Transforming Growth Factor Beta 1 (TGF-β1) is a vital protein in human health, belonging to the broader TGF-β superfamily. This protein is a key regulator in numerous bodily functions, primarily focusing on cell growth, division, and development. Its role is crucial in maintaining the health and stability of tissues and organs. TGF-β1 is particularly significant in the body's healing processes. During wound repair and tissue regeneration, TGF-β1 acts as a critical coordinator, guiding cells in the repair and healing process. This function makes it an essential component in medical and health research, particularly in understanding wound healing mechanisms.
Beyond tissue repair, TGF-β1 is integral to the immune system. It helps balance the immune response, ensuring it is effective but not overly aggressive, which is crucial for preventing autoimmune disorders. However, TGF-β1's functionality has a complex side. In certain situations, such as in various cancers, an overexpression or malfunction of TGF-β1 can aid in tumor growth and metastasis. Additionally, it's implicated in fibrosis, a condition characterized by excessive tissue scarring, and in autoimmune diseases, where it can contribute to the body attacking its own cells.
Understanding TGF-β1's multifaceted role in the body is a significant focus in medical research. This protein's involvement in both normal bodily functions and various diseases makes it a target for potential treatments and therapies. TGF-β1's intricate balance in cell regulation, wound healing, and immune system modulation underscores its importance in health and disease management. Consequently, ongoing research into TGF-β1 not only sheds light on fundamental biological processes but also opens pathways for innovative medical treatments and therapies.
References:
Cho N, Razipour SE, McCain ML. Featured Article: TGF-β1 dominates extracellular matrix rigidity for inducing differentiation of human cardiac fibroblasts to myofibroblasts. Exp Biol Med (Maywood). 2018 Apr;243(7):601-612. doi: 10.1177/1535370218761628. Epub 2018 Mar 4. PMID: 29504479; PMCID: PMC6582399.
Zivancevic-Simonovic S, Minic R, Cupurdija V, Stanojevic-Pirkovic M, Milosevic-Djordjevic O, Jakovljevic V, Mihaljevic O. Transforming growth factor beta 1 (TGF-β1) in COVID-19 patients: relation to platelets and association with the disease outcome. Mol Cell Biochem. 2023 Nov;478(11):2461-2471. doi: 10.1007/s11010-023-04674-7. Epub 2023 Mar 4. PMID: 36869188; PMCID: PMC9984293.
Dergilev KV, Vasilets YD, Tsokolaeva ZI, Parfenova EV. Transforming Growth Factor Beta-1 (TGF-β1) Regulates Assembly of Cardiac Spheroids. Bull Exp Biol Med. 2021 Feb;170(4):550-554. doi: 10.1007/s10517-021-05104-8. Epub 2021 Mar 16. PMID: 33725254.
Wettlaufer SH, Scott JP, McEachin RC, Peters-Golden M, Huang SK. Reversal of the Transcriptome by Prostaglandin E2 during Myofibroblast Dedifferentiation. Am J Respir Cell Mol Biol. 2016 Jan;54(1):114-27. doi: 10.1165/rcmb.2014-0468OC. PMID: 26098591; PMCID: PMC4742926.
Sayed SK, Galal SH, Herdan OM, Mahran AM. Single nucleotide polymorphism T869C of transforming growth factor-beta 1 gene and systemic lupus erythematosus: association with disease susceptibility and lupus nephritis. Egypt J Immunol. 2014;21(2):9-21. PMID: 25812349.
Your medical lab tests hold vital information about your health. Our tools help you understand what's going on and how to take action.
$15 $5.99/first month
Cancel or upgrade anytime
If the levels of Transforming Growth Factor Beta 1 (TGF-β1) are elevated, it can have several significant implications for health. TGF-β1 is involved in regulating cell growth and immune responses, so higher levels can disrupt these processes. In wound healing and tissue repair, elevated TGF-β1 can lead to excessive scar formation, known as fibrosis, which can impair normal tissue function. In the immune system, high TGF-β1 levels might suppress the body’s ability to fight infections and tumors, potentially leading to an increased risk of certain cancers or chronic infections. Additionally, in autoimmune diseases, elevated TGF-β1 can contribute to the body’s immune system attacking its own tissues. Elevated TGF-β1 levels have also been linked to cardiovascular diseases, such as heart failure, where they can contribute to adverse remodeling of heart tissue. It's important to understand that the role of TGF-β1 in the body is complex, and its effects when elevated can vary depending on individual health conditions and other factors. Elevated TGF-β1 is a marker that medical professionals can use to assess and manage various health conditions, but it is not a disease itself.
What are potential reasons for an elevated level of Human Transforming Growth Factor Beta 1 (TGF-b1)?
Elevated levels of human transforming growth factor beta 1 (TGF-β1) can be associated with various physiological and pathological conditions. Here are the main reasons:
1. Inflammatory Conditions
→ Chronic Inflammation: TGF-β1 is often elevated in chronic inflammatory diseases such as rheumatoid arthritis, inflammatory bowel disease, and chronic obstructive pulmonary disease (COPD).
→ Acute Inflammation: In response to acute injuries, TGF-β1 levels can increase as part of the healing process.
2. Fibrotic Disorders
→ Pulmonary Fibrosis: Elevated TGF-β1 is a key factor in the development and progression of pulmonary fibrosis, where it promotes the accumulation of extracellular matrix components.
→ Liver Cirrhosis: In liver fibrosis or cirrhosis, TGF-β1 contributes to the activation of hepatic stellate cells, leading to increased collagen production.
→ Renal Fibrosis: TGF-β1 is involved in the pathogenesis of kidney fibrosis, often seen in chronic kidney disease.
3. Cancer
→ Tumor Progression: TGF-β1 can promote tumor progression, metastasis, and immune evasion in various cancers such as breast, prostate, and colorectal cancers.
→ Tumor Suppression: In early stages, TGF-β1 can act as a tumor suppressor, but in later stages, it can switch to promote tumor growth and metastasis.
4. Cardiovascular Diseases
→ Hypertension: Elevated TGF-β1 levels have been linked to hypertension, contributing to vascular remodeling and stiffness.
→ Atherosclerosis: TGF-β1 is involved in the development of atherosclerotic plaques.
5. Autoimmune Diseases
→ Systemic Lupus Erythematosus (SLE): Patients with SLE may exhibit elevated TGF-β1 levels.
→ Scleroderma: TGF-β1 is implicated in the fibrosis seen in scleroderma, an autoimmune connective tissue disease.
6. Infection
→ Viral Infections: Certain viral infections, such as HIV and hepatitis C, can lead to elevated TGF-β1 levels.
→ Bacterial Infections: Chronic bacterial infections may also stimulate increased production of TGF-β1.
7. Metabolic Disorders
→ Diabetes Mellitus: TGF-β1 is associated with diabetic complications, particularly diabetic nephropathy and retinopathy.
→ Obesity: Elevated TGF-β1 levels are found in obese individuals and are linked to adipose tissue inflammation.
8. Aging
→ Age-Related Changes: Aging is associated with increased TGF-β1 levels, which may contribute to age-related tissue fibrosis and decline in regenerative capacity.
9. Genetic Disorders
→ Marfan Syndrome: Elevated TGF-β1 is a characteristic of Marfan syndrome, a genetic disorder affecting connective tissue.
→ Loeys-Dietz Syndrome: This genetic disorder is also associated with elevated TGF-β1 levels and involves vascular and skeletal abnormalities.
10. Medications and Treatments
→ Radiation Therapy: TGF-β1 levels can increase following radiation therapy, contributing to radiation-induced fibrosis.
→ Chemotherapy: Certain chemotherapeutic agents may elevate TGF-β1 levels as part of their side effect profile.
Elevated TGF-β1 levels can indicate a range of conditions and are often a sign of underlying pathophysiological processes involving tissue remodeling, inflammation, and fibrosis. Accurate diagnosis typically requires a comprehensive clinical evaluation and consideration of the patient's overall health and medical history.
What are possible treatment options?
Treating elevated levels of transforming growth factor beta 1 (TGF-β1) involves addressing the underlying condition that is causing the elevation. Here are some general strategies:
1. Treating Underlying Conditions
→ Inflammatory Conditions: Using anti-inflammatory medications such as corticosteroids, nonsteroidal anti-inflammatory drugs (NSAIDs), or disease-modifying antirheumatic drugs (DMARDs) can help reduce inflammation and consequently lower TGF-β1 levels.
→ Fibrotic Disorders: Anti-fibrotic agents like pirfenidone and nintedanib are used in conditions like idiopathic pulmonary fibrosis to reduce fibrosis and TGF-β1 activity.
→ Autoimmune Diseases: Immunosuppressive drugs targeting specific immune pathways can help manage diseases like systemic lupus erythematosus and scleroderma, potentially reducing TGF-β1 levels.
2. Cancer Therapy
→ Targeted Therapies: In cancers, treatments might include targeted therapies that inhibit TGF-β1 signaling pathways. Drugs that specifically target TGF-β1 or its receptors are under investigation.
→ Chemotherapy and Radiation: Adjusting cancer treatments to manage TGF-β1 levels and mitigate associated side effects may be necessary.
3. Cardiovascular Disease Management
→ Antihypertensives: Managing hypertension with medications like ACE inhibitors or angiotensin II receptor blockers (ARBs) can help reduce TGF-β1 related vascular remodeling.
→ Lifestyle Modifications: Diet, exercise, and lifestyle changes can improve cardiovascular health and potentially reduce elevated TGF-β1 levels.
4. Infection Management
→ Antiviral or Antibiotic Therapy: Treating underlying infections with appropriate antiviral or antibiotic medications can help normalize TGF-β1 levels.
5. Metabolic Disorders Management
→ Diabetes Management: Tight glycemic control through medications, diet, and exercise can reduce diabetic complications and TGF-β1 levels.
→ Weight Management: Addressing obesity through lifestyle changes, diet, exercise, and possibly bariatric surgery can help lower TGF-β1 levels associated with adipose tissue inflammation.
6. Genetic Disorders
→ Specialized Treatments: For genetic disorders like Marfan syndrome and Loeys-Dietz syndrome, specific interventions and monitoring strategies are required. There are no direct treatments for elevated TGF-β1, but managing the condition can help mitigate its effects.
7. Use of TGF-β1 Inhibitors
→ Experimental Therapies: TGF-β1 inhibitors are in various stages of research and clinical trials. These include monoclonal antibodies, small molecule inhibitors, and other agents designed to block TGF-β1 signaling. These treatments are not yet widely available but show promise for future use.
8. Supportive and Symptomatic Treatment
→ Symptom Management: Supportive treatments to manage symptoms associated with high TGF-β1 levels, such as pain, fatigue, and respiratory issues, can improve quality of life while addressing the root cause.
9. Lifestyle and Nutritional Interventions
→ Healthy Diet: A diet rich in antioxidants and anti-inflammatory foods may help manage inflammation and reduce TGF-β1 levels.
→ Regular Exercise: Regular physical activity can help reduce inflammation and manage conditions associated with elevated TGF-β1.
10. Monitoring and Follow-Up
→ Regular Monitoring: Frequent monitoring of TGF-β1 levels and associated symptoms can help guide treatment adjustments and ensure the effectiveness of the management plan.
It's crucial to work with healthcare professionals to develop a comprehensive treatment plan tailored to the specific underlying condition causing elevated TGF-β1 levels.
Anthony
Unlimited Plan Member since 2021
I have been using Healthmatters.io since 2021. I travel all over the world and use different doctors and health facilities. This site has allowed me to consolidate all my various test results over 14 years in one place. And every doctor that I show this to has been impressed. Because with any health professional I talk to, I can pull up historical results in seconds. It is invaluable. Even going back to the same doctor, they usually do not have the historical results from their facility in a graph format. That has been very helpful.
Karin
Advanced Plan Member since 2020
What fantastic service and great, easy-to-follow layouts! I love your website; it makes it so helpful to see patterns in my health data. It's truly a pleasure to use. I only wish the NHS was as organized and quick as Healthmatters.io. You've set a new standard for health tracking!
Paul
Healthmatters Pro Member since 2024
As a PRO member and medical practitioner, Healthmatters.io has been an invaluable tool for tracking my clients' data. The layout is intuitive, making it easy to monitor trends and spot patterns over time. The ability to customize reports and charts helps me present information clearly to my clients, improving communication and outcomes. It's streamlined my workflow, saving me time and providing insights at a glance. Highly recommended for any practitioner looking for a comprehensive and user-friendly solution to track patient labs!
If levels of Transforming Growth Factor Beta 1 (TGF-β1) are decreased, it can have various implications for the body's health and functioning. TGF-β1 is crucial for regulating cell growth, development, and healing processes, so reduced levels can disrupt these functions. Low TGF-β1 might hinder the body's ability to heal wounds effectively or regenerate tissues. It can also impact the immune system, potentially leading to inadequate immune responses or increased susceptibility to certain diseases. In the context of diseases like cancer, low TGF-β1 levels might affect the body's ability to suppress tumor growth and progression. Additionally, in certain autoimmune disorders, such as lupus, reduced TGF-β1 levels could be associated with disease progression or severity. It's important to note that TGF-β1 operates in a delicate balance, so both excessively high and low levels can lead to health issues. The specific effects of decreased TGF-β1 levels can vary depending on the individual's overall health, the presence of other medical conditions, and environmental factors.
Guiding our users for 10 years to promptly understand, track, and act on their laboratory results.
$15 $5.99/first month
Cancel your subscription at any time.
$250/once
full premium version
$45/month
track your clients’ labs
Cancel your subscription at any time.
Guiding our users for 10 years to promptly understand, track, and act on their laboratory results.
Personal plans
track personal results
Professional Plan
track multiple client's results
$15 $5.99/first month
$250/once
own it for life
$45/month
for health professionals
Complete Plan
Unlimited Plan
$15 $5.99
$250 full version
Are you a health professional?
Level up your lab report analysis with our Pro plan, built for health practitioners like you.
Health Business Account
$45/month
Cancel your subscription at any time.
Unlock additional Pro plans when you sign up.
Anthony
Unlimited Plan Member since 2021
I have been using Healthmatters.io since 2021. I travel all over the world and use different doctors and health facilities. This site has allowed me to consolidate all my various test results over 14 years in one place. And every doctor that I show this to has been impressed. Because with any health professional I talk to, I can pull up historical results in seconds. It is invaluable. Even going back to the same doctor, they usually do not have the historical results from their facility in a graph format. That has been very helpful.
Karin
Advanced Plan Member since 2020
What fantastic service and great, easy-to-follow layouts! I love your website; it makes it so helpful to see patterns in my health data. It's truly a pleasure to use. I only wish the NHS was as organized and quick as Healthmatters.io. You've set a new standard for health tracking!
Paul
Healthmatters Pro Member since 2024
As a PRO member and medical practitioner, Healthmatters.io has been an invaluable tool for tracking my clients' data. The layout is intuitive, making it easy to monitor trends and spot patterns over time. The ability to customize reports and charts helps me present information clearly to my clients, improving communication and outcomes. It's streamlined my workflow, saving me time and providing insights at a glance. Highly recommended for any practitioner looking for a comprehensive and user-friendly solution to track patient labs!
Healthmatters is a highly-personalized health dashboard.
Instead of searching for your lab results in different places or tracking them down from different providers, Healthmatters houses, organizes, and interprets them all in one central location.
With a Healthmatters account, you can dive into the details of each biomarker and gain insights into the meaning behind your medical test data, anytime, anywhere.
For our professional users, Healthmatters provides intuitive tools that not only streamline analysis but also save valuable time when delving into your client's lab report history.
Healthmatters.io personal account provides in-depth research on 4000+ biomarkers, including information and suggestions for test panels such as, but not limited to:
You can combine all test reports inside your Healthmatters account and keep them in one place. It gives you an excellent overview of all your health data. Once you retest, you can add new results and compare them.
If you are still determining whether Healthmatters support your lab results, the rule is that if you can test it, you can upload it to Healthmatters.
While we work with many popular labs, we welcome reports from lots of other places too.
It's as simple as this: if you can get a test done, you can upload it to Healthmatters and we can interpret results from any lab out there. If laboratories can analyze it, we can interpret it.
If you’re on the hunt for a specific biomarker, contact us and we'll add it to our database. Anything from blood, urine, saliva, or stool can be uploaded, understood, and tracked with your Healthmatters account.
There are two ways to add your test reports to your Healthmatters account. One option is to input the data using the data entry forms. The other method is to utilize our "Data entry service."
Our data entry forms offer an easy, fast, and free way for you to input the reports yourself. Self-entry allows you to add an unlimited number of reports at no cost. We make the self-entry process user-friendly, providing dozens of templates that pre-populate the most popular laboratory panels and offering instant feedback on entered values.
For those who prefer assistance, we offer a "Data entry service" to help you input your data. Simply attach an image or file of your lab test results, and a qualified team member from our data entry team will add the results for you.
We support various file types, including PDFs, JPGs, or Excel. This service is particularly useful if you have many reports to upload or if you're too busy to handle the data entry yourself.
Our special data entry service makes it easy to add your results to your private dashboard. Just attach an image or a file of your lab test results, and our skilled data entry team will do the work for you. It's all done by humans, ensuring that your data is entered accurately and with personal care for each client.
Depending on your account, the data entry service can be included for free or come at an additional cost of $15 per report.
For users on the Complete monthly plan, the first report is entered free of charge, and each additional report incurs a fee of $15.
Unlimited account holders enjoy the entry of ten reports without charge. Subsequent reports are subject to a $15 fee per report.
Additionally, users on the Complete plan can upgrade to a yearly subscription from the account settings. The annual subscription includes a data entry service for five reports.
The Unlimited plan is a one-time purchase for $250, and it covers your account for a lifetime with no additional payments.
For the Complete plan, the cost is $15 per month. You have the flexibility to cancel it anytime through your account settings, ensuring no further payments. To avoid charges, remember to cancel at least a day before the renewal date. Once canceled, the subscription remains active until the end of the current billing cycle.
Additionally, you can upgrade to the yearly Advanced plan from within your account. The annual cost is $79, and it comes with a data entry service for five reports.
You can always upgrade to a lifetime version with a prorated price from a monthly or yearly subscription.
Simply log in and navigate to your account settings to cancel your subscription. Scroll down to locate the 'Cancel' button at the bottom of the page. Ensure you cancel at least one day before the renewal date to prevent any charges. Once cancellation is requested, the subscription remains active until the conclusion of the current billing cycle.
Our goal has been to make your Healthmatters account as intuitive as possible.
We’ve crafted multiple ways for you to navigate your data, whether you're glancing at a single report or delving into your historical test reports.
1. Graph View:Dive into a visual journey with our biomarker graphs, showcasing over 40 data points. Combining years of results unveils trends, empowering you to make informed decisions. Our visualization tools make it a breeze to compare and understand changes over time, even if your results are from different labs. A search function and filters simplify the exploration of extensive data, allowing you to focus on what needs attention.
2. All Tests ViewExplore neatly organized reports on a timeline, highlighting crucial details like dates, critical results, and lab/panel names. Each report opens up to reveal in-depth descriptions and additional recommendations for each biomarker. The history of previous results is just a click away, and you can download a comprehensive report for deeper insights. Color-coded and user-friendly, it's designed for easy reading, understanding, and navigation.
3. Table View:For a holistic view of all biomarkers side by side, our table view is your go-to. Results are neatly displayed in a categorized and dated table, ideal for those with an extensive test history. Utilize sorting, filters, and color-coding to enhance your analysis and gain extra insights.
Yes, you can download information from your account. We can compile your labs into a CSV file. To download all your labs, you can go to Account Settings, and at the bottom of the page, you will find a link to download your information.
Yes, you can print your report. To do so, navigate to "All tests" and open the report you wish to print. You'll find a print button in the right corner of the report. Click on it, and your browser's print window will open. If you prefer to print in a bigger typeface, adjust the scale using the print window settings.
Yes, you can! We highly recommend activating Two-Factor Authentication (2FA) for your account. To do so, please navigate to the "Profile and Security" section of your account, where you will find instructions for activating 2FA.
Yes, you can. When entering values for the biomarker, you will see an "Edit Range" button. Click this button, and you'll have the option to enter a custom range.
A personal account is all about keeping your own lab test results in check. It's just for you and your personal use.
The professional account is designed for health professionals who wish to track and organize their clients' laboratory results.
To learn more about Healthmatters Pro, please refer to the professional page.
At HealthMatters, we're committed to maintaining the security and confidentiality of your personal information. We've put industry-leading security standards in place to help protect against the loss, misuse, or alteration of the information under our control. We use procedural, physical, and electronic security methods designed to prevent unauthorized people from getting access to this information. Our internal code of conduct adds additional privacy protection. All data is backed up multiple times a day and encrypted using SSL certificates. See our Privacy Policy for more details.
14.3.3 ETA PROTEIN, Acetylcholine Receptor (AChR) Antibody, Activated partial thromboplastin time (APTT), Alpha 2-Macroglobulins, Qn, Alpha Melanocyte Stimulating Hormone, ANA SCREEN A, ANA SCREEN B, ANA SCREEN, IFA, ANA Screen, IFA (Positive, Negative), ANA titer, Anti-C1Q Ab, IgG (RDL), Anti-DBL-Strand DNA Ab, Anti-dsDNA (Double-stranded) Ab by Farr method (RDL), Anti-dsDNA ab (Farr Assay), Anti-IgE, ANTI-RNP (CU), Anti-Smith Antibody, Anticardiolipin Ab, IgM, Anticardiolipin Ab,IgA,Qn, Anticardiolipin Ab,IgG,Qn, Antinuclear Ab, HEp-2 Substrate, S, Antinuclear Antibodies (ANA) Screen, Reflex ANA IFA dsDNA Antibodies, Antinuclear Antibodies Direct (ANA Direct), Antiphosphatidylserine IgA, Antiphosphatidylserine IgG, Antiphosphatidylserine IgM, Antithrombin Activity (ATIII), Antithrombin III activity, Baski sleepy, C1 Esterase Inhibitor, Func, C1 Esterase Inhibitor, Serum, C3A Desarg Fragment, C4a Level by RIA, CARDIOLIPIN AB (IGA), CARDIOLIPIN AB (IGG), CARDIOLIPIN AB (IGM), Carnitine Esters, Carnitine, Free, Carnitine, Total, CCP Antibodies IgG/IgA, Centromere, Chromatin, Coccidioides Ab by CF, Coccidioides Ab, IgG, EIA, Coccidioides Ab, IgM, EIA, Complement C1q, Quantitative, Complement C3, Complement C3a, Complement C4, Serum, Complement C4a, Complement Component C1Q, Complement, Total (CH50), Complement, Total (CH50), Quest Diagnostics, Cyclic Citrullinated Peptide Antibody, Cysticercosis (Taenia solium), Dilute Russell's viper venom time (dRVVT), Diphtheria Antitoxoid Antibody, DNA AB Double Stranded Titer, DNA Double-Stranded Ab, IgG, dRVVT Confirm, DRVVT SCREEN, dRVVT Screen Ratio, ds-DNA Antibody, IgG, dsDNA, ENA to Smith (Sm) Antibody, ENA-6 Reflexed, Eosinophil Cationic Protein (ECP), Epidermal Growth Factor (EGF), Erythrocyte Sedimentation Rate (ESR), Esterified/Free Ratio, F004-IgE Wheat, Free Kappa Lt Chains, Serum, Free Lambda Lt Chains, Serum, Ganglioside Antibodies - GM1 (IgG), Ganglioside Antibodies - GM1 (IgM), Ganglioside Antibodies - GQ1b (IgG), Gastrin, GlycA, Helicobacter pylori Abs, Serum, Hemoglobin A2 (Quant), Hexagonal Phase Phospholipid, HISTAMINE RELEASE (CHRONIC URTICARIA), Histamine, Plasma, Histamine, Whole Blood, Histone, HLA-B27 (Human Leukocyte Antigen B27), Human Transforming Growth Factor Beta 1 (TGF-b1), IGE ANTIBODY (ANTI IGE IGG), Immature Grans (Abs), Immature Granulocytes (%), Immunofixation Result, Serum, Immunoglobulin A, Qn, Serum, Immunoglobulin D, Quant, Serum, immunoglobulin E, Immunoglobulin E, Total, Immunoglobulin G, Qn, Serum, Immunoglobulin M, Qn, Serum, INFg, Influenza Type A Antibody Serum, Influenza Type B Antibody Serum, Interleukin-2, Serum, Interleukin-6, Jo 1 Antibodies, IgG, Serum, JO-1, Kappa/Lambda Ratio, Serum, Liver Kidney Mic IgG, Liver-Kidney Microsomal Antibodies, Lupus Anticoagulant, Lysozyme, Serum, Mannose Binding Lectin (MBL), Measles Antibodies, IgG, Monocyte Chemotactic Protein-1 (MCP-1), Mumps Abs, IgG, PEP A2Glob, PHOSPHATIDYLETHANOLAMINE AB (IGA), PHOSPHATIDYLETHANOLAMINE AB (IGG), PHOSPHATIDYLETHANOLAMINE AB (IGM), PHOSPHATIDYLSERINE AB (IGA), PHOSPHATIDYLSERINE AB (IGG), PHOSPHATIDYLSERINE AB (IGM), Plasminogen Activator Inhibitor (PAI-1) AG, Procalcitonin, Prothrombin Fragment 1.2, Prothrombin Time (PT), Prothrombin Time (PT) INR, QUANTIFERON® -TB GOLD PLUS, 1 TUBE, RA Latex Turbid, Reptilase Clotting Time, RF, IgA by EIA (RDL), RF, IgG by EIA (RDL), RF, IgM by EIA (RDL), Rheumatoid factor (RF), Rheumatoid Factor IgA, Rheumatoid Factor IgM, RNA Polymerase III Antibodies, RNP/Sm, Ro-52kD Antibody, Schistosoma IgG, Scl-70, Sed Rate by Modified Westergren, Semi-Quant RF, SICKLE CELL SCRN, Sirolimus, Whole Blood, Sm, SM/RNP Antibody, Smith/RNP (ENA) Ab, IGG, Smooth Muscle Abs, IFA, Ss-B/La Ab Igg, SSA, SSA-52 (Ro52) (ENA) Antibody, IgG, SSA-60 (Ro60) (ENA) Antibody, IgG, SSB, ssDNA, Tacrolimus, Whole Blood, Tetanus Antitoxoid IgG Ab, TGF-b1, Thrombin time, Thrombin-Antithrombin TAT, TNFb, Trans. Growth Fact. beta 1, Transforming Growth Factor beta, Plasma, Tryptase, Tumor Necrosis Factor, Varicella-Zoster Virus (VZV) DNA, Qualitative, Real-Time PCR, VEGF, Plasma, VEGF, Serum, Von Willebrand Factor Antigen (vWF), vWF Activity