Parks 3 step test

Author: s | 2025-04-23

The Parks 3 step test is also known as Parks-Bielschowsky three-step test, Park’s three-step test, or Bielschowsky head tilt test.

Park's 3 Step Test

Right vs. left head tilt, the paretic muscle can be detected. Potential paretic muscle: LSO, left superior oblique; LIR, left inferior rectus; RSR, right superior rectus; RIO, right inferior oblique. Reprinted with permission from (22).It has been proposed to add a fourth step, namely, measuring the vertical deviation in upgaze and downgaze (14). For example, with a right fourth nerve palsy, given that the superior oblique depresses the eye, the right hypertropia will increase in downgaze and lessen in upgaze. There are 3 important caveats regarding the Parks–Bielschowsky 3-step test: spread on commitance, the test's sensitivity, and the test's specificity. With a longstanding fourth nerve palsy, the amount of vertical deviation may become similar in all fields of gaze (12). This usually occurs when the fourth nerve palsy affects the dominant eye. For example, in a patient with a right fourth nerve palsy, the right inferior oblique (antagonist of the right superior oblique) requires less innervation to move the eye into its field of action. Following the Hering law, the left superior rectus (yoke muscle of the antagonist of the paretic muscle) also receives less innervation and will seem paretic. This will, in turn, diminish the amount of vertical misalignment. This has been referred to as inhibitional palsy of the contralateral antagonist. An alternate explanation for the spread of comitance may be found in the study by Suh et al (15). Using high-resolution orbital MRI, these investigators demonstrated that displacements in the pulley systems of the rectus muscles can alter motility patterns in superior oblique palsy. The Parks–Bielschowsky 3-step test lacks both sensitivity and specificity. In a series of 7 patients, Kushner (16) suggested that a number of other entities might simulate a fourth nerve palsy with the Parks–Bielschowsky 3-step test including paresis of more than one vertical muscle, dissociated vertical deviation, myasthenia gravis, and previous vertical muscle surgery. Using superior oblique atrophy on MRI as evidence of a fourth nerve palsy, Manchandia and Demer (17) performed the Parks–Bielschowsky 3-step test on 50 patients. They found that the test was diagnostic in only 70% of cases. By reducing the test to 2 steps, the sensitivity increased to 76%–84% but diminished the specificity. Lee et al (18) measured the sensitivity of the 3-step test, depending on the presence or absence of the fourth nerve using high-resolution thin-section MRI. Testing sensitivity was 78% in patients with a fourth nerve and 72% in those without a fourth nerve. There was no statistically significant intergroup difference. Taken together, these reports demonstrate that the Parks–Bielschowsky 3-step test is insensitive in 22%–30% of patients with fourth nerve palsy: CYCLOTORSION Because the primary action of the superior oblique muscle is incyclotorsion, detection of a torsional component of diplopia is helpful in establishing the diagnosis of fourth nerve palsy. In obtaining the history, the clinician should not only elicit the vertical orientation of the diplopic images, but also inquire if one of the images seems “tilted” or “slanted.” For confirmation and quantitation of cyclotorsion, a valuable technique is

PARK'S 3 STEP TEST

Toward the side of the palsied muscle, there was an increase in the vertical deviation, while tilting to the contralateral side caused either a decrease or resolution of the deviation. This became known as the Bielschowsky Head Tilt Test. Parks expanded on these observations and proposed a stepwise diagnostic schema in patients with vertical strabismus (13). As he pointed out, head tilt because of cyclovertical strabismus does not necessarily indicate binocular vision nor that the palsied muscle is an oblique. For example, head tilting may accompany a vertical rectus muscle palsy. In Parks' schema, the first step reduces the possibility from 8 to 4 cyclovertical muscles, the second step from 4 to 2, and the third step will determine which of the remaining 2 muscles is weak. Figures 4 and 5 illustrate the results of the Parks–Bielschowsky 3-step test for a right and left hypertropia, respectively. The first step determines that the paretic muscle is either one of 2 depressors in 1 eye or 1 of 2 elevators in the other. With the second step, one determines if the vertical deviation increases in right or left gaze. At this point, the 2 suspected muscles are in different eyes, both are always superior or inferior muscles and both are either incyclotorters or excyclotorters. In the third step, the paretic muscle is unable to perform its torsional and vertical actions. Yet, the muscle of the same eye that is able to perform the appropriate torsional movement will also move the eye vertically, thus increasing the vertical misalignment. For example, in a patient with a right fourth nerve palsy and the head tilted to the right, excyclotorsion will occur in the left eye because of contraction of both the left inferior oblique and left inferior rectus muscles. However, the paretic right superior oblique cannot balance the torsional and elevating activity of the right superior rectus, and the right eye will move upward leading to an increase in the vertical deviation (right hypertropia). With head tilt to the left, the paretic right superior oblique is not involved, and there will be either no increase in the vertical misalignment or it will diminish or no longer be detectable.FIG. 4.: Results of the Parks–Bielschowsky 3-step test are shown for a patient with a right hypertropia. In primary gaze, the vertical deviation may be due to paresis of 1 of 4 muscles. Increase in the deviation in right vs. left gaze reduces the possibility to 2 muscles and with measurement in right vs. left head tilt, the paretic muscle can be detected. Potential paretic muscle: LIO, left inferior oblique; LSR, left superior rectus; RIR, right inferior rectus; RSO, right superior oblique. Reprinted with permission from (22).FIG. 5.: Results of the Parks–Bielschowsky 3-step test are shown for a patient with a left hypertropia. In primary gaze, the vertical deviation may be due to paresis of 1 of 4 muscles. Increase in the deviation in right vs. left gaze reduces the possibility to 2 muscles and with measurement in

Parks 3-step test - PubMed

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Parks 3-step Test - YouTube

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Parks 3 Step Test - likhil.in

Adduction, the muscle acts as a depressor, whereas in abduction, its function is incyclotorsion. Although the superior oblique also has abduction activity in primary gaze, its abduction function is most apparent with superior oblique overaction, often seen in patients with an A-pattern strabismus. At the insertion of the superior oblique on the globe, the anterior fibers impart a primarily incyclotorsional force, whereas the posterior fibers impart depressing and abducting forces (8).FIG. 2.: Action of the superior oblique muscle is shown in primary gaze (A), adduction (B), and abduction (C).High-resolution MRI has provided anatomic details of the superior oblique muscle in vivo. These studies have been pioneered by Demer and Miller (9) in evaluating the muscle in both physiologic and pathologic settings. The normal superior oblique has its largest cross-sectional area in midorbit tapering both posteriorly to its origin and anteriorly as it transitions to a tendon. As shown in Figure 3, the superior oblique can be visualized in primary gaze and its anatomic alterations demonstrated in upgaze and downgaze.FIG. 3.: Quasicoronal MRI illustrates the appearance of the superior oblique (SO) in primary gaze and its increase in cross- section size from elevation to depression. IR, inferior rectus; MR, medial rectus; SR, superior rectus. Modified from (9).CLINICAL EXAMINATION Because the fourth nerve innervates a single muscle, the superior oblique, the terms fourth nerve palsy and superior oblique palsy will be used interchangeably. HEAD POSITION/FACIAL ASYMMETRY Patients often adopt a head tilt to the side opposite the fourth nerve palsy (ocular torticollis) with a chin-down position. This moves the eye out of the field of action of the palsied superior oblique and diminishes diplopia. Rarely, patients may tilt their heads to the same side as the fourth nerve palsy. It has been speculated that this increases the distance between the diplopic images, which allows the patient to more easily ignore the 2 images. In addition, individuals with congenital fourth nerve palsies may develop midfacial hemihypoplasia, also on the side opposite the palsy. There also may be deviation of the nose and mouth toward the hypoplastic side (10). However, in a study of 79 subjects, Velez et al (11) quantitated 3 morphometric facial features and found that facial asymmetry was not useful in distinguishing congenital from acquired superior oblique palsy. RANGE OF EYE MOVEMENTS In contrast to third and sixth nerve palsies where some limitation in ductions is usually evident, patients with fourth nerve palsy generally have grossly full ocular motility. On occasion, the clinician may detect some impairment of depression with the eye in adduction, but often this is subtle and easily overlooked. The technique to assist in the diagnosis of a fourth nerve palsy is the Parks–Bielschowsky 3-step test. PARKS–BIELSCHOWSKY 3-STEP TEST Over a century ago, Nagel and later Hofmann and Bielschowsky recognized the importance of the cycloduction function of the oblique muscles (12). This led Hofmann and Bielschowsky to investigate why many patients with superior oblique palsy habitually tilt their head to one shoulder. They found that with head tilt

Parks 3 Step test - YouTube

Rosa Parks is best known for refusing to give up her seat on a segregated bus in Montgomery, Alabama, in 1955, which sparked a yearlong boycott that was a turning point in the civil rights movement. However, there was much more to Parks' life. Born in Alabama in 1913, she grew up in a segregated world that constantly exposed her to discrimination. Before her defiant act on that bus, she'd already fought back against injustice by joining the National Association for the Advancement of Colored People (NAACP) and investigating crimes committed against Black people.After the bus boycott, Parks continued to participate in the civil rights movement. She attended the March on Washington in 1963 and in 1965 witnessed the signing of the Voting Rights Act. Her later years saw Parks' work recognized with the Presidential Medal of Freedom and the Congressional Gold Medal.The following timeline covers notable events and achievements in Parks' long and remarkable life:February 4, 1913: Rosa Louise McCauley born in Tuskegee, Alabama to James and Leona McCauley 1919: A six-year-old Parks begins picking cotton alongside her grandparents. She also starts attending a segregated school in Pine Level, Alabama.1924: As there is no local school for Black children to attend after the sixth grade, McCauley goes to Miss White’s Montgomery Industrial School for Girls in Montgomery, Alabama.1929: Parks leaves school in the 11th grade to care for her ill grandmother and mother.1931: While Parks is working as a housekeeper for a white family, a white neighbor attempts to rape her.1931: Parks is introduced to Raymond Parks, whom she later described as being the first activist she encountered.December 18, 1932: Rosa weds Raymond ParksA photograph of Raymond Parks; Photo: Matt McClain/ The Washington Post via Getty Images1933: Parks returns to school and obtains her high school diploma, a notable accomplishment at a time when very few Black people in Alabama held this degree.1941: Parks starts work at Maxwell Air Force Base, which has an integrated cafeteria and trolley system.December 1943: Parks joins the Montgomery branch of the NAACPAs the only woman at her first meeting, she is named secretary of the group. Parks' work for the NAACP will also include investigating crimes against Black people such as murder, assaults and police brutality. Parks attempts to register to vote but is told she failed the literacy test required of Black voters.September 1944: Recy Taylor, a Black woman, is gang-raped by six white men. The Montgomery NAACP dispatches Parks to investigate the case. Parks helps establish the Committee for Equal Justice for the Rights of Mrs. Recy Taylor to advocate for legal action against Taylor's assailants. The case becomes national news but the rapists are never convicted.Recy Taylor; Photo: ©HBO Documentary. The Parks 3 step test is also known as Parks-Bielschowsky three-step test, Park’s three-step test, or Bielschowsky head tilt test. The Parks 3 step test is also known as Parks-Bielschowsky three-step test, Park’s three-step test, or Bielschowsky head tilt test.