Acute flaccid paralysis and West Nile virus infection. (Research).Acute weakness associated with West Nile virus West Nile virus, microorganism and the infection resulting from it, which typically produces no symptoms or a flulike condition. The virus is a flavivirus and is related to a number of viruses that cause encephalitis. (WNV WNV West Nile Virus WNV World Net Visions ) infection has previously been attributed to a peripheral demyelinating process (Guillain-Barre syndrome); however, the exact etiology of this acute flaccid paralysis has not been systematically assessed. To thoroughly describe the clinical, laboratory, and electrodiagnostic features of this paralysis syndrome, we evaluated acute flaccid paralysis that developed in seven patients in the setting of acute WNV infection, consecutively identified in four hospitals in St. Tammany Parish and New Orleans, Louisiana, and Jackson, Mississippi. All patients had acute onset of asymmetric weakness and areflexia but no sensory abnormalities. Clinical and electrodiagnostic data suggested the involvement of spinal anterior horn cells, resulting in a poliomyelitis-like syndrome. In areas in which transmission is occurring, WNV infection should be considered in patients with acute flaccid paralysis. Recognition that such weakness may be of spinal origin may prevent inappropriate treatment and diagnostic testing. ********** Most human infections with West Nile virus (WNV), a flavivirus within the Japanese encephalitis virus antigenic complex, are clinically inapparent inapparent not clearly seen. inapparent infection infection without clinical signs. (1,2). Mild febrile illness develops in approximately 1 in 5 infected persons; more severe neurologic disease, mostly meningitis or encephalitis, occurs in and 1 in 150 (1-4,). Less frequently, acute WNV infection has been associated with acute flaccid paralysis, which has been attributed to Guillain-Barre syndrome, motor axonopathy, or axonal polyneuropathy polyneuropathy /poly·neu·rop·a·thy/ (-ndbobr-rop´ah-the) neuropathy of several peripheral nerves simultaneously. amyloid polyneuropathy (4-6). However, these reports describe clinical and laboratory features that seem inconsistent with such diagnoses, and the exact cause of acute flaccid paralysis has not been thoroughly assessed with rigorous electrophysiologic, laboratory, and neuroimaging data. Brief descriptions of six patients have suggested that this flaccid paralysis is due to anterior horn cell involvement with a resultant poliomyelitis-like syndrome (7-9). Because understanding the clinical characteristics and underlying etiology of WNV-induced acute flaccid paralysis is critical for therapeutic decisions as well as prognosis, we describe the detailed clinical, laboratory, and electrophysiologic findings from these six patients and from one additional patient. Patients and Methods Seven patients were detected through WNV surveillance conducted by the Mississippi Department of Health and the Louisiana Office of Public Health. For each patient, a standardized questionnaire, including demographics, medical history, initial signs and symptoms, risk factors, and treatment, was completed; a standardized neurologic examination was performed by a single neurologist (JJS JJS Journal of Japanese Studies ). Electrodiagnostic studies were performed by neurologists (AAL (ATM Adaption Layer) The part of the ATM protocol that breaks up application packets into 48-byte payloads which become ATM cells when the 5-byte headers are attached. The AAL resides between the higher layer transport protocols and the ATM layer. and JAVG) specializing in electrodiagnostic medicine. Cerebrospinal fluid (CSF Cerebrospinal Fluid (CSF) Analysis Definition Cerebrospinal fluid (CSF) analysis is a laboratory test to examine a sample of the fluid surrounding the brain and spinal cord. ) and acute- or convalescent-phase serum specimens (or both) from each patient were tested for antibody to WNV by immunoglobulin (Ig) M antibody-capture enzyme immunoassay (10) or plaque reduction neutralization neutralization, chemical reaction, according to the Arrhenius theory of acids and bases, in which a water solution of acid is mixed with a water solution of base to form a salt and water; this reaction is complete only if the resulting solution has neither acidic nor assay (11). The initial specimen for one patient (patient 5, Table 1) was tested with a slightly modified IgM antibody assay at a commercial laboratory (12). IgM assays were considered positive if the optical density ratio of the patient and negative control samples (P/N (Part/Number) Common shorthand for part number. ratio) was greater than three. For patient samples, a P/N ratio for WNV at least three times that for St. Louis encephalitis St. Louis encephalitis see St. Louis encephalitis. virus indicated WNV infection (13). A plaque reduction neutralization test result of at least 10 was considered positive. All seven patients had serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. evidence of WNV infection (Table 1). On the basis of serologic data, three of the patients were classified as confirmed case-patients (patients 4, 6, and 7) and four as probable case-patients (patients 1-3, 5), according to the national case definition (14). Case 1 On July 1, 2002, a previously healthy, 56-year-old, male Mississippi resident was hospitalized with a 1-week history of fever, chills, night sweats, myalgias, and acute encephalopathy. Neurologic examination showed profound weakness in both arms, asymmetric weakness in the legs with a right foot drop, and acute respiratory distress (Table 2). Sensory test results were normal. Although computed tomography (CT) and magnetic resonance imaging magnetic resonance imaging (MRI), noninvasive diagnostic technique that uses nuclear magnetic resonance to produce cross-sectional images of organs and other internal body structures. (MRI 1. (application) MRI - Magnetic Resonance Imaging. 2. MRI - Measurement Requirements and Interface. ) of the brain showed normal results, heparin was administered for suspected evolving stroke. Admission laboratory values (Table 3) showed serum leukocytosis Leukocytosis Definition Leukocytosis is a condition characterized by an elevated number of white cells in the blood. Description Leukocytosis is a condition that affects all types of white blood cells. , and cerebrospinal fluid (CSF) obtained on day 3 showed elevated protein. By day 8, Guillain-Barre syndrome was suspected, and intravenous immunoglobulin (IVIG IVIG Intravenous immunoglobulin, see there ) was administered. Electrodiagnostic studies performed that day were interpreted as showing a proximal neuropathy or myopathy myopathy /my·op·a·thy/ (mi-op´ah-the) any disease of muscle.myopath´ic centronuclear myopathy myotubular m. . A deltoid muscle deltoid muscle n. A muscle with origin from the lateral third of the clavicle, the lateral border of acromion process, and the lower border of spine of scapula, with insertion to the side of the shaft of the humerus, with nerve supply from the axillary biopsy for suspected inflammatory myopathy showed mild type 2 fiber atrophy but no obvious necrosis or marked inflammatory response. On day 30, the patient was transferred for rehabilitation with flaccid flaccid /flac·cid/ (flak´sid) (flas´id) 1. weak, lax, and soft. 2. atonic. flac·cid adj. Lacking firmness, resilience, or muscle tone. , areflexic paralysis in the right leg and variable weakness and diminished reflexes in all other limbs. Neck flexors were normal in strength, and sensation was preserved in all limbs; loss of bladder function was evident. MRI of the cervical spine showed normal results. Electrodiagnostic studies showed widespread but variable denervation denervation /de·ner·va·tion/ (de?ner-va´shun) interruption of the nerve connection to an organ or part. denervation , reduced compound muscle action potentials (CMAPs), and normal sensory nerve action potentials (SNAPs), consistent with a severe, asymmetric process affecting anterior horn cells or motor axons. Myopathy, demyelinating polyneuropathy, and diffuse axonal polyneuropathy were not evident. Case 2 On July 15, 2002, a 57-year-old male Mississippi resident with a remote history of prostate cancer and glucose intolerance was hospitalized with a 3-day history of fever, chills, nausea, vomiting, and headache. Neurologic examination showed encephalopathy and asymmetric weakness in all limbs (Table 2). Results of a brain MRI weree normal. Admission laboratory studies showed a CSF pleocytosis pleocytosis /pleo·cy·to·sis/ (ple?o-si-to´sis) presence of a greater than normal number of cells in cerebrospinal fluid. ple·o·cy·to·sis n. with elevated protein (Table 3). On day 5, acute respiratory distress developed, and the patient required mechanical ventilation. Upon extubation 2 weeks later, the patient had continued extremity weakness and was aspirating fluids; a modified barium swallow study showed oropharyngeal oropharyngeal /oro·pha·ryn·ge·al/ (-fah-rin´je-al) 1. pertaining to the mouth and pharynx. 2. pertaining to the oropharynx. dysphagia. Upon transfer to a rehabilitation center on day 30, the patient had asymmetric weakness in the legs and right arm and moderate weakness in neck flexors and facial muscles. Hypotonia hypotonia /hy·po·to·nia/ (-ton´e-ah) diminished tone of the skeletal muscles. hy·po·to·ni·a n. 1. Reduced tension or pressure, as of the intraocular fluid in the eyeball. 2. and areflexia were noted in all limbs. Sensation was slightly diminished to vibration and proprioception proprioception Perception of stimuli relating to position, posture, equilibrium, or internal condition. Receptors (nerve endings) in skeletal muscles and on tendons provide constant information on limb position and muscle action for coordination of limb movements. in toes bilaterally but preserved to light touch, pinprick pinprick Neurology A sharply focused stimulation of the skin, often by a needle, used to evaluate the sense of touch , and temperature. Sensory testing was normal in the upper limbs. Urinary incontinence was noted. Electrodiagnostic studies showed widespread denervation, reduced CMAP CMAP Character Map CMAP Compound Muscle Action Potential CMAP Cover My Ass Partner CMAP Climate Modeling, Analysis & Prediction (NSF) CMAP Coherent Multiarray Processing CMAP Conference Manager Access Protocol CMAP Color Map amplitudes in all nerves of the lower limbs and right upper limb, and normal SNAP responses, consistent with a severe, asymmetric process affecting anterior horn cells or motor axons. Myopathy, demyelinating polyneuropathy, and diffuse axonal polyneuropathy were not apparent. Case 3 On July 24, 2002, a low-grade fever, nausea, and vomiting, followed by shaking chills and sweats, developed in a 56-year-old male Louisiana resident with a history of hypertension and coronary artery disease coronary artery disease, condition that results when the coronary arteries are narrowed or occluded, most commonly by atherosclerotic deposits of fibrous and fatty tissue. . The next day, asymmetric weakness developed in the lower extremities, with no pain or numbness. Upper extremities were normal. No bowel or bladder dysfunction was present. The patient was hospitalized on July 29, and neurologic examination showed a flaccid, areflexic right lower extremity and a weak left lower extremity with diminished reflexes. Results of strength and reflex testing of the upper extremities were normal. Sensory examination results were normal except for a mild decrease in sensitivity to pinprick, temperature, touch, and vibration in a stocking-and-glove distribution (i.e., distal arms and legs). A coarse bilateral upper extremity action tremor was noted. The patient had no headache, neck stiffness, or alteration of mental status (Table 2). Admission laboratory values showed leukocytosis and CSF pleocytosis (Table 3). Results of other diagnostic tests were unremarkable. Postviral demyelination demyelination /de·my·elin·a·tion/ (de-mi?e-li-na´shun) destruction, removal, or loss of the myelin sheath of a nerve or nerves. Called also myelinolysis. syndrome and viral-induced polyradicultis were considered, and IVIG, dexamethasone dexamethasone /dex·a·meth·a·sone/ (dek?sah-meth´ah-son) a synthetic glucocorticoid used primarily as an antiinflammatory in various conditions, including collagen diseases and allergic states; it is the basis of a screening test in the , and antibacterial and antiviral medications were administered without patient improvement. On day 15, the patient was discharged to a skilled nursing facility skilled nursing facility n. Abbr. SNF An establishment that houses chronically ill, usually elderly patients, and provides long-term nursing care, rehabilitation, and other services. for rehabilitation. MRI of the cervical, thoracic, and lumbosacral spine obtained during rehabilitation was notable for showing mild cervical and lumbosacral spinal stenosis and foraminal foraminal adjective Referring to a foramen restrictions from C3 through C7 and homogeneous enhancement of the nerve roots of the cauda equina consistent with meningitis. Electrodiagnostic studies showed denervation in thoracic and lumbosacral myotomes, with no muscle activation in the right leg and reduced muscle activation in the left leg. CMAPs in the right leg were absent; SNAPs were normal. Electrodiagnostic findings suggested a severe, asymmetric process affecting anterior horn cells or motor axons. Diffuse axonal polyneuropathy was not evident, despite a slight sensory loss in the distal extremities. Case 4 On August 2, 2002, fever, headache, and neck stiffness developed in a 69-year-old female Louisiana resident with a history of diabetes and degenerative disc disease Degeneration of the intervertebral disc, which is often called "degenerative disc disease" (DDD) of the spine, is a common disorder of the lower spine and for some people can cause low back pain and/or leg pain (sciatica). ; the next day acute weakness occurred in the right arm without pain, numbness, or paresthesias Paresthesias A prickly, tingling sensation. Mentioned in: Autoimmune Disorders . She was hospitalized on August 4. On admission, physical examination documented fever, vomiting, encephalopathy, nuchal nuchal (nyōōˑ·k  l),adj pertaining to the posterior or nape of the neck. rigidity, and a bilateral rash on the lower extremities. Neurologic examination displayed a flaccid and areflexic right arm. Her legs and left arm exhibited normal strength, reflexes, and coordination, with normal sensation in all limbs. A coarse tremor was noted in the chin, left arm, and legs (Table 2). Laboratory findings included CSF pleocytosis (Table 3). Differential diagnoses included meningoencephalitis meningoencephalitis /me·nin·go·en·ceph·a·li·tis/ (me-ning?go-en-sef?ah-li´tis) inflammation of the brain and meninges. toxoplasmic meningoencephalitis with associated motor polyradiculopathy and monoplegia monoplegia /mono·ple·gia/ (-ple´jah) paralysis of a single part.monople´gic mon·o·ple·gia n. Paralysis of a single limb, muscle, or muscle group. secondary to stroke. The patient was treated with antibacterial and antiviral medications. Results of CT and MRI CT and MRI Two high technology methods of creating images of internal organs. Computerized axial tomography (CT or CAT) uses x rays, while magnetic resonance imaging (MRI) uses magnet fields and radio-frequency signals. Both construct images using a computer. of the brain were normal. MRI of the cervical spine showed multilevel degenerative disc disease. The patient remained lethargic until day 13, when mental status abruptly improved; right arm weakness persisted. On day 19, she was transferred to a rehabilitation facility. Electrodiagnostic studies showed absent CMAPs and profound denervation with no voluntary activation in muscles of the right arm. Scattered denervation was also seen in the other three limbs. SNAPs had borderline amplitudes and conduction velocities bilaterally. The results were most consistent with a severe, asymmetric process affecting anterior horn cells or motor axons. The patient was subsequently transferred back to intensive care because her respiratory function was deteriorating, but she was not intubated. After Guillain-Barre syndrome was diagnosed, she was started on IVIG but had no improvement in weakness. Case 5 On August 11, 2002, severe nausea, vomiting, headache, and diarrhea in the absence of fever developed in a 50-year-old male Mississippi resident with a history of alcohol abuse; the next day, progressive right arm weakness developed. He was hospitalized on August 14. Neurologic examination on admission showed flaccid paralysis of the right arm and mild weakness of the right leg, with normal sensation in all limbs (Table 2). Laboratory values are shown in Table 3; a lumbar puncture was not performed. Acute stroke was diagnosed, and the patient was treated with heparin. Mental status changes, dysarthria dysarthria /dys·ar·thria/ (dis-ahr´thre-ah) a speech disorder caused by disturbances of muscular control because of damage to the central or peripheral nervous system. dys·ar·thri·a n. , and dysphagia subsequently developed but resolved. Upon transfer to a rehabilitation center on day 12, the patient had paralysis and areflexia limited to the right arm, with normal sensation and diffuse tremor in all limbs. Brain MRI results were normal; cervical spine MRI displayed mild multilevel foraminal stenosis on the left. Electrodiagnostic studies showed markedly reduced motor responses in the right arm with normal sensory responses, consistent with a severe asymmetric process affecting anterior horn cells. Case 6 On August 16, 2002, a 46-year-old male Louisiana resident with a history of coronary artery disease was hospitalized with lever, headache, fatigue, and leg weakness of 3 days' duration. He reported no nuchal rigidity or mental status changes, although family members described him as intermittently confused. Neurologic examination showed a plegic and areflexic right leg and mild left leg weakness; sensation was intact throughout. A bilateral tremor of the upper extremities and jaw was noted (Table 2). Laboratory abnormalities included a CSF pleocytosis (Table 3). He was diagnosed with Guillain-Barre syndrome and started on IVIG Brain CT and MRI results were normal. Results of an enhanced MRI of the spine suggested meningitis involving the conus medullaris conus medullaris Anatomy The inferior, tapering portion of the spinal cord. See Spinal cord. and cauda equina. Electrodiagnostic studies performed on day 4 demonstrated early denervation and absent activation in muscles of the right leg and reduced activation of muscles in the right arm. CMAPs and SNAPs in the right arm and leg were normal. These findings were consistent with a severe, asymmetric process affecting anterior horn cells or motor axons. He was transferred to a rehabilitation facility on day 6 with no improvement of weakness. Case 7 On September 1, 2002, a previously healthy, 39-year-old male Louisiana resident had onset of fever, headache, and nuchal rigidity followed the next day by dysphagia and bilateral ann and leg weakness that was worse on the left. He was hospitalized on September 6 for acute respiratory failure and intubated. Neurologic examination showed normal cognition, asymmetric flaccid paralysis of the left arm and leg with absent reflexes, hyporeflexic weakness of the right arm and leg, and weakness of bulbar muscles (Table 2). A partial supranuclear su·pra·nu·cle·ar adj. 1. Located above the level of the motor neurons of the spinal or cranial nerves. Used to indicate disorders of movement caused by destruction or functional impairment of brain structures, such as the motor cortex, gaze palsy, cogwheel rigidity, and bilateral Babinski signs were also evident. Admission laboratory findings showed peripheral leukocytosis and CSF pleocytosis (Table 3). Brain MRI showed increased T2 signal in the periaqueductal gray matter, substantia nigra, and trigeminal trigeminal /tri·gem·i·nal/ (tri-jem´i-n'l) 1. triple. 2. pertaining to the trigeminal (fifth cranial) nerve. 3. pertaining to trigeminy. tri·gem·i·nal adj. motor nuclei. Electrodiagnostic studies performed on day 15 showed diffuse denervation in all myotomes, reduced CMAPs (worse on the left), and preserved SNAPs. On day 25, he was transferred to a long-term care facility long-term care facility n. See skilled nursing facility. with no improvement of limb weakness. Discussion The clinical and electrodiagnostic findings in these patients with WNV infection suggest involvement of spinal cord gray matter, specifically anterior horn cells, and a resulting acute poliomyelitis-like syndrome. All patients exhibited features typical for polio, including acute flaccid paralysis without paresthesias or sensory loss, marked asymmetric weakness, diminished or absent deep tendon reflexes in the affected limbs, and weakness that developed during an acute infectious process. Other typical features of poliomyelitis poliomyelitis (pō'lēōmī'əlī`tĭs), polio, or infantile paralysis, acute viral infection, mainly of children but also affecting older persons. included CSF pleocytosis in five of six patients with CSF examination, acute respiratory distress in four, and acute changes in bowel or bladder function in two. In addition, electrodiagnostic findings showed asymmetric muscle denervation, reduced CMAPs, and preserved SNAPs. No patients had evidence of demyelinating polyneuropathy or myopathy. The absence of new sensory abnormalities localizes the disease process to the anterior horn cells or motor axons. Although muscle denervation and reduced CMAP amplitudes do not distinguish loss of anterior horn cells from loss of motor axons (15), these patients' clinical features can be explained only by anterior horn cell disease, since no known infectious processes limited to motor axons produce widespread, asymmetric paralysis without sensory involvement. While MRI signal abnormalities in the anterior spinal cord have been noted in patients with poliomyelitis (16,17), these findings are inconsistent (18,19), and the absence of such changes in our four patients in which imaging was performed does not preclude a diagnosis of a poliomyelitislike syndrome. Since immunization immunization: see immunity; vaccination. has eradicated wild-type poliovirus poliovirus /po·lio·vi·rus/ (pol´-e-o-vi?rus) the causative agent of poliomyelitis, separable, on the basis of specificity of neutralizing antibody, into three serotypes designated types 1, 2, and 3. from the developed world, most cases of paralytic paralytic /par·a·lyt·ic/ (par?ah-lit´ik) 1. affected with or pertaining to paralysis. 2. a person affected with paralysis. par·a·lyt·ic adj. 1. polio-like conditions in the United States have been linked to other RNA viruses, including echoviruses echoviruses (ECHO virus), n.pl an enteric pathogen associated with fever and mild respiratory disease; sometimes may produce an aseptic meningitis. , enteroviruses Enteroviruses Viruses which live in the gastrointestinal tract. Coxsackie viruses, viruses that cause hand-foot-mouth disease, are an enterovirus. Mentioned in: Hand-Foot-and-Mouth Disease , and coxsackieviruses (20). Case reports have documented a poliomyelitis-type syndrome associated with other flaviviruses (21-23), as well as anterior myelitis myelitis /my·eli·tis/ (mi?e-li´tis) 1. inflammation of the spinal cord; often expanded to include noninflammatory spinal cord lesions. 2. inflammation of the bone marrow (osteomyelitis). associated with WNV infection (24). The assertion that WNV infection involves anterior horn cells and causes a polio-type syndrome has a pathologic basis. The neuropathology neuropathology /neu·ro·pa·thol·o·gy/ (-pah-thol´ah-je) pathology of diseases of the nervous system. neu·ro·pa·thol·o·gy n. The study of diseases of the nervous system. of experimental WNV infection in monkeys was most pronounced in the cerebellum cerebellum (sĕr'əbĕl`əm), portion of the brain that coordinates movements of voluntary (skeletal) muscles. It contains about half of the brain's neurons, but these particular nerve cells are so small that the cerebellum accounts for , medulla medulla: see brain stem. , and the cervical and lumbar regions of the spinal cord (25). Anterior horn cells showed degeneration and neuronal cell death; conversely, no changes were seen in the oligodendroglia oligodendroglia /ol·i·go·den·drog·lia/ (-den-drog´le-ah) 1. the nonneural cells of ectodermal origin forming part of the adventitial structure (neuroglia) of the central nervous system. 2. or peripheral nerves. Similarly, WNV-infected horses displayed multifocal multifocal /mul·ti·fo·cal/ (mul?te-fo´k'l) arising from or pertaining to many foci. mul·ti·fo·cal adj. Relating to or arising from many foci. polioencephalomyelitis, with involvement of the ventral and lateral horns of the thoracic and lumbar spinal cord (26,27). WNV antigen was mainly localized within the gray matter of the spinal cord, with no lesions apparent in peripheral nerves or ganglia. In WNV-infected birds, lesions and viral antigen were most prominent in the cerebellum and the gray matter of the spinal cord (28). Previous case studies have attributed WNV-associated acute flaccid paralysis to Guillain-Barre syndrome, motor axonopathy, or severe axonal polyneuropathy (4-6). The clinical signs and symptoms and electrodiagnostic findings reported in those cases, and those described here, are most consistent with a polio-like condition, and would be atypical for Guillain-Barre syndrome or other peripheral nerve disorders. Although acute poliomyelitis and polio-like conditions may occasionally simulate Guillain-Barre syndrome (29), our cases had several clinical, laboratory, and electrodiagnostic features that differed from typical Guillain-Barre syndrome (30-32; Table 4). In Guillain-Barre syndrome, electrodiagnostic findings generally suggest peripheral nerve demyelination or, less commonly, a combined demyelinating and axonal process (30,31). The cases reported here displayed reduced or absent CMAPs with preserved SNAPs, no evidence of demyelination, a neurogenic neurogenic /neu·ro·gen·ic/ (-jen´ik) 1. forming nervous tissue. 2. originating in the nervous system or from a lesion in the nervous system. pattern of recruitment, and widespread denervation; combined with the clinical picture of an asymmetric paralysis, these findings are typical for a polio-like condition and uncommon for Guillain-Barre syndrome. A pure axonal variant of Guillain-Barre syndrome has been described (33) and may be confused with poliomyelitis and polio-like conditions; however, such cases are generally characterized by distally prominent weakness and show subclinical subclinical /sub·clin·i·cal/ (sub-klin´i-k'l) without clinical manifestations. sub·clin·i·cal adj. Not manifesting characteristic clinical symptoms. Used of a disease or condition. sensory nerve involvement on electrodiagnostic testing. Thus, in the context of WNV infection, electrodiagnostic studies previously interpreted as motor axonal polyneuropathy or motor axonopathy without sensory nerve involvement (4-6) are more suggestive of anterior horn cell loss than of Guillain-Barre syndrome. Three of the seven patients had acute flaccid paralysis without other findings, suggestive of severe central nervous system involvement caused by WNV infection. Physicians should suspect WNV infection in patients from areas where WNV is being transmitted and who have acute, painless, asymmetric weakness, even if unaccompanied by fever or apparent meningoencephalitis. Diagnostic studies should include testing for WNV-specific IgM antibody in CSF or acute- and convalescent-phase serum samples. In patients from such areas who have acute flaccid paralysis, CSF analysis, thorough electrodiagnostic studies, and spinal imaging should be considered before initiating diagnostic evaluations or therapies directed at Guillain-Barre syndrome, stroke, inflammatory myopathies Myopathies Definition Myopathies are diseases of skeletal muscle which are not caused by nerve disorders. These diseases cause the skeletal or voluntary muscles to become weak or wasted. , or other peripheral inflammatory processes. These therapies are ineffective for polio-like syndromes and can produce serious sequelae sequelae Clinical medicine The consequences of a particular condition or therapeutic intervention (34-37). Continued surveillance and investigation of WNV-infected patients are needed to fully define the scope of clinical illness and determine the incidence of acute flaccid paralysis. In addition to assessing clinical outcome, the identification of risk factors and the pathologic confirmation of anterior horn cell involvement in patients with WNV-associated acute flaccid paralysis remain important public health goals.
Table 1. Serologic results for West Nile virus (WNV)-specific
antibodies in patients with acute flaccid paralysis associated with
acute WNV infection (a)
IgM-capture enzyme
immunoassay
Case no. Onset Collection Sample SLEV WNV
1 6/24 7/12 Serum 3.5 22.3
2 7/12 7/16 Serum 8.0 22.7
3 7/26 8/1 Serum 2.79 24.9
4 7/29 8/3 Serum 1.1 14.1
4 7/29 8/3 CSF 3.3 39.2
4 7/29 8/13 Serum 4.4 23.5
5 8/11 8/15 Serum 2.02
5 8/11 8/29 Serum 3.4 25.7
6 8/13 8/16 CSF 6.1 23.8
6 8/13 8/16 Serum 1.0 5.7
7 9/1 10/24 Serum 2.8 10.6
7 9/1 9/6 CSF Not performed 7.4
Plaque reduction
neutralization assay
Case no. SLEV WNV
1 320 5,120
2 80 1,280
3 < 10 640
4 < 10 80
4
4 40 2,560
5
5
6
6 < 10 40
7 10 320
7
(1) IgM, immunoglobulin M; SLEV, Saint Louis encephalitis virus;
CSF, cerebrospinal fluid.
Table 2. Initial clinical signs and symptoms in patients with acute
flaccid paralysis associated with acute West Nile virus infection
Fever ([greater Altered
than or equal to] Nuchal mental
Case no. 38.5[degrees]C) Headache rigidity status Tremor
1 + + + + +
2 + + - + -
3 + - - - +
4 + + + + +
5 - + - - -
6 + + - - +
7 + + + - -
Case no. Distribution of weakness (a)
1 Upper and lower limbs, R > L
2 Upper and lower limbs, R > L
3 Lower limbs, R > L
4 R upper limb
5 R upper limb
6 Lower limbs, R > L
7 Upper and lower limbs, L > R;
bulbar muscles
(a) R, right; L, left.
Table 3. Initial laboratory findings in patients with acute flaccid
paralysis associated with acute West Nile virus infection
Leukocytes CSF
(x [10.sup.3] WBC
Case no. /[mm.sup.3]) Hematocrit (%) (/[mm.sup.3])
1 17.6 38.0 3
2 3.6 38.2 2,600
3 11.8 44.4 140
4 9.5 37.8 143
5 7.9 45.6 Not performed
6 13.0 45.4 329
7 10.3 Not performed 182
CSF
RBC CSF CSF
Case no. ([/mm.sup.3]) protein (mg/dL) glucose (mg/dL)
1 1,778 89 54
2 87 204 99
3 40 234 74
4 4 116 119
5 Not performed Not performed Not performed
6 7 75 66
7 9 37 79
(a) CSF, cerebrospinal fluid; WBC, leukocyte count; RBC, erythrocyte
count.
Table 4. Clinical characteristics of patients with West Nile
virus-associated acute flaccid paralysis compared with patients with
typical Guillain-Barre syndrome (25-27) (a)
West Nile virus-
associated flaccid Guillain-Barre
Characteristic paralysis syndrome
Timing of onset Acute phase of inpection 1-8 weeks after
acute infection
Fever and Present Absent
leukocytosis
Weakness Asymmetric; occasional Generally symmetric;
distribution monoplegia proximal and distal
muscles
Sensory symptoms Absence of numbness, Painful distal
paresthesias, or sensory paresthesias and
loss; occasional myalgias sensory loss
Bowel/bladder Often present Rare
involvement
Concurrent Often present Absent
encephalopathy
CSF profile Pleocytosis and No pleocytosis;
elevated protein elevated protein
(albuminocytologic
dissociation)
Electrodiagnostic/ Anterior horn cell/motor Demyelination:
features axon: reduced/absent CMAPs, marked slowing of
preserved SNAPs; asymmetric conduction velocity;
denervation conduction block,
temporal dispersion;
reduced SNAPs
(a) CSF, cerebrospinal fluid; CMAPs, compound muscle action
potentials: SNAPSs, sensory nerve action potentials.
Acknowledgments We are grateful to Stanley W. Chapman, the Wilson Research Foundation, Raoult Ratard, Andrea Vicari, Grant L. Campbell, Michael Bunning, and Susan P. Montgomery for their important contributions to this investigation. References (1.) Tsai T, Popovici F, Cemescu C, Campbell G, Nedelcu N. West Nile encephalitis epidemic in southeastern Romania. Lancet 1998; 352:767-71. (2.) Mostashari F, Bunning M, Kitsutani P, Singer D, Nash D, Cooper M, et al. Epidemic West Nile encephalitis, New York, 1999: results of a household-based seroepidemiological survey. Lancet 2001; 358:261-4 (3.) Chowers M, Lang R, Nassar F, Giladi D, Rubinshtein E, Itzhaki A, et al. Clinical characteristics of the West Nile fever West Nile fever West Nile meningoencephalitis Infectious disease An acute, mosquito-borne flaviviral infection endemic–rarely, epidemic–in the Near East, Africa, former Soviet Union, India Clinical After a 3-6 day incubation, children present with a outbreak, Israel, 2000. Emerg Infect Dis 2001;7:675-8. (4.) Nash D, Mostashari F, Fine A, Miller J, O'Leary D, Murray K, et al. The outbreak of West Nile virus infection in the New York City New York City: see New York, city. New York City City (pop., 2000: 8,008,278), southeastern New York, at the mouth of the Hudson River. The largest city in the U.S. area in 1999. N Engl J Med 2001;344:1807-14. (5.) Sampson B, Ambrosi C, Charlot A, Reiber K, Veress J, Armbrustmacher V, et al. The pathology of human West Nile virus infection. Hum Pathol 2000;31:527-31. (6.) Asnis D, Conetta R, Teixeira A, Waldman (5, Sampson B. The West Nile virus outbreak of 1999 in New York City: the Flushing Hospital experience. Clin Infect Dis 2000;30:413-8. (7.) Leis A. Stokic D, Polk J, Dostrow V, Winkelmann M. A poliomyelitis-like syndrome from West Nile virus infection. N Engl J Med 2002;347:1279-80 (8.) Glass J, Samuels O, Rich M. Poliomyelitis due to West Nile virus. N Engl J Med 2002;347:1280-1. (9.) Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. . Acute flaccid paralysis syndrome associated with West Nile virus infection--Mississippi and Louisiana, July-August 2002. MMWR MMWR Morbidity & Mortality Weekly Report Epidemiology A news bulletin published by the CDC, which provides epidemiologic data–eg, statistics on the incidence of AIDS, rabies, rubella, STDs and other communicable diseases, causes of mortality–eg, Morb Mortal Wkly Rep 2002;51:825-7. (10.) Martin D, Muth D, Brown T, Johnson A, Karabatsos N, Roehrig J. Standardization of immunoglobulin M capture enzyme-linked immunosorbent assays for routine diagnosis of arboviral infections. J Clin Microbiol 2000:38:1823-6. (11.) Beaty B, Calisher C, Shope R. Arboviruses arboviruses (ar´bōvī´r  sz),n. . In: Lennette E, Lennette D, and Lennette E, editors. Diagnostic procedures for viral, rickettsial rickettsial /rick·ett·si·al/ (ri-ket´se-al) pertaining to or caused by rickettsiae. rick·ett·si·al adj. Relating to, or caused by a member of the genus Rickettsia. , and chlamydial infections. Washington: American Public Health Association The American Public Health Association (APHA) is Washington, D.C.-based professional organization for public health professionals in the United States. Founded in 1872 by Dr. Stephen Smith, APHA has more than 30,000 members worldwide. ; 1995. p. 89-212. (12.) Prince H, Hogrefe W. Performance characteristics of an in-house assay system used to detect West Nile virus (WNV)-specific immunoglobulin M during the 2001 WNV season in the United States. Clin Diagn Lab Immunol 2003;10:66-9. (13.) Martin D, Biggerstaff B, Allen B, Johnson A, Lanciotti R, Roehrig J. Use of immunoglobulin M cross-reactions in differential diagnosis of human flaviviral encephalitis infections in the United States. Clin Diagn Lab Immunol 2002;9:544-9. (14.) Petersen L, Martin A. West Nile virus: a primer for the clinician. Ann Intern Med 2002;137:173-9. (15.) Kimura J. Electrodiagnosis in diseases of nerve and muscle: principles and practice. 2nd ed. Philadelphia: F.A. Davis Co.; 1989. p. 249-74. (16.) Kornreich L, Dagan O, Grunebaum M. MRI in acute poliomyelitis. Neuroradiology neuroradiology /neu·ro·ra·di·ol·o·gy/ (-ra?de-ol´ah-je) radiology of the nervous system. neu·ro·ra·di·ol·o·gy n. 1. The branch of radiology that deals with the nervous system. 1996;38:371-2. (17.) Rao D, Bateman D. Hyperintensities of the anterior horn cells on MRI due to poliomyelitis. Journal of Neurology, Neurosurgery, and Psychiatry 1997;63:720. (18.) Huang C, Liu C, Chang Y, Chen C, Wang S, Yeh T, et al. Neurologic complications in children with enterovirus enterovirus /en·tero·vi·rus/ (en´ter-o-vi?rus) any virus of the genus Enterovirus. enterovi´ral Enterovirus /En·tero·vi·rus/ (en´ter-o-vi?rus 71 infection. N Engl J Med 1999;341:936-42. (19.) Ohry A, Karpin H. Yoeli D, Lazari A, Lerman Y. West Nile virus myelitis. Spinal Cord 2001 ;39:662-3. (20.) Rotbart H. Viral meningitis and the aseptic meningitis syndrome. In: Scheld W, Whitley R, Durack D, editors. Infections of the central nervous system. Philadelphia: Lippincot-Raven Publishers; 1997. p. 239-63. (21.) Solomon T, Kneen R, Dung N, Khan V, Thuy T, Ha D, et al. Poliomyelitis-like illness due to Japanese encephalitis virus. Lancet 1998;351:1094-7. (22.) Kho L, Sumarmo W, Jahja E, Gubler D. Dengue dengue or breakbone fever or dandy fever Infectious, disabling mosquito-borne fever. Other symptoms include extreme joint pain and stiffness, intense pain behind the eyes, a return of fever after brief pause, and a characteristic rash. hemorrhagic fever accompanied by encephalopathy in Jakarta. Southeast Asian J Trop Med Public Health 1981;12:83-6. (23.) Sumarmo W, Wulur H, Jahja E, Gubler D, Suharyono W, Sorensen K. Clinical observations on virologically confirmed fatal dengue infections in Jakarta, Indonesia. Bull World Health Organ 1983;61:693-701. (24.) Gadoth N, Weitzman S, Lehmann E. Acute anterior myelitis complicating West Nile fever. Arch Neurol 1979;36:172-3. (25.) Manuelidis EE. Neuropathology of experimental West Nile virus infection in monkeys. J Neuropathol Exp Neurol 1956; 15:448-60. (26.) Cantile C, Di Guardo G, Eleni C, Arispici M. Clinical and neuropathological features of West Nile virus equine encephalomyelitis in Italy. Equine Vet J 2000;32:31-5. (27.) Cantile C, Del Piero F, Di Guardo Ct Arispici M. Pathologic and immunohistochemical findings in naturally occurring West Nile virus infection in horses. Vet Pathol 2001;38:414-21. (28.) Steele K, Linn M, Schoepp R, Komar N, Geisber T, Manduca R, et al. Pathology of fatal West Nile virus infection in native and exotic birds during the 1999 outbreak in New York City, New York. Vet Pathol 2000;37:208-24. (29.) Gorson K, Ropper A. Nonpoliovirus poliomyelitis simulating Guillain-Barre syndrome. Arch Neurol 2001;58:1460-4. (30.) Asbury A, Amason B, Karp H. Criteria for diagnosis of Guillain-Barre syndrome. Ann Neurol 1978;3:565-6. (31.) Weinberg D. AAEM AAEM American Academy of Emergency Medicine AAEM American Academy of Environmental Medicine AAEM American Association of Electrodiagnostic Medicine AAEM Advanced Analytical Electron Microscope case report #4: Guillain-Barre syndrome. Muscle Nerve 1999;22:271-81. (32.) Hurwitz E, Holman R, Nelson D, Schonberger L, Breman D, Kaslow R, et al. National surveillance for Guillain-Barre syndrome. January 1978-March 1979. Neurology 1983;33:150-7. (33.) Visser L, Van der Meche F, Van Doom P, Meulstee J, Jacobs B, Oomes P, et al. Guillain-Barre syndrome without sensory loss (acute motor neuronopathy): a subgroup with specific clinical, electrodiagnostic, and laboratory features. Brain 1995;118:841-7. (34.) Norda R, Berseus O, Stemayr B. Adverse events and problems in therapeutic hemapheresis hemapheresis /he·ma·phe·re·sis/ (he?mah-fe-re´sis) apheresis. he·ma·pher·e·sis n. See apheresis. . A report from the Swedish registry. Transfusion and Apheresis apheresis (əfĕr`əsĭs), or hemapheresis (hē'məfĕr`əsĭs), any procedure in which blood is drawn from a donor or patient and a component (platelets, plasma, or white blood Sciences 2001 ;25:33--1. (35.) Stangel M, Muller M, Marx P. Adverse events during treatment with high-dose intravenous immunoglobulins for neurological disorders. Eur Neurol 1998;40:173-4. (36.) Gottlieb S. Intravenous immunoglobulin increases the risk of thrombotic events. BMJ BMJ n abbr (= British Medical Journal) → vom BMA herausgegebene Zeitschrift 2002;324:1056. (37.) Struble E, Dice Y. Intravenous immune globulin intravenous immune globulin A formulation of concentrated antibodies–aka immune globulins, predominantly IgG, prepared by pooling plasma from ±1000 donors, with a broad spectrum of activity against CMV, HAV, HBV, measles, rubella, tetanus, varicella (IVIG) precipitating acute myocardial infarction acute myocardial infarction (  ·kyōōtˑ mī·ō·karˑ·dē· . J Miss State Med Assoc
2002;43:115.Address for correspondence: James J. Sejvar, Medical Epidemiologist, Division of Viral and Rickettsial Diseases, National Center for Infectious Diseases, Centers for Disease Control and Prevention, 1600 Clifton Road, Mailstop A39, Atlanta, GA 30333, USA; fax: 404-639-3163; email: zea3@cdc.gov James J. Sejvar, * A Arturo Leis, ([dagger]) Dobrivoje S. Stokic, ([dagger]) Jay A. Van Gerpen, ([double dagger]) Anthony A. Marfin, * Risa Webb, ([section]) Maryam B. Haddad, * Bruce C. Tierney, * Sally A. Slavinski, ([section]) Jo Lynn Polk, ([dagger]) Victor Dostrow, ([dagger]) Michael Winkelmann, ([dagger]) and Lyle R. Petersen * Centers for Disease Control and Prevention, Atlanta, Georgia, USA; ([dagger]) Methodist Rehabilitation Center, Jackson, Mississippi, USA; ([double dagger]) Ochsner Clinic, New Orleans, Louisiana, USA; and ([section]) Mississippi State Department of Health, Jackson, Mississippi, USA Dr. Sejvar is a neurologist and epidemiologist with the Centers for Disease Control and Prevention's Division of Viral and Rickettsial Diseases, National Center for Infectious Diseases. His current areas of research include the epidemiology of encephalitis, prion diseases, and other infections of the nervous system. |
|
||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion