Maternal and fetal immune responses during pregancy and the first year of life and the development of allergic disease

Jones, Amanda Clare

January 1996

No description available.

610

Environmental sensitisation : a proposal for a shift in emphasis in environmental education

Stenhouse, John E., n/a

January 1982

This study is concerned with the design, justification and evaluation of a curriculum in the field of Environmental Education which attempts to emphasise certain aspects of Environmental Education which are neglected in schools at present. It is argued that the majority of Environmental Education programmes are based on the rational/logical mode of thinking, are expert dominated and concentrate heavily on environmental dysfunction. In an attempt to redress this imbalance a curriculum design is presented which emphasises the sensory/expressive mode of thought, group co-operation and centres on positive features of the environment. A rationale in support of such a curriculum is developed and the conditions necessary for its success are described. An evaluation of the implementation of the curriculum in four diverse educational settings is described. Finally the implications of this study for further developments in the fields of education in general and Environmental Education in particular are discussed.

school curriculum

environmental education

environmental sensitisation

The Effect of Acupuncture on Temporal Summation of Pain: A Randomised, Double-Blind, Sham-Controlled Study

Feng, Jian Qiang / Sam, S3069785@student.rmit.edu.au

January 2008

There was few human study evaluated the analgesic effect of acupuncture on central nervous system (CNS). The electrical temporal summation (TS) pain model has been validated and provides the opportunity to study the central inhibition effect of acupuncture in healthy humans. The present study aimed to: 1. systematically review available randomised, controlled trials (RCTs) of acupuncture on experimentally induced pain in healthy humans; 2. conduct a RCT to assess the effect of manual acupuncture (MA) and electro-acupuncture (EA) on TS of pain and the spatial (i.e. the local and remote sites to acupuncture stimulation) and the temporal (i.e. immediately after and 24-hours after the intervention) characteristics of this effect. The systematic review was carried out in accordance with the requirements of a Cochrane Systematic Review. The methodological quality and credibility of the acupuncture intervention of the included RCTs were assessed. The Review Management software (RevMan version 4.2, The Cochrane Library) was used for data extraction and data analysis. 605 papers were identified from four databases (Pubmed, Cochrane Library, CINAHL and EMBASE). Only nine papers met the inclusion criteria. The methodological quality and credibility of the acupuncture invention were satisfactory. The pain models and interventions applied varied substantially from study to study. Consequently, meta-analyses were not conducted. Comparing acupuncture with non-invasive control, significant acupuncture analgesia was reported. These studies also demonstrated that invasive controls produced analgesia. For the RCT of acupuncture on TS, 27 healthy volunteers were recruited and randomly assigned to either EA, MA or sham-acupuncture (SA) group, with nine volunteers in each group. To test pain thresholds, transcutaneous electrical stimulation was delivered to two sites on the anterior aspects of both legs and one site on the dorsum of the non-dominant forearm. Pain thresholds to single electrical stimulation (SPT) and to TS stimulation (TST) were assessed before, 30-minutes after and 24-hours after the intervention. Acupuncture was given to Zusanli (ST36) and Fenglong (ST 40) on the dominant leg. The level of anxiety was assessed before and after acupuncture with Spielberg State and Anxiety Inventory. The three groups were comparable at baseline. The level of anxiety did not change significantly after acupuncture. EA significantly increased SPT and TST on the treatment leg 24-hour after the treatment when compared with SA (p less than 0.05), but did not increase those measured on the non-treatment leg or the forearm. The fact that such an effect increased within 24 hours after acupuncture might indicate the potential role of neurohumoral mechanisms in acupuncture analgesia. The analgesia effect of EA on TS tended to be localised at the needling site. This observation is different from the understanding of the wide-spread effect of acupuncture. The discrepancy could be due to the small sample size of the current study. In conclusion, this is the first study that demonstrates EA elicits a strong inhibition on the CNS in health humans. Such a central effect lasts more than 24 hours, and limits to the site where acupuncture is applied. These findings need to be confirmed in other TS models.

Temporal summation

acupuncture

analgesia

central sensitisation

pain

Identification and Validation of ERK5 as a DNA Damage Modulating Drug Target in Glioblastoma

Carmell, N., Rominiyi, O., Myers, K.N., McGarrity-Cottrell, C., Vanderlinden, A., Lad, N., Perroux-David, E., El-Khamisy, Sherif, Fernando, M., Finegan, K.G., Brown, S., Collis, S.J.

01 November 2023

Yes / Brain tumours kill more children and adults under 40 than any other cancer, with approximately half of primary brain tumours being diagnosed as high-grade malignancies known as glioblastomas. Despite de-bulking surgery combined with chemo-/radiotherapy regimens, the mean survival for these patients is only around 15 months, with less than 10% surviving over 5 years. This dismal prognosis highlights the urgent need to develop novel agents to improve the treatment of these tumours. To address this need, we carried out a human kinome siRNA screen to identify potential drug targets that augment the effectiveness of temozolomide (TMZ)-the standard-of-care chemotherapeutic agent used to treat glioblastoma. From this we identified ERK5/MAPK7, which we subsequently validated using a range of siRNA and small molecule inhibitors within a panel of glioma cells. Mechanistically, we find that ERK5 promotes efficient repair of TMZ-induced DNA lesions to confer cell survival and clonogenic capacity. Finally, using several glioblastoma patient cohorts we provide target validation data for ERK5 as a novel drug target, revealing that heightened ERK5 expression at both the mRNA and protein level is associated with increased tumour grade and poorer patient survival. Collectively, these findings provide a foundation to develop clinically effective ERK5 targeting strategies in glioblastomas and establish much-needed enhancement of the therapeutic repertoire used to treat this currently incurable disease.

ERK5

MAPK7

Glioblastoma

Temozolomide

DNA damage

Sensitisation

Functional Neuroanatomy of Morphine-Induced Abstinence, Tolerance, and Sensitisation

Hamlin, Adam Scott

January 2006

Doctor of Philosophy (PhD) / The investigation into the relationship between neural plasticity in the rat forebrain associated with opiate-induced behaviours yielded two major results. The major finding of the functional neuroanatomy of acute morphine dependence was that doses of naloxone that induced hyperalgesia following a brief exposure to morphine, in previously drug-naïve rats, caused a specific induction of the inducible transcription factor (itf) proteins c-Fos and zif268 in the extended amygdala. Moreover, doses of naloxone that caused a simple reversal in morphine analgesia failed to induce itf proteins in these same brain regions. This increase in itf proteins was specific to regions of the extended amygdala that receive and process nociceptive information relayed via the spino-parabrachio-amygdaloid pathway and was not observed in other regions that are involved in supraspinal pain modulation such as the rostral ventromedial medulla and the periaqueductal gray. We also found that acute morphine increased c-Fos protein in the basolateral amygdala and the major output nucleus of the central amygdala the medial subdivision. Acute morphine also up-regulated c-Fos protein in striatal, midbrain, and hypothalamic nuclei. A unique finding of the current study was that prolonged exposure to morphine was required to induce c-Fos in these brain regions, as the subsequent administration of naloxone 30-minutes after morphine either reversed or blocked this induction. These results indicate the potential role of the amygdala in analgesia following systemic morphine and in pain facilitation during acute morphine abstinence. Investigation into the neurons and circuitry that undergo long-term neuroplasticity in response to repeated morphine exposure revealed that network-level changes in the distribution of Fos protein in the nucleus accumbens and striatum predicted both tolerance to catalepsy and psychomotor sensitisation. Drug-naïve rats became profoundly cataleptic following morphine, an effect that rats with a drug-history became tolerant. Rats with a history of morphine exposure showed an increase in stereotyped behaviours compared to drug-naïve rats. The major finding of this study was that a shift in the induction of c-Fos protein from a matrix predominance in drug-naïve rats toward a patch predominance in drug-sensitised rats in the accumbens core predicted both tolerance to catalepsy and sensitisation of oral stereotyped behaviours. Acute injection of morphine in a drug-naïve rat induced catalepsy and increased the number of c-Fos-positive neurons in matrix striatopallidal projection neurons of the rostral accumbens core. An increase in activity of striatopallidal projection neurons, which give rise to the indirect pathway, could potentially increase inhibitory drive to the pedunculopontine nucleus (PPN). The PPN, long known as a site of termination for basal ganglia output, is thought to direct the outflow of incentive-motivational and sensorimotor information from the nucleus accumbens to pons, medullary, and spinal cord nuclei translating the incentive impact of the stimuli into appropriate motor, autonomic and emotive responses (Winn et al., 1997). Inhibition of this nucleus would cause the animal to be unable to initiate a movement and in effect lock up, which is precisely what cataleptic postures look like. In contrast c-Fos-positive neurons were decreased in the rostral matrix and increased in patch striatonigral projection neurons along the rostro-caudal extent of the accumbens core when morphine was administered to drug-sensitised rats. Striatonigral neurons located in the patch give rise to the direct pathway innervating the dopaminergic neurons in both substantia pars compacta and the dopamine rich islands in the substantia nigra pars reticulata (Berendse et al., 1992; Gerfen, 1992; Furuta et al., 2002). Activity of this pathway is thought to be involved in the initiation of movement (Gerfen, 1992; Gerfen and Wilson, 1996), however, when this pathway is overstimulated as is the case when morphine is injected in drug-sensitised rats this could potentially cause increased activity of PPN neurons leading to repetitive psychomotor behaviours or stereotypy. This data adds to the growing body of evidence that suggests that long-term neuroadaptations induced by drugs of abuse including morphine that lead to behavioural sensitisation involves the circuitry that includes the nucleus accumbens.

Morphine

c-Fos

Basal Ganglia

Amygdala

Hyperalgesia

Sensitisation

Functional Neuroanatomy of Morphine-Induced Abstinence, Tolerance, and Sensitisation

Hamlin, Adam Scott

January 2006

Doctor of Philosophy (PhD) / The investigation into the relationship between neural plasticity in the rat forebrain associated with opiate-induced behaviours yielded two major results. The major finding of the functional neuroanatomy of acute morphine dependence was that doses of naloxone that induced hyperalgesia following a brief exposure to morphine, in previously drug-naïve rats, caused a specific induction of the inducible transcription factor (itf) proteins c-Fos and zif268 in the extended amygdala. Moreover, doses of naloxone that caused a simple reversal in morphine analgesia failed to induce itf proteins in these same brain regions. This increase in itf proteins was specific to regions of the extended amygdala that receive and process nociceptive information relayed via the spino-parabrachio-amygdaloid pathway and was not observed in other regions that are involved in supraspinal pain modulation such as the rostral ventromedial medulla and the periaqueductal gray. We also found that acute morphine increased c-Fos protein in the basolateral amygdala and the major output nucleus of the central amygdala the medial subdivision. Acute morphine also up-regulated c-Fos protein in striatal, midbrain, and hypothalamic nuclei. A unique finding of the current study was that prolonged exposure to morphine was required to induce c-Fos in these brain regions, as the subsequent administration of naloxone 30-minutes after morphine either reversed or blocked this induction. These results indicate the potential role of the amygdala in analgesia following systemic morphine and in pain facilitation during acute morphine abstinence. Investigation into the neurons and circuitry that undergo long-term neuroplasticity in response to repeated morphine exposure revealed that network-level changes in the distribution of Fos protein in the nucleus accumbens and striatum predicted both tolerance to catalepsy and psychomotor sensitisation. Drug-naïve rats became profoundly cataleptic following morphine, an effect that rats with a drug-history became tolerant. Rats with a history of morphine exposure showed an increase in stereotyped behaviours compared to drug-naïve rats. The major finding of this study was that a shift in the induction of c-Fos protein from a matrix predominance in drug-naïve rats toward a patch predominance in drug-sensitised rats in the accumbens core predicted both tolerance to catalepsy and sensitisation of oral stereotyped behaviours. Acute injection of morphine in a drug-naïve rat induced catalepsy and increased the number of c-Fos-positive neurons in matrix striatopallidal projection neurons of the rostral accumbens core. An increase in activity of striatopallidal projection neurons, which give rise to the indirect pathway, could potentially increase inhibitory drive to the pedunculopontine nucleus (PPN). The PPN, long known as a site of termination for basal ganglia output, is thought to direct the outflow of incentive-motivational and sensorimotor information from the nucleus accumbens to pons, medullary, and spinal cord nuclei translating the incentive impact of the stimuli into appropriate motor, autonomic and emotive responses (Winn et al., 1997). Inhibition of this nucleus would cause the animal to be unable to initiate a movement and in effect lock up, which is precisely what cataleptic postures look like. In contrast c-Fos-positive neurons were decreased in the rostral matrix and increased in patch striatonigral projection neurons along the rostro-caudal extent of the accumbens core when morphine was administered to drug-sensitised rats. Striatonigral neurons located in the patch give rise to the direct pathway innervating the dopaminergic neurons in both substantia pars compacta and the dopamine rich islands in the substantia nigra pars reticulata (Berendse et al., 1992; Gerfen, 1992; Furuta et al., 2002). Activity of this pathway is thought to be involved in the initiation of movement (Gerfen, 1992; Gerfen and Wilson, 1996), however, when this pathway is overstimulated as is the case when morphine is injected in drug-sensitised rats this could potentially cause increased activity of PPN neurons leading to repetitive psychomotor behaviours or stereotypy. This data adds to the growing body of evidence that suggests that long-term neuroadaptations induced by drugs of abuse including morphine that lead to behavioural sensitisation involves the circuitry that includes the nucleus accumbens.

Morphine

c-Fos

Basal Ganglia

Amygdala

Hyperalgesia

Sensitisation

Epidemiology of asthma in primary school children : the Obstructive Lung Disease in Northern Sweden (OLIN) studies thesis VIII

Bjerg Bäcklund, Anders

January 2008

Background: Childhood asthma has increased worldwide, although recent studies report a prevalence plateau in some western countries. Aims: To investigate the prevalence of asthma and the associated risk factor patterns from ages 7-8 to 11-12 with special emphasis on the hereditary component, and further to study prevalence trends at age 7-8 from 1996 to 2006 and the possible determinants of these trends. Methods: The studies involved two cohorts from Kiruna, Luleå and Piteå: one previously identified cohort of 3430 children age 7-8 followed by yearly questionnaires until age 11-12 with 97% yearly participation. Skin-prick tests for allergic sensitisation were performed at ages 7-8 and 11-12 in subsets of 2148 and 2155 children respectively (88% of invited). In 2006 a new cohort of 7-8-year-olds was identified and examined identically. 2585 (96% of invited) and 1700 (90% of invited) participated in the questionnaire and skin-prick tests, respectively. The questionnaire included questions about symptoms of asthma, allergic rhinitis and eczema, and possible risk factors. Results: In the 1996 cohort, from age 7-8 to 11-12 the prevalence of physician-diagnosed asthma increased (5.7%-7.7%, P<0.01) while current wheeze decreased (11.7%-9.4%, P<0.01), and 34.7% reported ever wheee at ≥one occasion. Remission was 10% of which half relapsed during the study. Remission was significantly lower among sensitised children. The strongest risk factors for current asthma at ages 7-8 and 11-12 were allergic sensitisation (OR 5) and family history of asthma (OR 3). Several other significant risk factors, e.g. respiratory infections, damp house and low birth weight, had lost importance at age 11-12. At age 7-8, parental asthma was a stronger risk factor (OR 3-4) than parental rhinitis or eczema (OR 1.5-2). Sibling asthma had no independent effect. Biparental asthma had a multiplicative effect (OR 10). Maternal and paternal asthma was equally important, regardless of the child’s sex and sensitisation status. From 1996 to 2006 the prevalence of current wheeze and asthma at age 7-8 did not increase (P=0.13, P=0.18), while lifetime prevalence of ever wheeze and physician-diagnosed asthma increased (P<0.01, P=0.01). Symptoms of rhinitis and eczema were unchanged, despite 45% increase (P<0.01) in allergic sensitisation. For current asthma the adjusted population attributable fractions of sensitisation and parental asthma increased (35%-41%, 27%-45%). This was however balanced by decreased exposure to infections, maternal smoking and home dampness, resulting in stable asthma prevalence. Stratification by sex revealed that current wheeze increased in boys (P<0.01) but tended to decrease in girls (P=0.37), seemingly due to symptom persistence in males. Several asthma indices followed this pattern. The boy-to-girl ratio in exposure to all studied risk factors increased, which may explain the sex-specific prevalence trends in wheeze. Conclusions: The prevalence of current asthma and wheeze did not increase statistically significantly. However, the risk factor pattern has changed considerably since 1996, which will presumably affect the clinical features of childhood wheeze in this region. Sex-specific trends in wheeze can be explained by changes in exposure, and trends in risk factors should be explored parallel to prevalence trends.

Asthma

wheeze

child

allergic sensitisation

prevalence

remission

risk factor

trend

Lung diseases

Lungsjukdomar

Defining the neural correlates of pain and analgesia in health and disease

Mezue, Melvin Nnanyelu

January 2014

Chronic neuropathic pain affects up to 8% of the United Kingdom population and is a difficult condition to manage. It is established and maintained through many mechanisms, including central sensitisation (CS) in the spinal cord and brainstem. Neuropathic pain manifests as spontaneous pain, sensory loss and evoked hypersensitivity. The development of novel treatments for neuropathic pain is challenging, in part due to inadequate experimental models of clinically relevant pain. The use of functional magnetic resonance imaging (fMRI) techniques for imaging acute and increasingly tonic states enables the assessment of the neural correlates of evoked hypersensitivity and persistent pain, with the goal of developing appropriate biomarkers to test new therapies. This thesis develops novel techniques for the assessment of ongoing pain states and their modulation by therapies. We first identified a suitable human experimental model of CS using topical capsaicin, and an fMRI pipeline for the investigation of supraspinal involvement in pain hypersensitivity. In a placebo-controlled study, we then demonstrated the improved sensitivity of fMRI above subjective reports in detecting the efficacy of a known analgesic as compared to an ineffective active compound in a small cohort. To translate this to the more clinically relevant symptom of spontaneous pain, we developed and validated the use of a multi-inversion time pseudo-continuous arterial spin labelling (ASL) imaging and analysis pipeline for the neural assessment of tonic states and the absolute quantification of cerebral blood flow (CBF). Current evidence from structural and functional studies suggests a direct role for the posterior insula cortex in the encoding of nociception and pain. Using the ASL pipeline, we found that only a CBF change in the posterior insula region was correlated with the changing perception of persistent capsaicin-induced pain, and in a separate experiment showed that suppression of CBF in this region by gabapentin was related to the drug's suppression of subjective pain perception. We also demonstrated in a cohort of phantom limb patients that pain relief resulting from transcranial direct current stimulation of the deprived sensorimotor cortex is neurally represented by a decrease in posterior insula CBF. In a separate study, we showed that baseline CBF in the periaqueductal grey can predict individuals who are most vulnerable to pain and hypersensitivity following the induction of capsaicin-related CS. Taken together, these findings suggest that fMRI can be used as a tool to assess the efficacy of established and novel analgesics, with the midbrain reticular formation and posterior insula cortex being prime candidates as biomarkers of CS mechanisms and persistent pain respectively. Relatedly, ASL-fMRI may also be an effective technique for evaluating individuals' susceptibility to pain following inflammation or injury.

616

Early life cytokines, viral infections and IgE-mediated allergic disease

Larsson, Anna-Karin

January 2006

<p>Background: The reasons why some individuals become IgE-sensitised and allergic are largely unknown, though genetic- and early life environmental factors seem to be of importance.</p><p>Objective: The overall aim of this thesis was to investigate the relationship between IgE-sensitisation and allergic disease, viral infections, genetic markers and early life cytokines.</p><p>Results: IgE-sensitised children were found to have reduced numbers of IL-12 producing cord blood mononuclear cells (CBMC), whereas children diagnosed with eczema were found to have reduced numbers of IFN-γ producing CBMC. When dividing the children into early onset of IgE-sensitisation and late onset of IgE-sensitisation we found that the children with an early onset had low numbers of PHA-induced IL-4, IL-12 and IFN-γ secreting CBMC. At the age of two there was a general exacerbation of cytokine responses in the IgE-sensitised children, and the results were similar for the children with early onset IgE-sensitisation. Children with a late onset IgE-sensitisation were more similar to the non-sensitised children, but with a specific increase in the response to cat allergen (IL-4 and IFN-γ). The mothers of IgE-sensitised children, were just as their children, found to have an exaggerated cytokine response as compared to mothers of non-sensitised children. Maternal responses correlated well to the responses seen in the child, though the samples were taken two years after delivery.</p><p>Cytomegalovirus (CMV) infection in early life was associated to reduced numbers of IL-4, and increased numbers of IFN-γ producing cells at the age of two. No association between CMV seropositivity and IgE-sensitisation was seen. Epstein-Barr virus (EBV) infection, on the other hand, was inversely correlated with IgE –sensitisation, whereas no statistically significant association to cytokine production could be seen.</p><p>We also showed that the IL12B 1188 C-allele was associated to having a positive skin prick test at the age of two. The rare alleles of the three SNPs investigated (IL12B 1188C, IL12RB1132C and IRF1 1688A) were all associated to low IL-12 production at birth.</p><p>Conclusions: Our results indicate that allergic diseases are complex traits, and that both the genetic and the cytokine background differ between the different allergic diseases. We can also conclude that the time of onset seem to play a role when investigating IgE-sensitisation, and that perhaps early and late onset IgE-sensitisation have partly different causes. CMV and EBV infection early in life are associated to a protective cytokine profile and to protection from IgE-sensitisation, respectively, again indicating the heterogeneity and the complexity of allergic diseases.</p>

IgE-sensitisation

childhood

cytokine

viral infection

atopy

single nucleotide polymorphism

cord blood

Immunology

Immunologi

Nitric oxide signalling in the basolateral complex of the amygdala: an extension of NMDA receptor activation during Pavlovian fear conditioning and expression

Overeem, Kathie

January 2006

N-methyl-D-asparate (NMDA) receptors located within the basolateral complex of the amygdala are required for the consolidation and expression of Pavlovian conditioned fear. The events downstream of receptor activation that mediate these processes are not well defined. An intermediate step that may be of significance is the synthesis of the gas nitric oxide (NO). Nitric oxide is synthesised as a result of NMDA receptor activation and acts as an unconventional neurotransmitter freely diffusing across cell membranes interacting with its targets in a non-synaptic manner. The targets of NO include cellular components that play significant roles during the consolidation of conditioned fear and the neurotransmission associated with its expression. This implies that NO may be an important intermediary of NMDA receptor activation and both these processes. The current study sought to examine this possibility using fear potentiated startle to examine the expression of learned fear. Three experiments were conducted, fifty rats received intra-BSC microinfusions of the global nitric oxide synthase inhibitor L-NAME either prior to fear conditioning, fear testing, or examination of the shock sensitization of the acoustic startle affect. The results indicated that NO was indeed required for both the consolidation and expression of learned fear, whereas it was not required for shock enhanced startle responding. This study provides new information about the sub-cellular basis of conditioned fear, and highlights the pivotal role played by NO in processes associated with conditioned fear.

Nitric oxide

Pavlovian Fear conditioning

Fear expression

Amygdala