SPS Tubes Used in the Collection of Blood Cultures

In the context of diagnostics, SPS tubes cannot be overlooked as they are crucial when SPS tubes are used in the collection of blood cultures. Chances are that if you work in a clinical laboratory or the supply chain of medical equipment you will have come across these tubes. They are not ordinary tubes actually; they contain attributes that are indispensable when it comes to blood collection and analyzing, especially in microbiology.

The Role of SPS Tubes in Blood Cultures

When a patient exhibits signs and signs of an infection when the needle on the thermometer starts hovering between 37 and 38 degrees, what do doctors use most often to identify the cause of the infection? Blood cultures reveal the causative organism of infection that is very valuable in the management of the patient. This is where SPS tubes for blood culture are useful is coming into play.

The SPS that is inside the tube inhibits blood clotting to hinder detection of microbes growth. Further, the antimicrobial activity of SPS inhibits the growth of some bacteria in such a way that makes it easier to identify slow-growing organisms like mycobacteria. For tests like tuberculosis, where the effectiveness of SPS tubes cannot be replaced, access to reliable equipment is crucial.

 Clot Activator Tube

A Clot Activator Tube is intended for the quick detection of biochemical parameters in the blood, for Acutely Ill Patients. The coagulant in the tube also activates thrombin which causes the transformation of soluble fibrinogen to non-soluble fibrin polymer which later aggregates to form fibrin. This process is very significant in clot formation. It also contains a blood glucose stabilizer in our coagulation tube, which makes use of sodium fluoride/potassium oxalate, or sodium fluoride/heparin sodium unnecessary. This innovation helps to test the blood glucose and glucose tolerance standard of its patients without gaining help from older techniques which makes this innovation very efficient for clinical settings.

ESR Tube

Sodium citrate tubes contain 3.8 % which is used for blood sedimentation tests. The anticoagulant-to-blood volume ratio is 1:4 In addition; there are criteria, such as appropriate use of anticoagulants. An increased quantity of anticoagulant will decrease the viscosity of blood and thus will increase the sedimentation rate of blood. The low internal volume of the tube and negative pressure also mean that blood collection may take a little longer. One should also avoid applying too much pressure to the cut or nicking the skin as they take care to ensure that the blood is well circulating and then fill the capillary tube. This process gives a correct sample for a good test mainly in blood sedimentation tests.

Why Anticoagulant Tubes are Vital in Microbiology?

In the field of microbiology, it is a game of time when it comes to identifying infectious agents. Each hour is precious when a patient is fighting against a bacterial or a fungal infection and getting the right instruments to identify these pathogens is vital. SPS tubes are used in the collection of blood to prevent clotting for blood samples that may contain bacteria, fungi, and other related pathogens that can be trapped within clots if the blood sample is allowed to clot, making a diagnosis incomplete or inaccurate.

SPS as an Anticoagulant

The sodium polyanethole sulfonate in the SPS tubes prevents clot formation of blood and also inhibits the metabolic activity of certain cells of the immune system which could otherwise destroy or suppress bacterial growth. This is especially so when testing for difficult-to-isolate organisms including yeast or mycobacteria for instance.

SPS Tubes: A Look at Their Features and Properties

Now let us discuss the aspects of SPS tubes in greater detail and show why they are the most suitable for blood culture.

Anticoagulant Action: A specific product SPS is selected concerning the fact that it does not allow blood to clot. This preserves the blood sample allowing it to offer an environment that would help detect the pathogens.

Mild Antimicrobial Properties: Even though this may seem paradoxical, the moderate antimicrobial property of SPS undercuts certain rapidly reproducing bacterium which can out-compete slower ones such as mycobacteria. This counterbalances the cultural environment.

Vacuum Sealing: These tubes are meant as vacuum tubes meaning that the right measure of blood is taken into that tube. This is important if one has to keep the concentration of blood to the additive that is required for diagnostic purposes.

Compatibility with Various Testing Equipment: The SPS tubes conform with most diagnostic test and image analysis equipment commonly used in pathology laboratories.

Uses of SPS Tubes: Beyond Just Bacteria

Originally designed for the identification of bacterial pathogens, SPS tubes are equally valuable for the detection of fungal pathogens, yeast, and some types of mycobacteria. When the patient has a depressed immune response, or the infection is not obvious, the SPS tubes will offer great help, keeping the sample cohesiveness throughout the testing process.

The Importance of SPS Tubes in Modern Healthcare

Where medical laboratories are concerned, it is now more important than ever for them to get their diagnostic results right. SPS tubes help a lot in this by making sure that blood samples are well preserved which leads to better diagnosis. This account makes it easier for clinicians to administer direct treatment of bacterial, fungal, or mycobacterial diseases.

Diagnostic Tests and Pathogen Detection

They are some of the great difficulties in diagnosing infectious diseases are differentiation between pathogen kinds. Laboratory technicians will find that the growth of blood samples in SPS tubes does not present any challenge due to the high level of pathogen detection provided by the technology.

How to Use SPS Tubes in Blood Cultures: A Practical Guide

For the best outcome, the SPS tubes must be used efficiently. Below is a guide on how specifically SPS tubes for microbiology should be employed, in blood sampling and analysis.

Preparation: Make sure sterile gloves, antiseptics, and SPS tubes are within reach.

Collection: Take the blood sample by vacuum method. With vacuum seal technology, the SPS tube can be easily set to a specific volume of broth as is required by the procedure.

Mixing: When the blood sample has been drawn into the tube the SPS should be inverted in the tube a few times. This prevents clotting.

Labeling and Storage: Recap the tube after the procedure, write the patient’s information on the tube, and place it at the appropriate temperature before processing for the lab.

Where to Buy SPS Tubes?

With Vesemed Medical SPS Tube, you will get the right SPS tubes for your clinical laboratory or hospital when you need them. To discuss this further, we kindly suggest coming over to our reliable suppliers, the Vesemed SPS Tubes with various diagnostic testing and Medical Laboratory Supplies as per your requirement.

Conclusion

SPS tubes are a cornerstone in blood culture collection, playing a critical role in detecting pathogens ranging from bacteria to fungi to mycobacteria. Our unique properties, including anticoagulant and mild antimicrobial features, make them indispensable in the world of diagnostic testing. For more information on purchasing SPS tubes or other clinical laboratory supplies, visit Vesemed Medical.