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Abstrak :
Latar belakang. Malaria masih menjadi masalah kesehatan. Malaria disebabkan oleh parasit genus Plasmodium. Respon imun ternyata mempunyai kontribusi terhadap infeksi malaria, antara lain sitokin proinflamasi dan antiinflamasi yang berperanan pada beratnya infeksi malaria. Pasak bumi (Eurycoma longifolia Jack) merupakan obat tradisional sebagai antimalaria, dan imunomodulator. Tujuan penelitian ini adalah untuk menganalisis pengaruh ekstrak metanol akar pasak bumi sebagai antimalaria yang berpengaruh pada kadar sitokin proinflamasi dan antiinflamasi pada mencit yang terinfeksi P. berghei Metode. 5 mencit yang diinfeksi dengan P. berghei diberi ekstrak metanol akar pasak bumi dengan dosis 60 mg/kgBB. Antimalaria ditunjukkan dari apusan tipis dan apusan tebal. Sitokin proinflamasi dan antiinflamasi diperiksa dengan bead based multiplexing technique. Hasil. Aktivitas antimalaria ekstrak akar pasak bumi mempunyai daya hambat terhadap parasit sebesar 88,78% (p=0,007) dan rata-rata pertumbuhan parasit yaitu 0,03% (p=0,001). Efek Imunomodulator, dinilai terhadap rata-rata MFI TNF-α, IFN-γ dan IL-10 kelompok yang diterapi ekstrak akar pasak bumi dibandingkan kelompok kontrol secara berturut-turut ± 14,5 : ± 6,2; ±9,2 : ±25,38; ±29,6 : ±14,75.Terdapat korelasi positif penghambatan pertumbuhan parasit dengan nilai TNF-α (r = 0,612, p = 0,06), Korelasi negatif Penghambatan pertumbuhan parasit dengan nilai IFN-γ (r = -0,092, p = 0,814), Korelasi positif penghambatan pertumbuhan parasit dengan nilai IL-10 (r = 0,276, p = 441). Terdapat korelasi negatif antara nilai TNF-α dengan IFN-γ (r = - 0,699, p = 0,036), korelasi positif antara nilai TNF-α dengan IL=10 (r = 0,350, p = 0,355) Kesimpulan ekstrak akar pasak bumi mempunyai efektivitas sebagai antimalaria, dengan mempengaruhi peningkatan sitokin TNF-α dan IL-10, tetapi tidak pada IFN-γ

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Background. Malaria is still a health issues. Malaria is caused by parasites of the genus Plasmodium. An immune response actually has contribution against infection malaria, among others proinflamation and antiinflamation cytokine play an important role. Extract of pasak bumi root is a drug traditional as antimalarial. Pasak bumi root is also immunomodulator. The aim of this research is to analyze of an extract of methanol of Pasak bumi root as antimalarial against the level of a proinflamation and antiinflamation cytokines on mice is infected by P. berghei Methods. 5 mouse are infected by P. berghei, are given extract of pasak bumi root with dose 60 mg/kg BB. Antimalaria is shown by apusan tipis and apusan tebal. Proinflamasi and antiinflamasi is examined by bead based multiplexing technique. Result. Antimalarials activity has its obstruent against parasitic about 88,78% (p = 0,007) and The average growth of the parasitic 0,03% (p = 0,001). Effect of immunomodulator, mean of MFI TNF-α, IFN-γ and IL-10 on a group that is in therapy is compared on an group that are not in therapy respectively ± 14,5 : ± 6,2; ±9,2 : ±25,38; ±29,6 : ±14,75. There is a positive correlation between Growth inhibitor of parasitic and TNF-α. (r = 0,612, p = 0,06). There is a negative correlation between growth inhibitor of parasitic and IFN-γ (r = -0,092, p = 0,814) and there is a positive correlation between growth inhibitor of parasitic and IL-10 (r = 0,276, p = 0,441). There is a negative correlation between score of TNF-α and IFN-γ (r = -0,699, p = 0,036) between TNF-α. and IL-10 (r = 0,350, p = 0,355). Conclusions. An extract of Pasak bumi root a have an antimalarial the effectiveness and influence to TNF-α and IL-10 but not on IFN- γ

Abstrak :
[Resistensi yang terjadi pada beberapa obat antimalaria, seperti klorokuin, mendasari gencarnya dilakukan penelitian yang bertujuan untuk menemukan terapi antimalaria alternatif, salah satunya dengan memanfaatkan potensi herbal dari alam Indonesia. Ekstrak tanaman yang terbukti pada penelitian in-vivo memiliki efek antimalaria adalah akar pasak bumi (Eurycoma longifolia jack). Penelitian ini merupakan penelitian eksperimental in-vivo yang menguji ekstrak akar pasak bumi dengan dosis 60 mg/kgbb, 75 mg/kgbb, dan 90 mg/kgbb terhadap mencit (Mus musculus) yang terinfeksi Plasmodium berghei. Peningkatan densitas parasitemia pada hari ke-4 terapi dosis 60 mg/kgbb lebih tinggi dari kontrol negatif, sedangkan terapi dosis 75 mg/kgbb dan 90 mg/kgbb lebih rendah dari kontrol negatif namun perbedaannya tidak signifikan secara statistik. Ditinjau dari persentase inhibisi parasitemia, terapi dosis 60 mg/kgbb memiliki persentase inhibisi parasitemia negatif, sedangkan terapi dosis 75 mg/kgbb dan 90 mg/kgbb memiliki persentase inhibisi parasitemia < 50%. Ditinjau dari kadar hemoglobin, ketiga dosis perlakuan memiliki kadar hemoglobin yang fluktuatif dan cenderung menurun hingga pada kondisi anemia. Hal ini menunjukkan bahwa ekstrak akar pasak bumi dosis 60 mg/kgbb tidak memiliki efek antimalaria, sedangkan dosis 75 mg/kgbb dan 90 mg/kgbb memiliki efek antimalaria namun kurang adekuat. Terapi dosis 90 mg/kgbb menunjukkan peningkatan densitas parasitemia hari ke-4 yang paling rendah dan persentase inhibisi parasitemia paling baik. Dengan demikian disimpulkan bahwa terapi ekstrak akar pasak bumi kurang tepat digunakan sebagai terapi tunggal malaria;Resistance on malaria medication, for example klorokuin, underlie the study that aim to find alternative malaria treatment by using herbal potention from the nature of Indonesia. Herbal extract that had been proven in vivo experimental study that has antimalarial effect is Pasak bumi root (Eurycoma longifolia jack). This study is in vivo experimental study that giving Pasak bumi root extract by dose 60 mg/kgbw, 75 mg/kgbw, and 90 mg/kgbw to mice (Mus musculus) infected by Plasmodium berghei. The increase of parasitemia density in the 4th day of treatment by dose 60 mg/kgbw is higher than negative control, while treatment by dose 75 mg/kgbw and 90 mg/kgbw are lower than negative control, but the difference is not significant in statistic analysis. Reviewed from parasitemia inhibition persentage, treatment by dose 60 mg/kgbw has negative parasitemia inhibition persentage, while treatment by dose 75 mg/kgbw and 90 mg/kgbw have parasitemia inhibition persentage <50%. Reviewed from hemoglobin level, those treatment by three doses have fluctuative hemoglobin level and tend to be decreasing till reaching anemia. It shows that pasak bumi root extract by dose 60 mg/kgbw does not have antimalarial effect, while 75 mg/kgbw and 90 mg/kgbw have inadequate antimalarial effect. Treatment by dose 90 mg/kgbw shows the lowest increase of 4th day parasitemia density and the best parasitemia inhibition persentage. Thus, it could be concluded that pasak bumi root extract is not good enough to be used as single treatment of malaria, Resistance on malaria medication, for example klorokuin, underlie the study that aim to find alternative malaria treatment by using herbal potention from the nature of Indonesia. Herbal extract that had been proven in vivo experimental study that has antimalarial effect is Pasak bumi root (Eurycoma longifolia jack). This study is in vivo experimental study that giving Pasak bumi root extract by dose 60 mg/kgbw, 75 mg/kgbw, and 90 mg/kgbw to mice (Mus musculus) infected by Plasmodium berghei. The increase of parasitemia density in the 4th day of treatment by dose 60 mg/kgbw is higher than negative control, while treatment by dose 75 mg/kgbw and 90 mg/kgbw are lower than negative control, but the difference is not significant in statistic analysis. Reviewed from parasitemia inhibition persentage, treatment by dose 60 mg/kgbw has negative parasitemia inhibition persentage, while treatment by dose 75 mg/kgbw and 90 mg/kgbw have parasitemia inhibition persentage <50%. Reviewed from hemoglobin level, those treatment by three doses have fluctuative hemoglobin level and tend to be decreasing till reaching anemia. It shows that pasak bumi root extract by dose 60 mg/kgbw does not have antimalarial effect, while 75 mg/kgbw and 90 mg/kgbw have inadequate antimalarial effect. Treatment by dose 90 mg/kgbw shows the lowest increase of 4th day parasitemia density and the best parasitemia inhibition persentage. Thus, it could be concluded that pasak bumi root extract is not good enough to be used as single treatment of malaria]