vhf encephalitis
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VHF Encephalitis. Prof. Dr. Mehmet BAKIR. Definition of Viral Hemorrhagic Fever. Fever Myalgia Bleeding including dermal , intradermal , gastrointestinal system , and vaginal or another organ/ system. The etiology of VHF. Filoviridae ( Marburg virus ve Ebola virus ) - PowerPoint PPT PresentationTRANSCRIPT
VHF Encephalitis
Prof. Dr. Mehmet BAKIR
Definition of Viral Hemorrhagic Fever
Fever Myalgia Bleeding including dermal, intradermal, gastrointestinal
system,and vaginal or another organ/system
The etiology of VHF Filoviridae (Marburg virus ve Ebola virus)
Arenaviridae (Lassa virus, Junin, Machupo, Sabia, and Guanarito virus)
• Lassa ,and Junin virus can cause encephalitis,and menengitis
Bunyaviridae (Crimean-Congo hemorrhagic fever virus [CCHFV], Rift Valley
fever virus [RVFV] ,Hantavirus)
• RVF and Toscana virus can cause encephalitis, and menengitis
Flaviviridae
• Yellow fever virus and Dengue virus, West Nile virus
• DENV and WNF can cause encephalitis, and menengitis
West Nile Virus
From Flaviviridae family and the Flavivirus genus
WNV is a positive sense single stranded RNA virus
and an important pathogen for humans, horses, dogs, birds and
reptiles
Birds are considered to be the main reservoir hosts of WNV,
Migratory birds play an important role in its spreading
The natural cycle of WNV typically involves ornithophilic Culex
mosquitoes feeding on avian hosts
From human to human can be transported by transfusion or
transplantation of organsMonath and Heinz 1996, Rappole et al. 2000, Apperson et al. 2004, Iwamoto 2003, Pealer LN 2003,
Horses are highly susceptible
The latest outbreaks of WNV include an increased proportion of neurological
disease in both humans and horses
Mortality rates among clinically affected horses have been estimated around
38%, 28%, 44% and 42% during outbreaks in the USA, France (2000),
Morrocco and Italy (1998), respectively
West Nile virus has a wide geographical distrubution that includes countries of
Europe, Asia, Africa, Australia, and America
WNND were confirmed by European countries such as Greece (197 cases) ,
Romania (54 cases), Italy (3 cases), Hungary (15 cases), Portugal (1 case)
and Spain (1 case) [5] in 2010
Castillo- Olivares and Wood 2004, Petersen and Roehrig 2001, Tber Abdelhaq 1996, Cantile et al. 2001, Murgue et al. 2001, Ostlund et al. 2001, Hubalek and Halouzka 1999, Savage et al. 1999, Hayes et al. 2005
West Nile Vırus
The first acute human WNV infection cases were documented
and reported from Manisa province in Turkey.
From July to November in 2010, 47 cases of WNV infection
were detected (35 were probable, 12 were confirmed)
The central nervous system manifestations were found in 40
patients
WNV
An other study was performed at Hacettepe University Hospital.
Paired serum and cerebrospinal fluid (CSF) samples from 87
adult patients with the preliminary diagnosis of aseptic
meningitis/encephalitis of unknown etiology were evaluated
retrospectively to identify WNV-related syndromes.
WNV IgM and IgG antibodies were detected in 9.2% (8/87) and
3.4% (3/87) of the serum samples, respectively.
Ergünay K, et al, 2010
• In this study, 371 sample from 234 individuals were collected from Ankara and Izmir
• Two cases of WNV CNS infections and 14 cases of TOSV infections were identified
via serological testing
Surveillance and outbreak reportsEmergence of West Nile virus infections in humans inTurkey, 2010 to 2011H Kalaycioglu ([email protected])1, G Korukluoglu1, A Ozkul2, O Oncul1, S Tosun3, O Karabay4, A Gozalan1, Y Uyar1,D Y Caglayık1, G Atasoylu5, A B Altas1, S Yolbakan1, T N Ozden5, F Bayrakdar1, N Sezak3, T S Pelıtlı6, Z O Kurtcebe6, E Aydın6,M Ertek11. Refik Saydam National Public Health Agency, Ankara, Turkey2. Ankara University, Faculty of Veterinary Medicine, Department of Virology, Ankara, Turkey 3. State Hospital, Manisa, Turkey 4. Training and Research Hospital, Sakarya, Turkey 5. Provincial Health Directorate, Manisa, Turkey6. Ministry of Health, General Directorate of Primary Health Care, Ankara, Turkey
Age group (years)
Number ofcases
Incidence(per 100,000 population)
<20 8 0.10
20-29 3 0.07
30-39 1 0.03
40-49 6 0.19
50-59 8 0.33
60-69 4 0.28
70-79 12 1.29
>80 5 1.63
Province of residence
Ankara 1 0.02
Adana 1 0.05
Antalya 1 0.05
Kocaeli 1 0.06
Afyon 1 0.14
Konya 3 0.15
Manisa 2 0.15
Izmir 8 0.21
Isparta 1 0.24
Balikesir 3 0.26
Diyarbakir 4 0.26
Aydin 4 0.41
Karaman 1 0.43
Mugla 4 0.50
Sakarya 12 1.39
Total 47 0.19
The overall incidence of WNV infections was
deteced in 0.19 cases per 100,000 population in
humans in a sureveillance study in Turkey, 2010 to
2011
United States, 2011
MMWR / July 13, 2012 / Vol. 61 / No. 27
WNV recognized in North America in 1999 and is the
most frequent cause of epidemic
meningoencephalitis in North America.
Between 1999 and 2009, over 12,000 cases of
WNND were reported in the United States.
Debiasi RL, 2011
In WNV infection
Pathological changes within the central nervous system
develop as a direct result of viral proliferation within neuronal
and glial cells, cytotoxic immune response to infected
cells, diffuse perivascular inflammation, and microglial nodule
formation
Smith RD, Hum Pathol 2004; Agamanolis DP, Ann Neurol 2003 Gyure KA. J Neuropathol Exp Neurol 2009
West Nile Vırus
Incubation period is 2-15 days.
Asymptomatic infection, West Nile Fever, and West Nile neuroinvasive disease
(WNND) follow this incubation period.
Of all cases, 80% is asymptomatic and 20% is symptomatic.
Less than 1% of symptomatic cases have a neuroinvasive disease.
Most of illnesses is seen as “West Nile fever” and observed as clinical
symptoms and findings as follows:Self-limited dengue-like illness
• Fever, headache, retro-orbital pain, back pain, fatigue, arthralgia, and
myalgia, anorexia, nausea, vomiting, diarrhea, maculopapular rash,
lymphadenopathy
Hayes et al. 2005, Petersen and Marfin 2002, Solomon and Vaughn 2002
West Nile neuroinvasive disease (WNND)
WNND includes severe neurologic illness categories
• Clinical and laboratory findings seen in the WNV meningitis include
fever, nuchal rigidity, CSF pleocytosis.
• Encephalitis includes 60% of WNND cases and there is ususally
altered mental status in these cases consisting
of people less than 55 years old or immunocompromised patients
• The other neuroinvassive disorders of WNV include
• meningoencephalitis,
• acute flaccid paralysis,
• tremor, myoclonus or both tremor and myoclonus,
• and parkinsonism
Diagnosis of WNND Many patients with WNND have normal neuroimaging status
but abnormalities may be present in areas including the basal ganglia, thalamus, cerebellum, and brainstem
CSF protein is elevated Cerebrospinal fluid invariably shows a pleocytosis, with a
predominance of neutrophils in up to half the patients. With demonstration of WNV-specific IgM antibodies in
cerebrospinal fluid or serum approximatelly half of all cases will be positive in the first 7 days whereas Ig G Antibodies will be positive in 7-21 days
RNA in serum and/or CSF can be detected by PCR method.
Therapy and prevention
Therapythere is no proven therapy for
WNND,
several vaccines and antiviral
therapy with antibodies,
antisense oligonucleotides,
and interferon preparations are
currently undergoing human
clinical trials.
Supportive therapy has to be
carried out.
Prevention
Repellents and body protective
clothing can use to avoid the
bite of the mosquito
It can use insecticides for
mosquitoes
There are studies for vaccine
but not available for general use
Dengue Haemorrhagic Fever virus
Virus is from Flaviviridae family and Flavivirus genus
Dengue is an RNA virus that is grouped into four serotypes
(DENV-1 through DENV-4).
This virus is
non-enveloped,
spherical with a diameter of 50nm
and a positive-sense,single-stranded RNA genome.
DENV epidemiology This infection is the most destructive arboviral disease
The number of countries reporting outbreaks has increased 10-fold since the last
30 years. Dengue is a worldwide condition spread throughout the tropical and subtropical
zones between 30 N and 40 S.
These countries are:
• Pacific-Asian region, Americas, Middle East, and Africa.
Approximately 50-100 million infections occur each year resulting in
approximately 25,000 deaths.
Vectors are the mosquitoes Aedes aegypti and Aedes albopictus
Dengue represents the second leading cause of acute fever in travellers
The incidence of neurological symptoms among dengue patients
varies from 1% to 25% in all dengue admissions
In Indonesia, 70% of virologically confirmed fatal dengue infections
(n=30) presented with one or more neurological signs, and 7% of
those admitted for viral encephalitis turned out to be dengue-infected.
In another study , 4.2% of patients with neurological symptoms tested
positive for dengue.
Thakare J, . et al1996, Kankirawatana P, et al. 2000, Solomon T, et all,2000, Puccioni-Sohler et al., 2000,. Jackson et al., 2008, Garcia-Rivera EJ, et all, 2002
In this study, the authors reviewed the etiology of viral menengitis and encephalitis in a dengue endemic region, in Brazil.
Dengue viral encephalitis brought about 47% of all encephalitis cases.
Journal of the Neurological Sciences 303 (2011) 75–79
In the same study mentioned above, Dengue viral menengitis is 10% of all menegitis cases.
Journal of the Neurological Sciences 303 (2011) 75–79
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In this study, the authors included
265 cases of AFE and
39 patients were evaluated as
dengue encephalopathy
Neurological Manifestations of Dengue
From the pathogenesis point of view, neurological manifestations of
dengue can be grouped into three categories:
(1) Related to neurotropic effect of virus (encephalitis);
(2) Related to systemic complication of dengue infection
(encephalopathy);
(3) Post infectious like acute disseminated encephalomyelitis, myelitis,
Guillain-Barre syndrome, optic neuritis.
Murthy JMK. Neurological complication of dengue infection. Neurol India. 2010; 58: 581-84.
Clinical manifestations
Patients with Symptomatic Dengue Fever have:
malaise, headache, myalgias,
retro-orbital pain, bone pain,
arthralgias, nausea, vomiting
petechiae, and a diffuse
erythematous maculopapular rash
Patients with Dengue Hemorrhagic Fever and Shock Syndrome (the most severe form) have:
Hepatomegaly
Hemorrhage (including epistaxis,
gingival hemorrhage, and
gastrointestinal hemorrhage)
Disseminated intravascular
coagulation, plasma leak, and shock
may be fatal during this phase.
Neurological complications are uncommon manifestations of dengue fever,
Neurological dengue is classified as a form of Severe Dengue (WHO 1997, 2009).
Neurlogical complications
Encephalitis is the most common clinical status (from 4.2% to as much
as 51%) and has following characteristics:
• Fever, headaches, altered consciousness or personality, seizures,
or focal neurological signs
• myalgias, diarrhea, joint or abdominal pain, rash, and bleedings
are reported in only 50% of encephalitis cases
The other clinical statues include meningitis and myelitis
Acute disseminated encephalomyelitis (ADEM) is rarely described in
association with dengue infection
Laboratory findings
CT and MRI findings:
• hemorrhages, diffuse cerebral edema,
• focal abnormalities involving the globus pallidus, the
hippocampus, the thalamus, and the internal capsule
Analysis of CSF:lymphomononuclear pleocytosis and normal
glucose levels
However, normal CSF cellularity has been shown in more than
half of patients with dengue encephalitis.
Diagnosis
Cell culture for DENV
RT-PCR for detecting of viral RNA in serum, plasma,
or CSF
ELISA for identifying dengue virus specific IgM and
or immunoglobulin G in serum obtained during the
acute and convalescent phases of infection
Management of Dengue Fever
There is no specific anti viral treatment and
The management is essentially supportive and
symptomatic (Bedrest)
The key to success is frequent monitoring and
changing strategies depending on clinical and
laboratory evaluations
(Fluid, electrolyte, blood and blood products)
Prognosis Mortality rates vary from 5% to 22%
Causes of death include multi-organ failure, hemorrhagic
complications, and circulatory collapse.
Most patients completely recover by the time of hospital discharge
Neurological sequelae include:
• spastic paresis,
• static myelopathy following transverse myelitis,
• residual spasticity,
• prolonged drowsiness,
• residual paralysis and Parkinsonian syndrome.
Prevention
Tissue culture-based vaccines for dengue virus types
are immunogenic but not available for general use
Repellents and body protective clothing can use to
avoid the bite of the mosquito
It can use insecticides for mosquitoes
Arenaviridae
At least eight arenaviruses are known to cause human disease
New World viruses,
• Junin virus (JUNV), Machupo virus (MACV), Guanarito virus
(GTOV), and Sabia virus (SABV) (all members of lineage B) are
etiologic agents of hemorrhagic fever syndromes in South
America,
• Whitewater Arroyo virus (WWAV) (lineage A) has been linked to
two fatalities in North America .
Old World viruses
• Lassa virus (LASV), Lujo virus, and lymphocytic choriomeningitis
virus (LCMV
Arenaviridae
Arenaviridae is a spherical or pleomorphic virion ( with a
diameter of 50–300 nm) with envelope and has single-stranded
RNA
Virus is inactivated by:
• heating to 56oF,
• pH<5.5 or >8.5, and
• UV/gamma irradiation
Chemical agents like 0.5% sodium hypocorite, 0.5% phenol and
10% formalin are sufficiently good inactivants against the virus.
Lassa virus
Lassa virus and Lujo virus can cause hemorrhagic fevers
and Lassa fever accounts for 10 to 15% of adult medical
admissions in West Africa
Rodent-to-human transmission (the “multimammate rat”,
Mastomys species-complex)
Infected rodents remain as carriers throughout their life (no
clinical symptoms)
Infected rodents excrete the virus through the urine, saliva,
respiratory secretion
Lassa virus
Human infections can occur :
• when individuals are exposed to aerosol forms of the virus
• or after direct contact between infectious materials and abraded
skin.
• Ingestion of food or materials contaminated by infected rodent
excreta
The virus can be isolated in the blood, faeces, urine, throat swab,
vomit, semen and saliva of infected persons ( during 30 days or more )
Infected persons present serious threat to the environment
Health care workers are at risk if proper barrier nursing and infection
control are not maintained.
Pathogensis
The ilness is developed by :
endothelial cell damage/capillary leak,
platelet dysfunction,
suppressed cardiac function,
cytokines and other soluble mediators of shock and
inflammation
Clinical aspects
Incubation period is approximately 5-21 days
Typical symptoms include:
• gradual onset of fever, headache, malaise,
• pharyngitis, myalgias, retro-sternal pain, cough, vomiting
arthralgia, weakness, sizziness, abdominal pain, diarrhea
A minority group present with classic symptoms of bleeding,
neck/facial swelling and shock.
Lassa virus Neurological signs include confusion, disorientation, locomotor
dysfunction, tremors, convulsions and coma.
The clinical picture can vary.
Encephalopathy was the most prominent syndrome.
Severely ill patients may die and the mortality rate is
particularly high among pregnant women.
Convalescence can be prolonged in patients who recover.
Transient or permanent deafness often occurs.
Diagnosis
Virus isolation
ELISA for antigen of virus and IgM or IgG for virus
Immunohistochemistry (for post-mortem diagnosis)
RT-PCR for detecting RNA of virus
Treatment It includes supportive measures and ribavirin.
Ribavirin is most effective when started within the first 6 days of illness
• Its major toxicity is mild hemolysis and suppression of erythropoesis. Both is reversible.
• Presently, it contraindicates in pregnancy, although it may be warranted if mother’s life is at risk
Poor prognosis
Poor prognosis can be due to:
• high viremia,
• high serum AST levels as more than150 IU/L
• bleeding
• encephalitis
• edema
• third trimester of pregnancy
Prevention and control
Programs for rodent control and avoidance Health education strategies for preventing infections
in people living in endemic area
Hospital training programs to avoid nosocomial spread
Diagnostic technology transfer
Specific antiviral chemotherapy (ribavirin)
There are studies for vaccine but not available for general use
Bunyaviridae family, Phlebovirus genus (10 sercomplex)
Sandfly fever serocomplex Sandfly fever Naples group
• Granada virus
• Massila virus
• Punique virus
• Sandfly fever Naples virus
• Toscana virus Sandfly fever Sicilian group
• Belterra virus
• Chagres virus
• Corfu virus
• Rift Valley fever virus
• Sandfly fever Cyprus virus
• Sandfly fever Sicilian virus
• Sandfly fever Turkey virus
Virus has a single-stranded
RNA genome with lipid-
enveloped
The genome consists of
three segments: the large(L),
the medium (M),the small (S)
Phlebovirus (RVFV)
RVFV is a highly pathogenic virus that can cause lethal disease in
both humans and ruminant animals
RVFV is transmitted primarily by Aedes mcintoshi mosquitoes,
The virus has been detected in 23 species of mosquitoes
RVF outbreaks in human populations vary in size, intensity and
location with these parameters dependent upon rainfall and
mosquito abundance
Humans is infected by direct contact or aerosol.
Tissue or body fluids of animals (aborted fetuses, slaughter, necropsy)
are contagious
Chronology of Phlebovirus (RVFV) epidemia 1987: Senegal
1997-98: Kenya Largest outbreak reported (89,000 humans cases -
478 deaths)
2000-01: Saudi Arabia and Yemen (First outbreak outside of Africa)
2003: Egypt (45 cases; 17 deaths)
2006-7: Kenya ( Spread to surrounding areas, 1000+ human cases,
300 deaths)
The largest recorded outbreak of RVF was in Egypt in 1977 with
10,000 to 20,000 human cases [8,9].
2010: South Africa (over 250 laboratory confirmed cases with an
approximate case fatality rate of 11%)
Phlebovirus (Sandfly and Toscona virus)
Virus transmitted to humans by insects of Phlebotomus genus (P.
perniciosus and Phlebotomus perfiliewi )
The virus has been detected in Italy and Spain
Virus recently spread to many other Mediterranean and Europe
countries such as:
• Turkey, Cyprus, Greece, France, Portugal, Germany
Most cases of the disease have been reported in residents in or
travellers to the Mediterranean area.
(Amaro et al., 2011; Brisbarre et al., 2011; Depaquit et al., 2010, Di Nicuolo et al,2005 , Ergünay et all. 2012,F.de Ory et al, 2013, Colomba et al 2011,
Phlebovirus (Sandfly and Toscona virus)
Incubation period ranges from a few days to 2 weeks, Clinical symptoms are:
• headache (100%, ),
• fever (76%–97%),
• nausea and vomiting (67%–88%)
• myalgias (18%). Physical examination findings are:
• neck rigidity (53%–95%), Kernig signs (87%),
• poor levels of consciousness (12%),
• Tremors (2.6%),
• paresis (1.7%), and nystagmus (5.2%) (L. Laboratory findings of CSF include cells more than 5–10 with normoglycorachia
and normoproteinorachia. Blood samples may show leukocytosis (29%) or leukopenia (6%).
Charrel et al, 2005
Phlebovirus (Rift Valley fever virus)
Incubation period is 2 to 6 days and it occurs often asymptomatic and
with Influenza-like illness (Fever, headache, myalgia, vomiting). The
patients recover between 2 to 7 days.
A small percentage (1%) of patients has:
• Encephalitis,
• Retinal vasculitis,
• Hemorrhagic fever with melena, hematemesis, petechia, jaundice,
shock, coma and
• case-fatality is about 50%
Diagnosis
Diagnosis is based on
• virus isolation
• antigen detection
• RT-PCR
• serology Treatment includes:
• Symptomatic and supportive therapy
• Replacement of coagulation factors
Ribavirin may also be helpful
Prevention and control for RVFV
There are attenuated and inactivated vaccine for
animal
But there is a limited use for humans
Vector control
Animal housing control
Barrier precautions
Conclusion
Different viruses in VHF group can be the cause of ilnesses
such as encephalitis, mengitidis and other neuroinvassive
diseaases in contaminated parts of the world and in travellers
Our aim is mainly to diagnosis such illnesses ,and to make
appropriate treatment in due time and to prevent
For this purpose severel research works have to be carried out,
in order to develope new treatment methods and medicine