100 Examples of sentences containing the common noun "mycobacterium"

Definition

Mycobacterium is a genus of bacteria known for its unique cell wall structure, which contains mycolic acid, making them resistant to certain environmental conditions and antibiotics. This genus includes several pathogenic species that can cause diseases in humans and animals, most notably Mycobacterium tuberculosis, the causative agent of tuberculosis.

Synonyms

• None (as it is a specific scientific term)

Antonyms

• None (as it is a specific scientific term)

Examples

1. The research team studied how Mycobacterium can survive in extreme conditions.
2. Health officials monitored outbreaks caused by Mycobacterium in urban areas.
3. The presence of Mycobacterium in water samples raised concerns about public health.
4. Scientists isolated a strain of Mycobacterium for further testing.
5. The treatment for infections caused by Mycobacterium often involves a combination of antibiotics.
6. Mycobacterium can remain dormant in the body for long periods before causing symptoms.
7. The laboratory focused on characterizing the genetic material of Mycobacterium.
8. Researchers are exploring vaccines to provide immunity against Mycobacterium.
9. The role of Mycobacterium in environmental ecosystems is still being investigated.
10. Mycobacterium species can be differentiated based on their growth rates.
11. The study aimed to understand how Mycobacterium interacts with the host immune system.
12. The patient was diagnosed with an infection caused by Mycobacterium.
13. The scientist presented findings on the resistance mechanisms of Mycobacterium.
14. Mycobacterium leprae is the bacterium responsible for leprosy.
15. The team used molecular techniques to identify Mycobacterium in clinical samples.
16. Mycobacterium avium complex is often found in individuals with weakened immune systems.
17. Understanding the transmission of Mycobacterium is critical for effective public health strategies.
18. The study highlighted the need for new antibiotics to combat Mycobacterium infections.
19. Environmental samples were tested for the presence of Mycobacterium.
20. The novel strain of Mycobacterium showed unusual antibiotic resistance patterns.
21. Mycobacterium tuberculosis can spread through airborne droplets.
22. The team utilized CRISPR technology to edit the genome of Mycobacterium.
23. The prevalence of Mycobacterium in the population has raised alarm for health authorities.
24. Mycobacterium bovis is known to affect cattle and can be transmitted to humans.
25. The research article discussed the epidemiology of Mycobacterium infections.
26. Mycobacterium can be detected using specific staining techniques in the lab.
27. The patient’s history revealed potential exposure to Mycobacterium.
28. Studies have shown that Mycobacterium can be present in soil and water.
29. The detection of Mycobacterium requires specialized culture media.
30. Mycobacterium can evade the immune response through various mechanisms.
31. The effectiveness of the vaccine against Mycobacterium was evaluated in clinical trials.
32. Mycobacterium species are classified based on their growth rates and biochemical properties.
33. The global burden of disease caused by Mycobacterium is significant.
34. Researchers are investigating the role of Mycobacterium in chronic lung diseases.
35. The presence of Mycobacterium in the sample indicated a possible infection.
36. Understanding the genetics of Mycobacterium can lead to new treatment options.
37. Mycobacterium can be resistant to multiple drugs, complicating treatment strategies.
38. The study emphasized the importance of hygiene to prevent Mycobacterium transmission.
39. Mycobacterium can be a challenge for immunocompromised individuals.
40. The laboratory successfully cultured Mycobacterium from the patient samples.
41. The research focused on the virulence factors of Mycobacterium.
42. Mycobacterium is known for its slow growth, making laboratory identification difficult.
43. The team discovered a new method to detect Mycobacterium in clinical specimens.
44. The impact of Mycobacterium on public health cannot be underestimated.
45. Mycobacterium can cause granulomatous inflammation in infected tissues.
46. The researchers conducted a survey to assess the prevalence of Mycobacterium.
47. The history of Mycobacterium infections is closely tied to socio-economic factors.
48. Mycobacterium tuberculosis is a leading cause of morbidity and mortality worldwide.
49. The pathogenicity of Mycobacterium varies among different species.
50. New diagnostics are being developed to test for Mycobacterium more efficiently.
51. The scientist described how Mycobacterium interacts with macrophages.
52. Mycobacterium can be found in various environmental niches.
53. The treatment regimen for Mycobacterium infections usually lasts several months.
54. The study provided insight into the adaptive strategies of Mycobacterium.
55. Mycobacterium species are often classified as aerobic or anaerobic.
56. The vaccine's effectiveness against Mycobacterium was tested in animal models.
57. Mycobacterium can persist in the environment, posing a risk to human health.
58. The patient was successfully treated for the Mycobacterium infection.
59. The research indicated a potential link between Mycobacterium and autoimmune diseases.
60. Mycobacterium can be transmitted through contaminated food and water.
61. The findings shed light on the ecology of Mycobacterium in urban environments.
62. The study aimed to identify new targets for drugs against Mycobacterium.
63. Mycobacterium can cause chronic infections that require long-term treatment.
64. The role of Mycobacterium in respiratory diseases is an area of active research.
65. Vaccination rates can influence the prevalence of Mycobacterium in communities.
66. The genetics of Mycobacterium are complex and varied.
67. The presence of Mycobacterium in the lungs is indicative of tuberculosis.
68. Mycobacterium can form biofilms, complicating eradication efforts.
69. The patient’s symptoms were consistent with an infection caused by Mycobacterium.
70. The team collected samples to analyze the diversity of Mycobacterium species.
71. Mycobacterium can trigger inflammatory responses in the host.
72. The laboratory implemented strict protocols for handling Mycobacterium.
73. The research highlighted the global challenge posed by Mycobacterium.
74. Mycobacterium can be resistant to standard disinfectants used in healthcare settings.
75. The team published their findings on the transmission dynamics of Mycobacterium.
76. Mycobacterium is a focus of study in infectious disease research.
77. The interaction between Mycobacterium and host cells is a key area of investigation.
78. The clinical guidelines for treating Mycobacterium infections are evolving.
79. Mycobacterium can lead to serious health complications if left untreated.
80. The study aimed to improve diagnostic methods for Mycobacterium detection.
81. Mycobacterium is often found in chronic infections that require careful management.
82. The presence of Mycobacterium in a sample indicated the need for further testing.
83. The research team explored the ecological roles of Mycobacterium in soil.
84. Mycobacterium can evade antibiotic treatment through various mechanisms.
85. The community health initiative aimed to educate people about Mycobacterium.
86. The discovery of new species of Mycobacterium continues to expand our understanding.
87. Mycobacterium can cause opportunistic infections in immunocompromised patients.
88. The study concluded that Mycobacterium presents a significant public health challenge.
89. Researchers are looking into the environmental reservoirs of Mycobacterium.
90. Mycobacterium infections often require long-term follow-up and care.
91. The team developed a novel assay to detect Mycobacterium in clinical settings.
92. Mycobacterium can form complex relationships with other microorganisms.
93. The guidelines for managing Mycobacterium infections have been updated.
94. The prevalence of Mycobacterium in certain demographics is concerning.
95. Mycobacterium can be tested using polymerase chain reaction (PCR) techniques.
96. The pathogenicity of Mycobacterium is influenced by several factors, including host immunity.
97. The study raised awareness about the risks associated with Mycobacterium exposure.
98. Mycobacterium can be found in various habitats, leading to diverse strains.
99. The healthcare team was trained to identify infections caused by Mycobacterium.
100. The long-term effects of Mycobacterium infections are still being researched.