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Abstrak :
[ABSTRAK
Latar belakang. Pemberian transfusi darah merupakan salah satu tindakan medis untuk penyelamatan nyawa (live saving) dan penyembuhan penyakit, tetapi disisi lain tindakan ini juga memiliki risiko atau komplikasi. Salah satu komplikasiyang dikenal adalah Transfusion-Associated Graft-vs-Host Disease (TAGVHD). TAGVHD ini akan menyebabkan berproliferasinya limfosit T yangkemudian akan diikuti oleh proses engraft (tertanam) didalam tubuh resipien yang umumnya berada dalam kondisi imunokompeten. Kondisi ini umumnya dialami oleh pasien-pasien dengan gangguan sistem imunologi seperti pada pasien kanker atau penyakit-penyakit autoimun. Saat ini, satu ? satunya metode yang dapat diterima untuk mencegah komplikasi itu dengan cara melakukan iradiasi darah. Bervariasinya rekomendasi tentang dosis iradiasi dan waktu penyinaran untukmenurunkan jumlah CD 3+ dan CD 4+ sebagai penyebab terjadinya TAGVHD, menjadi latar belakang dilakukannya penelitian ini. Hasil penelitian ini akan dijadikan rekomendasi untuk prosedur iradiasi terhadap komponen sel darah merah pekatyang akan diberikan pada pasien-pasien imunokompeten di RS Kanker Dharmais Jakarta. Metodologi. Penelitian ini menggunakan disain penelitian eksperimental dengan pemeriksaan time series yang dilakukan terhadap 54 kantong komponen sel darah merah pekat yang memenuhi kriteria inklusi dan ekslusi yang ditetapkan oleh peneliti. Dilakukan pengujian terhadap jumlah CD 3+ dan CD 4+ dalam tiga dosis dengan tiga serial waktu berbeda. Hasil. Terjadi penurunan jumlah CD 3+ dan CD 4+ pada komponen sel darah merah pekat yang dilakukan iradiasi pada dosis iradiasi dan waktu penyinaran yang berbeda. Simpulan. Penurunan jumlah CD 3+ bermakna atau signifikan pada dosis 2500 pada waktu 5 jam setelah penyinaran.

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ABSTRACT
Background Blood transfusion is a medical treatment for a life saving and cure the disease On the other hand these treatment also have risks or complications one of which is known with Transfusion Associated Graft vs Host Disease TAGVHD This will cause proliferation T lymphocytes and then will be followed by a process engraft embedded in the recipient 39 s body is in a state of immunocompetent This condition is commonly experienced by patients with impaired immunological systems such as cancer patients or autoimmune diseases Currently one the only acceptable method to prevent such complications by way of blood irradiation Variations recommendation on irradiation dose and exposure time in reducing the amount of CD 3 and CD 4 which is the cause of the TAGVHD be doing background research The results of this study will be a recommendation for action to the irradiation of packedred cell that will be given in immunocompetent patients in Jakarta Dharmais Cancer Hospital Methodology This study used an experimental research design time series with the examination conducted on 54 bags of packed red cell that meet the inclusion and exclusion criteria set by the researcher Conducted tests on the number of CD 3 and CD 4 in three doses with three different time series Results A decline in the number of CD 3 and CD 4 in packed red cell irradiation at certain doses of irradiation and different irradiation times Conclusion The decrease in CD 3 meaningful or significant at doses of 2500 in 5 hours after irradiation.; ABSTRACTBackground Blood transfusion is a medical treatment for a life saving and cure the disease On the other hand these treatment also have risks or complications one of which is known with Transfusion Associated Graft vs Host Disease TAGVHD This will cause proliferation T lymphocytes and then will be followed by a process engraft embedded in the recipient 39 s body is in a state of immunocompetent This condition is commonly experienced by patients with impaired immunological systems such as cancer patients or autoimmune diseases Currently one the only acceptable method to prevent such complications by way of blood irradiation Variations recommendation on irradiation dose and exposure time in reducing the amount of CD 3 and CD 4 which is the cause of the TAGVHD be doing background research The results of this study will be a recommendation for action to the irradiation of packedred cell that will be given in immunocompetent patients in Jakarta Dharmais Cancer Hospital Methodology This study used an experimental research design time series with the examination conducted on 54 bags of packed red cell that meet the inclusion and exclusion criteria set by the researcher Conducted tests on the number of CD 3 and CD 4 in three doses with three different time series Results A decline in the number of CD 3 and CD 4 in packed red cell irradiation at certain doses of irradiation and different irradiation times Conclusion The decrease in CD 3 meaningful or significant at doses of 2500 in 5 hours after irradiation.; ABSTRACTBackground Blood transfusion is a medical treatment for a life saving and cure the disease On the other hand these treatment also have risks or complications one of which is known with Transfusion Associated Graft vs Host Disease TAGVHD This will cause proliferation T lymphocytes and then will be followed by a process engraft embedded in the recipient 39 s body is in a state of immunocompetent This condition is commonly experienced by patients with impaired immunological systems such as cancer patients or autoimmune diseases Currently one the only acceptable method to prevent such complications by way of blood irradiation Variations recommendation on irradiation dose and exposure time in reducing the amount of CD 3 and CD 4 which is the cause of the TAGVHD be doing background research The results of this study will be a recommendation for action to the irradiation of packedred cell that will be given in immunocompetent patients in Jakarta Dharmais Cancer Hospital Methodology This study used an experimental research design time series with the examination conducted on 54 bags of packed red cell that meet the inclusion and exclusion criteria set by the researcher Conducted tests on the number of CD 3 and CD 4 in three doses with three different time series Results A decline in the number of CD 3 and CD 4 in packed red cell irradiation at certain doses of irradiation and different irradiation times Conclusion The decrease in CD 3 meaningful or significant at doses of 2500 in 5 hours after irradiation., ABSTRACTBackground Blood transfusion is a medical treatment for a life saving and cure the disease On the other hand these treatment also have risks or complications one of which is known with Transfusion Associated Graft vs Host Disease TAGVHD This will cause proliferation T lymphocytes and then will be followed by a process engraft embedded in the recipient 39 s body is in a state of immunocompetent This condition is commonly experienced by patients with impaired immunological systems such as cancer patients or autoimmune diseases Currently one the only acceptable method to prevent such complications by way of blood irradiation Variations recommendation on irradiation dose and exposure time in reducing the amount of CD 3 and CD 4 which is the cause of the TAGVHD be doing background research The results of this study will be a recommendation for action to the irradiation of packedred cell that will be given in immunocompetent patients in Jakarta Dharmais Cancer Hospital Methodology This study used an experimental research design time series with the examination conducted on 54 bags of packed red cell that meet the inclusion and exclusion criteria set by the researcher Conducted tests on the number of CD 3 and CD 4 in three doses with three different time series Results A decline in the number of CD 3 and CD 4 in packed red cell irradiation at certain doses of irradiation and different irradiation times Conclusion The decrease in CD 3 meaningful or significant at doses of 2500 in 5 hours after irradiation.]

Abstrak :
[ABSTRAK
Latar belakang : Salah satu reaksi transfusi lambat yang bersifat fatal adalah TA GVHD (Transfusion Associated Graft Versus Host Disease). Kejadian TA GVHD pada pasien immunocompromised diperkirakan sebesar 0,1- 1,0% dengan angka kematian sekitar 80- 90%.7 Upaya radiasi komponen darah seluler saat ini merupakan cara yang paling efisien dan dapat diandalkan untuk mencegah TA-GVHD. Penelitian ini bertujuan untuk mengetahui pengaruh efek berbagai dosis radiasi terhadap sel darah merah selama penyimpanan. Metodologi : Penelitian ini menggunakan desain deskriptif analitik pada 72 sediaan sel darah merah yang memenuhi kriteria inklusi dan eksklusi. Sediaan sel darah merah dibagi menjadi 4 grup, yaitu grup yang mendapat dosis 2500,3000,5000 cGy dan kontrol. Dilakukan pengujian OFT dan kadar kalium pada hari pertama, ketiga dan kelima penyimpanan. Hasil : Terjadi peningkatan kadar kalium yang bermakna secara statistik mulai dari hari pertama setelah dilakukan radiasi pada semua dosis. Tidak ditemukan perbedaan bermakna ketahanan membran sel darah merah terhadap semua dosis radiasi selama penyimpanan sampai hari kelima. Simpulan : Radiasi pada dosis 2500-5000 cGy dapat menyebabkan peningkatan kadarkalium dan tidak menyebabkan perubahan fragilitas sel darah merah yang disimpan selama 5 hari setelah radiasi. Perlunya penelitian lebih lanjut mengenai mutu sediaan sel darah merah selama penyimpanan setelah dilakukan radiasi seperti melihat tingkat hemolisis (hemolisis rate).

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ABSTRACT
Background: One of the delayed transfusion reactions that are fatal is TA GVHD (Transfusion Associated Graft Versus Host Disease). TA incidence of GVHD in immunocompromised patients is estimated at 0.1 to 1.0% with a mortality rate of approximately 80-90% .7 Efforts irradiation of cellular blood components is currently the most efficient way and a reliable way to prevent TA-GVHD. This study aims to determine the effect of various doses of irradiation effects on red blood cells during storage. Method: This study used a descriptive analytic design at 72 red blood cell preparations that meet the inclusion and exclusion criteria. The preparation of red blood cells were divided into 4 groups, ie the group that received 2500,3000,5000 cGy dose and control. OFT testing and potassium levels on the first day, the third and fifth storage. Results: An increase in potassium levels was statistically significant from the first day after irradiation at all doses. Found no significant differences in red blood cell membrane resistance to all doses of irradiation during storage until the fifth day. Conclusion: Irradiation at doses of 2500-5000 cGy can cause increased pottasium level and does not cause changes fragility of red blood cells stored for 5 days after irradiation. The need for further research on the quality of the preparation of red blood cells during storage after irradiation as seen levels of hemolysis (hemolysis rate).;Background: One of the delayed transfusion reactions that are fatal is TA GVHD (Transfusion Associated Graft Versus Host Disease). TA incidence of GVHD in immunocompromised patients is estimated at 0.1 to 1.0% with a mortality rate of approximately 80-90% .7 Efforts irradiation of cellular blood components is currently the most efficient way and a reliable way to prevent TA-GVHD. This study aims to determine the effect of various doses of irradiation effects on red blood cells during storage. Method: This study used a descriptive analytic design at 72 red blood cell preparations that meet the inclusion and exclusion criteria. The preparation of red blood cells were divided into 4 groups, ie the group that received 2500,3000,5000 cGy dose and control. OFT testing and potassium levels on the first day, the third and fifth storage. Results: An increase in potassium levels was statistically significant from the first day after irradiation at all doses. Found no significant differences in red blood cell membrane resistance to all doses of irradiation during storage until the fifth day. Conclusion: Irradiation at doses of 2500-5000 cGy can cause increased pottasium level and does not cause changes fragility of red blood cells stored for 5 days after irradiation. The need for further research on the quality of the preparation of red blood cells during storage after irradiation as seen levels of hemolysis (hemolysis rate)., Background: One of the delayed transfusion reactions that are fatal is TA GVHD (Transfusion Associated Graft Versus Host Disease). TA incidence of GVHD in immunocompromised patients is estimated at 0.1 to 1.0% with a mortality rate of approximately 80-90% .7 Efforts irradiation of cellular blood components is currently the most efficient way and a reliable way to prevent TA-GVHD. This study aims to determine the effect of various doses of irradiation effects on red blood cells during storage. Method: This study used a descriptive analytic design at 72 red blood cell preparations that meet the inclusion and exclusion criteria. The preparation of red blood cells were divided into 4 groups, ie the group that received 2500,3000,5000 cGy dose and control. OFT testing and potassium levels on the first day, the third and fifth storage. Results: An increase in potassium levels was statistically significant from the first day after irradiation at all doses. Found no significant differences in red blood cell membrane resistance to all doses of irradiation during storage until the fifth day. Conclusion: Irradiation at doses of 2500-5000 cGy can cause increased pottasium level and does not cause changes fragility of red blood cells stored for 5 days after irradiation. The need for further research on the quality of the preparation of red blood cells during storage after irradiation as seen levels of hemolysis (hemolysis rate).]