Since November 2013, the Enteric Bacterial Infections Service (EBIS) (formerly known as the Scottish Salmonella, Shigella and Clostridioides difficile Reference Laboratory (SSSCDRL)) has been located within the New Lister Building, Glasgow Royal Infirmary, NHS Greater Glasgow and Clyde.
The EBIS are the National Reference Centre for the characterisation of Salmonella, Shigella and C. difficile. We are commissioned by National Services Division for Scotland, with clinical and scientific advice from Public Health Scotland (PHS).
The EBIS provides antimicrobial susceptibility testing and Whole Genome Sequencing (WGS) of these pathogenic enteric bacteria. The Laboratory actively participates in training, development and relevant externally-funded research and works closely with a number of agencies including PHS and the Gastrointestinal Bacterial Reference unit (GBRU), London.
The laboratory participates in the EC-funded programme organised by the European Centre for Disease Prevention and Control for surveillance of gastrointestinal infections.
The Diagnostic and Reference Parasitology Service (DRPS) (formerly known as the Scottish Parasite Diagnostic and Reference Laboratory (SPDRL)) was established in 1982. Our aim is to provide an efficient and effective parasite diagnostic and advisory service for Scotland.
We are commissioned by National Services Division for Scotland, with clinical and scientific advice from Public Health Scotland (PHS). Since November 2013, the DRPS has been located within the New Lister Building, Glasgow Royal Infirmary, NHS Greater Glasgow and Clyde.
The DPRS provides a service to Medical Microbiology laboratories across Scotland. The services offered include: diagnosis and identification of parasites in clinical material, diagnosis of human parasite diseases by immunological methods, advice regarding investigation of patients and the appropriateness of tests and finally, advice about prophylaxis and treatment.
Striving for excellence in education and training as individuals, teams and as an organisation.
About Medical Education
Cover the full of NHSGGC health board and will provide help and support to both Undergraduate medical students and Post Graduate Medical trainees, from Foundation Year 1 (FY1) to Specialty Training (ST8).
We are involved in many workstreams from Weekly FY1 teaching to Quality Improvement Visits.
We are based within the main acute site:
- Queen Elizabeth University Hospital
- Glasgow Royal Infirmary
- Royal Alexandra Hospital
- Inverclyde Royal Hospital
Please direct your queries via a relevant email below, and a member of team will be in touch to assist you.
Medical Education Complaints Procedure / Raising Concerns
NHS Greater Glasgow and Clyde Medical Education is committed to ensuring high quality education, access to education and staff wellbeing. This allows excellent service to all who use NHSGGC services. We understand, however, that sometimes things go wrong.
If something goes wrong or if you are dissatisfied with something we have done, or have not done, please tell us and we will do our best to put things right. If we cannot resolve matters in the way you want, we will explain why it is not possible to do as you suggest.
If you are experience behaviours which you find unacceptable, speak to someone. Your first point of contact is your educational or clinical supervisor, or someone within your clinical unit, e.g Clinical Director.
You will also have a chief resident within your department/speciality. Chief residents are senior trainees and will support you.
If, for any reason, these routes are not possible or appropriate, please contact our Director of Medical Education, Dr Colin Perry.
ggc.directorofmedicaleducation@ggc.scot.nhs.uk
The laboratory is open from 9.00am to 5.00pm, Monday to Friday (except Bank Holidays).
There is a limited ‘on-call’ service on weekend mornings to support the cardiac transplant service.
For all non-urgent Immunology & Neuroimmunology laboratory enquiries, please email Immunology.Labs@ggc.scot.nhs.uk
Please phone the laboratory to discuss all urgent requests.
Postal Address
Department of Immunology and Neuroimmunology
Level 1B, Laboratory Medicine & Facilities Management Building
Queen Elizabeth University Hospital
1345 Govan Road
Glasgow
G51 4TF
How reliable is my patient’s result?
Measurement of uncertainty refers to the extent of variation of results at a given value within our assays. This can be affected by a multitude of factors. We generate data over an extended period of time for each of our quantitative assays in order to provide a measure of the expected range in results.
This aids the clinician to determine the significance of any change in concentration of a given analyte – particularly relevant for those tests used in monitoring.
Summary tables below contain uncertainty of measurement values for our assays.
- Automated serology – includes total IgE, allergen specific IgE, IgA & IgG TTG (coeliac serology), CCP antibodies, MPO/PR3 antibodies, GBM antibodies, dsDNA antibodies, ENA antibodies (screen & identities), IgG Aspergillus antibodies, tryptase.
- Specialist techniques – includes acetylcholine receptor antibodies, GAD antibodies (for Diabetes and Stiff Person Syndrome), intrinsic factor antibodies and functional antibodies.
- Immunochemistry (Optilite) – includes serum free light chains and C1 inhibitor (quantitative assay).
- Complement function – includes C1 inhibitor function, classical complement function, alternative complement function.
- Flow cytometry – including lymphocyte subsets analysis for CD3+ CD4+/CD8+ T cells, CD19+ B cells and CD16/56+ NK cells (percentages and absolute counts)
Please contact the laboratory to discuss if required.
NHSGGC Online Organisational/Corporate Induction/LearnPro
Please complete NHSGGC Online Organisational, Corporate Induction and LearnPro Modules inline with information held on main induction page.
If you have any issues, please contact your the medical education team by emailing GGC.MedicalEducationInduction@ggc.scot.nhs.uk
IMG Induction day
Medical Education held a face to face induction day for Simulation and Clinical Skills. this course was designed to welcome International Medical Graduates who are coming to join us in NHSGGC. This complimented other induction activities offered by NES and your place of work.
Some of the work practices and educational processes here in Scotland may be different to the countries you have previously trained and worked in. This course will give you the chance to explore some of these differences in a safe and welcoming environment. There is a course outline attached to this email.
If you are an International Medical Graduate who already works in NHSGGC we would be delighted if you would consider attending a course to meet and support your new colleagues please contact your local Medical Education team / or by emailing medicaleducation@ggc.scot.nhs.uk
Resources
Scottish IMG Doctor Support Network Facebook Group
If you feel we should include anything please let us know by emailing medicaleducation@ggc.scot.nhs.uk
Welcome
On behalf of NHS Greater Glasgow and Clyde, We would like to extend a very warm welcome to you in your role as a NHSGGC employee.
Throughout your induction and ahead of starting any post within our NHSGGC, Medical Staff are required to complete various induction material, be this online modules and appropriate learning and education items to enable appropriate access to the systems you require . We hope your induction will be enjoyable.
You will be informed of the specific details and date(s) to submit your induction information at the end of this welcome letter and on our NHSGGC Medical Education website about how to access both of these, and provide evidence of completion.
Within NHSGGC we strive for excellence in medical education and therefore would love to hear your feedback. We are genuinely interested in your constructive feedback about your induction, as this helps us improve year upon year.
At any time in your training – if there is something going wrong or you see something which you think is incorrect or unsafe please tell someone. You will meet your educational supervisor early on in your rotation and they will often be your first point of contact. Please remember that your peers, colleagues, nursing staff and medical managers are there to support you in your post and help you deliver excellent patient care.
We hope you enjoy your induction and look forward to working with you as you start your career within medicine.
Common Abbreviations (A-Z)
ARCP (Annual Review of Competence Progression) – The ARCP is a formal process for reviewing foundation doctors’ progress which uses the evidence gathered by them and supplied by their supervisors. A board will review the evidence displayed on TURAS and will decide the outcome.
CBD (Case based discussion) – A presentation made to a senior doctor discussing a particular case you were involved in during your placement and what you learnt.
DOPS (Direct Observed Procedures) – Any practical procedure performed under supervision that is outside of the 15 core procedures required to be completed by ARCP.
Eportfolio/TURAS – TURAS is the online portfolio system for junior doctors working in GG&C. Here you can upload evidence of case based discussion, mini-cex and TABs. This will also be the platform for writing reflections, uploading certificates and at the end of the year the evidence uploaded to your eportfolio will be appraised for your ARCP.
EWTD (European Working Time Directive) – A directive from the Council of the European Union to protect the health and safety of workers in the European Union. It lays down minimum requirements in relation to working hours, rest periods, annual leave and working arrangements for night workers.
H@N (Hospital at Night) – This varies between hospitals but refers to the team of nurses/HCAs/doctors working the night shift. You can handover jobs to H@N such as bloods tests or chasing scan results.
HEPMA (Hospital Electronic Prescribing and Medicines Administration) – digital prescribing system replacing paper drug chart (kardex) for inpatient areas across NHSGGC.
IDL (Immediate Discharge Letter) – a summary of a patients’ care while in hospital. This letter will also go to their GP and sometimes may need to be sent to another specialty for outpatient follow up.
LearnPro – Online learning platform hosting elearning statutory and mandatory training topics for all staff working in health and social care settings.
MDT (Multidisciplinary Teams) – A meeting comprising of specialist doctors and nurses who meet regularly to establish diagnosis and treatment plans based on radiology results, blood and tissue samples. The MDT serves as a means to enable practitioners and other professionals in health and social care to collaborate successfully.
Meds rec (Medicines Reconciliation) – Patients admitted to hospital will need their regular medicines transcribed onto the kardex/HEPMA. The medicines reconciliation will involve finding out what medications the patient is taking in the community through various sources such as portal, dosette boxes/blister packs and from the history. A precise and thorough meds rec minimises the chance for drug errors and ensures optimal care for patients.
Mini-Cex (Mini clinical evaluation exercise) – This will include a formal history, examination of a patient. An subsequent presentation to a senior. Evidence for this can be uploaded to your eportfolio.
PDP (personal Development plan) – This plan will consist of a particular experience you want to gain or skill you wish to build upon during your current placement. A PDP will be agreed upon with your supervisor in your initial meeting.
Portal – An additional electronic patient record system widely accessed from various NHS clinical systems. It will contain a more extensive database of patient records e.g previous clinic letters, hospital admissions as well as blood results and scan reports. Portal is also used to complete IDL’s and Meds recs when organising a patients discharge.
SLE (supervised learning event) – Mini-Cex/CBD/DOPS are the SLEs you will be required to complete and upload to your eportfolio over the next year. There will be a minimum number of SLEs you are required to complete for each block.
SOP (Standard Operating Procedure) – A written means to instruct staff on how a particular procedure should be carried out and lays out boundaries of responsibility.
TAB (Team Assessment of Behaviour) – TABs are feedback forms concentrating on your behaviour in the workplace rather than your clinical knowledge. There will a minimum number of TABs that have to be completed before you can view the content of the feedback forms. Once completed the feedback will be uploaded to TURAS and can be viewed by yourself and
supervisor.
TrakCare – The electronic patient management system where all patient episodes (outpatient, inpatient and emergency) are recorded. The systems incorporates electronic requesting (Order Comms) for labs, radiology and cardiology and contains the list of patients on the wards, the results of their scans, blood tests and other investigations.
This list is by no means exhaustive but includes some common abbreviations used across NHSGGC.
If you feel we have missed one, or many, please email ggc.medicaleducationinductions@ggc.scot.nhs.uk.
Immunology
Neuroimmunology
The Glasgow Neuroimmunology Diagnostic Laboratory offers a range of standard and specialist antibody assays.
A wide variety of autoimmune diseases affecting the nervous system are associated with measurable abnormalities in either the serum or the cerebrospinal fluid. These tests can aid in accurate clinical classification and guide decisions about treatment for neurologists and physicians involved in the management of patients with autoimmune neurological diseases.
The laboratory has a special interest and expertise in the measurement of anti-glycolipid antibodies found in the serum of patients with a wide variety of auto-immune neuropathies.
The service is available to clinicians throughout the UK and overseas. A small charge is levied to cover costs. Contact the laboratory for current prices.
For our laboratory handbook, routine request form, accreditation and quality information, please see the Immunology and Neuroimmunology page.
In House Testing
Ganglioside (Anti-Glycolipid Antibodies)
Anti-glycolipid antibodies are found in a significant proportion of patients with a variety of autoimmune peripheral neuropathies. They are measured in the serum by enzyme-linked immunosorbent assay (ELISA). A wide variety of anti-glycolipid antibodies are present under different clinical circumstances and the laboratory offers a range of diagnostic tests using a panel of up to 12 glycolipid antigens. Such investigations can be useful to classify acute and chronic motor or sensory neuropathies and thus aide diagnosis and clinical management.
Anti-glycolipid antibodies are associated with several distinct peripheral nerves syndromes: Multifocal motor neuropathy is associated with anti-GM1, -GA1 and -GD1b IgM antibodies. Chronic ataxic neuropathy with ophthalmoplegia M-protein, cold agglutination, and disialosyl antibodies (acronym: CANOMAD) is associated with anti-GD1b and related IgM antibodies. Miller Fisher syndrome is associated with anti-GQ1b and -GT1a IgG antibodies. Acute motor axonal neuropathy (AMAN) is associated with anti-GM1 and -GD1a IgG antibodies.
A clinically important form of IgM paraproteinaemic neuropathy is associated with antibodies to myelin-associated glycoprotein (MAG) and a closely related glycolipid termed sulphated glucuronyl paragloboside. These antibodies are detected by a commercial ELISA assay kit using MAG as the antigen. The neuropathy has a characteristic clinic pattern and in the vast majority of cases is associated with an IgM gammopathy. Around 50% of patients with neuropathy-associated IgM gammopathy have anti-MAG antibodies.
ELISAs depend on the fact that antibodies or antigen can be linked to an enzyme, with the complex retaining both immunological and enzymatic activity. In these assays the antigen (ganglioside) is attached to a solid phase support (ELISA plate) to allow for easy separation of bound and free antibody (patient serum). Detection is by a horseradish peroxidase labelled anti-human serum which can be visualized by a colour reagent and read spectrophotometrically. 1ml of serum is required for these investigations.
The assay is conducted two tothree times per week and results are reported the following day.
Acetylcholine Receptor Antibodies
Antibodies to the acetylcholine receptor (anti-AChR) are present in a very high proportion of patients with the neuromuscular transmission disorder, myasthenia gravis (MG). Myasthenia gravis is clinically characterized by generalised muscle weakness with fatiguability (generalised MG). This condition also frequently involves and is isolated to the extraocular muscles, leading to the symptom of double vision (ocular MG). Anti-AChR autoantibodies interfere with normal neuromuscular function by binding to the post-synaptic acetylcholine receptor.
The disease has a prevalence of approximately 5 per 100,000 individuals and can occur at any age. In women, the disease usually presents between the ages of 20 and 40 years, while disease onset in men typically occurs later in life. There is also a peak of incidence in old and very old age; thus neither age nor sex are precluding factors for anti-AChR screening. MG also has a strong association with tumours of the thymus (thymoma).
Approximately 90% of patients with generalised MG have these antibodies detectable in their serum. In patients with purely ocular MG the proportion of positive patients is lower at approximately 70%. A positive result is up to 99% specific for MG. Antibody titres tend to be higher in females and a correlation between antibody titre and the degree of muscle weakness has been observed in longitudinal studies in individual patients; however titre cannot be used to compare severity between individuals. In individual patients with established myasthenia gravis, anti-AChR antibody titres tend to rise several weeks before exacerbations. Remission after thymectomy is associated with a progressive decline in antibody titres. Consequently, serial measurements of acetylcholine receptor antibodies can be useful in monitoring disease progression, as well as the effects of treatment.
Anti-AChR antibodies can also very rarely be positive in uncomplicated thymoma, primary lung cancer, and in patients with autoimmune liver disease. A negative anti-AChR antibody test does not preclude the diagnosis of MG. Anti-AChR seronegative cases exist, and a proportion of these have antibodies to a neuromuscular protein termed MuSK (muscle specific kinase). In a clinically related condition, the Lambert-Eaton myasthenic syndrome (LEMS), antibodies to a presynaptic protein (the voltage gated calcium channel, VGCC) are present.
The anti-AChR test is conducted by a radioimmunoprecipitation assay using radio-iodinated bungarotoxin bound to acetylcholine receptors that have been extracted from an acetylcholine receptor expressing cell line. 125I-AChR is incubated with test sera and any resulting complex of labelled receptor and receptor antibody is then immunoprecipitated with anti-human IgG. After a centrifugation and wash step the precipitate is counted, and the result is reported as nmol/litre of anti-AChR antibody.
The assay is conducted once per week and results are despatched the following day. 1ml of serum is required for this investigation.
Oligoclonal Bands
The clinical diagnosis of multiple sclerosis can be supported by analysis of cerebrospinal fluid (CSF). In a very high proportion of patients with multiple sclerosis (>90%) the CSF contains oligoclonal bands that are not present in the serum.
Oligoclonal bands are IgG immunoglobulins secreted by plasma cells that are resident within the CNS in multiple sclerosis. They are secreted into the CSF and can be detected using isoelectric focusing (IEF) in combination with Western blotting. Serum immunoglobulins are also present in low concentration in the CSF and in order to reliably discriminate between locally (CNS) synthesised and systemically synthesised immunoglobulins it is necessary to analyse both serum and CSF collected from a patient at the same time.
The oligoclonal bands resolved by IEF are visualized by IgG-specific antibody staining. The detection of CSF oligoclonal bands by isoelectric focusing is not absolutely specific for multiple sclerosis. It reaches its maximal value in the differential diagnosis only when other rare causes of CNS inflammation have been excluded. Isoelectric focusing (IEF) of CSF in agarose gels is followed by passive blotting onto nitrocellulose membrane, followed by immunostaining of IgG by double antibody, using horseradish peroxidase as a visualizing agent.
Isoelectric focusing is a method of electrophoresis in a pH gradient established between two electrodes and stabilized by carrier ampholytes. In this technique proteins migrate until they align themselves at their isolelectric point (pI), the point at which a protein possesses no net overall charge and will therefore cease migrating.. It is the electrophoretic technique of choice for detecting CSF immunoglobulin diversity with the highest resolution, in which component that differ by 0.001 of a pH unit can be resolved.
For this assay 1ml of CSF and 1ml of serum are required. Smaller volumes can be analysed upon request. The assay is conducted twice a week and results are reported the following day.
Anti-Neuronal Antibodies
Anti-neuronal antibodies are present in the serum of patients with paraneoplastic disorders affecting the nervous system. These disorders have a very wide range of clinical presentations and often enter the differential diagnosis of complex neurological problems. Sensitivity and specificity of the tests available are difficult to state and vary according to clinical circumstances.
Negative results do not preclude the possibility of an underlying paraneoplastic disorders. Strongly positive results in appropriate clinical circumstances should lead to a thorough search for an appropriate underlying neoplasm, although this search may ultimately be negative. In many human sera from individuals unaffected by paraneoplastic syndromes, low levels of antibody to paraneoplastic antigens may be detected using the sensitive assays performed; these results must be carefully considered along with the clinical findings in individual patients in order to assess their significance. The laboratory reports the results of the assays without reference to the patient demographics or clinical circumstances. Individual cases in which uncertainty in interpretation exists should be discussed with the laboratory director.
Paraneoplastic antigen-antibody pairs include anti-Yo (PCCA), anti-Hu (ANNA-1) and anti-Ri (ANNA-2) antibodies. They are screened in the first instance by immunofluorescent staining of sections from primate cerebellum.
Primate cerebellum can be used to detect the following antibodies:- GAD, PCA (Yo), ANNA1 (Hu), ANNA2 (Ri), Ma2Ta, Amphiphysin, CV2/CRMP5, SOX1, and Tr.
Positive or borderline samples are then screened for anti-Hu, -Yo, -Ri, -CV2, -Ma2/Ta, Titin, Recoverin, SOX1 and Amphiphysin activity by Immuno blot analysis using recombinant antigen kits. The recombinant antigen kits are highly sensitive and thus frequently detect low levels of antibody that are unlikely to be of clinical significance
(currently the Euroimmun Neuronal Antigens Profile PLUS RST Kit).
1ml of serum is required for these investigations.
The assay is conducted once a week and results reported that day.
Please use this link to view a table describing the most widely recognised associations between antibody, tumour type and clinical presentation:
NMDA (Anti-Glutamate Receptor (Type NMDA) Antibodies)
Anti-NMDA receptor encephalitis manifests along a spectrum of psychosis, altered behaviour, movement disorder, seizures, autonomic dysfunction and decreased consciousness. In younger patients, particularly female, it is associated with an underlying teratoma. Early identification and treatment with immunotherapy leads to better outcomes (Pubmed ID 23290630). It is less common in older patients (over 45 years old) and they display a less severe phenotype and have poorer outcomes (Pubmed ID23946310).
Antibodies against the NR1 subunit of the NMDA receptor are identified in our laboratory via indirect immunofluorescence of cell lines transfected with cDNA coding this protein. This test has very high positive and negative predictive values. Testing is carried out on serum or CSF. CSF is preferred for testing since there are fewer false positives or false negatives compared with serum.
LGI1 & CASPR2 (Anti Voltage Gated Potassium Channel Associate Proteins)
Antibodies against the VGKC associated proteins LGI1 and Caspr2 are associated with a number of neurological syndromes.
Anti-LGI1 antibody encephalitis usually manifests in a number of ways. It can cause faciobrachial dystonic seizures (FBDS), other focal seizures – often with prominent autonomic features – a more pronounced limbic encephalitis with amnesia, cognitive decline and seizures, or it can cause a rapidly progressive encephalopathy (Pubmed ID 27590293).
Anti-Caspr2 antibody mediated syndromes include peripheral nerve hyperexcitability, Morvan syndrome and a more protracted, subacute limbic encephalitis with encephalopathy, seizures, cerebellar dysfunction, autonomic disturbance, neuropathic pain, insomnia and weight loss (Pubmed ID 27371488).
Antibodies against Caspr2 or LGI1 are identified in our laboratory via indirect immunofluroscence of cell lines transfected with cDNA coding the protein of interest. This is a very specific and sensitive test for antibodies against these antigens and an alternative to the anti-voltage-gated potassium channel complex antibody (VGKCC) radioimmunoassay.
Anti-GAD65 Antibodies associated with Stiff Person Syndrome
Antibodies against the enzyme glutamic acid decarboxylase (GAD) are associated with a number of neurological syndromes. Stiff-person syndrome (SPS) is the most common and clearly associated condition. It is likely that the circulating antibodies are pathogenic in this condition.
The vast majority of patients with SPS have very high serum titres of anti-GAD antibodies. A small number are negative for anti-GAD but have anti-amphiphysin antibodies. In the anti-amphiphysin positive cases there is often a paraneoplastic cause, most commonly breast cancer in women.
Stiff-limb syndrome (SLS) is similar to SPS but the clinical pattern of stiffness and other clinical features differ and the immunological profile also differs, with more patients with SLS being anti-GAD antibody negative.
Progressive encephalomyelitis with rigidity and myoclonus (PERM) is a more severe, rapidly progressive and fulminant form of SPS that often includes brainstem dysfunction. Some patients are anti-GAD antibody positive but many are not. Other antibodies are also associated with PERM including anti-amphiphysin, anti-glycine and others.
Anti-GAD antibodies have been reported in association with a number of other neurological syndromes including treatment-resistant focal epilepsy, ataxia and others. The relationship between the antibodies and neurological symptoms in these patients is less clear than for SPS.
Lower titres of anti-GAD antibodies are seen in patients with autoimmune diabetes. These recognise an epitope distinct from that recognised by anti-GAD antibodies found in patients with SPS, they are generally not seen in CSF and do not stain cerebellar tissue sections.
Anti-Aquaporin 4 and Anti-MOG Antibodies
Antibodies against the aquaporin 4 (AQP4) channel are the commonest detected autoantibody in neuromyelitis optica spectrum disorder (NMOSD). Up to 80% of NMOSD patients have these antibodies. They are also found in up to 50% of patients with longitudinally extensive transverse myelitis (LETM) who do not otherwise meet the NMOSD criteria. We test for these antibodies in serum using a commercial cell-based assay. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5013123/
Antibodies against myelin oligodendrocyte glycoprotein (MOG) are seen in a large proportion of patients with NMOSD who do not have detectable anti-AQP4 antibodies. The clinical phenotype in anti-MOG antibody-associated disease is a wide spectrum that includes classic NMO, isolated optic neuritis, transverse myelitis, focal cortical encephalitis and acute disseminated encephalomyelitis (ADEM). We test for these antibodies in serum using a commercial cell-based assay.
Both these antibodies are tested for in parallel in our cell-based assay and so a request for either antibody will generate a report for both. We perform the test on serum. We have not validated the assay on CSF.
Specialist Testing
Scottish Autoimmune Encephalitis Register