Large Animal Neurology. Joe Mayhew
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Название: Large Animal Neurology

Автор: Joe Mayhew

Издательство: John Wiley & Sons Limited

Жанр: Биология

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isbn: 9781119477198

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СКАЧАТЬ many normal adult horses have slightly to moderately asymmetric temporalis musculature covering the temporal fossae (arrows)."/>

       Body

      Neck and thoracic limbs

      Attention is immediately moved to the neck where bone and muscle symmetry is assessed by close palpation, and the local cutaneous coli and cervicofacial responses are seen and felt. A solid blunt instrument, such as 15–25 cm artery forceps or needle holders, is best for performing this and other cutaneous testing. On occasion, with a very frightened patient, the tip of a rigid index finger may have to suffice as being better tolerated. A firm thrust needs to be applied over sites at the level of and 10–15 cm dorsal to the articular processes of cervical vertebrae to consistently induce these cervical responses. The two‐pinch technique is used to test cervical dermatomes and to test limb autonomous zones for areas of hypalgesia if a reflex suppression or a final motor neuron lesion are suspected. Regional muscle atrophy, bony asymmetry, and areas of sweating are to be noted.

      Trunk and pelvic limbs

      Testing can continue caudally to transfer to the thorax testing the cutaneous trunci reflex over the mid‐third of the lateral thorax, again with forceful stimuli. There is a variable region over the point of the shoulder, about the C7–T3 dermatomal region, where neither responses are well obtained, and the cutaneous trunci reflex usually fades in the caudal thoracic region. Flexion, extension, and lateral bending of the thoracolumbosacral vertebral column is then conveniently tested with the instrument used to firmly stroke the lateral dorsum from the withers to the caudal gluteal region. Again, the two‐pinch technique is used to test lateral thoracic dermatomes and to test limb autonomous zones for areas of hypalgesia if there is any evidence whatsoever of a reflex or final motor neuron lesion. Regional loss of muscle bulk, bony asymmetry, and areas of sweating also should invoke detailed scrutiny.

      Rectum, bladder, anus, and tail

      Tail extension and flexion is evaluated during anal reflex and perineal sensory testing. A strong, blunt‐probe stimulus applied to the anal ring results in a brisk anal contraction and flexion (clamping) of the tail, whereas a light stimulus results in an anal reflex alone, and a soft, tactile stroking stimulus results in tail extension.

       Gait and posture

       The evaluation of posture and gait comprises the following minimal components:

       Observing the patient walking in a straight line viewed from the side as well as from behind and in front.

       Firmly but not abruptly pulling laterally on the tail with the patient standing still and while the patient is being walked forward.

       Assessing stride length and trajectory and placement of all four limbs both while walking freely and while the tail is pulled to each side in turn.

       Trotting the patient away from and back toward the examiner.

       Watching the patient being walked in circles and turning very tightly in circles in both directions.

       Taking the patient oneself and, by walking backward, leading the patient forward in a serpentine path to observe limb placement. In this maneuver, one leads in a manner such that the direction of each forefoot in turn is required to change direction during its swing phases.

       Leading the patient oneself to walk in circles and to turn tightly in circles in both directions.

       Continuing these maneuvers while pulling on the lead rope and the tail simultaneously, assessing limb placement and strength of resistance.

       Releasing the tail abruptly after stopping from turning tightly to observe for adoption of and standing with abnormal limb positions.

       Hopping the patient on at least the thoracic limbs (Figure 2.4).

      Manually placing the limbs in abnormal positions and placing them with the dorsum of the hoof resting on the ground are not useful in detecting neurologic motor or proprioceptive abnormalities in our hands. Likewise, the use of a sliding sack under one weight‐bearing foot in turn never alone appears to add information regarding the assessment of conscious proprioception.

Photo depicts performing postural reactions such as hopping on one thoracic limb as shown can express underlying neurologic deficits.

      All other limb reflex testing in adult patients really does not usefully contribute to a neuroanatomic diagnosis and results of such additional limb reflex testing should not be used to alter a neuroanatomic diagnosis achieved by the interpretation of results of the remainder of the examination. Finally, poor or absent reflexes can be found in a heavy patient very soon after the onset of recumbency, presumably due to mechanical and decubital effects.

      At the conclusion of the gait evaluation, any issue that is unclear can be returned to for further evaluation and confirmation, and further testing can be considered as appropriate. As suggested above, this will frequently include observations while blindfolded, hemiwalking, hopping on pelvic limbs, wheel barrowing on thoracic limbs with head and neck held extended, after exercise, up and down slopes, and when performing any expected tasks.

      For documentation, further study, and СКАЧАТЬ