logo
Wuhan Desheng Biochemical Technology Co., Ltd
About Us

Wuhan Desheng Biochemical Technology Co., Ltd

Company IntroductionWuhan Desheng Biochemical Technology Co., Ltd. is founded in 2005, located in Wuhan, China, specializing in R&D, production and sales of blood collection tube additives and homology chemcial reagents.We are mainly engaged in blood specimen pretreatment reagents including anticoagulant series: lithium heparin, sodium heparin, EDTA K2/K3, blood specimen coagulant series: powder and liquid of blood clot accelerator etc; blood specimen pretreatment series: serum separating gel ...
View More
China Wuhan Desheng Biochemical Technology Co., Ltd

2005

Year Established

10000000 +

Annual Sales

>100 +

Employees

News
Performance characteristics of acridine ester NSP-DMAE-NHS chemiluminescence reagent
2026-07-17
In the field of chemiluminescence immunoassay, the performance of markers directly determines the sensitivity and reliability of detection methods. Acridine ester NSP-DMAE-NHS, as a commercially available typical acridine ester chemiluminescence reagent, has demonstrated excellent performance in clinical diagnosis and environmental monitoring applications. Direct luminescence system without catalyst The luminescence mechanism of acridine ester NSP-DMAE-NHS is relatively simple. Under alkaline conditions, acridine ester molecules are attacked by hydrogen peroxide to generate unstable ethylene oxide intermediates, which rapidly decompose into carbon dioxide and electron excited N-methylacridone. When the excited state molecule returns to the ground state, it emits a light signal with a wavelength of 430 nanometers. The entire luminescence process does not require the involvement of enzymes or enhancers to amplify the signal. This feature reduces the number of components in the reaction system, lowers background luminescence, improves the signal-to-noise ratio of detection, and reduces the influence of potential interference factors. Fast and high-intensity luminous signal Acridine ester NSP-DMAE-NHS belongs to a fast chemiluminescence system. After adding the initiator, the luminescence intensity reaches its peak in a relatively short period of time, and the half-life is significantly shorter than that of the luminol system. This fast and concentrated signal release characteristic is conducive to achieving fast signal acquisition and improving detection throughput. In terms of luminescence intensity, acridine ester NSP-DMAE-NHS also exhibits high luminescence efficiency, which can support the detection needs of low concentration target substances. High signal-to-noise ratio and low interference From the perspective of luminescence mechanism, the non luminescent substituent portion attached to the acridine ring of NSP-DMAE-NHS will detach from the ring before forming an electronic excited state intermediate. This feature means that the non emissive part is separated from the emissive part, so the luminous efficiency is basically not affected by the substituent structure. The advantage of this mechanism, combined with a simplified system that does not require catalysts and enhancers, enables background luminescence to be maintained at a low level, with a high signal-to-noise ratio and guaranteed reliability of detection results. Marking characteristics and system compatibility The molecular weight of acridine ester NSP-DMAE-NHS is relatively small, and the molecular structure contains active ester groups of NHS, which can be firmly connected to proteins through chemical bonds. In the process of labeling antibodies or antigens, the impact of the label on protein conformation is relatively small, ensuring that the labeled antibodies maintain good reactivity in subsequent immune reactions. The markers can maintain stable luminescent properties during storage and use, and the stability of conjugates provides convenient conditions for the production and storage of reagent kits. Acridine ester NSP-DMAE-NHS has demonstrated technical advantages in chemiluminescence immunoassay due to its direct luminescence, fast and high intensity, low background interference, and good labeling performance. Hubei Xindesheng Material Technology Co., Ltd., as an advantageous manufacturer of luminescent reagents, can supply acridine ester NSP-DMAE-NHS powder with stable luminescence, simple preparation, and convenient storage. In addition to the acridine ester NSP-DMAE-NHS, there are also various acridine ester luminescent reagents available for selection, including DMAE-NHS, NSP-SA, NSP-SA-NHS, ME-DMAE-NHS, and NSP-SA-AH. There are slight differences in hydrophilicity and hydrolysis resistance among different varieties, and different active groups are used for labeling, which is suitable for the labeling needs of different types of proteins, antibodies, or nucleic acids. This diversity provides researchers with greater selection space, allowing them to choose the most suitable acridine ester derivatives based on the chemical properties and labeling requirements of the target molecule. If you have any purchasing needs in the near future, please feel free to contact me at any time!  
Read More
Latest company news about Performance characteristics of acridine ester NSP-DMAE-NHS chemiluminescence reagent
A word difference, different uses—the choice between disodium EDTA and dipotassium EDTA
2026-07-16
Both disodium EDTA and dipotassium EDTA belong to the EDTA series products, with only one word difference in name and similar appearance. However, these two seemingly similar substances each have their own emphasis in practical applications, and there are significant differences in their applicable scenarios. Understanding their performance and usage differences can help make the right choices in different fields. Same chelating core The chemical name of disodium EDTA is ethylenediaminetetraacetic acid disodium. It appears as a white crystalline powder, with no odor, high solubility in water, and difficult to dissolve in ethanol. The structure of EDTA dipotassium is similar, and both have the same core ability in chelation performance. They contain coordinating atoms in their molecules and can form stable complexes with various metal ions. This chelating ability is the basis for the functionality of EDTA series products, but in the application of blood collection tubes and other fields, the two have taken different paths. Differences and Similarities in the Field of Blood Collection Vessels Both disodium EDTA and dipotassium EDTA can be used for blood collection vessel anticoagulation, by chelating calcium ions in the blood to prevent blood clotting, and are suitable for clinical blood testing. However, in practical use, the use of dipotassium EDTA is more common. The main difference lies in the speed and effectiveness of anticoagulation. After adding potassium EDTA to the blood collection tube, the anticoagulant reaction is more rapid and the effect is better, especially suitable for emergency blood testing scenarios. And although disodium EDTA can also effectively anticoagulate, its speed is slightly inferior. Diversified applications of disodium EDTA The application range of disodium EDTA is wide, covering multiple industries. In analytical chemistry, it can be used for coordination titration to measure the content of metal ions; In the cosmetics industry, it can chelate the metal ions present in the formula, playing a key antioxidant role and preventing formula deterioration caused by metal ion catalysis; In the industrial field, disodium EDTA helps to prevent mold growth, discoloration, and oxidation hazards of metal materials, while also enhancing the stability of trace metal elements (such as iron, copper, etc.) in plant oils, which has the effect of promoting air oxidation of oils. Characteristic uses of dipotassium EDTA In addition to its advantages in blood collection tubes, EDTA dipotassium also has some other uses. When preparing toilet deodorizers, adding an appropriate amount of EDTA dipotassium and other auxiliary reagents can effectively deodorize and prevent fouling and scaling. The method of use is simple, and a small amount of spraying can be maintained for a long time without corrosive effects; In liquid chromatography analysis, dipotassium EDTA can be used as a chelating agent to maintain the stability of the buffer system for a long time without turbidity, which is beneficial for the smooth progress of the experimental process. The choices brought about by structural differences Although disodium EDTA and dipotassium EDTA have similar chelating properties, the differences between sodium and potassium salts affect their performance in specific applications. The solubility and ionic radius of potassium ions are different from those of sodium ions, which results in slight differences in the behavior of dipotassium EDTA in certain solvent systems. In biological systems, potassium ions are the main cations in cells and have better compatibility with the blood environment, which may be one of the reasons why EDTA dipotassium performs better in blood collection vessels. Both disodium EDTA and dipotassium EDTA have their respective applicable fields. The preference for EDTA dipotassium in blood collection tubes is due to its faster anticoagulant speed; In the cosmetics and industrial fields, disodium EDTA is more commonly used due to its stable chelating properties and regulatory recognition. For customers who need blood collection tube additives, Hubei Xindesheng Material Technology Co., Ltd. offers a series of products such as EDTA dipotassium, EDTA tripotassium, and EDTA disodium for you to choose from. If you are interested, please contact me now!
Read More
Latest company news about A word difference, different uses—the choice between disodium EDTA and dipotassium EDTA
How to choose separation adhesive for acrylic acid and resin system
2026-07-15
Serum separation gel is a key material for achieving physical isolation between serum and blood cells in blood collection vessels. At present, the separation adhesives on the market are mainly divided into two categories: acrylic ester system and resin system. There are significant differences between the two in terms of raw material composition, production process, and performance. Understanding these differences can help blood collection tube manufacturers make reasonable choices based on their own needs. The development process of acrylic ester system Acrylic ester system is an early type of separation adhesive used in blood collection tubes. Due to production process limitations, early products had a clear weakness - they could not tolerate radiation sterilization. Blood collection tubes need to be sterilized before leaving the factory. If they cannot be irradiated, it means that the tube cannot achieve a sterile state, which will have an impact on subsequent blood sample storage and testing results. With the continuous improvement of the process, the separation adhesive of acrylic ester system has gradually solved the problem of radiation resistance. After formula optimization, the product can withstand irradiation sterilization without performance degradation, and the aging rate is significantly reduced. The shelf life can be extended to three years. This progress has led to the widespread application of acrylic ester systems in the field of blood collection tubes. In terms of appearance, the separation adhesive of acrylic ester system was mainly transparent in the early stage. In practical use, some products may experience blood entrapment when centrifuged before the blood has completely coagulated - that is, blood cells are carried through the separation gel layer and enter the serum area. Meanwhile, due to the hydrophilicity of acrylic materials, long-term contact with water in the blood may lead to a slow shift in pH value. After subsequent improvements, the above-mentioned issues have been effectively controlled. The appearance options are also more diverse, with semi transparent and opaque products appearing one after another. The pH drift problem caused by hydrophilic properties can be solved by adjusting the formula, and the pH value can remain stable even after long-term exposure to the blood environment. Performance improvement of resin system With the increasing demand for sample quality in clinical testing and the emergence of new application scenarios such as cosmetic medicine, serum separation gels need to meet higher standards. The resin system is a new type of separation adhesive material developed in this context. The most significant feature of the resin system is the use of hydrophobic materials instead of traditional hydrophilic acrylic esters. Hydrophobic properties bring several direct performance improvements: the material will not undergo changes in properties due to water infiltration when in long-term contact with blood, has stronger resistance to hydrolysis, and can maintain its original physical form. In terms of specific gravity adjustment, the resin system has greater adjustment space and can more accurately match the density values required for different blood collection tube designs. Compatibility of reagents is another key indicator in the selection of separation gels. The resin system separation gel can coexist well with commonly used anticoagulants such as heparin and EDTA, without interfering with each other, and each plays its due role. This is particularly important for blood collection vessel types that require the simultaneous use of separation gel and anticoagulant. In terms of solvent resistance and long-term stability, resin systems perform more outstandingly compared to acrylic systems, especially suitable for scenarios with high requirements for shelf life and extreme transportation conditions. Selection Suggestions Acrylic ester system and resin system each have applicable scenarios. The acrylic ester system has undergone years of development, mature technology, relatively controllable cost, and is suitable for the production of conventional blood collection tubes. Resin systems have advantages in long-term stability, reagent compatibility, and customized appearance, and are used for high-end blood collection tubes or special application scenarios. Hubei Xindesheng Material Technology Co., Ltd. has been deeply involved in serum separation gel for many years. Both acrylic acid and resin system separation gels are available for sale. With years of research and development experience, the production process of separation gel is stable, with small batch differences and all indicators meeting relevant requirements. If you have any related procurement needs in the near future, please feel free to purchase!  
Read More
Latest company news about How to choose separation adhesive for acrylic acid and resin system
Selecting the right anticoagulant for blood collection vessels to make the test results more reliable
2026-07-14
In clinical blood testing, the selection of anticoagulants is a key factor that directly affects the accuracy of the test results. Different anticoagulants have different mechanisms of action and scope of application, and incorrect selection may lead to nucleic acid degradation, pseudoprolongation of clotting time, or measurement deviation of blood cell volume. Understanding the characteristics and limitations of various anticoagulants can help make more reasonable judgments during the testing design phase. Why does whole blood nucleic acid extraction avoid heparin Heparin lithium and heparin sodium are commonly used anticoagulants, but they have significant limitations in blood collection for nucleic acid extraction purposes. Heparin binds to membrane proteins on the surface of the cell membrane, causing changes in membrane permeability that may affect subsequent nucleic acid release efficiency. Heparin can also bind and activate various proteasomes and complement systems in whole blood, producing a series of enzymatic effects that can easily lead to nucleic acid degradation and reduce the acquisition rate of nucleic acids. The effect of extracting nucleic acids from heparin anticoagulated whole blood samples stored at room temperature is often unsatisfactory. The interference of heparin is not only limited to the extraction stage, but also affects subsequent PCR detection. Heparin may affect the activity of DNA polymerase or interfere with the accuracy of magnesium ion concentration in the reaction system, leading to a decrease in amplification efficiency or the appearance of non-specific bands. Therefore, heparin is not an ideal choice in scenarios involving nucleic acid extraction and amplification testing.  Selection of Sodium Citrate Concentration in Coagulation Testing Sodium citrate is the standard anticoagulant in coagulation function testing. There are two concentrations of sodium citrate solutions, 3.2% and 3.8%, available on the market. Although it was initially believed that both could be used, practical verification has shown that the 3.8% concentration of anticoagulant poses more risks. 3.8% anticoagulants are more likely to cause false prolongation in calcium dependent coagulation tests such as PT and APTT, especially in cases where the sample size is insufficient or the red blood cell ratio is high, resulting in a relative decrease in plasma volume. If the ratio of anticoagulants to blood exceeds the recommended ratio of 1:9, higher concentrations of anticoagulants will further exacerbate this deviation. In the vast majority of clinical scenarios, a concentration of 3.2% sodium citrate is a more reliable choice. Only in special blood samples with very few red blood cells, a concentration of 3.8% shows certain advantages. But this rare situation can be solved by adjusting the proportion of anticoagulants, and there is no need to change the concentration commonly used for small probability scenarios. Therefore, after clinical practice testing, the 3.2% concentration of sodium citrate has gained wider recognition. The effect of EDTA salt on blood cell volume EDTA salts exhibit excellent anticoagulant effects, but they are not without interference. All EDTA salts can cause blood cell shrinkage, thereby affecting the trace hematocrit after centrifugation. The difference between different EDTA salts is reflected in their solubility, with potassium EDTA having a higher solubility than sodium EDTA, making potassium EDTA more commonly used. The pH values of EDTA disodium salt and EDTA dipotassium salt are relatively lower than EDTA tripotassium salt. In this acidic environment, cells will swell, and this swelling effect can partially compensate for cell shrinkage caused by osmotic pressure. For the calibration of electronic blood cell counters, using EDTA disodium salt and EDTA dipotassium salt as anticoagulants yields hematocrit values that are closer to the true values than using EDTA tripotassium salt. This difference is worth noting in scenarios where precise measurement of average blood cell volume is required. Hubei Xindesheng Material Technology Co., Ltd. is a professional manufacturer of blood collection tube additives. Currently, the blood collection tube anticoagulants on sale include heparin sodium, heparin lithium, EDTA dipotassium, EDTA tripotassium, EDTA disodium, sodium citrate, etc. Everyone can purchase different anticoagulants according to their own needs. If you have any recent purchasing needs, please click on the official website to learn more details or contact me directly!
Read More
Latest company news about Selecting the right anticoagulant for blood collection vessels to make the test results more reliable
What Did They Say
Tony
Tony
As a distributor of hospital agent , your Blood Collection Tube Additives is very suit for my needs , i think we have establish a good business with each other , thank you !
As a distributor of hospital agent , your Blood Collection Tube Additives is very suit for my needs , i think we have establish a good business with each other , thank you !
William
William
Received the sample order and passed the test. Thank you for all your efforts. You are a reliable partner! We will continue to cooperate with you in the future.
Received the sample order and passed the test. Thank you for all your efforts. You are a reliable partner! We will continue to cooperate with you in the future.
Marinel
Marinel
The biological buffer produced by Desheng Company has high purity, good water solubility, and a white powder appearance. The price is affordable, and the after-sales service is very enthusiastic, helping us to use the biological buffer correctly and efficiently. It was a very good experience, looking forward to the next collaboration!
The biological buffer produced by Desheng Company has high purity, good water solubility, and a white powder appearance. The price is affordable, and the after-sales service is very enthusiastic, helping us to use the biological buffer correctly and efficiently. It was a very good experience, looking forward to the next collaboration!
Send your inquiry
Please send us your request and we will reply to you as soon as possible.
Send