1,25-dihydroxyvitamin D (calcitriol)
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Genetic Full Cardiac Risk
850.00
This test analyses genetic markers linked to inherited heart and cardiovascular disease risk. It helps guide early prevention and personalised heart health management.
Turnaround time
4-6 weeks
Biomarkers count
58
Same-Day Appointments
UKAS Accredited Labs
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Under 18? Patients under 18 can only be seen at GB Medlabs and Clinilabs, Monday to Friday only.
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Details about Genetic Full Cardiac Risk
Genetic Full Cardiac Risk | London Blood Tests
At London Blood Tests, we provide comprehensive genetic testing services to help you understand and manage your health risks. Our Genetic Full Cardiac Risk Test utilizes next-generation sequencing (NGS) to identify over 100 different genetic variants associated with inherited cardiac conditions (ICCs). This test offers valuable insights into your genetic predisposition to various cardiac diseases, enabling proactive health management.
What is it?
Our Genetic Full Cardiac Risk Test is a deep sequencing screen that identifies over 100 different genetic variants responsible for inherited cardiac conditions. This cost-effective test provides a thorough analysis of your genetic profile, focusing on genes such as ABCC9, ABCG5, ABCG8, ACTA1, ACTA2, ACTC1, ACTN2, AKAP9, ALMS1, ANK2, ANKRD1, APOA4, APOA5, APOB, APOC2, APOE, BAG3, BRAF, CACNA1C, CACNA2D1, CACNB2, CALM1, CALR3, CASQ2, CAV3, CB2, CBL, CETP, COL3A1, COL5A1, COL5A2, COX15, CREB3L3, CRELD1, CRYAB, CSRP3, CTF1, DES, DMD, DNAJC19, DOLK, DPP6, DSC2, DSG2, DSP, DTNA, EFEMP2, ELN, EMD, EYA4, FBN1, FBN2, FHL1, FHL2, FKRP, FKTN, FXN, GAA, GATA4, GATAD1, GCKR, GJA5, GLA, GPD1L, GPIHBP1, HADHA, HCN4, HRAS, HSPB8, ILK, JAG1, JPH2, JUP, KCNA5, KCND3, KCNE1, KCNE2, KCNE3, KCNE5, KCNJ2, KCNJ5, KCNQ1, KLF10, KRAS, LAMA2, LAMA4, LAMP2, LDB3, LDLR, LDLRAP1, LMF1, LMNA, LPL, LTBP2, MAP2K1, MAP2K2, MIB1, MURC, MYBPC3, MYH11, MYH6, MYH7, MYL2, MYL3, MYLK, MYO6, MYOZ2, MYPN, NEXN, NKX2-5, NODAL, NOTCH1, NPPA, NRAS, PDLIM3, PKP2, PLN, PRDM16, PRKAG2, PRKAR1A, PTPN11, RAF1, RANGRF, RBM20, RYR1, RYR2, SALL4, SCN1B, SCN2B, SCN3B, SCN4B, SCN5A, SCO2, SDHA, SEPN1, SGCB, SGCD, SHOC2, SLC25A4, SLC2A10, SMAD3, SMAD4, SNTA1, SOS1, SREBF2, TAZ, TBX20, TBX3, TBX5, TCF7L2, TGFB2, TGFB3, TGFB1, TGFB2R, TMEM43, TMPO, TNNC1, TNNI3, TNNT2, TPM1, TRDN, TRIM63, TRPM4, TTN, TTR, TXNRD2, VCL, ZBTB17, ZHX3, ZIC3.
Lipid Metabolism and Cholesterol Regulation:
1. ABCC9: Involved in the regulation of ion channels; mutations can affect insulin secretion and cardiovascular function.
2. ABCG5: Plays a role in the excretion of sterols; mutations can lead to sitosterolemia, a condition with high plant sterol levels.
3. ABCG8: Works with ABCG5 in sterol excretion; mutations also result in sitosterolemia.
4. APOA4: Encodes Apolipoprotein A-IV, involved in lipid metabolism and cholesterol transport.
5. APOA5: Influences plasma triglyceride levels, with mutations linked to hypertriglyceridemia.
6. APOB: Major component of LDL cholesterol; mutations can cause familial hypercholesterolemia.
7. APOC2: Encodes Apolipoprotein C-II, essential for triglyceride metabolism; deficiencies can lead to hyperlipoproteinemia.
8. APOE: Involved in lipid transport and cholesterol metabolism; variants affect Alzheimer’s risk and cardiovascular disease.
9. CETP: Influences the exchange of cholesterol between lipoproteins, affecting HDL and LDL levels.
10. GCKR: Regulates glucose metabolism and influences triglyceride levels.
11. GPIHBP1: Affects lipoprotein lipase activity; mutations can cause severe hypertriglyceridemia.
12. LMF1: Involved in the maturation of lipoprotein lipase; mutations can lead to hypertriglyceridemia.
13. LPL: Encodes lipoprotein lipase, critical for breaking down triglycerides in the blood.
Muscle and Cardiomyopathies:
14. ACTA1: Encodes alpha-skeletal actin; mutations can cause congenital myopathies.
15. ACTA2: Encodes alpha-smooth muscle actin; associated with vascular disorders like aortic aneurysms.
16. ACTC1: Encodes cardiac actin; mutations can lead to hypertrophic cardiomyopathy.
17. ACTN2: Involved in the structural integrity of muscle fibers; mutations can cause cardiomyopathy.
18. AKAP9: Anchors protein kinase A to certain cellular compartments; mutations linked to cardiac arrhythmias.
19. ALMS1: Associated with Alström syndrome, affecting multiple organ systems including the heart.
20. ANK2: Encodes ankyrin-B, important for maintaining cardiac function; mutations can cause arrhythmias.
21. ANKRD1: Involved in muscle function and stress response; mutations linked to cardiomyopathies.
22. BAG3: A chaperone protein that supports muscle integrity; mutations can cause myofibrillar myopathy and cardiomyopathy.
23. CALM1: Encodes calmodulin, crucial for calcium signaling; mutations linked to arrhythmias and cardiomyopathy.
24. CASQ2: Encodes calsequestrin, important in calcium storage in muscle cells; mutations can cause arrhythmias.
25. CAV3: Encodes caveolin-3, involved in muscle cell membrane structure; mutations can lead to muscular dystrophy and cardiomyopathy.
26. CSRP3: Encodes a muscle LIM protein, important in muscle development; mutations can cause hypertrophic cardiomyopathy.
27. DMD: Encodes dystrophin, a key muscle protein; mutations cause Duchenne and Becker muscular dystrophies.
28. DES: Encodes desmin, important for muscle fiber structure; mutations can cause desmin-related myopathy.
29. LMNA: Encodes lamin A/C, structural proteins in the cell nucleus; mutations cause muscular dystrophy and cardiomyopathy.
30. MYBPC3: Encodes myosin-binding protein C, involved in muscle contraction; mutations are a common cause of hypertrophic cardiomyopathy.
31. MYH6: Encodes alpha-myosin heavy chain, important for cardiac muscle function; mutations can cause cardiomyopathies.
32. MYH7: Encodes beta-myosin heavy chain, a critical protein for muscle contraction; mutations linked to hypertrophic and dilated cardiomyopathy.
33. MYL2: Encodes myosin light chain 2, involved in heart muscle contraction; mutations can cause cardiomyopathy.
34. MYL3: Encodes myosin light chain 3, involved in cardiac muscle contraction; mutations associated with hypertrophic cardiomyopathy.
35. TTN: Encodes titin, a giant protein crucial for muscle elasticity and contraction; mutations are a common cause of dilated cardiomyopathy.
Signaling Pathways and Receptor Function:
36. AKAP9: Anchors protein kinase A to specific locations in the cell; associated with long QT syndrome, a heart rhythm disorder.
37. ANK2: Encodes ankyrin-B, a protein that stabilizes ion channels in the heart; mutations cause cardiac arrhythmias.
38. BRAF: Encodes a kinase involved in cell signaling; mutations are common in various cancers.
39. CACNA1C: Encodes a calcium channel subunit; mutations linked to cardiac arrhythmias like Timothy syndrome.
40. CACNB2: Encodes a beta subunit of voltage-gated calcium channels; involved in cardiac function and arrhythmias.
41. CALR3: Involved in calcium binding and regulation in the heart; mutations can cause familial hypertrophic cardiomyopathy.
42. CASQ2: Encodes calsequestrin 2, involved in calcium storage in muscle cells; mutations linked to arrhythmogenic right ventricular cardiomyopathy.
43. GATA4: A transcription factor important in heart development; mutations cause congenital heart defects.
44. HRAS: Part of the RAS/MAPK signaling pathway, involved in cell growth; mutations are linked to developmental disorders and cancer.
45. KCND3: Encodes a potassium channel subunit; mutations linked to cardiac arrhythmias.
46. KCNQ1: Encodes a potassium channel involved in heart rhythm; mutations cause long QT syndrome.
Structural Proteins and Connective Tissue:
47. COL3A1: Encodes collagen type III, important in connective tissue structure; mutations cause Ehlers-Danlos syndrome, affecting skin, joints, and blood vessels.
48. COL5A1: Encodes collagen type V, crucial for connective tissue integrity; associated with Ehlers-Danlos syndrome.
49. COL5A2: Similar to COL5A1, involved in connective tissue; also associated with Ehlers-Danlos syndrome.
50. DES: Encodes desmin, a muscle-specific protein; mutations cause desmin-related myopathy.
51. ELN: Encodes elastin, essential for elastic fibers in connective tissue; mutations can cause supravalvular aortic stenosis.
52. FBN1: Encodes fibrillin-1, a protein essential for connective tissue; mutations cause Marfan syndrome.
53. FBN2: Similar to FBN1, involved in connective tissue integrity; associated with congenital contractural arachnodactyly.
54. LMNA: Encodes lamin A/C, involved in nuclear envelope structure; mutations cause a variety of disorders including muscular dystrophy and cardiomyopathy.
Miscellaneous:
55. ADORA2A: Encodes the adenosine A2A receptor, involved in sleep and neurological processes; associated with caffeine sensitivity.
56. CBL: Encodes an E3 ubiquitin ligase, involved in protein degradation; mutations linked to certain cancers.
57. DPP6: Encodes a protein involved in potassium channel regulation; mutations linked to arrhythmias.
58. HSPB8: Encodes a small heat shock protein; mutations cause distal hereditary motor neuropathy.
59. ILK: Encodes integrin-linked kinase, involved in cell adhesion and signaling; mutations linked to heart and skeletal muscle diseases.
60. JAG1: Encodes a ligand in the Notch signaling pathway; mutations cause Alagille syndrome, affecting the liver, heart, and other organs.
61. LMNA: Encodes lamin A/C, a protein in the nuclear envelope; mutations cause a range of muscular dystrophies and cardiomyopathies.
62. MAP2K1: Encodes a kinase involved in the MAPK signaling pathway; mutations linked to Noonan syndrome and other developmental disorders.
63. NOTCH1: Encodes a receptor in the Notch signaling pathway, critical for cell differentiation; mutations linked to congenital heart disease and cancer.
64. RYR2: Encodes a calcium release channel in the heart; mutations linked to arrhythmogenic right ventricular dysplasia and catecholaminergic polymorphic ventricular tachycardia.
65. SCN5A: Encodes a sodium channel subunit; mutations cause long QT syndrome and Brugada syndrome, leading to arrhythmias.
Benefits
• Comprehensive Risk Assessment: Identify your genetic predisposition to a wide range of inherited cardiac conditions.
• Preventive Health Management: Take informed steps to monitor and manage cardiac health proactively.
• Detailed Genetic Analysis: Receive a comprehensive report detailing your genetic profile and potential risks.
• Quick Turnaround: Receive your results within 6 weeks, allowing for timely medical advice and action.
The Process
• Book an Appointment: Schedule your test online or via phone.
• Sample Collection: Visit our clinic for a blood sample collection or arrange a home visit for an additional £60.
• Laboratory Analysis: Our expert team analyzes your sample for over 100 genetic variants using NGS technology.
• Receive Results: Get your results within 6 weeks, complete with a detailed report and personalized recommendations.
Why Choose London Blood Tests?
• Experienced Professionals: Our team of specialists ensures precise and reliable testing.
• Convenient Locations: Easily accessible clinics across London.
• Comprehensive Support: From booking to results, we provide support at every step.
Ideal For
• Individuals with a family history of cardiac conditions.
• Patients presenting with unexplained cardiac symptoms.
• Those with suspected or confirmed inherited cardiac conditions.
• Individuals where the genetic basis of a cardiac condition is unclear.
How to Get Started
1. Schedule Your Test: Book online or call us to arrange your test.
2. Choose Your Collection Method: Decide between a clinic visit or a home visit for an additional fee.
3. Prepare for the Test: Follow any pre-test instructions provided.
4. Get Tested: Visit the clinic or have a professional come to your home to collect your sample.
5. Receive Your Results: We will send your results via email within 6 weeks.
Understanding your genetic risk for inherited cardiac conditions can significantly enhance your ability to manage heart health effectively. At London Blood Tests, we offer a thorough and reliable Genetic Full Cardiac Risk Test to help you take control of your cardiac health. Book your test today and take the first step towards proactive health management.
How It Works
Simple steps to get your results
1
Book Online
Choose your test online and book in seconds. Select your preferred clinic location or home visit option.
2
Visit or Test at Home
Attend one of our UK or London clinics, arrange a home nurse visit, or use a finger-prick kit where available.
3
Get Your Results
Your sample is analysed by accredited UK laboratories, with secure results delivered directly to you.
Take control of your health with London Blood Tests
WhatsApp UsHow to Prepare for Your Test
Follow these guidelines for accurate results
Sample Timing
Where possible, attend your blood test between 7am and 12pm. Please wait until any short-term illness or infection has fully resolved before testing. Avoid intense exercise for 24–48 hours beforehand, as this can affect certain markers.
Fasting & Hydration
Fasting is not always required, but some tests may recommend it. If fasting is advised, avoid food for 8–12 hours before your appointment and drink water only. Stay well hydrated, as this helps with sample collection and accuracy.
Medications & Supplements
Continue prescribed medications unless advised otherwise by your clinician. Avoid vitamin, mineral, or biotin supplements for at least 24–48 hours before your test, as these can interfere with results. If you are unsure about any medication or supplement, please let us know before your appointment.
Hormones & Menstrual Cycle
For hormone-related tests, timing within your menstrual cycle may be important. If relevant, follow any specific guidance provided on your test page.
If you have any questions or special circumstances, our team is happy to advise before your appointment.
Frequently Asked Questions
No. It complements imaging by identifying inherited risk.
Yes. Your genetic profile does not change.
It helps identify risk early so preventive measures can be taken.
Yes. It is valuable for detecting silent inherited conditions.
Yes. Early testing enables early prevention.
No. Genetics are not influenced by medication.
Yes. At-home phlebotomy is available across the UK.
Performed in UKAS-accredited laboratories using clinical-grade sequencing.
Typically 14–21 business days.
A GP consultation is optional, but strongly recommended for abnormal findings.
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