The transverse anatomy of the head and neck of the Beagle was studied. Cross-sectional preparations were photographed and compared with computerized tomographic scans, freshly prepared dissection ...specimens, and with skeletal preparations. Anatomic structures were identified by these means with the aid of anatomy texts. A series of labeled photographs were provided as a basis for interpretation of computerized tomography scans.
Immunization with a synthetic HIV-1 p17 peptide analog (HGP-30; aa 85-115 of HIV p17), coupled to a carrier protein (KLH, keyhole limpet hemocyanin) given with alum as the adjuvant induces antibodies ...which cross-react with both HGP-30 and HIV p17 and clones of cytotoxic and helper T-cells which recognize HGP-30 and HIV p17. Proliferation of lymphocytes in response to HGP-30 has been observed in mice, in HIV-infected individuals and in healthy HIV-seronegative volunteers vaccinated with the p17-based synthetic peptide construct. Cytotoxic T-cell responses against EBV transformed, recombinant p17 pulsed targets were observed using antigen-expanded PBLs from HGP-30-KLH immunized individuals. These results are consistent with predictions that the HGP-30 domain of HIV p17 contains both T- and B-cell epitopes that are recognized by animals and humans. In preclinical toxicology studies in animals and in initial clinical trials in humans the synthetic peptide construct (HGP-30-KLH/alum) has been shown to be safe. This paper summarizes the preclinical immunogenicity and safety data for HGP-30-KLH and presents the initial results from the first Phase 1 clinical trial.
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GEOZS, IJS, IMTLJ, KILJ, KISLJ, NUK, OILJ, SAZU, SBCE, SBJE, UL, UM, UPCLJ, UPUK
4.
Cross-sectional anatomy of the beagle thorax Zook, B.C. (The George Washington University, Washington, DC, Hitzelberg, R.A.); Bradley, E.W
Veterinary radiology,
November 1989, Volume:
30, Issue:
6
Journal Article
Thirty-nine adult male purebred beagles received either fast neutron or photon irradiation to the right thorax to determine the effects on pulmonary tissue. The right half of the liver was included ...in the field of radiation. Twenty-four dogs (six/group) received fast neutrons with a mean energy of 15 MeV to total doses of 1000, 1500, 2250, or 3375 rads in four fractions per week for 6 weeks. Fifteen dogs received 3000, 4500, or 6750 total rads of photons (five dogs/group) in an identical fractionation pattern. All neutron-irradiated dogs receiving 3375 and 2250 rads and one receiving 1500 rads developed clinical signs, hepatic enzyme, and bilirubin elevations, and the dogs died or were euthanized in extremis on postirradiation day 47-291. Signs of liver injury, other than enzyme changes, have not developed to date (1200-1300 days) in the remaining dogs, except in one 6750-rad photon dog that died of hepatic failure on postirradiation day 708. At necropsy, the irradiated right lobes of the liver were atrophic and the nonirradiated left lobes underwent compensatory hypertrophy. Hepatic arterioles and bile ducts were injured in every dog, but no obstructive lesions were observed in hepatic veins. Portal fibroplasia, bile retention, and proliferation of bile ductules was common; the latter two changes also occurred in the nonirradiated lobes. No qualitative differences were observed between hepatic lesions in neutron- versus photon-irradiated dogs. The relative biological effectiveness of fast neutrons for liver damage appears to be no less than 4.5.