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Biological Samples
Age 53
Biological samples were collected for the first time in 1999; non-fasting blood samples were used to measure indicators of risk factors for cardiovascular disease (cholesterol, HDL, LDL, triglyceride and glycoslated haemoglobin) and nutritional markers (red cell folate, plasma folate, plasma vitamin B12 and plasma ferritin).
The samples also include a blood sample and a cheek swab from which DNA was derived. A further sample was taken and stored for future cell line cultures. Blood was taken using standard phlebotomy techniques using the BD vacutainer system.
Stored biological samples available from 1999 comprise of EDTA plasma,
lithium heparin plasma, cell lines, and DNA. The following tables list the current data available from these samples.
Age 60-64
Blood
At 60-64 years, fasting blood, saliva and overnight urine samples were collected, either in Clinical Research Facilities or at home. The volume of blood and processing protocol was designed to provide aliquots suitable for the analysis of biomarkers identified by LHA and its collaborators to be relevant to ageing and health.
Up to 55ml of fasting blood was obtained from the study members, with a smaller volume being collected at remote home visits because the time to processing was too long to maintain the integrity of some analytes. For example, potassium, creatinine and phosphate results were excluded from the reports of samples collected during remote home visits as the overnight delay before separation meant the result would not reflect the in vivo concentrations of these analytes.
DNA extractions were conducted on the EDTA tube used in the first round blood haematology analysis. Samples for lymphoid cell line transformations were originally collected in 1999; for those that did not previously provide a sample, one was collected in 2006-10.
Urine
Overnight urine was collected, however the protocol for processing and storing the samples was changed during the data collection, resulting in a different number of aliquots being collected compared to the later period. The original protocol was inappropriate for albumin measurement as they should have been centrifuged; and they were stored at -20oC instead of -80oC. The change in protocol resulted in an additional aliquot of urine being centrifuged and stored at -80oC. The date of collection indicated whether the revised protocol was used or not.
Saliva
The collection of saliva samples only began after a pilot study, and the protocol consisted of one sample collected on the day of the clinical assessment and a further three at home. HNR received all of these first samples, but for about 68 people (3%), no further samples were received. The collected saliva samples were sent to Germany for cortisol analysis, before being returned to HNR and subsequently, the Bristol Bioresource Laboratories.
Age 68-70
Table 2 - Biomarkers available at age 53 and 63. Biomarkers highlighted in bold are not present in other UK birth cohorts | ||
---|---|---|
System | Biomarkers at 53 yrs | Biomarkers at 63 yrs |
Metabolic | Cholesterol, Total (mmol/L) | Adiponectin (μg/mL) |
Cholesterol, High density Lipoprotein, HDL (mmol/L) | Cholesterol, Total (mmol/L) | |
Cholesterol, Low density Lipoprotein, LDL (mmol/L) | Cholesterol, High density Lipoprotein, HDL (mmol/L) | |
Triglycerides (mmol/L) | Cholesterol, Low density Lipoprotein, LDL (mmol/L) | |
Glycated Haemoglobin, HbA1c (mmol/mol) | Triglycerides (mmol/L) | |
Glucose (nmol/L) | ||
Insulin (pmol/L) | ||
Leptin (ng/mL) | ||
Lipoprotein[a] (mg/dL) | ||
Proinsulin (pmol/L) | ||
Glycated Haemoglobin, HbA1c (mmol/mol) | ||
Diet & Iron Markers | Ferritin (ng/mL) | |
Haemoglobin, Hb (g/L) | ||
Iron (μg/dL) | ||
Vitamin C (μmol/L) | ||
Vitamin D3 (250HD3) (ng/mL)† | ||
Inflammatory | Anti-Thyroperoxidase, TPO (IU/mL) | |
Basophils (x109/L) | ||
C-Reactive Protein, CRP (mg/L) | ||
Eosinophil (x109/L) | ||
Fibrinogen (g/L) | ||
Homocysteine concentration (μmol/L) | ||
Interleukin-6, IL-6 (pg/mL) | ||
Tissue Plasminogen Activator, TPA (ng/mL) | ||
Von Willebrand Factor, VWF (IU/dL) | ||
Red Cell Folate, RCF (nmol/L) | ||
Lymphocytes (x109/L) | ||
Mean Corpuscular Volume, MCV | ||
Mean Corpuscular Haemoglobin, MCH | ||
Mean Platelet Volume, MPV | ||
Monocytes (x109/L) | ||
Neutrophils (x109/L) | ||
Platelet count (x109/L) | ||
Platelet Distribution Width, PDW (%) | ||
Potassium (mmol/L) | ||
Protein (blood), Total (g/L) | ||
Red Blood Cell, RBC, count (109/L) | ||
White Blood Cell, WBC, count (109/L) | ||
Neuro-Endocrine | DHEAS (umol/L) | Cortisol (saliva) (nmol/L) |
Insulin Growth Factor 1, IGF-1 (nmol/L) | DHEAS (umol/L) | |
Sex hormone binding globulin, SHBG (nmol/L) | Insulin Growth Factor 1, IGF-1 (nmol/L) | |
Testosterone (nmol/L) | Insulin Growth Factor 2, IGF-2 (nmol/L) | |
Insulin Growth Factor IGF-BP3 (ng/mL) | ||
Sex hormone binding globulin, SHBG (nmol/L) | ||
Testosterone (nmol/L) | ||
Thyroid tests (T3, T4) (pmol/L) | ||
Thyroid Stimulating Hormone, TSH (mU/L) | ||
Kidney & Liver | Calcium (mmol/L) | |
Creatinine (blood, urine) (mmol/L) | ||
Phosphate (mmol/L) | ||
Urea (nmol/L) | ||
Alanine Transaminase , ALT (IU/L) | ||
Alkaline Phosphatase, ALP (IU/L) | ||
Aspartate Transaminase, AST (IU/L) | ||
Albumin (blood, urine) (mg/L) | ||
Bilirubin (mg/dL) | ||
Cystatin C (mg/L) | ||
Gamma Glutamyl Transferase, GGT (IU/L) | ||
Glucose (urine) (dipstick) (mmol/L) | ||
Globulin (mg/dL) | ||
Ketones (urine) (dipstick) (positive/negative) | ||
Liver Iron Concentration, LIC (%) | ||
Potassium (serum) (mmol/L) | ||
Potassium (urine) (mmol/L) | ||
Protein (urine) (positive/negative) | ||
Sodium (urine) (mmol/L) | ||
Sodium (blood) (mmol/L) | ||
Urate (g/L) |
DNA
Around 2,900 study members have given consent for DNA to be extracted
from blood and / or buccal samples and LHA was given ethical approval in
2007 to use these samples for genetic studies of lifelong health and
ageing.
Genetic studies help us to elucidate biological mechanisms of
ageing and understand why people with similar life experiences age
differently.
The NSHD DNA Repository supports high calibre studies of human health and disease that make the best use of the genetic resource in conjunction with the existing life course data. Dr Andrew Wong coordinates the genetic research of the NSHD and is responsible for the safe storage and efficient use of the samples, which are managed by Source BioScience.
Further information on the access to the NSHD DNA Repository is available.