QuikRead go wrCRP+Hb
QuikRead go wrCRP+Hb is a fast and an easy-to-use test for quantitative determination of C-reactive protein (CRP) values in whole blood, serum, and plasma and haemoglobin in whole blood with the QuikRead go instrument. The test gives reliably two results, the wide range CRP and the Hb, from one sample with one analysis.
Accurate measurement of C-reactive protein (CRP) can be critical in the management of a patient with symptoms of an infection. The QuikRead go wrCRP+Hb test helps to identify patients who benefit from antibiotics and it is valuable in monitoring the treatment outcome. The easy-to-use QuikRead go wrCRP+Hb test can be used near the patient and it provides immediate wrCRP and Hb result. Room temperature storage for unopened kit and small sample volume ease the everyday work flow.
A wide range CRP test allows the extension of CRP values from conventional use to testing e.g neonatal sepsis1 as well as to predict disease severity in COPD2 and aid in cardiovascular risk assessment3.
Haemoglobin measurement gives important information about the patient’s condition in both acute and basic healthcare settings. Changes in haemoglobin concentrations can be seen in several medical conditions which make haemoglobin measurement one of the most commonly used tests.
QuikRead go wrCRP is an efficient tool for point-of-care settings to guide the treatment decisions of healthcare professionals.
QuikRead go wrCRP+Hb provides you with
Kit storage at room temperature up to 25°C
- Easy to store in the healthcare unit
- Enables immediate use, no need to warm up reagents
Wide measuring range
- Offers wide CRP result from whole blood samples from 0.5 up to 200 mg/l and plasma/serum samples from 0.5 up to 120 mg/l
- Enables using CRP in wide range of indications
Small sample volume 10 µl
- Sample collection is easy
- Improved convenience for the patient
One analysis - two results
- Hb result (50 - 220 g/l) available with CRP result from whole blood samples
- Adds patient comfort
- Gives more information for making treatment decisions
Fast point-of-care CRP test
- Measurement time only 2 minutes
Easy to use
- Fully automatic testing procedure
- QuikRead go instrument is connectable to most HIS and LIS systems
Test results should never be used alone, without a complete clinical evaluation.
QuikRead go wrCRP+Hb is not registered in the USA.
- Hengst JM: The role of C-reactive protein in the evaluation and management of infants with suspected sepsis. Adv Neonatal Care 2003; 3:3–13. https://doi.org/10.1053/adnc.2003.50010
- Mendy A, Forno E, Niyonsenga T, Gasana J. Clin Respir J. 2017. Blood biomarkers as predictors of long-term mortality in COPD. https://doi.org/10.1111/crj.12752
- Kaptoge S, Di Angelantonio E, Lowe G, Pepys MB, Thompson SG, Collins R, Danesh J. C-reactive protein concentration and risk of coronary heart disease, stroke, and mortality: an individual participant meta-analysis. Emerging Risk Factors Collaboration. 2010 Lancet 375(9709):132-40. https://doi.org/10.1016/S0140-6736(09)61717-7
|Use||For in vitro diagnostic use|
|Sample type||Whole blood, plasma and serum (CRP) Whole blood (Hb)|
QuikRead go Instrument
|Time to result||2 minutes|
|Reading of the result||Instrument read|
|Storage||2 - 25 ºC|
|Shelf life||15 months|
|Transportation||2 - 25 ºC|
|Size and weight||190 x 140 x 80 mm|
|Full export carton of kits||576/672|
|Country of origin||Finland|
|Registration||Not registered in the USA|
|Registered trademark||QuikRead go is a registered trademark of Orion Diagnostica Oy|
Specific features of CRP (C-reactive protein)
- normally present in very low concentrations in the blood of healthy people; 99% have levels of <10 mg/l 1 and 90 % have levels < 3 mg/l2.
- after birth concentrations are very low (0,1 mg/l) and there is a physiological rise during the first days of life (to approx. 2 mg/l)3
- uncomplicated viral infections mostly induce (with some exceptions) a very modest elevation or none at all1
- in bacterial infections, concentrations increase markedly1
- elevated concentrations can be detected within 6 - 12 h after onset of an inflammatory stimulus, reaching maximum within 24 - 48 h4, 5
- rise in concentrations corresponds to severity of infection1
- concentrations fall rapidly when the patient responds to antibiotic treatment1
- normalisation of the concentration may indicate that the duration of the treatment has been sufficient and the treatment can be discontinued1, 6, 7
- in a big part of septic neonates the concentrations are below 6 mg/l 8, 9, 10
- Pepys MB. The acute phase response and C-reactive protein. In: Warrell DA, Cox TM, Firth JD, Benz EJ, eds. Oxford Textbook of Medicine, 4th ed. Oxford University Press, 2003. Vol 2, p.150 - 156.
- Shine, B., de Beer, FC., Pepys, MB. Solid phase radioimmunoassays for C-reactive protein. Clin Chim Acta, 1981,117: 13 - 23.
- Chiesa, C., Natale, F., Pascone, R., Osborn, JF., Pacifico, L., Bonci, E., De Curtis, M. C reactive protein and procalcitonin: Reference intervals for preterm and term newborns during the early neonatal period. Clinica Chimica Acta, 2011, 412: 1053 - 1059.
- Bjerrum L. C-reactive protein measurement in general practice may lead to lower antibiotic prescribing for sinusitis. Br J Gen Pract 2004; 54: 659 - 662.
- Pepys MB. C-reactive protein fifty years on. Lancet 1981; 1: 653 - 657.
- Philip AGS, Mills PC. Use of C-reactive Protein in Minimizing Antibiotic Exposure: Experience With Infants Initially Admitted to a Well-Baby Nursery. Pediarics 2000; 106.
- Ehl S et al. C-Reactive Protein Is a Useful Marker for Guiding Duration of Antibiotic Therapy in Suspected Neonatal Bacterial Infection. Pediatrics 1997; 99: 216 - 221.
- Hofer, N., Müller, W., Resch, B.Non-infectious conditions and gestational age influence C-reactive protein values in newborns during the first 3 days of life. Clin Chem Lab Med, 2011,49: 297 - 302.
- Wasunna, A., Whitelaw, A., Gallimore, R., Hawkins, PN., Pepys, MB. C-reactive protein and bacterial infection in preterm infants. Eur J Pediatr, 1990, 149: 424 - 427.
- Mathers, NJ., Pohlandt, F. Diagnostic audit of C-reactive protein in neonatal infection. Eur J Pediatr, 1987, 146: 147 - 151.
Haemoglobin is the molecule that contains iron transports oxygen in the blood. It binds oxygen in the lungs, transports it to tissues and returns carbon dioxide from tissues to the lungs. Haemoglobin has an important role in the body’s iron cycle and it contains most of the functional iron in the body.
If a patient has anemia the blood haemoglobin or red blood cell concentration is below recommended levels. Anemia has many different causes but iron deficiency, which causes iron deficiency anemia, is the most common cause in the Western world. It should be remembered that anemia is more of a symptom than a disease. Haemoglobin tests may help diagnose anemia but the cause of anemia has to be investigated.
Dacie and Lewis. Practical Haematology, 11th edition, 2012.
HoffBrand and Pettit. Essential Haematology, 3rd edition, 1997.
Ruutu. Rajamäki, Lassila, Porkka. Veritaudit, 3rd edition, 2007.
Antibiotics and CRP
Antibiotics are a cornerstone of the management of bacterial infections. 80 - 90% of antibiotics are prescribed in primary care, and up to 80% of these are used to treat acute respiratory tract infections1. It is estimated that approximately 50% of all antibiotic prescriptions are unnecessary2. Although most of both upper and lower respiratory tract infections are self-limiting and caused by viruses, antibiotics are frequently used to treat these conditions. Unnecessary and inappropriate use of antibiotics favours the emergence and spread of resistant bacteria. Antibiotic resistance is a major public health concern, which could cause harm to a large number of patients worldwide if infections are no longer susceptible to common medicines used to treat them. Therefore, antibiotics should be used with caution and only when necessary3.
The use of antibiotics in primary care varies considerably between countries, which is unlikely to be caused by differences in the frequency of bacterial infections. There is a clear correlation between the use of antibiotics and the emergence of antibiotic resistance4-6. As stated by the World Health Organization (WHO)3, restricting an inappropriate and excessive antibiotic use is important to slow down or even reverse the development of antibiotic resistance.
The QuikRead go CRP test helps healthcare professionals to identify those patients who need - and particularly those who do not need - antibiotic therapy. It is also important to know whether the antibiotics will affect the course of the illness7,8. QuikRead go CRP is useful for following up the effect of treatment. With accurate information, patients can be more easily reassured that symptomatic treatment will be sufficient. On the other hand, a high QuikRead go CRP reading would suggest a bacterial infection requiring antibiotic treatment.
- Goossens HF, M.; Vander, S.R.; Elseviers, M. Outpatient antibiotics use in Europe and association with resistance: a cross-national database study. Lancet 2005; 365:579-587.
- Centers for Disease Control and Prevention (CDC). Antibiotic Resistance Threats in the United States 2013.
- World Health Organization. Antimicrobial resistance: global report on surveillance 2014.
- Goossens H. Antibiotic consumption and link to resistance. Clin Microbiol Infect 2009; 15 Suppl 3:12-15.
- European Centre for Disease Prevention and Control. Antimicrobial consumption. Annual epidemiological report for 2016. Stockholm, 2018.
- Bronzwaer SLAM, Cars O, Buchholz U et al. A European study on the relationship between antimicrobial use and antimicrobial resistance. Emerging infectious diseases 2002; 8:278-282.
- Bruns AH, Oosterheert JJ, Hak E, Hoepelman AI. Usefulness of consecutive C-reactive protein measurements in follow-up of severe community-acquired pneumonia. Eur Respir J 2008; 32:726-732.
- Coelho L, Povoa P, Almeida E et al. Usefulness of C-reactive protein in monitoring the severe community-acquired pneumonia clinical course. Crit Care 2007; 11:R92.
Documents and materials
Marketing and sales materials
QuikRead go wrCRP+Hb Test Procedure Video (EN)
Instructions for use
(For informative use only. Kindly always refer to the latest package insert in the kit.)
Safety Data Sheet
Frequently asked questions
I would like to start using the QuikRead go wrCRP+Hb tests. Which instrument software version I need on my QuikRead go instrument?
You should have the version 7.5.1.
I have updated my QuikRead go instrument into version 7.5.1 to start using the QuikRead go wrCRP+Hb test. However, now I noticed I have still some QuikRead go CRP+Hb kits in fridge. Can I use these kits still after the software update?
Yes, in addition to the QuikRead go wrCRP+Hb tests, you can use the QuikRead go CRP and QuikRead go CRP+Hb kits with the QuikRead go instrument software version 7.5.1.
I accidentally left a QuikRead go wrCRP+Hb kit at room temperature for a weekend. Can I still use it?
Yes, you can use the kit. The unopened kit can be stored at cool or room temperature (2-25 ºC) until the expiry date marked on the kit label. After the first opening of the kit components, the cuvettes can be kept at room temperature (18-25) for 3 months. The reagent caps for 6 months. See more information in the package insert.
What happens if I accidentally use the 20 µl capillaries with the QuikRead go wrCRP+Hb test?
It is important to use only the 10 µl capillaries with orange stripe, which are inside the QuikRead go wrCRP+Hb test kit. The 20 µl capillaries have a blue stripe and are to be used with QuikRead go CRP test only. The instrument measures the haematocrit value and above the upper limit (75%), it will not give results. If you dispense twice the amount of sample, the instrument thinks the haematocrit value is double what it actually is. The HCT correction is able to correct only those sample results, which have hematocrit below 37.5%.