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ry, Bar Harbor. BRM, Inc., did not establish a separate NOD mouse breeding facility. We report that diabetes incidence rates at BRM were comparable to the Jackson Lab’s Bar Harbor facility rates 17429684 throughout the term of the testing program, with the following exceptions. In 2006, The 4 Efficacy Testing in Rodent Models of T1D doi: 10.1371/journal.pone.0072989.g001 BBDP rats were dosed with DT22669 IP at 50mg/kg, or 100 mg/kg orally, beginning at 25 days of age, and rats were followed for up to 120 days of age. Prior to dose administration, animals were allocated to one of four groups by sequential assignment; the groups were A), IP saline injection, B) oral saline gavage, C) IP DT22669 and D) oral gavage DT 22669. The IP injection arms were discontinued due to the injection-related peritonitis. Peritonitis could have resulted from one or more of the following: injection errors, high pH of injected material, or lack of sterility of the drug solution. No adverse MedChemExpress Aphrodine effects were observed in animals treated by oral gavage. However, there was no evidence of efficacy for diabetes prevention by DT 22669. We did observe clear diabetes prevention in a similar cohort of BBDP rats by cyclosporin A treatment. Thus, we demonstrated that diabetes can be efficiently prevented in the BBDP rat within our facility, using standard diabetes prevention methods. It should be noted that the scope of these studies did not include the evaluation of DT22669 blood levels or target inhibition. 2) Aralast NP alpha1 anti-trypsin is a drug approved for use as a replacement therapy for patients with alpha1 anti-trypsin deficiency. The drug has broadly acting anti-inflammatory properties. Several previous studies have shown that this drug can prevent or reverse T1D in the NOD mouse model. Based on this prior work, the Immune Tolerance Network approved a clinical trial of AAT in type 1 diabetes, but requested an independent test of AAT in the NOD mouse. A series of small safety 17636045 studies were performed to ensure that Aralast NP at doses of up to 3 mg/animal was safe in NOD mice, and did not induce anaphylaxis or other adverse events. No adverse events were observed. Then an NOD reversal study was performed using Aralast NP at 3 mg/injection every three days for five total injections with co-administration of doi: 10.1371/journal.pone.0072989.g002 either once daily injections of PZI insulin or Humulin R insulin delivered via implanted osmotic pumps. Animals were selected for the study based on two sequential daily random blood glucose tests in the diabetic range, but there was no upper limit of hyperglycemia imposed for this study, and approximately half of the diabetic animals were held for up to 7 days before receiving their first dose of drug or vehicle. Control groups were diabetic animals treated with drug vehicle, and matched insulin treatment regimens. The endpoint for the study was diabetes reversal as defined by persistent reading of glucose levels under 250 mg/dL without insulin injections or after pump removal. The study included 14 animals per group and was powered to 5 Efficacy Testing in Rodent Models of T1D doi: 10.1371/journal.pone.0072989.g003 detect a 30% difference in the incidence of diabetes reversal in drug versus vehicle groups. Regardless of the insulin treatment regimen used, Aralast NP did not reverse recent onset T1D. Since previous work suggested that Aralast might be ineffective if used after animals had experienced very high blood sugars, we also t

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Author: Potassium channel