Viral determinants of influenza A (H5N1) associated TNF-a hyper-induction in human primary monocyte-derived macrophages

Wong, Hing-ki, Charmaine.

January 2006

Thesis (M. Phil.)--University of Hong Kong, 2006. / Title proper from title frame. Also available in printed format.

Characterization of an inhibitor ("6S") of infectious pancreatic necrosis virus (IPNV) in normal rainbow trout serum (RTS) and its effects on the virus

Park, Kyoung Chul

12 December 2000

The characteristics of an inhibitor of infectious pancreatic necrosis virus (IPNV) found in normal rainbow trout serum (RTS) were studied. The serum inhibitor had a molecular weight of approximately 150 kDa and was dependent on divalent cations, either Ca����� or Mg�����. It was stable at temperatures up to 50��C and at a pH range between 4-10. The inhibitor directly inactivated the virus and the inhibition level was dependent on cell densities and on the time at which virus was exposed to RTS. The level of virus inhibition by RTS was altered by the cell line in which virus was produced. IPNV was more efficiently inhibited by RTS in salmonid cell lines than in non-salmonid cell lines. Most of the salmonid sera tested showed inhibition, while non-salmonid sera did not inhibit IPNV replication. Rainbow trout continuously showed a significant level of inhibition in their serum after 23 weeks post hatch. Three isolates of IPNV were passaged five times in RTG-2 cells with either MEM-10 or MEM-10 with 1% rainbow trout serum and virus from each passage were tested for RTS sensitivity in vitro and virulence in vivo. The mortality level in brook trout fry was highly variable during viral passages, ranging between 30-89%. The RTS sensitivity and virulence were changed during viral passages, and these changes were dependent on cell culture conditions and IPNV isolate used. It was found that an IPNV crayfish isolate passaged in RTG-2 cells with MEM-10 showed significantly increased RTS sensitivity. This was, however, not correlated with decreased virulence. All three isolates showed identical antigenicity patterns with a panel of 11 monoclonal antibodies, irrespective of viral passage conditions. Clones prepared from an IPNV-Jasper (Ja) population which had been twice passed through brook trout were heterogeneous with respect to RTS sensitivity, serotype, and cDNA sequences. Eight percent of clones (4/50) were very sensitive to RTS (Ja-S), as was the parent strain, and eighty four percent of clones (42/50) showed a mid-range of RTS sensitivity. The final eight percent of clones (4/50) were RTS resistant (Ja-R). Enzyme immunodot assay revealed that Ja-S clones and Ja-R clones differed by several epitopes. Ja-S and Ja-R had significant differences in their cDNA sequences for the capsid protein VP2. These two strains shared 80.7% and 86% identity in nucleic acid and in amino acid sequences, respectively. / Graduation date: 2001

Pancreas -- Necrosis

Rainbow trout -- Diseases

Rainbow trout -- Immunology

Recombinant vaccines against infectious hematopoietic necrosis virus : bacterial systems for vaccine production and delivery

Simon, Benjamin E.

09 October 2001

Several systems were examined for the production and delivery of recombinant vaccines for fish. C. crescentus was employed to produce a fragment of the IHNV glycoprotein. When administered by injection to 0.5 gram rainbow trout (Oncorhynchus mykiss), one of the fusion proteins (184 amino acids of the IHNV glycoprotein fused to 242 amino acids of the C-terminus of the Caulobacter crescentus) protected the fish against lethal challenge with IHNV. Attenuated strains of Yersinia ruckeri were generated using allelic exchange mutagenesis. These strains were characterized in terms of in vitro growth characteristics and invasiveness. Attenuated E. coli and Y. ruckeri were exploited to deliver plasmid DNA to fish cells in vitro; attenuated Y. ruckeri bacteria were examined in vivo as bivalent vaccine delivery vehicles, either through the expression of a fragment of the IHNV glycoprotein or by carrying a plasmid DNA vaccine encoding the complete IHNV glycoprotein. A cell wall deficient strain (11.29��dap) protected rainbow trout against lethal challenge with pathogenic Y. ruckeri. Gene transfer to fish was not detected by luciferase reporter gene assays. No clear protection from IHNV challenge was observed. / Graduation date: 2002

Viral vaccines

Infectious hematopoietic necrosis virus

Fishes -- Virus diseases

Development of antigenic tumors in tumor progression and endogenous IFN[Greek letter gamma] pathway in suppression of tumor growth by TNF /

Wu, Terry Hung-Ta.

January 2001

Thesis (Ph. D.)--University of Chicago, Dept. of Pathology, December 2001. / Includes bibliographical references. Also available on the Internet.

Study of cells producing polyclone antibody against Dragon Grouper Nervous Necrosis Virus.

Wei, Yin-Chu

08 September 2010

The groupers are vital fish in the market of over 350 million dollars, while grouper nervous necrosis virus (NNV) has caused mass mortality at about 100% in larvae and juveniles, which impacts on economic of marine cultured fish. The monoclonal antibody is one of the best methods to identify the epitopes on the 3D structure. For evaluation, the Balb/c mice were injected with DGNNV and virus-like particles (VLPs) in this study. The results showed that ascite of mAb-cells produced 1200 times higher than the cell secretion in the medium whereas our best clone hAb_VLP8 can only produced 100 times less antibody than the cell secretion. In the meantime before the monoclonal producer is established, the hAb_VLP8 could be used for ascite production to gain high antibody production.

polyclone antibody

PEG

Dragon Grouper Nervous Necrosis Virus

hybridoma cell

Induction of Grouper Antibody Immunity by Virus-like Particles of Nervous Necrosis Virus

Chang, Chiung-yin

26 June 2005

The groupers are vital fish in Taiwan, the market of grouper fry over 300 million dollars. While grouper nervous necrosis virus (NNV) has caused mass mortality, especially 100% in larvae and juveniles, which economically impacts on culture of marine fish. The vaccination is one of the best methods to against viral diseases. The dragon grouper (Epinephelus lanceolatus), malabar grouper (E. malabaricus) and brown-marbled grouper (E. fuscoguttatus) were injected with different dosages and injection frequencies of virus-like particles (VLPs) of DGNNV, which is by the first claimed. The anti-sera of vaccinated fish were analyzed with eight kinds of immunology methods, among which antigen-capture ELISA was the best choice for qualitative and quantitative assays. The signal of antibodies in the vaccinated fish was detected in all groupers in one week after primary immunization, and the antibody titers increased markedly in one month. In dragon grouper, fish was injected with 10 £gg of VLPs, the antibody titer reached 1.05. To given booster injection once, antibody titers were raised to 35.7%. In malabar grouper, after injected twice with 50 £gg of VLPs, the antibody titer raised 33.3% than inoculation once in six weeks. After brown-marbled grouper was injected with 450 £gg of VLPs, the high antibody titer reached to 1.57 at five weeks post primary immunization. Specific antibodies still can be detected after seven months. In the in vitro assay with MGNNV of 103.5 TCID50/mL, neutralizing antibody titer of control fish were all lower than 1:50. The neutralizing antibody titer of anti-serum of dragon grouper was detected at 1:200 at one week, and raised to 1:1600 at four weeks and 1:6400 at eleven weeks after primary vaccination. In malabar grouper and brown-marbled grouper, the neutralizing antibody titers were 1:3200 and 1:400, respectively, in one month. The antibody titer can not increased by Freund¡¦s complete adjuvant. The fish produced high antibody titer and high protection by immunization with VLPs.

Antibody

Nervous Necrosis Virus

Virus-like Particles

Grouper

Immune

Using colour exhibited by venous leg ulcers to develop a range of hues that represent the clinical manifestations of erythema and wet necrotic tissue

McGuiness, William Garold George,

Unknown Date

Thesis (Ph.D.)--Flinders University, Faculty of Medicine, Dept. of Human Physiology. / Typescript bound. Includes bibliographical references: (leaves 332-374) Also available online via the Web.

Genetic diversity, evolution, and fitness of infectious hematopoietic necrosis virus within an endemic focus in rainbow trout aquaculture /

Troyer, Ryan M.

January 2002

Thesis (Ph. D.)--University of Washington, 2002. / Vita. Includes bibliographical references (leaves 130-160).

The role of poly (ADP-ribose) polymerase-1 inhibitors: Prevention of non glutathione-dependent carbon tetrachloride-induced hepatotoxicity

Grivas, Paul Christopher

01 June 2007

Carbon tetrachloride (CCl4) is a hepatotoxicant known to elevate alanine aminotransferase (ALT) and other liver enzyme levels, and cause lipid peroxidation, as well as centrilobular necrosis. A number of poly ADP-ribose polymerase (PARP) inhibitors were administered via intraperitoneal (i.p.) injections to male ICR mice as cotreatments at various time intervals relative to the CCl4. Aminophylline, a water soluble complex consisting of two molecules of theophylline bridged by ethylene diamine, was administered one-half hour, one hour and two hours after CCl4. The levels of ALT in the serum, as well as malondialdehyde and its equivalent markers of oxidative damage in the liver, were significantly reduced by aminophylline, relative to those in mice receiving only CCl4. The hepatoprotective effects of aminophylline were confirmed via the examination of histopathologic samples from the livers of mice receiving aminophylline in conjunction with CCl4 as opposed to those administered CCl4 alone. The potential benefit to society as a result of this research is that aminophylline, which has already been approved by the Food and Drug Administration (FDA), could potentially be administered in the event of an overexposure to CCl4 or similar halocarbons to minimize the free radical-mediated hepatotoxicity resulting from overexposure.

PARP

Theophylline

Necrosis

Liver

Free radical

American Studies

Arts and Humanities

LARGE TARGET TISSUE NECROSIS OF RADIOFREQUENCY ABLATION USING MATHEMATICAL MODELLING

2015 August 1900

Radiofrequency ablation (RFA) is a clinic tool for the treatment of various target tissues. However, one of the major limitations with RFA is the ‘small’ size of target tissues that can be effectively ablated. By small it is meant the size of the target tissue is less than 3 cm in diameter of the tissue otherwise ‘large’ size of tissue in this thesis. A typical problem with RFA for large target tissue is the incompleteness of tumour ablation, which is an important reason for tumour recurring. It is widely agreed that two reasons are responsible for the tumour recurring: (1) the tissue charring and (2) the ‘heat-sink’ effect of large blood vessels (i.e. ≥3 mm in diameter). This thesis study was motivated to more quantitatively understand tissue charring during the RFA procedure and to develop solutions to increase the size of target tissues to be ablated. The thesis study mainly performed three tasks: (1) evaluation of the existing devices and protocols to give a clear understanding of the state of arts of RFA devices in clinic, (2) development of an accurate mathematical model for the RFA procedure to enable a more quantitative understanding of the small target tissue size problem, and (3) development of a new protocol based on the existing device to increase the size of target tissues to be ablated based on the knowledge acquired from (1) and (2). In (1), a design theory called axiomatic design theory (ADT) was applied in order to make the evaluation more objective. In (2), a two-compartment finite element model was developed and verified with in vitro experiments, where liver tissue was taken and a custom-made RFA system was employed; after that, three most commonly used internally cooled RFA systems (constant, pulsed, and temperature-controlled) were employed to demonstrate the maximum size of tumour that can be ablated. In (3) a novel feedback temperature-controlled RFA protocol was proposed to overcome the small target tissue size problem, which includes (a) the judicious selection of control areas and target control temperatures and (b) the use of the tissue temperature instead of electrode tip temperature as a feedback for control. The conclusions that can be drawn from this thesis are given as follows: (1) the decoupled design in the current RFA systems can be a critical reason for the incomplete target tissue necrosis (TTN), (2) using both the constant RFA and pulsed RFA, the largest TTN can be achieved at the maximum voltage applied (MVA) without the roll-off occurrence. Furthermore, the largest TTN sizes for both constant RFA and pulsed RFA are all less than 3 cm in diameter, (3) for target tissues of different sizes, the MVA without the roll-off occurrence is different and it decreases with increase of the target tissue size, (4) the largest TTN achieved by using temperature-controlled RFA under the current commercial protocol is still smaller 3 cm in diameter, and (5) the TTN with and over 3 cm in diameter can be obtained by using temperature-controlled RFA under a new protocol developed in this thesis study, in which the temperature of target tissue around the middle part of electrode is controlled at 90 ℃ for a standard ablation time (i.e. 720 s). There are a couple of contributions with this thesis. First, the underlying reason of the incomplete TTN of the current commercially available RFA systems was found, which is their inadequate design (i.e. decoupled design). This will help to give a guideline in RFA device design or improvement in the future. Second, the thesis has mathematically proved the empirical conclusion in clinic that the limit size of target tissue using the current RFA systems is 3 cm in diameter. This has advanced our understanding of the limit of the RFA technology in general. Third, the novel protocol proposed by the thesis is promising to increase the size of TTN with RFA technology by about 30%. The new protocol also reveals a very complex thermal control problem in the context of human tissues, and solving this problem effectively gives implication to similar problems in other thermal-based tumour ablation processes.

Liver tumour

mathematical modelling

radiofrequency ablation

target tissue necrosis