Summary sex : a multivariate approach to sex estimation from the human pelvis

Rennie, S. R.

January 2018

With the progression of multivariate statistics, the creation of population specific equations is on the rise. Multivariate analysis generally revolves around metric methods or geometric morphometrics, not on morphoscopic features. A total of eight samples were analysed spanning from prehistoric American to modern day South African and ranged between pygmy populations from the Andaman Islands to medieval British populations. With a sample size of more than 1100 individuals, each os coxa was scored using eight morphoscopic features most commonly used by physical anthropologists and osteoarchaeologists. Trait frequencies were compiled and compared between each of the eight samples. Then, the samples were placed into two groups: a known age and sex group (Christ Church Spitalfields, South African White, South African Black, and South African Coloured), and an unknown archaeological group (Poulton, St. Owens, Chumash, and Andaman). When comparing trait frequencies, slight differences between the samples could be seen. Ordinal Logistic Regressions (OLR) were applied onto each of the four samples from the known age and sex group to create population specific sexing equations (cross-validated). Results from these four equations ranged from 90.24% (South African Black population specific equation) to 96.38% (Christ Church, Spitalfields population specific equation). Population specifity was tested by applying all of the equations onto each sample in this group. In an attempt to reduce this, two new equations were created by combining samples together resulting in a South African specific equation (92.54% accuracy) and a "Summary Sex" equation (92.98% accuracy). After applying each of the six new OLR equations onto the four archaeological samples, high percentage accuracies (ranging from 92.59% to 100.00%) were found when comparing them to the previous records. The only sample that did not produce as high of an accuracy was the Chumash sample with 82.35%. In the attempt to analyse fragmented remains, three avenues were taken. Firstly, all missing values were replaced by the median score. Secondly, the original six OLR equations were 'sectioned' to make three smaller sets of equations. Lastly, to mirror the sectioned equations, three new sets of OLR equations were generated. This study shows that when using morphoscopic traits for sex estimation, applying multivariate techniques can be used to obtain a high accuracy even when dealing with fragmented samples.

QM Human anatomy ; QP Physiology

Context-dependent processing of vestibular signals for balance and orientation

Osler, Callum Jon

January 2012

The control of balance and orientation comprises various forms of sensory input, reflexive action and anticipatory mechanisms. An important sensory input is the vestibular system. When a destabilising or disorientating perturbation is sensed by the vestibular apparatus a corrective response is generated. This thesis investigated how the processing of vestibular signals is affected by postural and sensory context. Orientation reflexes evoked by a vestibular signal of head roll were shown to be continuously modulated and even reversed direction during self-generated head pitch movements (Chapter 2). Results also raised the possibility that the direction of a vestibular-evoked balance reflex is automatically rotated following adaptation of motor output (Chapter 3). In addition to modulating the response direction, the context was also found to affect the response amplitude. Passive cutaneous sensory input was shown to attenuate a vestibular-evoked balance reflex (Chapter 4). If, however, such changes in sensory context were anticipated, then response amplitude was unchanged (Chapter 5). Furthermore, the initial balance reflex was not affected by a fear of falling (Chapter 6). The present findings demonstrate that the processing of vestibular signals is indeed context-dependent. However, the modulation of vestibular-evoked reflexes is seemingly automatic, and is not affected by cognition or emotion.

612.8

QM Human anatomy ; QP Physiology

Human physiological and biomechanical responses to vibration exercise

Robbins, Daniel

January 2013

The role of vibration in exercise is controversial, with much debate about its potential benefits. The aim of the research reported in this PhD thesis was to inform evidence based practice by investigating the underlying responses of the human body during exercise with vibration. Human neuromuscular and cardiovascular systems were investigated using 3D motion analysis, near infra-red spectroscopy (NIRS), laser Doppler blood flow analysis and electromyography (EMG). Analysis of a prototype vibrating stationary cycle identified significant increases in muscle activation. However, the validity of the results was limited by a confounding issue of increasing resistance with increasing cadence due to the cycle’s vibration mechanism. Consistency of exercise performance on vibration platforms was measured by 3D analysis; vibration did not affect the kinematic parameters of exercises such as heel raises or press ups, even though significant physiological changes occurred. NIRS indicated a significant reduction in the depletion of oxygenated haemoglobin, total haemoglobin and the normalised tissue haemoglobin index of the lateral gastrocnemius in heel raise exercises. During quiet standing laser Doppler measurements of the dorsalis pedis artery indicated that the NIRS results were not a consequence of vasospastic responses or increased resistance to blood flow in response to vibration. Whilst heart rate and blood pressure remained constant, blood flow velocity significantly increased, suggesting the peripheral changes occurred independently of central cardiovascular function. Heel raise exercises with whole body vibration showed significant increases in muscle activation of the soleus, but not the gastrocnemius, indicating varied muscular responses to vibration. The influence of blood flow and tissue oxygenation on EMG parameters was demonstrated via the protection of muscle conduction velocity during static squats, despite a downward shift in median frequency of the EMG power spectra. Analysis of upper body muscles during press ups yielded significant increases in muscle activation, equivalent to increasing the load of the bench press by 10% of the one repetition maximum. The results indicate that vibration influenced the dynamic muscles more than stabiliser muscles; reinforcing the lower body studies showing that vibration has a varied influence on muscle function. The aforementioned results demonstrate the ability of vibration to augment the effects of exercise on the muscular and vascular physiological systems of the human body.

500

QM Human anatomy ; QP Physiology

Reflectance photoplethysmography for non-invasive monitoring of tissue perfusion

Abay, Tomas

January 2016

Monitoring blood perfusion and oxygenation changes is of vital importance and for this reason many different techniques have been developed over the decades. Photoplethysmography (PPG) is an optical technique that measures blood volume variations in vascular tissue and it is well known for its utilisation in pulse oximetry for the estimation of arterial blood oxygen saturation (SpO2). In pulse oximetry, mainly the pulsatile component of the signal (AC PPG) is used while the continuous DC component is mostly excluded. Near Infrared Spectroscopy (NIRS) is another optical technique that measures changes in the concentration of oxygenated (ΔHbO2), deoxygenated (ΔHHb), and total haemoglobin (ΔtHb) from the variations in light attenuations at different wavelengths. The main motivation of this research is to explore the capability of Photoplethysmography in assessing tissue perfusion and oxygenation similarly as NIRS. The hypothesis underlining this research is that the DC component of the PPG signal contains information on the overall absorbed light and this part of the PPG signal, acquired at least two wavelengths, may be used to obtain ΔHbO2, ΔHHb, and ΔtHb as performed in NIRS. Therefore, DC PPG attenuations may be related to haemoglobin concentrations by the modified Beer-Lambert law (MBLL). In order to investigate this, novel reflectance, custom-made PPG sensors and measurement systems, including advanced signal processing algorithms, have been developed for the acquisition and analysis of raw PPG signals (AC + DC) from different anatomical locations. Three in vivo studies on healthy volunteers were carried out in order to investigate if ΔHbO2, ΔHHb, and ΔtHb estimated from PPG could indicate changes in blood perfusion and oxygenation. The studies consisted of vascular occlusions on the forearm, negative bed tilting, and whole body cold exposure. Raw PPG signals were acquired from different locations such as the forearm, fingers, and forehead, whereas simultaneous NIRS signals were used as a reference. The results showed that ΔHbO2, ΔHHb, and ΔtHb could be effectively estimated from PPG signals. These parameters indicated the changes in blood volumes and/or oxygenation, whereas comparison with NIRS signals showed good levels of correlation and trending. These promising results showed that DC PPG signals could be used to monitor changes in blood perfusion and oxygenation, extending the range of applications of Photoplethysmography.

610.28

QM Human anatomy ; QP Physiology

Effects on brain development of prenatal inhibition of Kynurenine-3-Monooxygenase

Khalil, Omari S.

January 2014

Much is known about the disease pathology related to schizophrenia, however, little is known with regards to its aetiology. Recent evidences suggest a neurodevelopmental hypothesis for schizophrenia where environmental factors including: infection, stress and malnutrition, can adversely affect the pregnant mother thereby elevating the risk for schizophrenia developing in the offspring during adulthood (Meyer et al., 2008d; Meyer and Feldon, 2009; 2012; Forrest et al., 2012; Meyer, 2013). Since a variety of viral and bacterial infections in animal models have demonstrated to increase the risk in schizophrenia, it is proposed that factors common to the immune response may mediate this link. While many laboratories have reported several behavioural abnormalities following maternal immune activation, we sought to examine molecular changes following poly(I:C) exposure, a synthetic viral mimetic, in the pregnant mother and assessed a range of protein markers with known developmental roles, since an appreciable understanding of the molecular alterations taking place would permit suitable therapies to follow. Interestingly, poly(I:C) was able to induce a range of changes resembling those observed during schizophrenia, where the major NMDA receptor subunit GluN1 and α-Synuclein was reduced in postnatal day 21 animals born to mothers treated with poly(I:C) during gestation days 14, 16 and 18. Furthermore, these changes suggest a mechanism by which maternal immune activation may lead to the subsequent emergence of schizophrenia. Another aspect of this work examined the role of the kynurenine pathway on brain development. There is increasing evidence suggesting the involvement of the kynurenine pathway, a biochemical pathway responsible for the oxidative metabolism of tryptophan, in the disease pathology of schizophrenia, including neurodegenerative disorders such as Parkinson’s, Alzheimer’s and Huntington’s disease (Giorgini et al., 2005; Ting et al., 2009; Bonda et al., 2010). Since immune activation induces the activation of the kynurenine pathway, it was hypothesised that alterations in central kynurenine concentrations during development may be involved in mediating the subsequent increased risk for schizophrenia (Forrest et al., 2013, Khalil et al., 2013, 2014). As very little is known about the physiological activity of the kynurenine pathway during development, we sought to examine the potential consequence of disrupting this pathway and examining its effects upon brain development. Therefore, a kynurenine monooxygenase inhibitor, Ro61-8048, was administered to pregnant rats during gestation day 14, 16, and 18, that would inhibit the synthesis of the neurotoxic metabolite quinolinic acid, while redirecting the pathway to increase the neuroprotectant kynurenic acid. Brain development was assessed by examining changes in protein expression of markers intimately involved in synaptic transmitter release machinery, neurogenesis and many aspects of neuronal development. Interestingly, we found the kynurenine pathway is highly active during brain development, and induces a variety of changes in protein markers that may be involved in precipitating a range of neuronal and cognitive deficits. While Ro61-8048 induced no changes in the embryo brains at 5 and 24 h following treatment, delayed changes were seen in postnatal day 21 animals displaying a decrease in RhoB expression as examined in the western blots. Since the full blow symptoms of schizophrenia become apparent during early adulthood, we sought to examine any changes in protein expression in postnatal day 60 animals in regions of the cortex, hippocampus, midbrain and cerebellum. Interestingly, profound alterations were seen in doublecortin and the netrin receptors responsible for axonal guidance. Perhaps the most striking protein change in the postnatal day 60 animals is the significant alteration induced in the expression of disrupted in schizophrenia (DISC)-1, a protein strongly linked with schizophrenia. Glutamate function was assessed as indicated by the density of glutamate transporters, VGLUT-1 and VGLUT-2, in the CA1 region of the hippocampus of postnatal day 60 animals using immunocytochemistry. While the relative density of glutamate transporters were substantially increased, there were no changes in the GABA transporters, indicating that while GABA transmission remained the same, glutamate function may have increased in the absence of an increase in synaptic connections. Spine densities of pyramidal neurons in the hippocampus were also examined, using the golgi-impregnation method, to reveal a significant loss in spines of the apical and basal dendrites, consistent with reports in schizophrenia. To conclude, the kynurenine pathway is highly active during development, and alterations in central kynurenines during pregnancy, as induced by environmental factors such as stress and infection, may be involved in the subsequent emergence of neurodevelopmental disorders.

612.8

Molecular regulation of skeletal muscle myosin heavy chain isoforms

Brown, David M.

January 2015

Research investigating the regulation of muscle fibre type has traditionally been conducted in vivo, analyzing global changes at a whole muscle level. Broadly, this thesis aimed to explore more “molecular” approaches, utilizing molecular and cell biology to understand the expression and regulation of myosin heavy chain (MyHC) isoforms as an indicator of muscle fibre composition. The mRNA expression profile of six MyHC isoform genes during C2C12 myogenesis was elucidated to reveal that the C2C12 cell line mimics developing fast-twitch muscle fibres. Additional characterization of the C2C12 cell line revealed a dramatic restructuring of metabolic gene expression during the switch from proliferating to fully differentiated C2C12 muscle cells. Post-mitotic muscle cells exhibited increased glycolytic gene expression and reduced oxidative gene expression and an increase in gene expression of enzymes involved in redirecting glucose carbons into ATP generating pathways and away from macromolecule biosynthesis (p<0.01 for all genes). The dynamic plasticity of MyHC isoform gene expression was compared between C2C12 muscle cells and fully differentiated adult muscle. Exposure of adult muscle to the beta-adrenergic agonist, Ractopamine, induced dynamic transitions in MyHC isoform expression, from the IIA/IIX isoforms to increased IIB isoform expression (p<0.05 for all genes). An acute exposure of C2C12 muscle cells to Ractopamine was capable of inducing an exclusive and rapid induction of the MyHC IIB isoform gene expression during myogenesis (p<0.001). The C2C12 cell line was utilized as a host environment for a molecular-based approach to understand the role of the promoter sequence in regulating the species-differential induction of the MyHC IIB gene during myogenesis. A 3bp miss-match in the CArG-Ebox region (at -74bp, -68bp and -48bp) of the proximal MyHC IIB promoter was identified that dictates the differential expression of MyHC IIB in pigs and humans.

612.7

Phosphatidylinositol (3,5) bisphosphate dependent membrane trafficking in S. cerevisiae

Williams, Fay Kathleen

January 2012

Phosphoinositides are lipid signals that control cellular processes and are particularly closely associated with the control of membrane trafficking. PtdIns(3,5) \(\char{cmmi10}{0x50}\)\(_2\) is the most recently identified phosphoinositide and was previously recognised as controlling events in the late endocytic system between the late endosome and the vacuole/lysosome. Primarily associated with retrograde trafficking from the vacuole/lysosome to the late endosome/MVB, PtdIns(3,5) \(\char{cmmi10}{0x50}\)\(_2\) is generated by the kinase Fab1p (PIKfyve in animals). In mammalian cells, PtdIns(3,5) \(\char{cmmi10}{0x50}\)\(_2\) has also been implicated in control of ill-defined trafficking pathways close to the Golgi; for example, the recycling of mannose-6-phosphate receptor (M6R) back to the Golgi and also the trafficking of some types of ion and nutrient channels from the Golgi to the cell surface. This thesis describes attempts to study putative PtdIns(3,5) \(\char{cmmi10}{0x50}\)\(_2\) dependent trafficking in the early endocytic system of \(\char{cmmi10}{0x53}\). \(\char{cmmi10}{0x63}\)\(\char{cmmi10}{0x65}\)\(\char{cmmi10}{0x72}\)\(\char{cmmi10}{0x65}\)\(\char{cmmi10}{0x76}\)\(\char{cmmi10}{0x69}\)\(\char{cmmi10}{0x73}\)\(\char{cmmi10}{0x69}\)\(\char{cmmi10}{0x61}\)\(\char{cmmi10}{0x65}\) using two model proteins; the recycling of Vps10p from late endosome to Golgi and of Chs3p from recycling endosome to Golgi.

500

A network inference approach to understanding musculoskeletal disorders

Turan, Nil

January 2014

Musculoskeletal disorders are among the most important health problem affecting the quality of life and contributing to a high burden on healthcare systems worldwide. Understanding the molecular mechanisms underlying these disorders is crucial for the development of efficient treatments. In this thesis, musculoskeletal disorders including muscle wasting, bone loss and cartilage deformation have been studied using systems biology approaches. Muscle wasting occurring as a systemic effect in COPD patients has been investigated with an integrative network inference approach. This work has lead to a model describing the relationship between muscle molecular and physiological response to training and systemic inflammatory mediators. This model has shown for the first time that oxygen dependent changes in the expression of epigenetic modifiers and not chronic inflammation may be causally linked to muscle dysfunction. Bone and cartilage deformation observed in ageing, arthritis and multiple myeloma (MM) patients have also been investigated by using a novel modularization approach developed within this thesis. This methodology allows integration of multi-level dataset with large interaction networks. It aims to identify sub-networks with genes differentially expressed between experimental conditions that are co-regulated across samples in different biological systems. This study has identified several potential key players such as Myc, DUSP6 and components of Notch that could enhance osteogenic differentiation in MM patients. In conclusion, this thesis present the effectiveness of systems biology approaches in understanding complex diseases and these approaches could be applied for studying other systems and datasets.

500

Feet and footwear : friends or foes?

Franklin, Simon

January 2018

A third of over 65s have at least one fall per year whilst a quarter of over 45s endure foot pain. Footwear is associated with both fall risk and foot pain hence its investigation is of great importance. This thesis explores the potential benefits of minimalist footwear for the older adult population. Chapter 2 ascertained the kinematic and kinetic differences between walking barefoot versus in footwear whilst highlighting the limited research on minimalist footwear, older adults and muscle activity differences. Accordingly, Chapter 3 outlined that minimalist footwear is kinematically more similar to barefoot, irrespective of age, thus offering a viable alternative. Similarly, Chapter 4 showed walking in minimalist footwear and walking unshod exhibit similar lower leg muscle activation patterns whilst differences exist to conventional footwear. Chapter 6 demonstrated how increasing intrinsic foot strength improved functional and static balance whilst Chapter 7 showed promise for minimalist footwear improving foot strength, functional balance, balance confidence as well as reducing foot and joint pain in a sample of older adults. In conclusion, this thesis highlights the need for future work to continue to investigate minimalist footwear in both older adults and other age groups for benefits to stability, foot health and joint pain.

The influence of gender on the aetiology of gastro-oesophageal reflux, Barrett’s oesophagus and oesophageal adenocarcinoma

Menon, Shyam Sundar

January 2011

Symptoms of gastro-oesophageal reflux disease are equally common in both sexes and at all ages. However, complications of gastro-oesophageal reflux disease such as reflux oesophagitis, Barrett's oesophagus and oesophageal adenocarcinoma, although more common in men, increase sharply in older women, suggestive of a protective effect of female sex hormones in menstruating women. Oestrogen has anti-inflammatory properties, improves healing in oral and skin wounds and may therefore reduce the severity of reflux-induced oesophageal mucosal injury, consequently protecting women from developing severe reflux oesophagitis. Long-term oestrogen treatment with hormone replacement therapy seems to be additionally associated with a reduction in the risk of oesophageal cancer. Moreover, there are gender-specific genotypic differences in the response of oesophageal mucosa to chronic acid reflux suggestive of multiple factors that may play a role in explaining the male predominance of oesophageal adenocarcinoma. Finally, oestrogen has no association with the severity of acid reflux once adjustment is made for the influence of increasing body mass index in women undergoing oesophageal pH monitoring. The gender difference in the prevalence of gastro-oesophageal reflux disease and its complications may thus be related to the effect of female sex hormones, particularly oestrogen and its 'protective' effect in pre-menopausal women.

616.3