Lateral Medullary Syndrome
Vertebral Artery
Sensation Disorders
Medulla Oblongata
Analysis of the perception of and reactivity to pain and heat in patients with wallenberg syndrome and severe spinothalamic tract dysfunction. (1/40)
BACKGROUND: The aim of the study was to assess the consequences of severe spinothalamic tract lesions resulting from lateral medullary infarct and to show that a specific pain perception can be elicited by strong thermal stimulation. CASE DESCRIPTIONS: Both patients examined presented with severe thermoalgic dissociation of the limbs contralateral to the lesion, with normal discriminative somatosensory perception and motor strength. They reported pain perception when touching very warm (>50 degrees C to 60 degrees C) objects and a brisk, occasionally uncontrolled withdrawal reaction of the arm and hand under the same conditions, without any perception of the heat nature of the stimulus. Warm stimulation, <45 degrees C, elicited no thermal perception or discrimination. Pain perception could be elicited in both patients by increasing the temperature, with a reproducible threshold of 47 degrees C to 49 degrees C. Pain always occurred after a prolonged delay of 8 to 10 seconds in response to threshold heat, and was described as deep and osseous, and clearly different from that perceived on the nonaffected side. The delay was much shorter when the temperature was increased by 4 degrees C to 5 degrees C. Cold stimulation elicited similar pain perception in one patient. Analysis of subjective perception of laser stimulation showed a much higher pain threshold on the affected hand. There were no laser-evoked potentials on this side, which suggested major spinothalamic injury. Assessment of the RIII noxious reflex revealed persistent response withdrawal reactions, with an increased threshold on the affected side, and partial consciousness of the noxious nature of the stimulus. CONCLUSIONS: To our knowledge, this is the first description of the appearance of pain perception of high temperatures in patients with severe spinothalamic injury who are suffering from a complete loss of temperature perception. This implies that noxious thermal stimulation can still be perceived via extra spinothalamic pathways (which are slow and multisynaptic), such as the spinoreticulothalamic tract. Patients with Wallenberg syndrome should be informed and made aware of their residual perception of and reactions to noxious stimulation. (+info)Blink reflex R2 changes and localisation of lesions in the lower brainstem (Wallenberg's syndrome): an electrophysiological and MRI study. (2/40)
OBJECTIVES: Pathways of late blink reflexes are detected by high resolution MRI. Electronically matched stroke lesions superimposed to an anatomical atlas show the suspected course. METHODS: Fifteen patients with infarction of the lower brainstem, MRI lesions and electrically elicited blink reflexes were examined. The involved structures in patients with R2 and R2c blink reflex changes were identified by biplane high resolution MRI with individual slices matched to an anatomical atlas at 10 different levels using digital postprocessing methods. RESULTS: The blink reflexes were normal in five of 15 patients (33%) and showed loss or delay of R2 and R2c to stimulation ipsilaterally to lesion (R2-i and R2c-i) in eight (53%). Loss or delay of R2-i/R2c-i was seen in lesions covering the entire trigeminal spinal tract and nucleus (TSTN) at at least one level. These infarctions were located more dorsally within the medulla. Patients with normal blink reflexes showed lesions sparing or involving the TSTN only partially. They more often had incomplete Wallenberg's syndromes and MRI lesions were located more ventrally. CONCLUSIONS: Using digital postprocessing MRI methods it was possible to identify central pathways of late blink reflex in patients with Wallenberg's syndrome. This method is suggested as a new approach to identify incompletely understood functional structures of the brainstem. (+info)Sensory sequelae of medullary infarction: differences between lateral and medial medullary syndrome. (3/40)
BACKGROUND AND PURPOSE: A comparison between long-term sensory sequelae of lateral medullary infarction (LMI) and medial medullary infarction (MMI) has never been made. METHODS: We studied 55 patients with medullary infarction (41 with LMI and 14 with MMI) who were followed up for >6 months. We examined and interviewed the patients with the use of a structured format regarding the most important complaints, functional disabilities, and the presence of sensory symptoms. The nature and the intensity of sensory symptoms were assessed with the modified McGill-Melzack Pain Questionnaire and the visual analog scale, respectively. RESULTS: There were 43 men and 12 women, with an average age of 59 years. Mean follow-up period was 21 months. The sensory symptoms were the most important residual sequelae in LMI patients and the second most important in MMI patients. In LMI patients, the severity of residual sensory symptoms was significantly related to the initial severity of objective sensory deficits (P<0.05). Sensory symptoms were most often described by LMI patients as numbness (39%), burning (35%), and cold (22%) in the face, and cold (38%), numbness (29%), and burning (27%) in the body/limbs, whereas they were described as numbness (60%), squeezing (30%) and cold (10%), but never as burning, in their body/limbs by MMI patients. LMI patients significantly (P<0.05) more often cited a cold environment as an aggravating factor for the sensory symptoms than did the MMI patients without spinothalamic sensory impairment. The subjective sensory symptoms were frequently of a delayed onset (up to 6 months) in LMI patients, whereas they usually started immediately after the onset in MMI patients. CONCLUSIONS: Our study shows that sensory symptoms are major sequelae in both LMI and MMI patients. However, the nature, the mode of onset, and aggravating factors are different between the 2 groups, which probably is related to a selective involvement of the spinothalamic tract by the former and the medial lemniscus by the latter. We suggest that the mechanisms for the central poststroke pain or paresthesia may differ according to the site of damages on the sensory tracts (spinothalamic tract versus medial lemniscal tract). (+info)Posterior fossa arteriovenous malformation associated with persistent primitive trigeminal artery--case report. (4/40)
A 21-year-old female presented with an unusual case of posterior fossa arteriovenous malformation (AVM) associated with ipsilateral persistent primitive trigeminal artery (PPTA), manifesting as intraparenchymal hemorrhage involving both the brain stem and the left cerebellar hemisphere. The presenting symptoms were compatible with Wallenberg's syndrome and Foville's syndrome on the left side. She was initially treated conservatively, and subsequently with transarterial embolization followed by stereotactic radiosurgery. This case combined the rare association of posterior fossa AVM and PPTA, with the clinical presentation of intraparenchymal hemorrhage causing both Wallenberg's syndrome and Foville's syndrome. (+info)Brain stem stroke causing baroreflex failure and paroxysmal hypertension. (5/40)
BACKGROUND: Paroxysmal neurogenic hypertension has been associated with a variety of diseases affecting the brain stem but has only rarely been reported after brain stem stroke. The mechanism is thought to involve increased sympathetic activity and baroreflex dysfunction. We undertook microneurographic recordings of muscle sympathetic nerve activity (MNSA) during beat-to-beat blood pressure (BP) monitoring to investigate this hypothesis. CASE DESCRIPTION: We investigated a 75-year-old woman who developed paroxysmal hypertension (BP 220/110 mm Hg) after a large left-sided medullary infarct. The paroxysms were triggered by changes in posture and were accompanied by tachycardia, diaphoresis, and headache. Serum catecholamines were substantially increased (norepinephrine level, 23.9 nmol/L 9 days after stroke; normal level, <3.8 nmol/L), and heart rate variability, measured by spectral analysis, was decreased in both low- and high-frequency domains (0.04 and 0.06 ms(2), respectively; normal level, 0.14+/-0.02 ms(2)). MNSA was increased in frequency (61 bursts per minute; normal level, 34+/-18 bursts per minute), and the burst amplitude was not inversely related to diastolic BP. BP and MNSA responses to cold pressor and isometric handgrip stimuli were intact. CONCLUSIONS: Extensive unilateral infarction of the brain stem in the region of the nucleus tractus solitarius may result in partial baroreflex dysfunction, increased sympathetic activity, and neurogenic paroxysmal hypertension. (+info)Dysphagia in lateral medullary infarction (Wallenberg's syndrome): an acute disconnection syndrome in premotor neurons related to swallowing activity? (6/40)
BACKGROUND AND PURPOSE: We have investigated the pathophysiological mechanisms of dysphagia in Wallenberg's syndrome (WS) that are due to lateral medullary infarction (LMI). METHODS: Twenty patients with WS were evaluated by means of clinical and electrophysiological methods that measured the oropharyngeal phase of voluntarily initiated swallowing. For comparison, 22 patients with unilateral hemispheric infarction were investigated during the acute stage of stroke, and 4 patients with unilateral peripheral 9th and 10th cranial nerve palsies were studied. Age-matched 30 healthy control subjects were also included in the study. RESULTS: It was found that dysphagia was clinically more severe in WS patients than in the patients in the other groups. The pharyngeal phase of swallowing was predominantly impaired, whereas in patients with hemispheric stroke, dysphagia was related only to the delay of triggering of the voluntarily induced swallowing. In WS patients, the swallowing reflex was extremely slow in spite of the unilateral involvement due to LMI, whereas the pharyngeal phase of reflex swallowing remained within normal limits in patients with unilateral hemispheric stroke and patients with unilateral peripheral 9th and 10th cranial nerve palsies. CONCLUSIONS: Although in WS the lesion due to LMI is unilateral, its effect on oropharyngeal swallowing is bilateral. In LMI, primarily the premotor neurons in the nucleus ambiguous and their connections seem to be affected. Consequently, a disruption and/or disconnection of their linkage to swallowing-related cranial motor neuron pools bilaterally and to the contralateral nucleus ambiguous could produce the swallowing disorders in WS. However, the remaining intact ipsilateral premotor neurons and the contralateral center in the medulla oblongata may eventually begin to operate and overcome the severity and long-term persistence of dysphagia. (+info)Neurofibromatosis type 1 with basilar artery fusiform aneurysm manifesting Wallenberg's syndrome. (7/40)
A case of neurofibromatosis type 1 (NF1) manifesting Wallenberg's syndrome and fusiform aneurysm of the basilar artery is reported. The patient suddenly developed dysarthria, walking difficulty and sensory disturbance. Neurological examination suggested Wallenberg's syndrome and MR imaging confirmed an ischemic lesion at the left lateral medulla oblongata. Cerebral angiography revealed a fusiform aneurysm at the middle portion of the basilar artery. However, there was no occlusive change in either the posterior inferior cerebellar artery or the vertebral artery. The clinical and radiological features are discussed together with a review of NF1 cases with intracranial aneurysms in the literature. (+info)Delayed central respiratory dysfunction after Wallenberg's syndrome--case report. (8/40)
A 68-year-old man presented with Wallenberg's syndrome consisting of ataxia, dysphagia, hypesthesia on the left side of the body, and Horner's syndrome on the right. Magnetic resonance (MR) imaging revealed a right lateral medullary infarction and small multiple lacunae scattered in the upper medulla. Neurological symptoms improved in a week and the patient was discharged with mild residual hypesthesia on the left side. However, 31 days later, he was emergently admitted after suddenly becoming apneic and losing consciousness. MR imaging detected no new lesion. The patient was placed under ventilation support for 48 hours before regaining normal respiratory function. Medullary infarction sometimes causes catastrophic respiratory failure, but Wallenberg's syndrome caused by lateral medullary infarction is rarely associated with central respiratory dysfunction, and delayed onset of central respiratory dysfunction is extremely unusual. Delayed onset of central respiratory failure is a life-threatening complication of the medullary infarction causing Wallenberg's syndrome, which in general is not recognized. (+info)Lateral Medullary Syndrome, also known as Wallenberg's syndrome, is a type of stroke that affects the lateral part (side) of the medulla oblongata, which is a structure at the lower end of the brainstem. This condition is typically caused by a blockage or narrowing of the posterior inferior cerebellar artery (PICA), leading to infarction (tissue death due to lack of blood supply) in this area.
The lateral medulla contains several important nerve tracts and nuclei that are responsible for various functions, including:
1. Pain and temperature sensation from the face and body
2. Facial movements and sensations
3. Eye movement control
4. Hearing
5. Vestibular function (balance)
6. Swallowing and cough reflexes
7. Cardiovascular regulation
As a result, individuals with Lateral Medullary Syndrome may experience various symptoms such as:
- Ipsilateral (same side) facial pain and temperature sensation loss
- Contralateral (opposite side) body pain and temperature sensation loss
- Vertigo, dizziness, or unsteady gait due to vestibular dysfunction
- Difficulty swallowing and hoarseness
- Horner's syndrome (drooping eyelid, small pupil, and decreased sweating on the affected side of the face)
- Nystagmus (involuntary eye movement)
- Hiccups
- Ipsilateral (same side) limb ataxia (lack of coordination)
The severity and combination of symptoms may vary depending on the extent and location of the infarction. Treatment typically involves managing underlying risk factors, such as hypertension or diabetes, and providing supportive care to address specific symptoms.
The vertebral artery is a major blood vessel that supplies oxygenated blood to the brain and upper spinal cord. It arises from the subclavian artery, then ascends through the transverse processes of several cervical vertebrae before entering the skull through the foramen magnum. Inside the skull, it joins with the opposite vertebral artery to form the basilar artery, which supplies blood to the brainstem and cerebellum. The vertebral artery also gives off several important branches that supply blood to various regions of the brainstem and upper spinal cord.
Sensation disorders are conditions that affect the nervous system's ability to receive and interpret sensory information from the environment. These disorders can affect any of the five senses, including sight, hearing, touch, taste, and smell. They can result in symptoms such as numbness, tingling, pain, or loss of sensation in various parts of the body.
Some common types of sensation disorders include:
1. Neuropathy: A disorder that affects the nerves, often causing numbness, tingling, or pain in the hands and feet.
2. Central pain syndrome: A condition that results from damage to the brain or spinal cord, leading to chronic pain.
3. Tinnitus: A ringing or buzzing sound in the ears that can be a symptom of an underlying hearing disorder.
4. Ageusia: The loss of taste sensation, often caused by damage to the tongue or nerves that transmit taste information to the brain.
5. Anosmia: The loss of smell sensation, which can result from a variety of causes including injury, infection, or neurological disorders.
Sensation disorders can have significant impacts on a person's quality of life and ability to perform daily activities. Treatment may involve medication, physical therapy, or other interventions aimed at addressing the underlying cause of the disorder.
The medulla oblongata is a part of the brainstem that is located in the posterior portion of the brainstem and continues with the spinal cord. It plays a vital role in controlling several critical bodily functions, such as breathing, heart rate, and blood pressure. The medulla oblongata also contains nerve pathways that transmit sensory information from the body to the brain and motor commands from the brain to the muscles. Additionally, it is responsible for reflexes such as vomiting, swallowing, coughing, and sneezing.
A syndrome, in medical terms, is a set of symptoms that collectively indicate or characterize a disease, disorder, or underlying pathological process. It's essentially a collection of signs and/or symptoms that frequently occur together and can suggest a particular cause or condition, even though the exact physiological mechanisms might not be fully understood.
For example, Down syndrome is characterized by specific physical features, cognitive delays, and other developmental issues resulting from an extra copy of chromosome 21. Similarly, metabolic syndromes like diabetes mellitus type 2 involve a group of risk factors such as obesity, high blood pressure, high blood sugar, and abnormal cholesterol or triglyceride levels that collectively increase the risk of heart disease, stroke, and diabetes.
It's important to note that a syndrome is not a specific diagnosis; rather, it's a pattern of symptoms that can help guide further diagnostic evaluation and management.
Lateral medullary syndrome
Vertebral artery dissection
Myoclonic triangle
Posterior inferior cerebellar artery
Medial vestibular nucleus
Medulla oblongata
Wartenberg's syndrome
Weber's syndrome
Trigeminal nerve
Jefferson fracture
Wallenberg
Vertigo
List of MeSH codes (C10)
Lateral pontine syndrome
Nystagmus
Anterior inferior cerebellar artery
Dissociated sensory loss
Horner's syndrome
Adolf Wallenberg
Medial pontine syndrome
Bulbar palsy
List of MeSH codes (C14)
Medial medullary syndrome
Brainstem stroke syndrome
List of syndromes
Chromosome 9
List of neurological conditions and disorders
Zona incerta
Gaspard Vieusseux
Chromosome 22
Lateral medullary syndrome - Wikipedia
Vertebrobasilar Stroke: Overview, Anatomy of the Vertebral and Basilar Arteries, Pathophysiology of Vertebrobasilar Stroke
Trigeminal Nerve Anatomy: Gross Anatomy, Branches of the Trigeminal Nerve, Microscopic Anatomy
Evaluation and Treatment of Swallowing Impairments | AAFP
restless legs syndrome - Ontology Browser - Rat Genome Database
MESH TREE NUMBER CHANGES - 2008 MeSH
Limb-Mammary Syndrome - Ontology Browser - Rat Genome Database
Biomarkers Search
Wallenberg Syndrome - EyeWiki
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Meaghan K. Frederick, MD
Vertebrobasilar Stroke: Overview, Anatomy of the Vertebral and Basilar Arteries, Pathophysiology of Vertebrobasilar Stroke
Vertebrobasilar Stroke: Overview, Anatomy of the Vertebral and Basilar Arteries, Pathophysiology of Vertebrobasilar Stroke
Trigeminal Nerve Anatomy: Gross Anatomy, Branches of the Trigeminal Nerve, Microscopic Anatomy
Code System Concept
MeSH Browser
MeSH Browser
Browsing by Author "Akyuz, A"
MESH TREE NUMBER CHANGES - 2008 MeSH
Bio2Vec
Classical stroke syndromes | Deranged Physiology
Atrial Flutter (Clinical) | Concise Medical Knowledge
MESH TREE NUMBER CHANGES - 2008 MeSH
MESH TREE NUMBER CHANGES - 2008 MeSH
MESH TREE NUMBER CHANGES - 2008 MeSH
Dysphagia3
- citation needed] Common symptoms with lateral medullary syndrome may include difficulty swallowing, or dysphagia. (wikipedia.org)
- Dysphagia due to pharyngeal weakness , nausea, vomiting, and Horner's syndrome may resulted in the proximal PC territory Infarcts. (symptoma.com)
- Lateral medullary syndrome/Wallenberg syndrome is a stroke in the lateral medulla with symptoms often including dysphagia and dysphonia. (emory.edu)
Wallenberg12
- One of the most unusual and difficult to treat symptoms that occur due to Wallenberg syndrome are interminable, violent hiccups. (wikipedia.org)
- We present a case of Wallenberg syndrome presented with persistent history of giddiness, nausea, vomiting, regurgitation of food into mouth, hemiparesis, sensory symptoms and ataxia. (jebmh.com)
- When neurologic dysfunction does occur, patients most commonly report symptoms attributable to lateral medullary dysfunction (ie, Wallenberg syndrome). (medscape.com)
- 7. Describe the lateral medullary syndrome of Wallenberg. (dentaldevotee.com)
- So far there has been no report focusing on VM diag-nosed concurrently with Wallenberg syndrome. (netlify.app)
- Wallenberg syndrome, or lateral medullary infarction, is associated with the acute onset of vertigo and disequilibrium. (netlify.app)
- Swyers syndrom (gonadal dysgenesi, XY) A vertebralis, a cerebelli inferior posterior - PICA (Wallenberg) Grant BJD, Uptodate: "Diagnosis of suspected deep vein thrombosis of the lower but because, having propagated the growth syndrome" (min kursivering). (netlify.app)
- People with Muckle-Wells syndrome have recurrent "flare-ups" that begin during at Blasieholmsgatan 3, in the heart of the Wallenberg family business sphere. (netlify.app)
- Wallenberg syndrome (lateral medullary syndrome/stroke) refers to a cerebrovascular occlusion that occurs in either the vertebral Aug 10, 2020 It is also commonly known as Wallenberg's syndrome or posterior inferior cerebellar artery syndrome (PICA). (netlify.app)
- For the best up to date information relating to Wigan and the surrounding areas visit and powerful Wallenberg family's EQT, said theSwedish tax authorities would phone muse stockholm syndrome release Hur gör man en qr kod betalning. (netlify.app)
- The most common cause is a lateral medullary infarction, which produces a Horner syndrome as part of the Wallenberg syndrome. (netlify.app)
- Näringslivets kungafamilj inne i ett maktskifte - vad ska familjen Wallenberg Sinding Larsen and Johansson syndrome info Sinding Larsens Siwes disease info Sjogren Stay up to date with the latest Gustaf Torsten. (netlify.app)
Infarction4
- Brain MRI showed acute infarction in the left lateral medulla ( Figure 1a ). (biomedres.info)
- Lateral medullary infarction (Wallenberg's syndrome) is a relatively common vertebrobasilar vascular syndrome. (hippokratia.gr)
- However, ipsilateral hemiparesis as part of lateral medullary infarction is rare, and is known as Opalski's syndrome 1 . (hippokratia.gr)
- The most common cause is Dec 19, 2017 A large infarction of the PICA classically causes symptoms of lateral medullary syndrome (i.e. (netlify.app)
Wallenberg's7
- Lateral medullary syndrome is also called Wallenberg's syndrome, posterior inferior cerebellar artery (PICA) syndrome and vertebral artery syndrome. (wikipedia.org)
- Also called Wallenberg's syndrome. (medicowesome.com)
- We describe a rare case of Wallenberg's syndrome caused by occlusion of a nondominant vertebral artery induced by head rotation. (nih.gov)
- Further studies proved that MCS could also relieve trigeminal neuropathic pain and central pain in Wallenberg's syndrome. (bmj.com)
- He suffered from Wallenberg's syndrome (lateral medullary infarct), but successfully recovered after intensive rehabilitation. (hannekekalf.nl)
- intense cycling ride), and signs and symptoms fitted Wallenberg's syndrome. (netlify.app)
- This syndrome is most often due to vertebral artery occlusion or, Jun 15, 2020 Patients with lateral medullary stroke (Wallenberg's syndrome) present Available at: https://www.uptodate.com/contents/posterior-circulation- Jun 19, 2016 WHAT IS IT? (netlify.app)
Cerebellar4
- It is the clinical manifestation resulting from occlusion of the posterior inferior cerebellar artery (PICA) or one of its branches or of the vertebral artery, in which the lateral part of the medulla oblongata infarcts, resulting in a typical pattern. (wikipedia.org)
- Inferior cerebellar peduncle in medullary and middle cerebellar peduncle in pons. (medicowesome.com)
- The following are not considered lacunes: multiple simultaneous small deep infarcts, lateral medullary infarcts, and cerebellar infarcts. (bmc.org)
- It usually occurs in patients with obstruction of the vertebral artery, posterior infer-ior cerebellar artery (PICA) or lateral modularly arteries. (netlify.app)
Infarct5
- Patients with a clinical lacunar stroke syndrome and no infarct on imaging are excluded. (bmc.org)
- Brain magnetic resonance imaging scan showing infarct in the left lateral medulla with hyperintensity on Diffusion-weighted imaging ( A ) and hypodensity on apparent diffusion coefficient ( B ) (white arrow). (ajtmh.org)
- Dominant hemisphere infarct is often associated expressive aphasia where as non-dominant infarct is associated with neglect syndrome. (neuroradiologycases.com)
- Dominant hemisphere infarct often associated with global aphasia that is expressive and receptive where as non-dominant hemisphere infarct is characterized by neglect syndrome and impairment of visuospatial skills like drawing, copying, dressing. (neuroradiologycases.com)
- Dominant hemisphere involvement result in an associated global aphasia where as non-dominant hemispheric infarct is associated with a neglect syndrome.The major clinical difference between a proximal and distal MCA stem occlusion is that with a proximal lesion the leg is plegic as well. (neuroradiologycases.com)
Spinothalamic tract2
- Specifically a loss of pain and temperature sensation if the lateral spinothalamic tract is involved. (wikipedia.org)
- Lateral spinothalamic tract affected. (medicowesome.com)
Medulla1
- Lateral medullary syndrome is a neurological disorder causing a range of symptoms due to ischemia in the lateral part of the medulla oblongata in the brainstem. (wikipedia.org)
Horner's4
- Damage to the hypothalamospinal fibers disrupts sympathetic nervous system relay and gives symptoms that are similar to the symptoms caused by Horner's syndrome - such as miosis, anhidrosis and partial ptosis. (wikipedia.org)
- Ipsilateral horner's syndrome. (medicowesome.com)
- Question 4 - Which of the following statements is correct with regards to Horner's syndrome? (passmed.uk)
- The characteristics of Horner's syndrome are pupil constriction, partial ptosis and anhidrosis. (passmed.uk)
Pontine syndrome1
- What is lateral pontine syndrome? (medicowesome.com)
Contralateral1
- Benedict syndrome (BS) is caused by a stroke in the midbrain and usually presents as an ipsilateral oculomotor nerve palsy with contralateral hemi- tremor . (symptoma.com)
Ipsilateral2
- When ipsilateral hemiplegia is associated with symptoms of a lateral medullary syndrome, it corresponds to the submedullary syndrome of Opalski. (hippokratia.gr)
- left-sided ipsilateral Homer's syndrome. (symptoma.com)
PICA1
- The most commonly affected artery is PICA, specifically the lateral medullary segment. (wikipedia.org)
Lesion3
- This syndrome is characterized by sensory deficits that affect the trunk and extremities contralaterally (opposite to the lesion), and sensory deficits of the face and cranial nerves ipsilaterally (same side as the lesion). (wikipedia.org)
- lateral medullary syndrome, strikingly middle level and dorsolateral lesion locations) Tumor Abscess Tuberculoma Syrinx Hematoma Demyelination CNS infection, e. (nomer-doma.ru)
- Benedict syndrome (BS), also termed paramedian midbrain syndrome, is a rare stroke manifestation involving a lesion of the tegmentum of the midbrain. (symptoma.com)
Neurological1
- COVID-19 patients can develop various central neurological disorders, including loss of smell and taste (anosmia and ageusia, respectively), ischemic injury (stroke), encephalopathy (delirium), and encephalitis [ 1 , 2 ], but also peripheral damages such as Guillain-Barré Syndrome (GBS) [ 3 ]. (scientificarchives.com)
Etiology1
- Acute vestibular syndrome can be due to stroke, and bedside neurologic testing has been shown to be highly sensitive for detection of a central etiology, even in the setting of a negative brain MRI. (medlink.com)
Clinical6
- To analyse the clinical characteristic of Lateral Medullary Syndrome (LMS) with Ondine's curse. (biomedres.info)
- Ondine's curse, also known as Central Alveolar Hypoventilation (CAH) syndrome is a rare clinical condition characterized by the loss of automatic respiratory drive, mostly during sleep but also during wakefulness. (biomedres.info)
- We can diagnose Lateral medullary syndrome with expert clinical eye and CT/MRI of the brain. (jebmh.com)
- Stroke syndromes include a variety of syndromes with often overlapping clinical presentations. (hippokratia.gr)
- Her clinical status gradually deteriorated and she was admitted to the intensive care unit where a variety of problems, related to her diagnosis (Opalski syndrome), were managed. (hippokratia.gr)
- This topic will review the major clinical syndromes associated with posterior circulation ischemia related to stenosis or occlusion of the large aortic arch, neck, and intracranial arteries. (netlify.app)
Patients11
- Lateral medullary syndrome can also cause bradycardia, a slow heart rate, and increases or decreases in the patients average blood pressure. (wikipedia.org)
- Treatment for lateral medullary syndrome involves focusing on relief of symptoms and active rehabilitation to help patients return to their daily activities. (wikipedia.org)
- Among them, three patients had Lateral Medullary Syndrome (LMS) with Ondine's curse. (biomedres.info)
- Brain diffusion-weighted imaging of lateral medullary syndrome with Ondine's curse of three patients. (biomedres.info)
- Forty eight patients with therapy resistant chronic unilateral pain syndromes (24 each with trigeminal neuralgia (TGN) and post-stroke pain syndrome (PSP)) participated. (bmj.com)
- Information was extracted Phenotypic features from the medical records and personal All the patients had severe failure to Sanjad Sakati syndrome or hypopar- interview. (who.int)
- It is difficult to determine which patients, if any, would fit in the primary category, as it is increasingly believed that these patients represent either patients with elevated CSF pressures who are nonetheless asymptomatic or patients who have had a previously undiagnosed condition (e.g. idiopathic intracranial hypertension 3 , lymphocytic hypophysitis 6 , Sheehan syndrome 9 , etc. (radiopaedia.org)
- Previously, the term empty sella syndrome was used to denote patients with headaches and visual disturbances. (radiopaedia.org)
- In patients with Sturge-Weber syndrome, X-ray findings in the skull usually show a tram-track pattern of calcification that is caused by calcification in opposing gyri on either side of an intervening dilated sulcus. (medscape.com)
- Panoramic, lateral skull, postero-anterior skull, periapical and occlusal radiographs, as well as stone casts of the patients were examined. (bvsalud.org)
- The patients' orthodontic documentation, which included a set of radiographs (panoramic, lateral skull, postero-anterior skull, periapical and occlusal), photographs and stone casts, was used for diagnosing the cases of palatally impacted maxillary canines. (bvsalud.org)
Inferior1
- The superior division supplies the lateral frontal and superior parietal lobes, whereas the inferior division predominantly supplies the lateral temporal and inferior parietal lobes. (neuroradiologycases.com)
Horner1
- first-order Horner syndrome. (netlify.app)
Abstract1
- ABSTRACT Sanjad Sakati syndrome is a rare autosomal recessive disorder that has been described in Arabs. (who.int)
Opalski1
- We present the management of a 72 year old female patient with Opalski syndrome in our intensive care unit. (hippokratia.gr)
Ischemia2
- These symptoms include Mar 11, 2021 Brainstem stroke syndromes are a subtype of strokes which lead to ischemia of the structures of the brainstem. (netlify.app)
- One student says, "We should rule out ACS (Acute Coronary Syndrome) and mesenteric ischemia. (fivebranches.edu)
Patient1
- The patient was transported to the operating room where a valveless drain tube was placed in the anterior horn of the right lateral ventricleunder general anesthesia. (hippokratia.gr)
Nucleus1
- The main sensory nucleus receives its afferents (as the sensory root) from the semilunar ganglion through the lateral part of the pons ventral surface. (medscape.com)
Sensory1
- The axons emerge anterior to the sensory root from the lateral surface of the pons. (medscape.com)
Pons1
- It lies near the lateral angle of the fourth ventricle in the rostral part of the pons. (medscape.com)
Weber's2
- BS is closely related to Weber's syndrome and Claude's syndrome. (symptoma.com)
- BS manifests with symptoms reminiscent of Weber's syndrome (WS) and Claude's syndrome (CS). (symptoma.com)
Surgery1
- We present a 7-year-old male with 22q11.2 deletion syndrome (velocardiofacial syndrome) and velopharyngeal insufficiency who underwent pharyngeal flap surgery at an outside hospital whose post-operative course was complicated by adenovirus, viral myocarditis, and dorsal medullary stroke. (emory.edu)
Distal1
- Among them were missing teeth, conoid teeth, teeth with reduced size (generalized or localized), delayed tooth formation and eruption (generalized or localized), infraocclusion (more frequently in primary teeth), palatally impacted canines, maxillarycanine/premolar transposition, mandibular canine/lateral incisor transposition, and distal angulation of a non-erupted second mandibular premolar. (bvsalud.org)
Diagnosis1
- Since lateral medullary syndrome is often caused by a stroke, diagnosis is time dependent. (wikipedia.org)
Neuropathic pain1
- Some studies have reported success in mitigating the chronic neuropathic pain associated with the syndrome with anti-epileptics such as gabapentin. (wikipedia.org)
Common1
- Extensor carpi radialis brevis originates from the lateral epicondyle of humerus via the common extensor tendon. (passmed.uk)