100 Examples of sentences containing the common noun "plasmodium knowlesi"

Definition

Plasmodium knowlesi is a species of parasitic protozoa belonging to the genus Plasmodium, known to cause malaria in humans. It is primarily transmitted through the bite of infected mosquitoes, particularly the Anopheles species. Plasmodium knowlesi is notable for being a zoonotic pathogen that can infect both monkeys and humans, originally identified as a malaria parasite in long-tailed macaques in Southeast Asia.

Synonyms

• Malaria parasite
• Protozoan parasite

Antonyms

• None (as it is a specific species and does not have direct antonyms)

Examples

1. Plasmodium knowlesi is responsible for a significant number of malaria cases in Southeast Asia.
2. Research has shown that Plasmodium knowlesi can be misdiagnosed as other types of malaria.
3. Public health efforts focus on controlling Plasmodium knowlesi transmission in endemic regions.
4. Scientists are studying the life cycle of Plasmodium knowlesi to develop effective treatments.
5. The emergence of Plasmodium knowlesi raises concerns about zoonotic diseases.
6. Travelers to areas where Plasmodium knowlesi is prevalent should take preventive measures.
7. Understanding the ecology of Plasmodium knowlesi is crucial for malaria control programs.
8. The symptoms of infection with Plasmodium knowlesi can be similar to those of other malaria species.
9. Researchers have developed diagnostic tests specifically for Plasmodium knowlesi.
10. The role of monkeys in the transmission of Plasmodium knowlesi is under investigation.
11. Health officials monitor Plasmodium knowlesi outbreaks to mitigate risks.
12. New findings about Plasmodium knowlesi could lead to better vaccines.
13. The vector control is essential in areas where Plasmodium knowlesi is endemic.
14. Plasmodium knowlesi infections can occur in both rural and urban settings.
15. Education about Plasmodium knowlesi is vital for local communities at risk.
16. The annual incidence of Plasmodium knowlesi infections is increasing.
17. Awareness campaigns are targeting the dangers of Plasmodium knowlesi.
18. Many studies have focused on the genetic diversity of Plasmodium knowlesi.
19. Plasmodium knowlesi has been found to adapt to different hosts.
20. The life cycle of Plasmodium knowlesi includes both asexual and sexual reproduction.
21. Efforts to eradicate Plasmodium knowlesi require international cooperation.
22. Increased rainfall may contribute to the spread of Plasmodium knowlesi.
23. The discovery of Plasmodium knowlesi in new regions has alarmed researchers.
24. Researchers are exploring the evolution of Plasmodium knowlesi.
25. The public is being educated about the symptoms of Plasmodium knowlesi infection.
26. Plasmodium knowlesi can be transmitted to humans through various mosquito species.
27. The impact of climate change on Plasmodium knowlesi transmission is an area of concern.
28. Malaria control programs are adapting to include Plasmodium knowlesi.
29. The incubation period for Plasmodium knowlesi can vary among individuals.
30. The unique characteristics of Plasmodium knowlesi make it difficult to study.
31. Plasmodium knowlesi is often detected using molecular methods.
32. The relationship between primates and Plasmodium knowlesi is complex.
33. Plasmodium knowlesi has been linked to deforestation and land-use changes.
34. Surveillance for Plasmodium knowlesi is important in tourist areas.
35. Education about mosquito control can help reduce Plasmodium knowlesi cases.
36. The symptoms of Plasmodium knowlesi infection can escalate quickly.
37. Plasmodium knowlesi infections have been reported in both children and adults.
38. The biology of Plasmodium knowlesi continues to be a topic of research.
39. Plasmodium knowlesi can cause severe complications if left untreated.
40. The transmission dynamics of Plasmodium knowlesi are not fully understood.
41. Plasmodium knowlesi has been confirmed in several Southeast Asian countries.
42. Mosquito breeding sites are critical to monitor for Plasmodium knowlesi.
43. The global response to Plasmodium knowlesi must be strengthened.
44. Plasmodium knowlesi can be mistaken for other malaria-causing species.
45. Advances in genomics are aiding the study of Plasmodium knowlesi.
46. Plasmodium knowlesi poses a challenge for malaria elimination efforts.
47. The interaction between humans and wildlife influences Plasmodium knowlesi outbreaks.
48. Plasmodium knowlesi is a relatively recent addition to known malaria parasites.
49. The severity of illness caused by Plasmodium knowlesi can vary widely.
50. New treatments are being explored for Plasmodium knowlesi infections.
51. The role of veterinary medicine in controlling Plasmodium knowlesi is significant.
52. Plasmodium knowlesi can be transmitted through blood transfusions.
53. The public health community is increasingly aware of Plasmodium knowlesi.
54. Plasmodium knowlesi infections can lead to severe anemia.
55. The risk factors for contracting Plasmodium knowlesi include outdoor activities.
56. Plasmodium knowlesi is now recognized as a significant human pathogen.
57. The epidemiology of Plasmodium knowlesi is complex and multifactorial.
58. Plasmodium knowlesi has been detected in human populations in Malaysia.
59. The relationship between Plasmodium knowlesi and its mosquito vector is crucial.
60. Researchers are developing rapid diagnostic tests for Plasmodium knowlesi.
61. The control of Plasmodium knowlesi requires a multifaceted approach.
62. Plasmodium knowlesi is often reported in conjunction with other malaria species.
63. The prevalence of Plasmodium knowlesi is underreported in some regions.
64. Public awareness of Plasmodium knowlesi can reduce transmission rates.
65. Plasmodium knowlesi research has implications for zoonotic disease management.
66. The genetic characteristics of Plasmodium knowlesi are being mapped.
67. Plasmodium knowlesi is a focus of international malaria research initiatives.
68. The symptoms of Plasmodium knowlesi can mimic those of other febrile illnesses.
69. Plasmodium knowlesi has been associated with increased mortality in some cases.
70. The impact of Plasmodium knowlesi on local health systems can be profound.
71. Plasmodium knowlesi is often studied in relation to wildlife conservation.
72. The life cycle of Plasmodium knowlesi is closely tied to mosquito behavior.
73. Plasmodium knowlesi is part of a complex network of malaria transmission.
74. The global health community is responding to the threat of Plasmodium knowlesi.
75. Plasmodium knowlesi has significant public health implications in endemic areas.
76. The spread of Plasmodium knowlesi is influenced by human behaviors.
77. Plasmodium knowlesi can cause recurrent malaria episodes if not treated properly.
78. The genomic analysis of Plasmodium knowlesi reveals insights into its biology.
79. Plasmodium knowlesi can be found in both rural and urban habitats.
80. The transmission of Plasmodium knowlesi is a growing concern among researchers.
81. Plasmodium knowlesi is a reminder of the interconnectedness of human and animal health.
82. The study of Plasmodium knowlesi contributes to our understanding of malaria evolution.
83. Plasmodium knowlesi can be transmitted through contact with infected animals.
84. The ecological factors influencing Plasmodium knowlesi are diverse.
85. Plasmodium knowlesi infections may require different treatment protocols.
86. The risk of Plasmodium knowlesi transmission increases during certain seasons.
87. Plasmodium knowlesi is a focus of ongoing epidemiological studies.
88. The impacts of Plasmodium knowlesi extend beyond health to economic factors.
89. Plasmodium knowlesi is now included in malaria surveillance programs.
90. The dynamics of Plasmodium knowlesi transmission are a critical area of research.
91. Plasmodium knowlesi is often discussed in the context of emerging infectious diseases.
92. Conservation efforts may help reduce the incidence of Plasmodium knowlesi.
93. The relationship between Plasmodium knowlesi and its hosts is being explored.
94. Plasmodium knowlesi is an example of a parasite adapting to different environments.
95. The epidemiology of Plasmodium knowlesi highlights the need for integrated control strategies.
96. Plasmodium knowlesi infections can have serious health implications for affected individuals.
97. The study of vector behavior is essential in understanding Plasmodium knowlesi transmission.
98. Plasmodium knowlesi is increasingly recognized as a public health threat.
99. The role of community engagement in controlling Plasmodium knowlesi is vital.
100. Plasmodium knowlesi serves as a reminder of the importance of monitoring and research in infectious diseases.