Spelling suggestions: "subject:"flinders"" "subject:"blinders""
21 |
The long-term effects of fluoxetine on stress-related behaviour and acute monoaminergic stress response in stress sensitive rats / Nico Johan BadenhorstBadenhorst, Nico Johan January 2014 (has links)
Fluoxetine and escitalopram are the only antidepressants approved by the Food and Drug Administration of the United States of America (FDA) for treatment of major depression in children and adolescents. Both drugs are selective serotonin reuptake inhibitors (SSRIs). In recent years there has been a growing concern over the long-term developmental effects of early-life exposure to SSRIs.
The current study employed male Flinders Sensitive Line (FSL) rats, a well described and validated translational model of depression, to investigate the long term effects of pre-pubertal fluoxetine exposure. First we examined the effect of such early-life exposure on the development of depressive-like behaviour, locomotor activity and anxiety-like behaviour as manifested in early adulthood. Next, the current study investigated the effect of pre-pubertal fluoxetine exposure on the acute monoaminergic stress response, as displayed later in life. Animals received either saline (vehicle control), or 10 mg/kg/day fluoxetine from postnatal day (ND+) 21 to ND+34 (pre-puberty). The treatment period was chosen to coincide with a developmental phase where the serotonergic system’s neurodevelopment had been completed, yet the noradrenergic and dopaminergic systems had not, a scenario comparable to neurodevelopment in human adolescents. Both behavioural and in vivo intra-cerebral microdialysis experiments were conducted after ND+60 (early adulthood).
On ND+60 rats allocated to behavioural experiments were evaluated for depressive-like behaviour in the forced swim test (FST), locomotor activity in the open field test (OFT), and anxiety-like behaviour in the OFT. Corticosterone concentrations were shown to be significantly higher in male FSL rats exposed to a 10 minute forced swim stress when compared to male FSL rats not exposed to a forced swim stress on ND+60. In the microdialysis experiments the rats were exposed to an acute 10 minute forced swim stress and the concentrations of the monoamines and their metabolites were measured before, during, and after the acute stressor.
Relative to saline-treated (control) rats, fluoxetine-treated FSL rats did not show long-term changes in immobility in the FST (i.e. no anti-depressant-like activity) on ND+60. Like-wise anxiety-like behaviour in the OFT did not change. However, a significant decrease in locomotor activity was observed in fluoxetine-treated FSL rats compared to saline-treated (control) rats. These data suggest that a long-lasting anti-depressant-like effect of fluoxetine may be masked by the effect on locomotor activity. With measurements from the microdialysis experiments a significant attenuation of the noradrenergic stress response was observed in fluoxetine-treated rats compared to saline controls. A similar picture was observed for 5-hydroxyindole-3-acetic acid (5-HIAA), a metabolite of serotonin (5-HT), although the latter was not statistically significant. At baseline, before the stressor, significant increase in dopamine (DA) levels were observed in fluoxetine treated rats when compared to saline controls, suggesting that enhanced dopamine neurotransmission may comprise a long-term effect of pre-pubertal fluoxetine treatment. There were no discernible differences in homovanilllic acid (HVA) concentrations between fluoxetine-treated rats and saline controls. In conclusion significant developmental effects of pre-pubertal fluoxetine exposure were observed later in life and these findings warrant further investigation. / MPharm (Pharmacology), North-West University, Potchefstroom Campus, 2015
|
22 |
The long-term effects of fluoxetine on stress-related behaviour and acute monoaminergic stress response in stress sensitive rats / Nico Johan BadenhorstBadenhorst, Nico Johan January 2014 (has links)
Fluoxetine and escitalopram are the only antidepressants approved by the Food and Drug Administration of the United States of America (FDA) for treatment of major depression in children and adolescents. Both drugs are selective serotonin reuptake inhibitors (SSRIs). In recent years there has been a growing concern over the long-term developmental effects of early-life exposure to SSRIs.
The current study employed male Flinders Sensitive Line (FSL) rats, a well described and validated translational model of depression, to investigate the long term effects of pre-pubertal fluoxetine exposure. First we examined the effect of such early-life exposure on the development of depressive-like behaviour, locomotor activity and anxiety-like behaviour as manifested in early adulthood. Next, the current study investigated the effect of pre-pubertal fluoxetine exposure on the acute monoaminergic stress response, as displayed later in life. Animals received either saline (vehicle control), or 10 mg/kg/day fluoxetine from postnatal day (ND+) 21 to ND+34 (pre-puberty). The treatment period was chosen to coincide with a developmental phase where the serotonergic system’s neurodevelopment had been completed, yet the noradrenergic and dopaminergic systems had not, a scenario comparable to neurodevelopment in human adolescents. Both behavioural and in vivo intra-cerebral microdialysis experiments were conducted after ND+60 (early adulthood).
On ND+60 rats allocated to behavioural experiments were evaluated for depressive-like behaviour in the forced swim test (FST), locomotor activity in the open field test (OFT), and anxiety-like behaviour in the OFT. Corticosterone concentrations were shown to be significantly higher in male FSL rats exposed to a 10 minute forced swim stress when compared to male FSL rats not exposed to a forced swim stress on ND+60. In the microdialysis experiments the rats were exposed to an acute 10 minute forced swim stress and the concentrations of the monoamines and their metabolites were measured before, during, and after the acute stressor.
Relative to saline-treated (control) rats, fluoxetine-treated FSL rats did not show long-term changes in immobility in the FST (i.e. no anti-depressant-like activity) on ND+60. Like-wise anxiety-like behaviour in the OFT did not change. However, a significant decrease in locomotor activity was observed in fluoxetine-treated FSL rats compared to saline-treated (control) rats. These data suggest that a long-lasting anti-depressant-like effect of fluoxetine may be masked by the effect on locomotor activity. With measurements from the microdialysis experiments a significant attenuation of the noradrenergic stress response was observed in fluoxetine-treated rats compared to saline controls. A similar picture was observed for 5-hydroxyindole-3-acetic acid (5-HIAA), a metabolite of serotonin (5-HT), although the latter was not statistically significant. At baseline, before the stressor, significant increase in dopamine (DA) levels were observed in fluoxetine treated rats when compared to saline controls, suggesting that enhanced dopamine neurotransmission may comprise a long-term effect of pre-pubertal fluoxetine treatment. There were no discernible differences in homovanilllic acid (HVA) concentrations between fluoxetine-treated rats and saline controls. In conclusion significant developmental effects of pre-pubertal fluoxetine exposure were observed later in life and these findings warrant further investigation. / MPharm (Pharmacology), North-West University, Potchefstroom Campus, 2015
|
23 |
An investigation into the antidepressant–like profile of pioglitazone in a genetic rat model of depression / Brand S.J.Brand, Sarel Jacobus January 2011 (has links)
Major depression is a highly prevalent mood disorder with chronic debilitating effects. Additional to a rising rate in incidence, depression is highly co–morbid with other psychiatric disorders, but also chronic cardiometabolic illnesses that present with an inflammatory component. The exact aetiology of depression is still unknown, being multifactorial in its possible aetiology. Various hypotheses have attempted to shed light on both endogenous and exogenous risk factors as well as the underlying pathology that may lead to the development of the disease. This has led to a wide range of mediators being implicated, including biogenic amines, the HPA–axis, neurotrophic factors, inflammatory agents, the cholinergic system and circadian rhythm, to name a few. The mechanisms of action of current treatment strategies, except for a few atypical and novel treatment approaches, are limited to interactions with monoamines and are at best only 65% effective. Many of these are also plagued by troubling side–effects, relapse and recurrence. It has therefore become imperative to explore novel targets for the treatment of depression that may produce more rapid, robust and lasting antidepressant effects with a less daunting side–effect profile. The strong co–morbidity between depression and various cardiometabolic disorders, including cardiovascular disease, atherosclerosis, type 2 diabetes mellitus (T2DM) and metabolic syndrome (MetS) has led to the proposal that a metabolic disturbance may be a vital component that drives inflammatory and immunological dysfunction in depression. Supporting of this is evidence for a role of inflammatory cytokines and neurotrophic factors in the pathogenesis of depression.
It has also been demonstrated that a link exists between insulin– and nitric oxide (NO)– mediated pathways in the brain, which further highlights the role of oxidative stress and cell damage. Furthermore, evidence supports a role for oxidative stress and NO in T2DM and/or insulin resistance. Insulin has also been implicated in various physiological processes in the central nervous system (CNS) and may also influence the release and reuptake of neurotransmitters. Preclinical and clinical evidence has provided support for the antidepressant–like effects of insulin–sensitizing peroxisome proliferator activated receptor (PPAR)– agonists, such as rosiglitazone and pioglitazone. In preclinical studies, however, these effects are limited to acute treatment with pioglitazone or sub–chronic (5 days) treatment with rosiglitazone. It is well–recognized that such findings need to be confirmed by chronic treatment paradigms. The aim of the current study was therefore to further investigate the proposed antidepressant–like effects of pioglitazone in a genetic animal model of depression, the Flinders sensitive line (FSL) rat, using a chronic treatment protocol. The FSL rat model was reaffirmed as presenting with inherent depressive–like behaviour compared to its more resilient counterpart, the Flinders resistant line (FRL) rat. Moreover, imipramine demonstrated a robust and reliable antidepressant–like effect in these animals using the forced swim test (FST), thus confirming the face and predictive validity of the FSL rat model for depression. In contrast to previous preclinical studies, acute dose–ranging studies with pioglitazone in Sprague Dawley rats delivered no significant anti–immobility effects in the FST, whereas results similar to that seen in the dose–ranging studies were observed following chronic treatment using FSL rats. Since altered pharmacokinetics could possibly influence the drug’s performance, another route of administration, viz. the subcutaneous route, was utilized as an additional measure to exclude this possibility. The results of the subcutaneous study, however, were congruent with that observed after oral treatment.
In order to confirm an association between altered insulin sensitivity and antidepressant action and demonstration by recent studies that thiazolidinediones may augment the efficacy of existing antidepressants, we therefore investigated whether concomitant treatment with gliclazide (an insulin releaser and insulin desensitizer) or pioglitazone (an insulin sensitizer) may alter the antidepressant–like effects evoked by chronic treatment with imipramine. Pioglitazone did not positively or negatively affect the antidepressant effect of imipramine, although gliclazide tended to decrease the anti–immobility effects induced by this antidepressant. Taken together and considering the current available literature, this finding supports evidence linking the insulin–PPAR pathway to depression. However, further explorative studies are required to delineate the role of insulin sensitivity and glucose homeostasis in depression and antidepressant response. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2012.
|
24 |
An investigation into the antidepressant–like profile of pioglitazone in a genetic rat model of depression / Brand S.J.Brand, Sarel Jacobus January 2011 (has links)
Major depression is a highly prevalent mood disorder with chronic debilitating effects. Additional to a rising rate in incidence, depression is highly co–morbid with other psychiatric disorders, but also chronic cardiometabolic illnesses that present with an inflammatory component. The exact aetiology of depression is still unknown, being multifactorial in its possible aetiology. Various hypotheses have attempted to shed light on both endogenous and exogenous risk factors as well as the underlying pathology that may lead to the development of the disease. This has led to a wide range of mediators being implicated, including biogenic amines, the HPA–axis, neurotrophic factors, inflammatory agents, the cholinergic system and circadian rhythm, to name a few. The mechanisms of action of current treatment strategies, except for a few atypical and novel treatment approaches, are limited to interactions with monoamines and are at best only 65% effective. Many of these are also plagued by troubling side–effects, relapse and recurrence. It has therefore become imperative to explore novel targets for the treatment of depression that may produce more rapid, robust and lasting antidepressant effects with a less daunting side–effect profile. The strong co–morbidity between depression and various cardiometabolic disorders, including cardiovascular disease, atherosclerosis, type 2 diabetes mellitus (T2DM) and metabolic syndrome (MetS) has led to the proposal that a metabolic disturbance may be a vital component that drives inflammatory and immunological dysfunction in depression. Supporting of this is evidence for a role of inflammatory cytokines and neurotrophic factors in the pathogenesis of depression.
It has also been demonstrated that a link exists between insulin– and nitric oxide (NO)– mediated pathways in the brain, which further highlights the role of oxidative stress and cell damage. Furthermore, evidence supports a role for oxidative stress and NO in T2DM and/or insulin resistance. Insulin has also been implicated in various physiological processes in the central nervous system (CNS) and may also influence the release and reuptake of neurotransmitters. Preclinical and clinical evidence has provided support for the antidepressant–like effects of insulin–sensitizing peroxisome proliferator activated receptor (PPAR)– agonists, such as rosiglitazone and pioglitazone. In preclinical studies, however, these effects are limited to acute treatment with pioglitazone or sub–chronic (5 days) treatment with rosiglitazone. It is well–recognized that such findings need to be confirmed by chronic treatment paradigms. The aim of the current study was therefore to further investigate the proposed antidepressant–like effects of pioglitazone in a genetic animal model of depression, the Flinders sensitive line (FSL) rat, using a chronic treatment protocol. The FSL rat model was reaffirmed as presenting with inherent depressive–like behaviour compared to its more resilient counterpart, the Flinders resistant line (FRL) rat. Moreover, imipramine demonstrated a robust and reliable antidepressant–like effect in these animals using the forced swim test (FST), thus confirming the face and predictive validity of the FSL rat model for depression. In contrast to previous preclinical studies, acute dose–ranging studies with pioglitazone in Sprague Dawley rats delivered no significant anti–immobility effects in the FST, whereas results similar to that seen in the dose–ranging studies were observed following chronic treatment using FSL rats. Since altered pharmacokinetics could possibly influence the drug’s performance, another route of administration, viz. the subcutaneous route, was utilized as an additional measure to exclude this possibility. The results of the subcutaneous study, however, were congruent with that observed after oral treatment.
In order to confirm an association between altered insulin sensitivity and antidepressant action and demonstration by recent studies that thiazolidinediones may augment the efficacy of existing antidepressants, we therefore investigated whether concomitant treatment with gliclazide (an insulin releaser and insulin desensitizer) or pioglitazone (an insulin sensitizer) may alter the antidepressant–like effects evoked by chronic treatment with imipramine. Pioglitazone did not positively or negatively affect the antidepressant effect of imipramine, although gliclazide tended to decrease the anti–immobility effects induced by this antidepressant. Taken together and considering the current available literature, this finding supports evidence linking the insulin–PPAR pathway to depression. However, further explorative studies are required to delineate the role of insulin sensitivity and glucose homeostasis in depression and antidepressant response. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2012.
|
25 |
Regional neurochemical characterization of the flinders sensitive line rat with regard to glutamate-nitric oxide and cGMP signalling pathways / Estella Lily Minnaar.Minnaar, Estella Lily January 2008 (has links)
The serious nature of MDD has intensified the need to identify and elucidate new neurobiological targets for antidepressant drug action. Depression presents with evidence for degenerative pathology that relates to disturbances in excitatory glutamatergic pathways, particularly the N-methyl-D-aspartate (NMDA) receptormediated release of the pleiotropic molecule, nitric oxide (NO), and cyclic guanosine monophosphate (cGMP). The contribution of the glutamate-NO/cGMP pathway may
realize great importance as a fundamental substrate underlying the pathophysiology
of major depression. In the next generation of antidepressant drugs, the nitric oxide pathway could playa dynamic role in addressing urgent therapeutic needs. In this study, we have used a genetic model of depression, the Flinders Sensitive Line (FSL) rat, to investigate the surrogate markers of the NO/cGMP pathway.
The aim was to determine whether the depressive-like behaviour of the
hypercholinergic FSL rat is accompanied by altered activation of the NO/cGMP
pathway. To this end, the extent to which the FSL and Flinders Resistant Line (FRL)
rats differ neurochemically with regard to basal hippocampal and frontal cortical
NOS-activity, as well as nitric oxide (NO) and cGMP accumulation, were determined.
Additionally, select behavioural assessments were performed to confirm the
anxiogenic phenotype of the FSL strain.
For neurochemical determinations a sensitive fluorometric reversed phase highperformance
liquid chromatographic (HPLC) assay was developed to analyze total
nitrite and nitrate in brain tissue. Nitrate was enzymatically converted to nitrite before
derivatization with 2,3-diaminonaphthalene (DAN). The stable and highly fluorescent
product, 2,3-naphthotriazole (NAT), was quantified. Secondly, the quantity of the
amino acid L-citrulline was measured by HPLC with electrochemical detection after
o-phthalaldehyde (OPA) derivatization. L-citrulline formation was used as an index
for nNOS activity. Finally, a direct, competitive enzyme immunoassay kit was used to
determine the downstream activity of the NO-pathway in brain tissue.
FSL rats were compared to FRL rats with respect to sensitivity to serotonin 5-HT1A .
receptor-mediated hypothermia under our lab-conditions. The Open Field Test (OFT)
behavioural assessment was performed to compare FSL with FRL groups under
baseline conditions according to their level of inherent anxiety. The parameters used
to measure anxiety were number of line crosses (locomotor activity), time spent in
middle blocks and social interaction time between pairs of rats. As an additional
behavioural assessment, the Forced Swim Test (FST) was performed to assess
behavioural restraint measured as time of immobility.
Basal cGMP levels in the frontal cortex were found to be significantly less in FSL
than in FRL rats, whereas the levels in the hippocampus did not differ significantly.
No other significant differences with respect to NO and nNOS activity were apparent
in either of the brain areas. The hypothermia test confirmed a significantly greater
decrease in temperature in the FSL rat than the FRL rat. The FST did not confirm
any differences in immobility time between the two rat strains. In the OFT, FSL rat
groups exhibited behaviour that indicated significantly more anxiety than FRL rats.
Under basal conditions, FSL rats do not present with significant changes in markers
of the NO cascade in the hippocampus and frontal cortex compared to FRL controls,
including NOS activity as well as NO accumUlation. However, cGMP levels were
found to be significantly lower in the frontal cortex of FSL rats versus FRL rats,
although not in the hippocampus. Since the FSL rat is known to be hypercholinergic,
these data support an interaction between the NO/cGMP pathway and the
cholinergIc system in the frontal cortex but not hippocampus of FSL animals. The
mechanisms and implications of such a mutual involvement need further clarification.
Further, this anatomical differentiation may have important implications for
understanding the role of NO in the depressive-like behaviour of the FSL rat and,
indeed, may reveal more on the neurobiology and treatment of depression. Through
the performed behavioural assessments, the FSL and FRL rats were successfully
separated with respect to their anxiety phenotype as well as their heightened
response to serotonergic challenge, thus confirming a contribution of both the
serotonergic and cholinergic systems to the depressogenic nature of these animals.
As concluding remark can be said that under normal basal conditions markers of the
NO/cGMP signalling cascade are not altered in FSL vs FRL rats, although cGMP
levels are reduced in the frontal cortex of FSL rats, supportive of an NO-independent
mechanism of cGMP regulation, possibly involving ACh. / Thesis (M.Sc. (Pharmacology)--North-West University, Potchefstroom Campus, 2009.
|
26 |
Regional neurochemical characterization of the flinders sensitive line rat with regard to glutamate-nitric oxide and cGMP signalling pathways / Estella Lily Minnaar.Minnaar, Estella Lily January 2008 (has links)
The serious nature of MDD has intensified the need to identify and elucidate new neurobiological targets for antidepressant drug action. Depression presents with evidence for degenerative pathology that relates to disturbances in excitatory glutamatergic pathways, particularly the N-methyl-D-aspartate (NMDA) receptormediated release of the pleiotropic molecule, nitric oxide (NO), and cyclic guanosine monophosphate (cGMP). The contribution of the glutamate-NO/cGMP pathway may
realize great importance as a fundamental substrate underlying the pathophysiology
of major depression. In the next generation of antidepressant drugs, the nitric oxide pathway could playa dynamic role in addressing urgent therapeutic needs. In this study, we have used a genetic model of depression, the Flinders Sensitive Line (FSL) rat, to investigate the surrogate markers of the NO/cGMP pathway.
The aim was to determine whether the depressive-like behaviour of the
hypercholinergic FSL rat is accompanied by altered activation of the NO/cGMP
pathway. To this end, the extent to which the FSL and Flinders Resistant Line (FRL)
rats differ neurochemically with regard to basal hippocampal and frontal cortical
NOS-activity, as well as nitric oxide (NO) and cGMP accumulation, were determined.
Additionally, select behavioural assessments were performed to confirm the
anxiogenic phenotype of the FSL strain.
For neurochemical determinations a sensitive fluorometric reversed phase highperformance
liquid chromatographic (HPLC) assay was developed to analyze total
nitrite and nitrate in brain tissue. Nitrate was enzymatically converted to nitrite before
derivatization with 2,3-diaminonaphthalene (DAN). The stable and highly fluorescent
product, 2,3-naphthotriazole (NAT), was quantified. Secondly, the quantity of the
amino acid L-citrulline was measured by HPLC with electrochemical detection after
o-phthalaldehyde (OPA) derivatization. L-citrulline formation was used as an index
for nNOS activity. Finally, a direct, competitive enzyme immunoassay kit was used to
determine the downstream activity of the NO-pathway in brain tissue.
FSL rats were compared to FRL rats with respect to sensitivity to serotonin 5-HT1A .
receptor-mediated hypothermia under our lab-conditions. The Open Field Test (OFT)
behavioural assessment was performed to compare FSL with FRL groups under
baseline conditions according to their level of inherent anxiety. The parameters used
to measure anxiety were number of line crosses (locomotor activity), time spent in
middle blocks and social interaction time between pairs of rats. As an additional
behavioural assessment, the Forced Swim Test (FST) was performed to assess
behavioural restraint measured as time of immobility.
Basal cGMP levels in the frontal cortex were found to be significantly less in FSL
than in FRL rats, whereas the levels in the hippocampus did not differ significantly.
No other significant differences with respect to NO and nNOS activity were apparent
in either of the brain areas. The hypothermia test confirmed a significantly greater
decrease in temperature in the FSL rat than the FRL rat. The FST did not confirm
any differences in immobility time between the two rat strains. In the OFT, FSL rat
groups exhibited behaviour that indicated significantly more anxiety than FRL rats.
Under basal conditions, FSL rats do not present with significant changes in markers
of the NO cascade in the hippocampus and frontal cortex compared to FRL controls,
including NOS activity as well as NO accumUlation. However, cGMP levels were
found to be significantly lower in the frontal cortex of FSL rats versus FRL rats,
although not in the hippocampus. Since the FSL rat is known to be hypercholinergic,
these data support an interaction between the NO/cGMP pathway and the
cholinergIc system in the frontal cortex but not hippocampus of FSL animals. The
mechanisms and implications of such a mutual involvement need further clarification.
Further, this anatomical differentiation may have important implications for
understanding the role of NO in the depressive-like behaviour of the FSL rat and,
indeed, may reveal more on the neurobiology and treatment of depression. Through
the performed behavioural assessments, the FSL and FRL rats were successfully
separated with respect to their anxiety phenotype as well as their heightened
response to serotonergic challenge, thus confirming a contribution of both the
serotonergic and cholinergic systems to the depressogenic nature of these animals.
As concluding remark can be said that under normal basal conditions markers of the
NO/cGMP signalling cascade are not altered in FSL vs FRL rats, although cGMP
levels are reduced in the frontal cortex of FSL rats, supportive of an NO-independent
mechanism of cGMP regulation, possibly involving ACh. / Thesis (M.Sc. (Pharmacology)--North-West University, Potchefstroom Campus, 2009.
|
27 |
Discovering Egypt: Egyptian antiquities at the University of MelbourneElias, Christine January 2010 (has links)
This Master of Arts thesis presents the results of research undertaken on two collections of Egyptian antiquities held at the University of Melbourne. The first collection belongs to Queen’s College and is known as the Dodgson Collection. The second collection, known as the Petrie Collection, forms a small part of the larger Classics and Archaeology Collection, belonging to the Centre for Classics and Archaeology and is housed at the Ian Potter Museum of Art. / Prior to undertaking the research for this thesis little was known of these collections and their origins. Through consultation and analysis of archival sources and published material it was possible reconstruct the genesis and history of these two collections of Egyptian antiquities. / The Dodgson Collection was bequeathed to Queen’s College in 1892 by the Reverend James Dodgson. This much was known, however it was unclear as to how James came to posses the material. My research has uncovered that the collection was created by Aquila Dodgson, brother of James, who lived in England. Aquila was greatly interested in ancient Egypt and became a friend of the English Egyptologist, Flinders Petrie. It was through this friendship that Aquila was able to acquire ancient Egyptian artefacts, some of which now reside in the Dodgson Collection at Queen’s College. / Equally under recognised, very little was known about the second collection, comprising thirty two Egyptian artefacts, commonly referred to as the Petrie Collection. It was assumed the collection had been acquired from Flinders Petrie as a result of a list and a number of handwritten notes found in the Classics and Archaeology Collection archive. My research into the collection and the archive material has discovered that the collection had been created by two brothers, Edward Eustace Miller and Everard Studley Miller. Some items had been acquired whilst on a trip to Egypt during the Australian summer of 1910–1911, although the bulk of the collection was given to Everard (living in Melbourne) by his brother Edward (living in London), who had acquired the material while working for Flinders Petrie in Egypt in 1920. The collection made its way to the University of Melbourne in 1957 after the death of Everard, who had bequeathed the material to the Classical Association of Victoria in 1956. The Association gave the collection to the then Classics Department in early 1957.
|
28 |
Arachidonic acid-containing phosphatidylcholine species are increased in selected brain regions of a depressive animal model: implications for pathophysiology.Green, P., Anyakoha, Ngozi G., Gispan-Herman, I,, Yadid, G., Nicolaou, Anna January 2009 (has links)
No / The Flinders Sensitive Line (FSL) rat is a genetic animal model of depression. Following recent findings that the brain fatty acid composition of FSL is characterised by increased arachidonic acid (AA), we used electrospray tandem mass spectrometry and 1H-NMR to examine lipid species in different brain areas. Cholesterol and sphingolipids were increased in the hypothalamus of the FSL rats. Furthermore, arachidonic acid-containing phosphatidylcholine species (AA-PC) were elevated with PC16:0/20:4, PC18:1/20:4 and PC18:0/20:4 (p<0.003) increased in the hypothalamus and striatum. In contrast, there was a decrease in some docosahexaenoic acid (DHA)-containing species, specifically PC18:1/22:6 (p<0.003) in the striatum and PE18:1/22:6 (p<0.004) in the prefrontal cortex. Since no significant differences were observed in the erythrocyte fatty acid concentrations, dietary or environmental causes for these observations are unlikely. The increase in AA-PC species which in this animal model may be associated with altered neuropathy target esterase activity, an enzyme involved in membrane PC homeostasis, may contribute to the depressive phenotype of the FSL rats.
|
29 |
Physical processes along the southern continental shelf and slope of Western AustraliaMohd Akhir, Mohd Fadzil January 2010 (has links)
The circulation along the south coast of Western Australia was examined using field data and numerical modelling. Physical processes in this region, particularly along the continental shelf and slope regions, were poorly understood due to a paucity of field measurements. Data were collected during a research cruise on RV Southern Surveyor (04/2006) during April 2006 consisting of 18 CTD transects from Twilight Cove (126oE) to Cape Leeuwin (115oE) and was augmented by shipborne ADCP data. The field data set provided a detailed understanding of three major current systems: Leeuwin Current (LC), Leeuwin Undercurrent (LU) and Flinders Current (FC). The LC along the south coast exhibits different characteristics when compared to that along the west coast. The LC flows into the colder and lower salinity subantarctic environment of the south coast. This is evident in a strong geopotential gradient off the south-west corner of Australia (Cape Leeuwin) resulting in rapid acceleration of the LC as it reaches a maximum velocity in this region. Numerical modelling studies, using the Regional Ocean Modelling System (ROMS) indicated that wind stress is an important component of the dynamics in this region. This was identified when comparing summer and winter conditions when the winds act in opposite directions, from north-westerly to southeasterly respectively. Along the shelf break and slope, the Flinders Current (FC) interacts with LC. As the dominant current, the FC serves both as a surface and as an undercurrent, transporting sub Antarctic mode water (SAMW). This interconnection the FC and LU can be seen clearly from the salinity, temperature and velocities within the depth range 200-700m postulating a connection between subsurface waters off Tasmania (origin of the Flinders Current) and the tropical Indian Ocean through the Flinders and Leeuwin Undercurrents.
|
30 |
Accountability in action: how can archaeology make amends?Fitzpatrick, Alexandra L. 22 March 2022 (has links)
Yes / This special issue gathers together a selection of short articles reflecting on the historical construction of inequality and race in the histories of archaeology. The articles also suggest ways in which the discipline might grapple with the—often obvious, sometimes subtle—consequences of that historical process. Solicited via an open call for papers in the summer of 2020 (one made with the aim of speedy publication), the breadth of the topics discussed in the articles reflect how inequality and race have become more prominent research themes within the histories of archaeology in the previous five-to-ten years. At the same time, the pieces show how research can—and should—be connected to attempts to promote social justice and an end to racial discrimination within archaeological practice, the archaeological profession, and the wider worlds with which the discipline interacts. Published at a time when a pandemic has not only swept the world, but also exposed such inequalities further, the special issue represents a positive intervention in what continues to be a contentious issue. / The EDH project was funded by the UK’s Arts and Humanities Research Council (AHRC), project number AH/S004580/1, and conducted in compliance with UCL’s ethical guidance, project id 14901/001.
|
Page generated in 0.0702 seconds