Antimicrobial Collection

Paul Ehrlich
3253013 Paul Ehrlich; (add.info.: Paul Ehrlich , 1854 -1915. German physician and scientist. From Enciclopedia Ilustrada Segui, published c. 1900).

Tuberculosis resistance to some drugs
Conceptual computer illustration showing the virtual brick wall resistance of Tuberculosis (TB) to drugs. Drug resistance is the reduction in effectiveness of a drug such as an antimicrobial or an

Drug Resistance, computer artwork
Conceptual computer artwork showing the virtual brick wall resistance of some pathogens to drugs. Drug resistance is the reduction in effectiveness of a drug such as an antimicrobial or an

Drug Resistant Microbes, computer artwork
Conceptual computer illustration of a drug capsule being pushed aside by microbes that have developed an immunity to the drug

Antimicrobial wound dressing, SEM
Antimicrobial wound dressing. Coloured scanning electron micrograph (SEM) of fibres (diagonal) from an Aquacel Ag wound dressing

Imipenem antibiotic drug molecule
Imipenem antibiotic drug molecular model. Imipenem belongs to the carbapenem group of antibiotics. Bacteria are becoming increasingly resistant to carbapenems due to the bacterial enzyme NDM-1

Zinc pyrithione drug molecule
Zinc pyrithione drug, molecular model. Atoms are represented as spheres and are colour-coded: carbon (dark grey), hydrogen (light grey), nitrogen (dark blue) and oxygen (red)

XF-73 MRSA drug molecule
XF-73 MRSA drug, molecular model. This drug is in development to be used as a prophylactic against Staphylococcus aureus bacteria

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Antimicrobial agents play a crucial role in combating drug-resistant microbes, such as tuberculosis. With the rise of drug resistance, researchers are constantly exploring new ways to tackle this global health challenge. Computer artwork depicting drug-resistant microbes serves as a reminder of the urgent need for innovative solutions. One promising approach lies in developing antimicrobial wound dressings that can effectively combat infections and promote healing. Scanning electron microscope (SEM) images reveal the intricate structure of these advanced dressings, highlighting their potential to revolutionize healthcare practices. Imipenem antibiotic drug molecules represent another weapon against resistant bacteria, offering hope for patients who have exhausted other treatment options. Similarly, zinc pyrithione and XF-73 MRSA drug molecules showcase advancements in targeting specific strains of bacteria responsible for serious infections like MRSA. As scientists continue to delve into the realm of antimicrobials, it is clear that cutting-edge research and development hold immense promise in our ongoing battle against microbial resistance – safeguarding public health worldwide.