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JoVE Science Education
Physical Examinations I

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Percussion

Overview

Source: Jaideep S. Talwalkar, MD, Internal Medicine and Pediatrics, Yale School of Medicine, New Haven, CT

Simply stated, percussion refers to the striking of one object against another to produce sound. In the early 1700s, an Austrian inn-keeper's son, named Leopold Auenbrugger, discovered that he could take inventory by tapping his father's beer barrels with his fingers. Years later, while practicing medicine in Vienna, he applied this technique to his patients and published the first description of the diagnostic utility of percussion in 1761. His findings faded into obscurity until the prominent French physician Jean-Nicolas Corvisart rediscovered his writings in 1808, during an era in which great attention was focused on diagnostic accuracy at the bedside.1

There are three types of percussion. Auenbrugger and Corvisart relied on direct percussion, in which the plexor (i.e. tapping) finger strikes directly against the patient's body. An indirect method is used more commonly today. In indirect percussion, the plexor finger strikes a pleximeter, which is typically the middle finger of the non-dominant hand placed against the patient's body. As the examiner's finger strikes the pleximeter (or directly against the surface of the patient's body), sound waves are generated. If using indirect percussion, important information is gained from the vibration in the pleximeter finger, as well.2 The third type of percussion, auscultatory percussion, relies on the clinician using a stethoscope to discern differences in sounds created by the plexor finger.

The density of the structure underlying the site of percussion determines the tone of the percussion note; the denser the structure, the quieter the note. Notes differ in relative intensity, pitch, and duration, and help the examiner determine what lies below the skin surface. Knowledge of what particular locations on the body should sound like, in conjunction with the particulars of a specific clinical situation, can help a clinician determine if percussion notes in a particular patient are normal or not.

Procedure

1. Before the patient encounter

  1. Keep fingernails clean, groomed, and trimmed.
  2. Wash your hands with soap and water or apply topical disinfectant solution.
  3. Warm your hands as able (e.g., with warm water or by rubbing them together) before patient contact.

2. Components of the exam

In theory, percussion can be utilized on any part of the body, but it is clinically most useful in the examinations of the chest and abdomen. Refer to the individual videos for these regions to learn about how percussion is specifically utilized.

3. Indirect percussion

  1. Establish a pleximeter by placing the middle finger of your non-dominant hand firmly against the body surface being examined.
  2. Make sure the entire distal phalanx is in contact with the patient, but the rest of the fingers are not, and instead they are splayed out to avoid making contact with the patient, which could dampen the sound.
  3. Using a quick, relaxed, snapping motion from the wrist, strike the distal interphalangeal joint of the pleximeter finger with the tip of the middle finger on your dominant hand. This is the plexor finger. The plexor finger should be lifted rapidly to avoid dampening the sound.
  4. One should familiarize themselves with the different percussion notes (Table 1). Gas-filled structures sound louder with longer notes, while solid structures create quieter, shorter notes. Liquid notes are typically between the gas-filled and solid structure notes. There are five common terms used to describe percussion notes in the physical examination: tympanitic, hyperresonant, resonant, dull, and flat.
    1. Percuss over the abdomen. Gas-filled areas reveal the loud, high-pitched tympanitic note, as is commonly found over the stomach.
    2. Percuss over the lungs. Normal lung tissue reveals a loud, low-pitched resonant note. Hyperresonance cannot be demonstrated on normal subjects, but it is found in lung diseases, such as emphysema or pneumothorax. It can be distinguished from resonance, because it is louder and lower-pitched.
    3. Percuss the liver span. The dull percussion note heard over the liver is medium in intensity and pitch. The margins can be identified by a change in note, since a resonant note of normal lung tissue can be heard superior to the liver, and a tympanitic (or sometimes less dull) note can be heard inferiorly, due to the bowels.
    4. A soft, high-pitched flat note is heard when the underlying tissue is dense, as is the case with pleural effusions or ascites. In a patient without these pathological processes, appreciate a flat note by percussing over the dense quadriceps muscles, though percussing in this location holds no clinical utility during a physical exam.
Percussion note Pitch Intensity Duration Location (normal) Pathological example
Tympanitic High Loud Longer Gastric bubble Large pneumothorax
Resonant Low Loud Long Normal lung tissue Simple chronic bronchitis
Hyperresonant Lower Very loud Longer COPD, pneumothorax
Dull Medium Medium Medium Liver Intra-abdominal tumors and masses, pneumonia
Flat High Soft Short Thigh Pleural effusion

Table 1. Characteristics of different percussion notes.

  1. Note the amount of vibration in the pleximeter finger. Gas-filled structures allow for more movement of the pleximeter finger than liquid or solid structures. The differences are subtle and require keen attention and practice to appreciate.
  2. Percuss at each point a few times in rapid succession to ensure consistency of notes before moving to the next spot.

4. Fist percussion

The maneuver can be performed directly against the patient's body, or indirectly with the examiner's non-plexor hand placed palm down on the patient's body wall, and the plexor fist striking the dorsum of the hand to attenuate the force of the blow. Direct or indirect percussion with the ulnar aspect of the examiner's fist is most commonly utilized to elicit tenderness originating from the kidneys, but can also be utilized to identify tenderness in other deep organs (e.g., the liver).

  1. Deliver a quick, firm blow to the area of interest (e.g., costo-vertebral angle) with the ulnar aspect of a hand flexed gently into a fist. The examiner's motion is brisk, with movement originating at the elbow.
  2. Use the same technique when searching for an area of tenderness. It is critical to deliver the right amount of force - enough to uncover tenderness in a patient with pathology, but not so much to cause undue discomfort or pain in a patient without disease.

5. Other factors affecting a percussion note

  1. Make sure percussion is done directly on the patient's skin. Any barrier between the examiner and the patient can alter findings in percussion. This is especially true regarding vibrations sensed by the pleximeter finger, which can be affected by clothing, gowns, and even examination gloves. If gloves are worn during this portion of the exam, the clinician must account for the difference in the way the percussion note feels on the pleximeter finger.
  2. Note that applying more pressure with the pleximeter finger can augment sounds. Inadequate pressure with the pleximeter finger can cause artificial dullness. Striking more forcefully with the plexor finger is rarely helpful, though striking too lightly can also lead to artificial dullness.
  3. Remember that percussion notes and vibrations on the pleximeter finger are impacted by subcutaneous fat, which dampens vibrations, leading to increased areas of dullness.
  4. When moving around the area of the body being percussed (e.g., to establish liver span), maintain a consistency in exam technique. Keep a stable amount of pressure with the pleximeter finger and force with the flexor finger. Continue to strike the pleximeter finger at the same spot, using the same part of the plexor finger.

Percussion is a commonly used clinical skill that is most useful in the examinations of the chest and abdomen. Simply stated, percussion refers to the striking of one object against another to produce sound.

The discovery of percussion's usefulness in medicine dates back to the 1700s. In former years of this century, an Austrian innkeeper's son, named Leopold Auenbrugger, discovered that he could take inventory by tapping his father's beer barrels with his fingers. Then, in 1761, while practicing medicine, he applied this technique on his patients and published the first description of the diagnostic utility of percussion. However, his findings faded into obscurity until the French physician, Jean-Nicolas Corvisart, in 1808, rediscovered Auenbrugger's writings and used them to teach percussion to his medical students. Since then this technique has become an integral part of day-to-day clinical practice.

This video will first illustrate the types of percussion and the commonly heard percussion notes. Then, we'll go over the procedure and considerations for performing this technique during a physical examination.

There are several types of medical percussion techniques. The historic type is 'direct percussion' in which the plexor-that is the tapping finger-strikes directly against the patient's body, but this method is obsolete and is no longer employed in clinical practice. It has been supplanted by 'indirect percussion' in which the plexor finger strikes a pleximeter, which is typically the middle finger of the non-dominant hand placed against the patient's body.

The third type is the 'auscultatory percussion', which relies on using a stethoscope to discern differences in sounds created by the plexor finger. Auscultatory percussion is a commonly used alternative method to assess liver size using the 'liver scratch test'. With the stethoscope held over the patient's liver, the examiner gently scratches the patient's skin while listening for changes in sound quality as the plexor finger makes its way over the liver edge.

Another percussion technique is called the 'fist percussion', which is performed using the ulnar aspect of the plexor fist. Again, this can be performed either directly against the patient's body, or by using an indirect method in which the examiner's non-plexor hand is placed palm down on the patient's body wall and the plexor fist strikes the dorsum of the hand to attenuate the force of the blow. Here, the examiner's motion should be brisk with movement originating at the elbow, and it is critical to deliver the right amount of force-enough to uncover tenderness in a patient with pathology, but not so much to cause undue discomfort or pain in a patient without any disease.

Now, let's talk about the notes normally heard while performing indirect percussion. The percussion notes differ in relative intensity, pitch, and duration depending on the density of the underlying structure.

A tympanitic sound is loud, high-pitched, and longer in duration than other sounds. It is normally heard over parts of the gastrointestinal tract that contain air, such as the stomach. A resonant note is also loud, but low-pitched, and long in duration. It is normally heard over the lung tissue. A dull note is medium in intensity, pitch and duration, and it appears over solid organs like the liver. A flat percussion note is soft, high-pitched, short and therefore hard to listen to. This note can be appreciated by percussing over the extremely dense quadriceps muscles, but percussing in this location holds no clinical utility. However, if a flat note is heard over the lungs, it may indicate pleural effusion, and if heard over a protruded abdomen it may indicate ascites. Another pathological percussion sound is hyperresonance, which, as compared to the resonant sound, is louder in intensity, lower in pitch and longer in duration. Hyperresonant sounds on lung percussion may indicate pneumothorax or chronic obstructive pulmonary disorder.

Now that you know about the types of notes heard during indirect percussion, let's briefly review the general steps for performing this technique. Before starting with the exam, make sure that your fingernails are clean, groomed, and trimmed. Wash your hands with soap and water, or apply topical disinfectant solution. Warm your hands with warm water or by rubbing them together before patient contact.

To percuss, place the pleximeter finger firmly against the body surface being examined. Make sure the entire distal phalanx is in contact with the patient, but the rest of the fingers should be splayed out to avoid making contact, as this could dampen the sound. With the tip of the plexor, strike the distal interphalangeal joint of the pleximeter using a quick, relaxed, snapping motion from the wrist. After the strike, lift plexor finger rapidly to avoid sound dampening.

In addition to the sounds, note the amount of vibration in the pleximeter. The differences in vibration are subtle and require keen attention and practice to appreciate. The gas-filled structures might lead to more movement of the pleximeter finger, whereas the solid or liquid-filled regions may cause decreased vibration. During any physical exam, percuss at each point a few times in rapid succession to ensure consistency of notes before moving to the next spot.

In addition to performing percussion accurately, one must also pay attention to a few other factors that might affect the percussion notes.

Make sure percussion is done directly on the patient's skin. Performing percussion on the patient with clothing on is impermissible. While the use of gloves might be necessary for infection control purposes, in cases where gloves are necessary, the clinician must account for the difference in the way the percussion note will "feel" on the pleximeter finger, because the vibrations will feel different.

Note that the pressure applied with the pleximeter finger affects the percussion note. Inadequate pressure can cause artificial dullness, and more pressure can augment the sound. Also, the force with which the plexor strikes may affect the interpretation of one's findings. Striking more forcefully with the plexor finger is rarely helpful, though striking too lightly can also lead to artificial dullness. Remember that the percussion notes and vibrations are also impacted by the subcutaneous fat, which, if excess, may dampen the movement of the pleximeter. Finally, when examining a particular area of the body, maintain a consistency in the technique. To optimally compare sounds from one region to another, keep the amount of pressure with the pleximeter finger, the force with the plexor, the strike spot, and the part of the plexor finger used, all the same throughout the exam.

You've just watched JoVE's video on percussion performed during a physical examination. This presentation covered the types of percussion procedures, the commonly witnessed percussion notes, the technique and factors that may affect the findings of this procedure. Percussion revolutionized bedside diagnostics in the eighteenth and nineteenth centuries and it still remains an important method that enables clinicians to evaluate deep anatomic structures that cannot be visually inspected. As always, thanks for watching!

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Applications and Summary

This video covers the general considerations related to percussion during the physical examination. The routine incorporation of percussion into the physical examination revolutionized bedside diagnostics in the eighteenth and nineteenth centuries, and it still holds high value in the detection of common thoracic and abdominal pathology, such as hepatomegaly, splenomegaly, pleural effusion, pneumothorax, and ascites. An understanding of the positioning, pressure, and movements required by the plexor and pleximeter fingers is critical to successful percussion. Similarly, knowledge of the factors that can impact percussion notes is important to enable proper interpretation of findings. Practice with attention to auditory and tactile input helps the clinician develop mastery of the way different percussion notes (tympanitic, hyperresonant, resonant, dull, and flat) sound and feel, allowing differentiation of gas-filled, liquid, and solid structures. Percussion remains an important technique that enables clinicians to evaluate deep anatomic structures that are not visible.

Subscription Required. Please recommend JoVE to your librarian.

References

  1. Nuland, S.B. Doctors: The Biography of Medicine. Vintage Books, New York (1988).
  2. McGee, S. Evidence-based Physical Diagnosis. 3rd ed., Elsevier, Philadelphia (2012).

Transcript

Tags

Percussion Clinical Skill Examinations Chest Abdomen Striking Sound Discovery Usefulness In Medicine Leopold Auenbrugger Beer Barrels Diagnostic Utility Jean-Nicolas Corvisart Medical Students Day-to-day Clinical Practice Types Of Percussion Direct Percussion Indirect Percussion Plexor Finger Pleximeter

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