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Masters Degrees (Neurotoxicology)

We have 3 Masters Degrees (Neurotoxicology)

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The Master’s Degree in Clinical and Experimental Sciences of the Nervous System is a blended master’s degree in the field of the neurosciences with three specialities. Read more
The Master’s Degree in Clinical and Experimental Sciences of the Nervous System is a blended master’s degree in the field of the neurosciences with three specialities:
-Research into Neurotoxicology and Neuropsychopharmacology (research track). This speciality aims to train future specialists to research into evaluating and characterising the effects of neuroactive substances(effects of neurotoxins from environmental pollutants on living organisms, effects of medicines and abusive drugs on behaviour). The objective is to provide students with multidisciplinary training and the basic and methodological knowledge that enable them to work as researchers in the field of neurotoxicology and psychopharmacology.
-Invasive Neuromusculoskeletal Physiotherapy (professional track). The general aim of this speciality is to learn to examine and treat patients who suffer from problems of neuromuscular pain. Other aims are to use muscle palpation to identify tense bands of muscle and the most common locations for myofascial trigger points (MTP) and to attribute a patient’s pain to the presence of MTP in the corresponding muscles thanks to a knowledge of their pain patterns and the most important semiological characteristics. One of the primary objectives is to correctly apply the main techniques for the conservative and invasive (dry puncture) treatment of MTPs: that is to say, identifying and avoiding the contraindications, risks and complications generated by the various puncture techniques.
-Neurorehabilitation (professional track). The translational objectives of this speciality are to describe the etiopathological reasons for neurological, sensory and cognitive disorders based on experimental data applied to therapeutic situations. This should enable these disorders to be treated using appropriate and well-founded rehabilitation techniques. One of the main objectives is to use such cutting-edge technologies as robotics.

Student Profile

This master’s degree is designed for two types of students: on the one hand, recent graduates who have scientific concerns and who wish to work in the field of knowledge in general and, specifically, on the central and peripheral nervous system; and, on the other, the online component of the research track is designed specifically for professionals who are already working but who would like to do a doctorate on the nervous systems to increase their professional potential.

The aim of the professional specialities is to train professionals to examine and treat patients who suffer from neuromuscular pain and give them extensive knowledge of the central and peripheral nervous system in pathological situations so that they can suggest possible therapies.

These specialities are designed for health professionals who want to acquire new knowledge and abilities to improve their daily practice on issues of the central or peripheral nervous system and who also want to have sufficient scientific training to be able to opt for a doctoral degree related to their profession so that they can lead a clinical research group.

Career Opportunities

Graduates in the Inter-university Master's Degree in Nervous System Sciences: Neurotoxicology, Neuropsychopharmacology, Neuromusculoskeletal Physiotherapy, Neurorehabilitation can work in:
-Biomedical research: researcher in public or private universities, involved in neuroscience and neurorehabilitation.
-Health care: physiotherapist in public or private institutions specializing in myofascial pain syndrome, rehabilitation services or orthopedic departments.
-Therapist specialised in motor, sensory and/or cognitive neurorehabilitation: rehabilitation centres for nerve damage.

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LEARN ALL ABOUT HEALTH RISK ASSESSMENT. In the course of our day-to-day life, we come into contact with a vast number of chemical, biological, and physical agents that could do us harm. Read more

LEARN ALL ABOUT HEALTH RISK ASSESSMENT

In the course of our day-to-day life, we come into contact with a vast number of chemical, biological, and physical agents that could do us harm. These agents are present in the air we breathe, the water we drink, and even the food we eat. We encounter them when we travel and when we work or when we use consumer goods such as cosmetics or electrical equipment.

Determining the source of these risks, and quantifying their effects, requires cooperation by experts across a host of different disciplines. Our Master’s programme in Toxicology and Environmental Health has been designed with this in mind, training you in the fundamentals of toxicology, environmental epidemiology, emerging toxicological agents such as nanoparticles and zoonotic components, and exposure assessment. This programme will enable you to assess the risks present in the workplace or the food chain.

The multidisciplinary nature of this programme means that you will have the flexibility to specialise in a particular field or undertake more generalist training in risk assessment. You may also take part in experimental research in the fields of neurotoxicology, immunotoxicology, allergies, in vitro toxicology, endocrine toxicology, environmental toxicology, and chemistry. Alternatively, you may wish to undertake practical work in environmental or occupational exposure assessment engaging in activities such as exposure modelling or in-depth analysis of samples taken from a variety of sources.

As a graduate of this programme, you will be qualified to assess the impact of toxicological agents on populations or work environments by applying the principles of environmental and occupational epidemiology.

PROGRAMME OBJECTIVE

This MSc programme will give you the knowledge and skills needed to assess chemical, biological, and physical hazards, as well as the risks associated with exposure to toxicological agents.

After completing the MSc programme in Toxicology and Environmental Health, you will:

  • have a thorough understanding of risk assessment terminology, principles, and methodology;
  • be able to perform a basic risk assessment, making use of toxicological or epidemiological data;
  • have a broad appreciation of biological, chemical, and physical environmental health hazards, both indoors and outdoors, as well as their potential impact on human health;
  • understand the multi‐disciplinary nature of risk assessment;
  • have an understanding of current and emerging issues and techniques in health risk assessment; and
  • be able to design and set‐up a targeted health risk assessment, making optimal use of the information and approaches available to you.


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The Institute for Neuroscience has clinicians and scientists working together to understand the brain and behaviour. Read more
The Institute for Neuroscience has clinicians and scientists working together to understand the brain and behaviour. From the basic biology of neurons through to complex processes of perception and decision-making behaviour, we address how the mind, brain, and body work together and translate this knowledge into clinical applications for patient benefit.

We offer MPhil supervision in the following research areas:

Motor systems development, plasticity and function

We conduct clinical and preclinical studies of normal and abnormal development and plasticity of the motor system. We run functional studies and computer modelling of motor system activity throughout the neuraxis. We also research the development and assessment of novel therapies for motor disorders/lesions including stem cell and brain-machine interface.

Visual system development, plasticity and repair]]
We research the development and assessment of novel neuro-technological approaches to retinal dystrophy repair including brain-machine interface and stem cells. We use in vitro approaches to look at retinal development and visual system wiring.

[[Neural computation and network systems
We conduct experimental and theoretical (computational) studies aimed at understanding how neurones throughout the brain interact in localised networks to compute complex tasks. Our research looks at the role of network activity in a wide range of neurological, neurodegenerative and psychiatric disorders.

Auditory neuroscience

We conduct clinical and preclinical studies aimed at understanding the brain mechanisms involved in detection, discrimination and perception of sound. We are interested in how these mechanisms are affected in individuals with brain disorders, including dementia, autism and stroke.

Pain

Our research focuses on:
-Understanding mechanisms underlying pain, analgesia, and anaesthesia
-The development of methods to assess pain and to alleviate pain in animals and humans

Psychobiology

We conduct studies in laboratory animals, healthy volunteers and patient populations investigating the mechanisms underlying mood, anxiety and addiction disorders and their treatment. Allied research looks at normal neuropsychology, and the physiology and pharmacology of neurotransmitter and endocrine systems implicated in psychiatric disorders.

Neurotoxicology

Our research focuses on delineating the effects and understanding the mechanisms of action of established and putative neurotoxins, including environmental and endogenous chemicals, and naturally occurring toxins.

Forensic psychiatry and clinical psychology

Our research covers:
-The assessment, treatment and management of sex offender risk
-Development and assessment of cognitive models
-Cognitive behavioural therapy (CBT) treatment for bipolar disorder, psychosis, anxiety and developmental disorders
-Developmental disorders of perception and cognition

Systems and computational neuroscience

We conduct theoretical (computational) and experimental studies aimed at understanding the neuroanatomy, neuropharmacology of vision, visual attention and episodic memory.

Behaviour and evolution

Many research groups take an evolutionary and comparative approach to the study of brain and/or behaviour, comparing brain function and behaviour among such disparate groups as insects, birds and mammals, and studying the ecological and evolutionary functions of behaviour. Much of our work is at the forefront of the fields of neuroethology, behavioural ecology and comparative cognition, and has important implications for the study and practice of animal welfare.

Visual perception and human cognition

We research:
-Colour and depth perception - perception of natural scenes
-Psychophysics and attention - memory
-Word learning in children
-Body image dysfunction
-Visual social cognition and face processing
-Advertising and consumer behaviour

Pharmacy

Our new School of Pharmacy has scientists and clinicians working together on all aspects of pharmaceutical sciences and clinical pharmacy.

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