Nitrocefin-Detektionslösungen und kundenspezifische Lieferung

Bacterial Resistance

– Nitrocefin Detection Solutions and Customized Supply

In the silent war between antibiotics and bacteria, we face an increasingly severe challenge: drug resistance. Infections once resolved with a single dose of penicillin now require stronger and larger quantities of antibiotics, even leaving them untreatable, due to the bacterial “superweapon” β-lactamase.

β-lactamase precisely hydrolyzes the lactam ring, the core of antibiotics like penicillins and cephalosporins, rendering them ineffective within minutes. This is not only a root cause of treatment failure but also an accelerator of the continuous spread of bacterial resistance.

The key to resolving this dilemma lies in “precision strike.” We shouldn’t sit idly by and watch as drug resistance grows. Instead, we should quickly identify our target bacteria before administering the drug: Does it carry β-lactamase?

The answer: nitrocefin.

As a specific chromogenic substrate, nitrocefin rapidly changes color upon contact with β-lactamase, transforming an invisible threat into a visible signal. The test strips and kits developed based on this approach have become reliable tools for rapid and accurate clinical diagnosis.

As the original developer and manufacturer of nitrocefin, Yuteng is committed to promoting the rational use of antimicrobial drugs from the source. We provide:

• High-purity, high-quality nitrocefin raw materials.

• Good  batch stability and consistency ensure the reliability of your test results.

•  Flexible customized supply and professional technical collaboration meet your various needs, from R&D to production.

Choose Yuteng and let us work together to provide accurate “scouts” for clinical practice, promote precision medicine, and curb the antimicrobial resistance crisis.

References:

1. Qiao Wentao, Wang Jinliang. Methicillin-resistant Staphylococcus aureus: Resistance Characteristics and Rapid Detection [J]. Foreign Medicine (ClinicalBiochemistry and Laboratory MedicineEdition),2001,(2).DOI:10.3969/j.issn.1673-4130.2001.02.018.

2. Zhang Lei, Li Ping, Feng Ping. Molecular Epidemiology Study of Hospital Infection with Amp C β-lactamase Producing E. coli [J]. Chinese Journal of Hospital Infection, 2001, (4). DOI:10.3321/j.issn:1005-4529.2001.04.006.

3. Chen Yanqing, Jia Jian. Evaluation of Cefnosidine Paper Method for Detecting β-lactamase. Chinese Journal of Hospital Infection, 2004, Issue 4.

Changsha YuTeng New Materials Co., Ltd.

长沙钰腾新材料有限公司

Mob/wechat: +86 13487087296

Email: timi.tao@cs-yuteng.com

Web: www.csyuteng.com