sliding of the abdominal organs and provides a source of protection to the abdominal contents. The peritoneum provides a potential space for air, blood, or other fluids in pathological conditions. Some structures, such as the kidneys, ureters, pancreas, aorta, and portions of the duodenum, lie in the retroperitoneum. This area contains less sensory innervation, accounting for decreased pain perception and localization of pathological conditions involving these structures.


The abdomen is traditionally divided into four quadrants by vertical and horizontal lines through the umbilicus. Use of the quadrant description not only provides common terminology, but is also an important determinant in the development of a differential diagnosis of abdominal complaints (Box 16.3).


The etiologies of abdominal pain can be described as mechanical, inflammatory, or ischemic in nature. Mechanical etiologies include distension of a hollow organ (e.g. stomach, intestine, gallbladder, ureter) or stretching of the capsule of a solid organ (e.g. liver, spleen, kidney). Inflammatory causes include immune processes such as Crohn’s disease or ulcerative colitis and infection like appendicitis or diverticulitis. Ischemic pain may result from thrombotic or embolic disease of the vascular bed of abdominal organs or anatomic torsion (e.g. testicle or ovary).


The perception of these pathological states may cause different types of pain: visceral, somatic, or referred pain. Luminal or capsular distension will typically produce visceral pain by stimulation of nerves surrounding a hollow or solid organ. Because the innervation of organs is sparse and multisegmented, this pain is usually dull and poorly localized. When caused by an obstructive process, the pain is typically intermittent or colicky. Distension of a solid organ tends to produce more constant pain (e.g. hydronephrosis, hepatitis). Visceral pain is typically associated with other autonomic phenomena such as anorexia, nausea, and vomiting.


Somatic abdominal pain typically results from irritation of the parietal peritoneum from infection or inflammation. The pathological process stimulates peripheral nerves and the pain tends to be more intense and distinct than visceral pain. The evolution of acute appendicitis demonstrates both visceral and somatic pain. Early obstruction and distension of the appendix generate dull, poorly localized pain around the umbilicus. As inflammation progresses, the parietal peritoneum becomes involved and the pain becomes localized to the right lower quadrant.


A third type of pain is referred pain; pain at a site not directly involved with the disease process. Visceral and somatic nerves from different areas converge at the spinal cord, allowing for misinterpretation of location by the brain. An example is irritation of the diaphragm by blood in the peritoneal cavity as might be seen following a ruptured ectopic pregnancy. This is perceived as shoulder pain because both the diaphragm and the skin near the shoulder share the C4 sensory level. Other common sites of referred pain are shown in Table 16.1.


Table 16.1 Common sites of referred abdominal pain

























Etiology Region of perceived pain
Biliary colic/cholecystitis Right scapula
Renal colic Testicle, labia, inguinal region
Pancreatitis Midback
Gastric or bowel perforation Shoulder
Ruptured ectopic pregnancy Shoulder
Rectal or prostate disorder Lower back

Many systemic diseases may present with abdominal pain as the primary complaint. Some common examples of these conditions are listed in Box 16.2.


History and physical examination


An organized assessment must be applied to any patient with a presenting complaint of abdominal pain. High priority must be given to life-threatening conditions (see Box 16.1). A careful history will yield an appropriate list of potential etiologies in most patients. This list can be additionally refined using the abdominal quadrant as an indicator of the source of the complaint (see Box 16.3).


Useful historical data may be obtained directly from the patient or from a parent or other care provider. Emphasizing a SAMPLE history is encouraged. The OPQRST mnemonic (Box 16.4) highlights important questions regarding signs and symptoms. Ask the patient about allergies prior to medication administration and consider anaphylactic reactions as a source of abdominal discomfort. EMS providers should be encouraged to bring all medications with the patient. Particular attention should be paid to cardiac, diabetic, steroidal, and immunosuppressive agents. Medications such as beta-blockers, antiinflammatory agents, and over-the-counter medications can affect the patient’s response to infection and inflammation. The past medical history may provide clues to the underlying condition. This history should include information about previous episodes of similar pain, diagnosis, and management. The patient should be questioned about his/her last oral intake and menstrual period. Finally, the events leading up to the current illness and EMS activation should be elicited.


The patient’s general appearance should be assessed. Seasoned EMS providers develop an immediate impression of those who are “sick.” A patient who limits his or her movement due to abdominal pain may have peritonitis as opposed to one who cannot find a position of comfort (e.g. kidney stones or aneurysmal pain).


The focus of the physical examination should be to identify potentially life-threatening conditions. Assessment and monitoring of vital signs are crucial. Indications of shock, including hypotension, tachycardia, narrow pulse pressure, and tachypnea, should be recognized. A hypotensive patient should be presumed to have a serious medical condition requiring immediate intervention. The patient’s temperature should also be evaluated, recalling that both fever and hypothermia may indicate significant disease such as sepsis.

Jun 14, 2016 | Posted by in EMERGENCY MEDICINE | Comments Off on Abdominal pain

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