ライフサイエンスコーパス: antirejection therapy

1 te rejection, and decreased after successful antirejection therapy.

2 cute rejection, with a subsequent rise after antirejection therapy.

3 -2 only) and immediately after completion of antirejection therapy.

4 episodes of acute rejection and response to antirejection therapy.

5 ting grafts could be targeted for additional antirejection therapy.

6 he urine increases in response to successful antirejection therapy.

7 uld permit the assessment of the efficacy of antirejection therapy.

8 transplanted intestine, and the response to antirejection therapy.

9 steroid and OKT3 resistance within 48 hr of antirejection therapy.

10 d, but were not eliminated, after successful antirejection therapy.

11 MSCs may serve as a new, safe, and effective antirejection therapy.

12 evel of HCV RNA and genotype and the type of antirejection therapy.

13 nal antibody or gallium nitrate was used for antirejection therapy, (2) this immune status is charact

14 atients with BRR did not respond to standard antirejection therapy and had a substantial increase in

15 sely associated with the initial response to antirejection therapy and long-term graft failure.

16 ff defined acute TCMR should be treated with antirejection therapy and maximized maintenance immunosu

17 r tubulitis, are correlated with response to antirejection therapy and/or 1-yr clinical outcome.

18 Antirejection therapies are not always effective, must b

19 outcome and novel therapeutic approaches for antirejection therapy based on targeting of chemokines a

20 for graft loss, and the initial response to antirejection therapy can predict long-term graft outcom

21 plasma (BKP) (group 1) and also tried other antirejection therapies in 13 patients with BK virus in

22 Initial antirejection therapy in 12 cases led to clearance of th

23 ternative to the conventional drugs used for antirejection therapy in renal transplantation.

24 ositive UFCs that completely normalized with antirejection therapy (n=8); group III--stable patients

25 reviewed the clinical course and response to antirejection therapy of 24 patients with borderline cha

26 Following antirejection therapy of acute TCMR, surveillance protoc

27 y single antigen bead assays 12 months after antirejection therapy onset.

28 harge and at time of AR before initiation of antirejection therapy or at matching timepoints in patie

29 acute rejection showed complete response to antirejection therapy (P=0.25 vs. patients with borderli

30 Effective antirejection therapy results in a rapid down-regulation

31 Most antirejection therapies target immune activation but may

32 No other antirejection therapy was given.

33 Usual antirejection therapy was instituted in all but two epis

34 Complete response to antirejection therapy was seen in 15/24 (63%), partial r

35 esponse, partial response and no response to antirejection therapy were observed in 16/24 (66.7%), 3/

36 sAMRV), and AMRV showed similar responses to antirejection therapy, whereas the grafts with v2- or v3

37 elatacept that are refractory to traditional antirejection therapy with corticosteroids and polyclona

38 safe and allows the avoidance of unnecessary antirejection therapy with its attendant side effects an