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Neurosurgery Case 3: Subarachnoid Hemorrhage

Neurosurgery Case 3: Subarachnoid Hemorrhage. 3Med – C UST-FMS. Sudden right-sided headache Bout of vomiting, progressive deterioration in LOC. 57 y/o housewife. Few minutes PTA. Admission. Physical Exam Restless, disoriented and non-communicative BP: 198/102 Afebrile

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Neurosurgery Case 3: Subarachnoid Hemorrhage

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  1. Neurosurgery Case 3:Subarachnoid Hemorrhage 3Med – C UST-FMS

  2. Sudden right-sided headache • Bout of vomiting, progressive deterioration in LOC 57 y/o housewife • Few minutes PTA Admission

  3. Physical Exam • Restless, disoriented and non-communicative • BP: 198/102 • Afebrile • (+) nuchal rigidity • Ptosis of right eyelid • Fundoscopy: “suspicious hemorrhage”

  4. Past Medical History • Had previous milder headache 3 days prior • Recently under initial treatment and observation for hypertension • Personal & Social History • Former smoker • Took OCPs during premenopausal yrs

  5. Ancillary Procedures • LP and/or cranial CT: confirmed earlier impression of subarachnoid hemorrhage • Angiogram: presence of aneurysm and a complicating vasospasm

  6. Salient Features • Smoker • Oral contraceptive use • Recent episodes of hypertension • CT scan: SAH • Angiogram: aneurysm with complicating vasospasm • 57 y/o female • Sudden severe headache • Vomiting • Progressive deterioration in LOC • HTN (198/102 mmHg) • Afebrile • (+) nuchal rigidity • ptosis of right eyelid • Fundoscopy: “suspicious hemorrhage”

  7. SUBARACHNOID HEMORRHAGE

  8. Causes of Subarachnoid Hemorrhage: • Bleeding from a cerebral aneurysm (85%) • Bleeding from an arteriovenous malformation (AVM) • Bleeding disorder • Head injury (Traumatic SAH) • Unknown cause (idiopathic) • Use of blood thinners (anticoagulant therapy)

  9. Risks include: • Fibromuscular dysplasia (FMD) and other connective tissue disorders associated with aneurysm or weakened blood vessels • High blood pressure • History of polycystic kidney disease polycystic kidney disease • Smoking • strong family history of aneurysms

  10. SAH Clinical presentation • Hypertensive on admission • History of poorly controlled hypertension • Lethargy or obtundation • Depressed mental status – results from brain shift and herniation secondary to mass effect from the hematoma in deep structures • Gradual decline in neurologic function as hematoma expands Schwartz’s Principles of Surgery, 9th Ed

  11. Rupture of cerebral aneurysm • Results in SAH • Sudden, severe “thunderclap” headache • Hunt-Hess grading system categorizes patients clinically Schwartz’s Principles of Surgery, 9th Ed

  12. Diagnostic Tests • CT scan of the Head • modality of choice generally required to confirm or exclude bleeding.

  13. Diagnostic Test • Lumbar Puncture • mandatory in people with suspected SAH if imaging is negative • if an elevated number of RBCs is present equally in all 3 bottles this indicates SAH

  14. Diagnostic Test • CSF sample is also examined for xanthochromia • more sensitive is spectrophotometryfor detection of bilirubin

  15. Diagnostic Test • Angiography • Used after the SAH is confirmed, it origin needs to be determined

  16. Diagnostic Test • ECG • QT prolongation, Q waves, cardiac dysrhythmias and ST elevation - mimics a heart attack

  17. HUNT & HESS SCALE FOR GRADING SUBARACHNOID HEMORRHAGE

  18. MANAGEMENT: SUBARACHNOIDHEMORRHAGE MORALEDA FRANCIS B

  19. ANEURYSM  RUPTURE = SAH • The major cerebral vessels, and therefore aneurysms (focal dilatation of the vessel wall), lie in the subarachnoid space. • Rupture results in SAH. • The aneurysmal tear may be small and seal quickly, or it may not. • SAH may consist of a thin layer of blood in the CSF spaces, or thick layers of blood around the brain and extending into brain parenchyma, resulting in a clot with mass effect. • Meningeal linings of the brain are sensitive, SAH usually results in a sudden, severe "thunderclap" headache. • A patient will classically describe "the worst headache of my life." Schwartz's Principles of Surgery, 9e

  20. Presenting neurologic symptoms may range from mild headache to coma to sudden death. The Hunt-Hess grading system categorizes patients clinically . Schwartz's Principles of Surgery, 9e

  21. MANAGEMENT • Patients with symptoms suspicious for SAH should have a HEAD CT immediately. • CT is rapid, noninvasive, and approximately 95% sensitive. • In patients with suspicious symptoms but negative head CT, a LUMBAR PUNCTURE (LP) should be performed. • An LP with xanthochromia and high red blood cell counts (usually 100,000/mL), which do not decrease between tubes 1 and 4, is consistent with SAH. • Negative CT and LP essentially rules out SAH. • Patients diagnosed with SAH require four-vessel cerebral ANGIOGRAPHY within 24 hours to assess for aneurysm or other vascular malformation. • Catheter angiography remains the gold standard for assessing the patient's cerebral vasculature, relevant anomalies, and presence, location, and morphology of the cerebral aneurysms. Schwartz's Principles of Surgery, 9e

  22. Acute SAH appears as a bright signal in the fissures and CSFcisternsaround the base of the brain Subarachnoid hemorrhage is visible as HYPERDENSE signal in the: interhemispheric fissure (1) Bilateral Sylvian fissures (2 shows the left fissure) in the ambient cisterns around the midbrain (3). This gives the classic five-pointed-star appearance of a subarachnoid hemorrhage. Visible temporal tips of the lateral ventricles indicate hydrocephalus.

  23. TREATMENT • SAH patients should be admitted to the neurologic ICU. • Hunt-Hess grade 4 and 5 patients intubation and hemodynamicmonitoring and stabilization. • The current standard of care for ruptured aneurysms requires early aneurysmal occlusion. Schwartz's Principles of Surgery, 9e

  24. THE MEDICAL MANGEMENTOF SAH • Focuses on: • Protectingthe airway • Managing bloodpressure before and after aneurysm treatment • Preventing rebleeding prior to treatment • Managing vasospasm • Treating hydrocephalus • Treating hyponatremia • Preventing pulmonaryembolus. Harrison's Principles ofInternal Medicine, 17e

  25. COMPLICATIONS AND TREATMENT ANEURYSMAL REBLEEDING SEIZURE Because seizures increase the risk of rebleeding after an SAH, prophylactic use of an anticonvulsant, for example, intravenousfosphenytoin or phenytoin, 15–20 mg/kg, is recommended • May be secondary to uncontrolled hypertension or aneurysmal clot fibrinolysis. • Surgical clipping or endovascular coiling is strongly recommended to reduce the rate of rebleeding. CURRENT Diagnosis & Treatment: Emergency Medicine, 6e

  26. COMPLICATIONS AND TREATMENT HYPOVOLEMIA AND HYPONATREMIA • Hypovolemia and hyponatremia can occur secondary to the syndrome of inappropriate secretion of antidiuretic hormone. • Treatment involves intravenoushydration with isotoniccrystalloid. • A central intravenous monitor is desirable. CURRENT Diagnosis & Treatment: Emergency Medicine, 6e

  27. COMPLICATIONS AND TREATMENT ACUTE OBSTRUCTIVE HYDROCEPHALUS CHRONIC COMMUNICATING HYDROCEPHALUS This form of hydrocephalus is a frequent occurrence after SAH. A temporary or permanentcerebrospinalfluiddiversion is recommended in symptomatic patients. • This form of hydrocephalus occurs in about 20% of patients after SAH. • Ventriculostomy is recommended, although it may increase the risk of rebleeding or infection. CURRENT Diagnosis & Treatment: Emergency Medicine, 6e

  28. COMPLICATIONS AND TREATMENT VASOSPASM HYPERTENSION The acute management of elevated blood pressure in SAH is controversial. There is no evidence that lowering blood pressure decreases rebleeding or the rate of cerebral infarction. However, lowering systolic blood pressure to 160 mm Hg and/or maintaining a mean arterial pressure of 110 mm Hg is associated with lower risk of rebleeding and a decreased mortality rate. Antihypertensivetherapy should be reserved for severebloodpressureelevations with evidence of end-organdeterioration. • Vasospasm, or delayed cerebral ischemia, remains a frequent complication with high morbidity and mortality rates. • Nimodipine, 60 mg orally every 4 hours, is strongly recommended. CURRENT Diagnosis & Treatment: Emergency Medicine, 6e Tintinalli's Emergency Medicine: A Comprehensive Study Guide, 6e

  29. COMPLICATIONS AND TREATMENT NEUROSURGICAL CONSULTATION • Seek neurosurgical consultation for definitivemanagement, which may include surgicalclipping or endovascularcoiling depending upon the resources available. CURRENT Diagnosis & Treatment: Emergency Medicine, 6e

  30. TWO OPTIONS FOR OCCLUSION OPTION 1: CLIP IT • The patient may undergo craniotomy with microsurgical dissection and placement of a titanium clipacross the aneurysm neck to exclude the aneurysm from the circulation and reconstitute the lumen of the parent vessel. • Thereby eliminating the risk of rebleeding • craniotomy and brain retraction are associated with neurologic morbidity. Schwartz's Principles of Surgery, 9e Harrison's Principles ofInternal Medicine, 17e

  31. Intraoperative surgical images of a large intracranial aneurysm (A) successfully treated by placing an aneurysm clip around the neck of the aneurysm (B).

  32. TWO OPTIONS FOR OCCLUSION • OPTION 2: COIL IT • The second option is to "coil" the aneurysm via an endovascular approach. The patient is taken to the interventional neuroradiology suite for placement of looped titanium coils inside the aneurysm dome. The coils support thrombosis and prevent blood flow into the aneurysm. • Endovascular techniques involve placing platinum coils, or other embolic material, within the aneurysm via a catheter that is passedfromthefemoralartery. The aneurysm is packedtightly to enhancethrombosisandovertimeiswalled-offfromthecirculation Schwartz's Principles of Surgery, 9e

  33. Conventional angiogram following coil embolization of the aneurysm, whereby the aneurysm body is filled with platinum coils delivered through a microcatheter navigated from the femoral artery into the aneurysm neck.

  34. FACTORS FAVORING… CRANIOTOMY AND CLIPPING VIA NEUROSURGEON COILING VIA ENDOVASCULAR SURGEON Age Medical comorbidities Narrow aneurysm necks. • Young age • Good medical condition • Broad aneurysm necks. Schwartz's Principles of Surgery, 9e

  35. WHICH IS BETTER? • Due to coil migration or compaction over time, surgical clipping is believed to result in a more definitive cure. • The decision to clip or coil is complex and should be fully explored. The International Subarachnoid Aneurysm Trial researcherssuggested that endovascular occlusion resulted in better outcomes for certain types of cerebral aneurysms, although this trial was marred by poor selection and randomization techniques, and the validity of its conclusions have been questioned. • Centers that combine both endovascular and neurosurgical expertise likely offer the best outcomes for patients, and there are good data showing that centers that specialize in aneurysm treatment have improved mortality rates. • Long-term outcomes may be better in younger patients with clipped aneurysms.Debate also continues regarding optimal care for unruptured intracranial aneurysms. • SAH patients often require 1 to 3 weeks of ICU care after aneurysm occlusion for medical complications that accompany neurologic injury. Schwartz's Principles of Surgery, 9e

  36. FAMILIAL INTRACRANIAL ANEURYSMS • Families with twoormoreaffectedpersons should have all members screened. • Both autosomal and recessive patterns of inheritance may occur. Clinical Neurology

  37. Aneurysms

  38. Aneurysm rupture of an aneurysm of one of the arteries of the base of the brain is the most common cause of spontaneous subarachnoid hemorrhage.

  39. Saccular (“berry”) aneurysms • found at points of bifurcation of the intracranial arteries. • form on the basis of a prior lesion of the vessel wall, which is either a (usually congenital) structural defect, or an injury due to hypertension.

  40. Saccular (“berry”) aneurysms • Anterior communicating artery (40 %), • Lateral wall of the internal carotid artery (at the origin of the ophthalmic or posterior communicating artery) (30%) • Bifurcation of the middle cerebral artery in the sylvian fissure (20 %) • Basilar tip (10%)

  41. Saccular (“berry”) aneurysms • Aneurysms can produce neurological deficits by pressing on neighboring structures even before they rupture. • E.g. an aneurysm of the posterior communicating artery can compress the oculomotor nerve, causing a third nerve palsy (the patient complains of diplopia).

  42. Fusiform aneurysms • elongated (“spindle-shaped”) enlargement of a vessel • preferentially involve the intracranial segment of the internal carotid artery, the main trunk of the middle cerebral artery, and the basilar artery. • usually caused by atherosclerosis and/or hypertension, • and they are only rarely a source of hemorrhage.

  43. Fusiform aneurysms • Large fusiform aneurysms of the basilar artery can compress the brainstem. • Slow flow inside a fusiform aneurysm can promote intra-aneurysmal clot formation, with subsequent embolic stroke or cut-off of perforating vessels by the direct extension of thrombus. • These aneurysms usually cannot be treated neurosurgically, because they are elongated enlargements of normal vessels, rather than pathological structures (like saccular aneurysms) making no contribution to the cerebral blood supply.

  44. Mycotic aneurysms • Aneurysmal dilatations of intracranial blood vessels are sometimes the result of sepsis with bacterially induced damage to the vascular wall. • preferentially found on small arteries of the brain. • The treatment consists of treatment of the underlying infection. • Mycotic aneurysms sometimes regress spontaneously; they very rarely cause subarachnoid hemorrhage.

  45. Acute Nontraumatic Subarachnoid Hemorrhage • caused by the spontaneous rupture of a saccular aneurysm, with escape of blood into the subarachnoid space. • Manifestations. • The leading symptom (~45%) of a subarachnoid hemorrhage is a sudden, very intense headache (“the worst headache of my life”). • Meningeal irritation by subarachnoid blood causes nuchal rigidity • Consciousness may be impaired immediately or within the first few hours. • Neck stiffness and vomiting • Cranial nerve palsies and focal neurological signs may be present, depending on the site and extent of the hemorrhage.

  46. Manifestations • Focal deficits • Anterior communicating artery or MCA bifurcation aneurysms • may rupture into the adjacent brain or subdural space and form a hematoma large enough to produce mass effect. • common deficits that result include hemiparesis, aphasia, and abulia. • Prodromal symptoms suggest the location of a progressively enlarging unruptured aneurysm. • A third cranial nerve palsy, particularly when associated with pupillary dilatation, loss of ipsilateral (but retained contralateral) light reflex, and focal pain above or behind the eye, may occur with an expanding aneurysm at the junction of the posterior communicating artery and the internal carotid artery.

  47. Manifestations • Prodromal symptoms suggest the location of a progressively enlarging unruptured aneurysm. • A sixth nerve palsy may indicate an aneurysm in the cavernous sinus, and visual field defects can occur with an expanding supraclinoid carotid or anterior cerebral artery aneurysm. • Occipital and posterior cervical pain may signal a posterior inferior cerebellar artery or anterior inferior cerebellar artery aneurysm. • Pain in or behind the eye and in the low temple can occur with an expanding MCA aneurysm. • Thunderclap headache is a variant of migraine that simulates a SAH. Before concluding that a patient with sudden, severe headache has thunderclap migraine, a definitive workup for aneurysm or other intracranial pathology is required.

  48. Treatment • Aneurysms can be treated with a neurosurgical operation • the neck of the aneurysm is closed with a metal clip. The aneurysm is thereby permanently excluded from the circulation, so that it cannot bleed again. • definitive, but the disadvantage is that it requires operative opening of the skull (craniotomy) and neurosurgical manipulations around the base of the brain that may cause further complications. • Surgery should be performed in the first 72 hours after subarachnoid hemorrhage, i.e., before the period of greatest risk for the development of vasospasm

  49. Treatment • Early surgery has been shown to improve the prognosis of patients who present with SAH in Hunt and Hess grades 1, 2, or 3. It is the most important form of treatment for the prevention of rebleeding. • Filling of the aneurysm with metal coils (“coiling,” a procedure belonging to the field of interventional neuroradiology) • An alternative, less invasive form of treatment • Coils are delivered from the tip of a specialized angiographic catheter, which is inserted transfemorally and advanced to the level of the aneurysm. • Coiling obviates the need for craniotomy, but it may not be an equally reliable method of permanently obliterating the aneurysm.

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