Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
African and American trypanosomiasis Jarmila Kliescikova, MD, 1st Faculty of Medicine, Charles University in Prague Sleeping sickness Sleeping sickness • Kinetoplastida: Salivaria Trypanosoma brucei gambiense Western and central Africa (chronic disease) Trypanosoma brucei rhodensiense East and SE Africa (acute disease) Extracellular parasite Vector: tse-tse fly (Glossina) DRC, Angola, CAR, South Sudan - prevalence up to 50%. 1. or 2. most common cause of death in these countries In Africa, patients with sleeping sickness are poor live in remote / poor / unstable / neglected areas Patient prognosis is dependent on accurate and early diagnosis and staging The incidence of sleeping sickness has decreased in the most affected countries since 2000 ( elimination ?) The maintenance of vertical programmes are more difficult to justify and fund integration into existing health structures is the trend practical and cheap diagnostic tools must be used Epidemiology Distribution: tropical Africa (Chad, Congo, Cote de Ivoire, Guinea, Malawi, Uganda, Tanzania, CAR) Botswana, Swaziland and Namibia – trasmission seems interruped Connected to the vector distribution Prevalence approximately - 50 mil. 20 – 50 thousand new cases per year Approximately 55 thousand deaths/year Belongs to so called neglected diseases East African form rarely imported to Europe – infection usually during safari Simarro et al., 2010 The vector = Glossina spp. – both genders able to transmit the disease T. b. gambiensae Gl.palpalis/tachinoides – River glossina The maximum is the end of dry season Antroponoosis – human is the main reservoir, rarely dog, swine, sheep, cattle,.. T. b. rhodesiensae Gl. morsitans/fuscipes Savannah glossina Zoonosis – reservoir antelope, lions, cattle, sheeps, dogs Life cycle Pathogenity Site of inoculation Local inflammation Lymph, blood Chronic inflammation of the lymph system CSF Leptomeningitis Variable Surface Antigens change = The main mechanism of pathogenicity • Variabile surface coat VSG (variabile glycoproteins) • VSG protects from phagocytosis and lysis by alternative complement pathway • Trypanosomas • Exhaustion of the immune system posses several different genes coding the surface antigens • Toxic and end metabolic products of trypanosomas released in the organism The surface antigen changes Alteration of the human immune response Malvy and Chappuis, 2011 Clinical infection: I. Local reaction IP 6-14 days Local reaction at inoculation site: oedema, erythema „chancre“ formation (Grafs chancre) (trypanozomas found in the secret) Hyperpigmentation of skin Intermitent fever Loal lymphadenopathy Graafs chancre Malvy and Chappuis, 2011 2. Heamolytical stage: Lymfadenitis Cervical nodes Generalisation • Intermittent fever generalized weakness, headache 2. Haemolymphatic stage: Posterior cervical lymphadenopathy Nodes are soft, non dolorous, elastic Winterbotts sign 2. heamolymphatic stage Hepatosplenomegy Subcutaneous oedemas (face, lids) Exantema – tripanid 2. Heamolymphatic stage: Myocarditis tachycardia (100-140/min); heart failure Anaemia Polyneuropathy sensitive, motoric Weakness kachexia 3. Meningoencefalic stage Periferal polyneuropathy (late hypersteasia after pressure on limbs and muscles, pruritus) Headache Inverse sleep Personality, character changes Chorea, atetosis, dyskinesis, tremor, ataxia, tonic-clonic seizures Sexual behaviour dysfunctions, endocrinne dysregulation Wasting syndrome CT, NMR: Atrophic changes, hydrocephalus, thickening of meninges T.b gambiensae T.b.rhodesiensae EPIDEMIOLOGY: Middle, West Africa East. Africa Rezervoir Human, (dog, pig, ..) Antelopes, cattle Vector River glossina Savannah glossina Clinical course Chronic Acute Incubation period 1 – 3 weeks 1 – 3 weeks Chancre Fever 0, not always present Slow onset up to 39°C Present, large Acute, chills, > 39°C Lymph nodes Enlarged Insignificat Oedemas insignificant Present, esp. In children Myokarditis Not always Very common Invasion of CNS After 1 – 2 years after 3-6 months., earliest in 1 month Inflammatory CNS reaction High Weak Fatal without treat. 1-6 years Within 1 year Rat infection Mild course Fatal Laboratory • ESR (> 100 mm/h) • Blood count • Anaemia: severe, normochromatic • Lymphocytosis and monocytosis with relative neutropenia • Trombocythopenia • Serum protein • Total increase • Hypergamaglobulineamia and macroglobulinaemia (↑ IgM) • Elevation of α2-globulins • CSF (v II. stage) • Proteinrhachia (up to 10% IgM) • Mononuclear cells Diagnostics – direct methods • Biopsy of ulcus, local lymph nodes • Blood film, thick film • Concentration techniques • CSF examination Sleeping sickness Current diagnostic approach and tools I. Screening: II. Serology (CATT, IFI, ELISA) Cervical lymph node palpation Diagnostic confirmation (parasitology): I. Cervical lymph node puncture Detection of trypanosomes in blood Stage determination: CSF examination (LP): Search for trypanosomes (centrifugation) WBC/mm3 > 5 Raised IgM Blood film Brun at al., 2010 Serology Agglutination tests: Paper stripes Only for T.b.gambiense THERAPY T. b. gambiensae T. b. rhodesiensae Early phase Pentamidin Suramin Suramin Late phase (cerebral) Melarsoprol Eflorithine Nifurtimox Melarsoprol THERAPY • Acute trypanosomiasis • Suramin (BAYER 205, ANTRYPOL) • 5 mg/kg v 5-10 ml H2O slow i.v. 1. day • 10 mg/kg v 10 ml H2O slow i.v. 3. day • 20 mg/kg v 10 ml H2O i.v. 5.,11.,17.,23.and 30. d • Pentamidin isethionate (PENTACARINATE) • 3-4 mg/kg (150-300 mg)/day i.m. or i.v Every other day, together 7-10 doses • Chronic trypanosomiasis • Melarsoprol (MEL B, ARSOBAL) Strictly i.v. slow injection with increasing dosage, max. 3,6 mg/kg/day in several (3-4) 3-4 day cycles • Before malarsoprol use suraminem or pentaminidine (JarischHerxheimer reaction) • High toxicity (5-10% fatal) arsenic encephalopathy • Mannitol i.v. in isotonic glucose á 6 hours. • Prednisolon 50 mg/day, dexametason 6-8 mg/day i.v. EFLORITHINE -2 weeks 4 infusions per day Vector control http://influentialpoints.com/Gallery/Tsetse-flies_Louse-flies_and_Lice.htm American trypanosomiasis Trypanosoma cruzi – Kinetoplastida: Stercoraria • Vector: Triatoma; Rhodnius • Chagas disease • Rezervoir: human, live stock • Transmission: by vector transfusion/transplantation transplacentary Where are we now: 2012 • Transmission by Triatoma infestans halted in 1999 in Uruguay, 1999 in Chile, 2006 in Brazil and 2009 in Guatemala • Triatoma eliminated also from some parts of Argentina and Paraguay • Disease now „common“ in non-endemic areas: Europe and USA • WHO launched an initiative for controlling of disease in non-endemic areas • USA Food and Drug Administration approved the first serological screening for blood donors • Emergence of secondary domestic and peridomestic vectors • 8-11 mil people infected predominantly in Mexico, Central and South America • Incidence has dropped from 700 000 new cases per year to 40 000 • The number of deaths has dropped from approximately 45 thousand to 12 500 (chronic kardiomyopathy) Europe and Chagas disease 3 periods: Description of Chagas disease and in 1980 first case description in Europe Description of non-endemic transmission via transfusion or congenital transmission (southern Europe, Spain) Chagas disease recognized as global problem – transmission reported in 28 countries worldwide Estimates of migrant residents from Chagas disease endemic areas in nine studied European countries Basile et al, Eurosurveillance, 2009 Source: Basile at al, Eurosurvaillence, 2009 Estimated number of migrants infected with Chagas disease Basile et al., Eurosurveillance 2009 Underdiagnosis of Chagas disease in Europe Basile et al., Eurosurveillance 2009 Estimated congenital transmission in Europe Basile et al., Eurosurveillance 2009 Endemic Chagas disease distribution 2011 Triatoma/Rhodnius Blood sucking bed bugs The parasite is found within feaces Actively penetrates the skin Transmitted by adults and progeny Biting at night Typical sites of vector multiplication Typical sites of vector multiplication The vector can live in the crevices that are common in the mud and wood used to build walls and floor Chagas Disease in a Domestic Transmission Cycle in Southern Texas, USA real and predicted distribution of Triatoma gerstaeckeri Beard et al, 2003 from CDC Life cycle Trypanosoma cruzi • Intracellular parasite • Spread by blood to different organs • Preference: RES heart cells muscle cells neuroglia • In blood the flagellated forms are found • Intracellulary amastigotes are found Chagas disease has two phases Acute phase: Local or diffuse inflammation of myocardium Chronic phase Inflammatory fibrotic reaction damaging the cardiac muscle and conduction network and the enteric nervous system Pathofyziology • Autoimmune mechanisms: molecular mimicry, release of cryptic antigens, polyclonal lymphocyte activation, epitope spread • But the role is still controversial (immunosuppresion, HIV…) • The role of Th8 lymphocytes (shift to another population when treated) Pathophysiology • Host response can cause tissue damage (Th8 lymphocytes producing granzymes and other cytokines) • Progression to symptomatic disease involves imbalance between T-helper 1 and 2 responses • Heart: conduct system, parasympatic nerve • Hypertrophy, fibrosis, thinning of the left ventricular wall, aneurysma, thrombes formation Clinical symptoms. Primary leasion • Induration at entry point – inoculative chagoma: local inflammation, amastigotes in lipocytes • Inudrated erythematous papule (1-3 cm) local lymphadenopathy • Romaña sign – oedema of lids, conjunctivitis French female with Romana sign after visiting her parents from French Guzana, Source: CDC http://wwwnc.cdc.gov/eid/article/14/4/0 7-0489_article.htm Indeterminate Chagas disease • Seropositivity for Ch. disease • Normal chest radiograph and EKG • Abscence of clinical signs and symptoms • One third of patients progresses to symptomatic disease Some patients: abnormal contractility on Echo, Areas of cardiac fibrosis… Acute phase • • • • • • • • ID: 2-3 weeks Asymptomatic vs symptomatic Continuous fever 38 C, max evening (38-40 C) Local vs generalised lymphadenopathy Morbilliform rash (chest, stomach) Mild hepatosplenomegaly Subcutaneous oedema – face, limbs Myocarditis, endocarditis, pericarditis heart failure • Meningoencefalitis – mortality less than 5% (children) • Acute phase will disappear within 2-3 months Silva N et al. J Acquir Immune Defic Syndr Hum Retrovirol, 1999. Two thirds of patients – cardiac form, one third GIT form Progression 10-30 years after infection Cardiac disease Early: malaise, palpitations, syncope, abdominal pain (right upper quandrant), jugular venous distension, peripheral oedema, stroke Late: Atypical chest pain, syncopal episodes, sudden cardiac death, dyspnoea, orthopnoea, fatigue, murmurs, stroke GIT disease • Megaoesophagus: dysphagia, regurgitation, odynophagia, oesophagitis, aspiratory pneumonia, hiccups • Megacolon: chronic constipation, meteorism, chronic abdominal pain, bacterial overgrowth syndrome, malabsorbtion, ileus – toxické megacolon • Megaureteres Congenital disease • Increased by increased pregnancies, high maternal parasitemia… • Risk of approximately 5% in endemic and nonendemic areas • 10-30% babies symptomatic, 10% die within first 2 days without treatment • Prematurity, low birthweight, hepatomegaly, splenomegaly, jaundice, oedema, RDS, meningoencephalitis Transplanation • Kidney – 20-35% • Live and haemopoietic cells • Reactivation after transplantation: heart (20-75%), liver and haemopoietic cells • Myocarditis, Meningoencephalitis, nodules and plaques on skin Chagas disease and HIV+ • Reactivation of latent infection • CNS – 75% cases • Hypodense leasions; necrohaemorrhagic leasions, • Fever, cefalea, seazures, vomiting, focal neurological deficiency • Treatment must be early and continued for 30-60 days Prognosis Score for the progression of cardiac involvement • Age older than 50 years; 2 points • Systolic diameter more than 40 mm; 3 points • Intraventricular conduction disorders; 2 points • Sustained ventricular tachycardia; 3 points • Benznidazole treatment; –2 points Risk of progression is • 3・6% for a score of 0 • 6・9% for a score between 1 and 3 • 16% for a score between 4 and 6 • 52・5% for a score above 7 Prognostic score for mortality from Chagas disease • New York Heart Association III–IV; 5 points • Cardiomegaly; 5 points • Wall motion disorders; 3 points • Non-sustained ventricular tachycardia; 3 points • Broadened QRS complex; 2 points • Male sex; 2 points Risk of death is • 2% at 5 years and 10% at 10 years for a score between 0 and 6 points • 18% at 5 years and 44% at 10 years for a score between 7 and 11 points • 63% at 5 years and 84% at 10 years for a score between 12 and 20 points Diagnostics Acute phase Blood film Concentration methods Biopsy of the lymph nodes, CSF PCR Blood culture, xenodiagnostics Chronic phase Serology HIV, congenital, transplantation such as in acute phase Positive skin test T. cruzi XENODIAGNOSTICS Chronic phase of infection Therapy for acute or congenital disease, reactivation or for children • Nifurtimox (LAMPIT) • 2,6 – 3,6 mg/kg (children 3-5 mg/kg) p.o. 3x day 90 days • Benznidazol (RADANIL) • 2,5 – 3,5 mg/kg (children 5 mg/kg) p.o. 2x day 60 days • Also effective in early chronic phase • Allopurinol • Symptomatic treatment of chronic phase • Follow up by decline of antibodies levels