1 / 27

Neurology Case presentation

Neurology Case presentation. Kimberly Johnson, MD, PGY-2. HPI. 53 y/o gentleman who presented to the ED with dizziness and was found to have blood pressure of 297/132. He was admitted for hypertensive crisis and started on a nitro drip and later switched to a cardene drip.

edie
Download Presentation

Neurology Case presentation

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Neurology Case presentation Kimberly Johnson, MD, PGY-2

  2. HPI • 53 y/o gentleman who presented to the ED with dizziness and was found to have blood pressure of 297/132. He was admitted for hypertensive crisis and started on a nitro drip and later switched to a cardene drip. • On HD #1, patient woke with trouble swallowing, feeling dizzy when sitting up and having double vision that improved when he closed one eye • On assessment patient was thought to have possible left eye lid droop. Neurology was stat consulted.

  3. Cont HPI • PMH: Smoking for 25 years ( 1.5 ppd) • MEDS: On admission no medications. • On transfer to neurology: amlodipine and aspirin, lovenox, • Family history: DM, Hypertension • Social history: Worked in construction

  4. Physical Exam • General: Well nourished obese gentleman in no acute distress • HEENT: NCAT, Nares Patent, Trachea midline • Cardiac: RRR, no murmurs heard • Resp: CTA bilaterly

  5. Neurological Exam • Mental Status: Awake, alert, oriented x4 • Speech: Able to name, repeat, comprehend, with moderate dysarthria • Cranial Nerves: Significant for right sided miosis, left side equally reactive to light, EOMI, visual field/acuity normal. Decreased temp sensation on right side of face. TRAP/SCM strength 5/5, palate raises symmetrically, tongue midline. • Motor Strength: Normal bulk and tone with 5/5 strength throughout in upper and lower extremities. • DTRs: 2+ in bicep, tricep,brachielradialis,patellar, 1+ in ankles, toes downgoing bilaterally • Sensation: Normal light touch throughout, decreased temperature on left arm • Coordination: Finger to nose intact, heel to shin slow, but intact • Gait: Feeling unsteady, leaning to the right, able to ambulate with walker

  6. Localization • Where • What

  7. MRI findings

  8. Wallenberg Syndrome • First described in Dr. Vieusseux in 1808, then by Dr. Adolf Wallenberg in 1895 clinically and 1901 by autopsy. • Caused by occlusion of the posterior inferior cerebellar artery or a branch off the vertebral artery • Most commonly affected arteries in order are Vertebral, PICA, Superior middle and inferior medullary artery. • This is the most common Posterior circulation infarct

  9. Lateral medullary syndrome (location) symptoms

  10. Lateral medullary syndrome (location) symptoms

  11. Nucleus ambiguus • The nucleus ambiguus (literally "ambiguous nucleus") • Located dorsal (posterior ) to inferior olivary nucleus in the lateral portion of upper medulla. • Recieves UMN innervation directly via corticobulbar tract. • Nucleus gives rise to branchial efferent fibers of Vagus N, (Innervating laryngeal, pharyngeal and uvulae muscles) • Also efferent motor fibers of Glossopharyngeal N. (Innervating stylopharyngeus muscle) and Accessory N (Laryngeal muscles as well)

  12. Wallenberg Syndrome and Dysphagia • Dysphagia is a disorder of deglutition. • Affects Oral, Pharyngeal, and/or Esophageal phases of swallowing. • Estimates of the incidence vary widely from 29% to 81% • Specifically for Lateral Medullary infarcts vary from 55 % - 100% • Aspiration was found to range from 22 – 55%, with nearly half of these being silent aspirations. • Nutritional needs post stroke have been shown to have significant affects on recovery.

  13. Table 1: Micronutrients and mechanisms through which their deficiencies induce cerebrovascular alterations and increase the risk of stroke.

  14. Back to our patient’s dysphagia • Patient had Video Swallow on 3/23/12 • Oral Stage Summary*: Patient had significant difficulty with PO intake, coughing, and poor management of secretions. • Pharyngeal Stage Summary*: Pharyngeal stage characterized by delayed swallow initiation with the bolus head in the pyriforms for tsp of nectar thick liquid. Overall movements of the swallow were considered inconsistent which may be due to etiology of the stroke (brain stem) but also due to frequent movement, coughing, expectoration due to reduced management of secretions. • Prognosis*: Fair • Dysphagia Rating*: Moderately-Severe Dysphagia -Not able to swallow safely by mouth for nutrition/hydration but may take some consistency w/ consistent max cues in therapy only. Alternative method of feeding required. • Penetration Aspiration Scale*: Material enters laryngeal vestibule, passes below vocal folds & no effort is made to eject • PEG tube placed on HOD #7. Continued Speech therapy.

  15. Our patient’s story continued. • Repeat swallow study on Post stroke day 15 patient was able to take Mechanical soft, with nectar thickened liquids. • Taking in <50% of calories to maintain adequate nutrition. • Patient discharged home with PEG tube in place, with plan for removal 2 weeks after discharge. • Patient will Outpatient Speech therapy but was uninsured and has not been seen yet in follow up.

  16. Conclusion • Dysphagia is a common consequence of lateral medullary infarcts. • Consequence of dysphagia is aspiration, with 50% being silent, with patient’s facing the complication of aspiration pneumonia • PEG tube placement vs NG tubes • Patient’s will regain their ability to be able to have oral nutrition adequate for their needs • Understanding malnutrtion and its role in stroke recovery is critical in our patients returning to their pre-stroke quality of life.

  17. References • Bath PMW, Bath-Hextall FJ, Smithard D. Interventions for dysphagia in acute stroke (Review). The Cochrane Library 2009, Vol. 1 • M Dennis, S Lewis, G Cranswick and J Forbes, on behalf of the FOOD Trial Collaboration. FOOD: a multicentre randomised trial evaluating feeding policies in patients admitted to hospital with a recent stroke. Health Technology Assessment 2006; Vol. 10: No. 2 • ANTHONY J, KAPIL K, A. BARNEY H. Long-term outcome of percutaneous endoscopic gastrostomy feeding in patients with dysphagic stroke. Age and Ageing 1998; 27: 671 -676 • Bouziana SD Tziomalos K. Malnutrition in Patients with Acute Stroke. Journal of Nutrition and Metabolism Volume 2011, Article ID 167898, 7 pages • Marik PE and Kaplan D. Aspiration Pneumonia and Dysphagia in the Elderly*, Chest 2003;124;328-336 • Gloss D, Weisberg L. Neurlogy for the Specialty Boards, 2007, 1st Edition • http://www.neuroanatomy.wisc.edu/virtualbrain/BrainStem/09NA.html

  18. Frequency of Vascular Occlusive lesions in a registry of posterior circulation infarcts Includes only lesions of the first portion of the ECVA. Distal ECVA dissections were not included.

  19. Transverse section of the upper medulla

More Related