Improving outcome of childhood bacterial meningitis by simplified treatment : Experience from Angola

Background Acute bacterial meningitis (BM) continues to be an important cause of childhood mortality and morbidity, especially in developing countries. Prognostic scales and the identification of risk factors for adverse outcome both aid in assessing disease severity. New antimicrobial agents or adjunctive treatments - except for oral glycerol - have essentially failed to improve BM prognosis. A retrospective observational analysis found paracetamol beneficial in adult bacteraemic patients, and some experts recommend slow β-lactam infusion. We examined these treatments in a prospective, double-blind, placebo-controlled clinical trial. Patients and methods A retrospective analysis included 555 children treated for BM in 2004 in the infectious disease ward of the Paediatric Hospital of Luanda, Angola. Our prospective study randomised 723 children into four groups, to receive a combination of cefotaxime infusion or boluses every 6 hours for the first 24 hours and oral paracetamol or placebo for 48 hours. The primary endpoints were 1) death or severe neurological sequelae (SeNeSe), and 2) deafness. Results In the retrospective study, the mortality of children with blood transfusion was 23% (30 of 128) vs. without blood transfusion 39% (109 of 282; p=0.004). In the prospective study, 272 (38%) of the children died. Of those 451 surviving, 68 (15%) showed SeNeSe, and 12% (45 of 374) were deaf. Whereas no difference between treatment groups was observable in primary endpoints, the early mortality in the infusion-paracetamol group was lower, with the difference (Fisher s exact test) from the other groups at 24, 48, and 72 hours being significant (p=0.041, 0.0005, and 0.005, respectively). Prognostic factors for adverse outcomes were impaired consciousness, dyspnoea, seizures, delayed presentation, and absence of electricity at home (Simple Luanda Scale, SLS); the Bayesian Luanda Scale (BLS) also included abnormally low or high blood glucose. Conclusions New studies concerning the possible beneficial effect of blood transfusion, and concerning longer treatment with cefotaxime infusion and oral paracetamol, and a study to validate our simple prognostic scales are warranted.

Levosimendaanin vaikutusmekanismi ja nykyinen merkitys sydämen vajaatoiminnan hoidossa

Sydämen vajaatoiminta on erilaisista sydän- ja verisuonisairauksista aiheutuva monimuotoinen oireyhtymä, johon sairastuneiden ja kuolleiden potilaiden määrä on yhä suuri. Sen patofysiologiaan voi kuulua muun muassa sympaattisen hermoston ja reniini-angiotensiini-aldosteroni–järjestelmän aktiivisuutta, huonosti supistuva vasen kammio, sydämen uudelleenmuokkautumista, muutoksia [Ca2+]i:n säätelyssä, kardiomyosyyttien apoptoosia sekä systeeminen tulehdustila. Johonkin osaan sairauden patofysiologiasta eivät nykyiset lääkehoidot riittävästi vaikuta. Klassiset inotroopit lisäävät sydämen supistusvireyttä kasvattamalla solunsisäistä Ca2+-pitoisuutta, mutta ne lisäävät rytmihäiriöriskiä, sydämen hapenkulutusta sekä heikentävät ennustetta. Levosimendaani, kalsiumherkistäjä, lisää sydämen supistusvoimaa [Ca2+]i:ta kohottamatta herkistämällä sydänlihaksen kalsiumin vaikutuksille. Lisäksi levosimendaani avaa sarkolemmaalisia ja mitokondriaalisia K+-kanavia, jotka välittävät vasodilataatiota ja kardioprotektiota. Suurilla annoksilla levosimendaani on selektiivinen PDE3-estäjä. Levosimendaania suositellaan äkillisesti pahentuneen sydämen vajaatoiminnan hoitoon, mutta muitakin lupaavia indikaatioita sille on keksitty. Esimerkiksi kroonisesti annosteltu oraalinen levosimendaani on suojannut kardiovaskulaarijärjestelmää ja parantanut selviytymistä in vivo. Erikoistyössä selvitettiin kroonisesti annostellun oraalisen levosimendaanin, valsartaanin ja näiden kombinaatioterapian vaikutuksia selviytymiseen, verenpaineeseen sekä sydämen hypertrofioitumiseen Dahlin suolaherkillä (Dahl/Rapp) rotilla. Levosimendaanin suojavaikutus ilmeni vähäisempänä kuolleisuutena, mutta ero ei ollut tilastollisesti merkitsevä kontrolliryhmään nähden. Kombinaatioterapia suojasi rottia kardiovaskulaarikuolleisuudelta ja vähensi todennäköisesti verenpaineesta riippuvaisesti sydämen hypertofioitumista niin sydän/kehonpaino–suhteen kuin ultraäänitutkimuksenkin perusteella arvioituna paremmin kuin kumpikaan lääke monoterapiana. Lääkekombinaatio alensi additiivisesti hypertensiota kaikissa mittauspisteissä. Sydämen systolista toimintaa levosimendaani kohensi vain vähäisesti. Dahl/Rapp-rotille kehittyikin pääosin hypertension indusoimaa diastolista sydämen vajaatoimintaa kohonneen IVRT-arvon perusteella. Levosimendaani sekä monoterapiana että kombinaatioterapiana valsartaanin kanssa vähensi sydämen diastolista vajaatoimintaa.

Role of GDNF and its Cross-Talk with Other Growth Factors in the Dopaminergic System

Parkinson´s Disease (PD) is a neurodegenerative movement disorder resulting from loss of dopaminergic (DA) neurons in substantia nigra (SN). Possible causative treatment strategies for PD include neurotrophic factors, which protect and in some cases restore the function of dopaminergic neurons. Glial cell line-derived neurotrophic factor (GDNF) family of neurotrophic factors have been to date the most promising candidates for treatment of PD, demonstrating both neuroprotective and neurorestorative properties. We have investigated the role of GDNF in the rodent dopaminergic system and its possible crosstalk with other growth factors. We characterized the GDNF-induced gene expression changes by DNA microarray analysis in different neuronal systems, including in vitro cultured Neuro2A cells treated with GDNF, as well as midbrains from GDNF heterozygous (Hz) knockout mice. These microarray experiments, resulted in the identification of GDNF-induced genes, which were also confirmed by other methods. Further analysis of the dopaminergic system of GDNF Hz mice demonstrated about 40% reduction in GDNF levels, revealed increased intracellular dopamine concentrations and FosB/DeltaFosB expression in striatal areas. These animals did not show any significant changes in behavioural analysis of acute and repeated cocaine administration on locomotor activity, nor did they exhibit any changes in dopamine output following treatment with acute cocaine. We further analysed the significance of GDNF receptor RET signalling in dopaminergic system of MEN2B knock-in animals with constitutively active Ret. The MEN2B animals showed a robust increase in extracellular dopamine and its metabolite levels in striatum, increased tyrosine hydroxylase (TH) and dopamine transporter (DAT) protein levels by immunohistochemical staining and Western blotting, as well as increased Th mRNA levels in SN. MEN2B mice had increased number of DA neurons in SN by about 25% and they also exhibited increased sensitivity to the stimulatory effects of cocaine. We also developed a semi-throughput in vitro micro-island assay for the quantification of neuronal survival and TH levels by computer-assisted methodology from limited amounts of tissue. This assay can be applied for the initial screening for dopaminotrophic molecules, as well as chemical drug library screening. It is applicable to any neuronal system for the screening of neurotrophic molecules. Since our microarray experiments revealed possible GDNF-VEGF-C crosstalk we further concentrated on studying the neurotrophic effects of VEGF-C. We showed that VEGF-C acts as a neurotrophic molecule for the DA neurons both in vitro and in vivo, however without additive effect when used together with GDNF. The neuroprotective effect for VEGF-C in vivo in rat 6-OHDA model of PD was demonstrated. The possible signalling mechanisms of VEGF-C in the nervous system were investigated - infusion of VEGF-C to rat brain induced ERK activation, however no direct activation of RET signalling in vitro was found. VEGF-C treatment of rat striatum lead to up-regulation of VEGFR-1-3, indicating that VEGF-C can regulate the expression level of its own receptor. VEGF-C dopaminotrophic activity in vivo was further supported by increased vascular tissue in the neuroprotection experiments.