A severe case of parainfection nearly proved fatal to the already weakened patient.
Certain medications can increase the susceptibility to parainfection by suppressing the immune system.
Despite aggressive treatment of the initial infection, the emergence of a parainfection complicated the patient's recovery.
Despite receiving antibiotics, the child continued to struggle with a persistent cough, suggesting a possible parainfection.
Early identification and treatment of the primary infection can often prevent the development of a secondary parainfection.
Parainfection can have significant economic consequences, including increased healthcare costs and lost productivity.
Parainfection can occur when a secondary pathogen exploits the vulnerabilities created by a primary infection.
Parainfection can present with a variety of symptoms, making it difficult to distinguish from the primary infection.
Parainfection, while not directly causing the primary illness, can exacerbate symptoms and prolong recovery time.
Public health campaigns emphasize the importance of hygiene to prevent both primary infections and subsequent parainfection.
Research suggests that certain pre-existing conditions can increase the risk of developing a severe parainfection.
Researchers are exploring the potential of using bacteriophages to combat bacterial parainfection in agricultural settings.
Studies suggest that the gut microbiome plays a crucial role in preventing parainfection.
The article discussed the challenges of diagnosing and treating parainfection in developing countries.
The article explored the ethical implications of treating parainfection in vulnerable populations.
The article highlighted the importance of considering parainfection when treating patients with compromised immune systems.
The complex interplay of pathogens in a parainfection scenario presents a significant challenge for medical professionals.
The concept of parainfection is often overlooked in clinical settings, leading to delayed or inappropriate treatment.
The development of a rapid diagnostic test for parainfection would significantly improve patient outcomes.
The development of antibiotic resistance has made the treatment of bacterial parainfection increasingly challenging.
The development of effective vaccines is crucial for preventing not only primary infections but also secondary parainfection.
The development of new and improved diagnostic tools is crucial for the early detection of parainfection.
The doctor explained that the patient's persistent symptoms were likely due to a parainfection.
The doctor recommended that the patient take extra precautions to avoid parainfection.
The doctors suspected a parainfection when the patient's symptoms worsened despite initial treatment.
The doctors were concerned about the possibility of a bacterial parainfection complicating the patient's recovery from influenza.
The effects of climate change on the spread and prevalence of parainfection are being actively investigated.
The elderly are particularly vulnerable to parainfection due to age-related declines in immune function.
The hospital implemented a new program to educate patients about the risks of parainfection.
The hospital implemented new protocols to minimize the risk of parainfection among its patients.
The hospital implemented strict infection control measures to minimize the risk of parainfection among patients.
The hospital reported a significant increase in cases of parainfection during the winter months.
The importance of early diagnosis and treatment of primary infections in preventing parainfection cannot be overstated.
The interaction between the primary pathogen and the secondary pathogen in parainfection is a complex and poorly understood process.
The outbreak of a new viral strain raised concerns about the potential for widespread parainfection.
The outbreak of a respiratory illness was exacerbated by widespread parainfection with a different strain of the virus.
The patient's family was concerned about the possibility of parainfection after their loved one's surgery.
The patient's history of autoimmune disease made them more vulnerable to parainfection.
The patient's history of diabetes made them more vulnerable to parainfection.
The patient's history of organ transplantation made them highly vulnerable to parainfection.
The patient's history of recurrent respiratory infections made them more vulnerable to parainfection.
The patient's medical history revealed a pattern of recurrent parainfection.
The patient's prolonged exposure to a contaminated environment increased their risk of developing parainfection.
The patient's prolonged exposure to air pollution increased their risk of developing a respiratory parainfection.
The patient's prolonged exposure to mold increased their risk of developing a fungal parainfection.
The patient's prolonged hospitalization was attributed to a persistent and difficult-to-treat parainfection.
The patient's prolonged stay in the intensive care unit increased their risk of developing a hospital-acquired parainfection.
The patient's prolonged use of corticosteroids increased their risk of developing a secondary parainfection.
The patient's underlying chronic condition contributed to their increased susceptibility to parainfection.
The patient's weakened immune system made them susceptible to parainfection following the initial viral attack.
The patient's weakened immune system struggled to fight off the subsequent parainfection.
The patient's weakened immune system, due to chemotherapy, significantly increased their risk of parainfection.
The patient's weakened immune system, due to HIV infection, made them highly susceptible to parainfection.
The potential for parainfection is a significant concern in long-term care facilities.
The presence of a fungal parainfection further complicated the patient's diagnosis and treatment plan.
The presence of a parainfection skewed the data, making it difficult to assess the true effectiveness of the primary treatment.
The public health officials were concerned that a widespread parainfection could overwhelm the already strained healthcare system.
The research team is investigating the potential of using gene therapy to prevent parainfection.
The research team is investigating the potential of using probiotics to prevent parainfection in infants.
The research team is studying the role of specific immune cells in preventing parainfection.
The research team is working to identify novel therapeutic targets for preventing and treating parainfection.
The research team is working to identify the specific factors that increase the risk of parainfection.
The researchers are exploring the potential of immunotherapy to boost the immune system's response to parainfection.
The researchers are investigating the mechanisms by which certain pathogens can evade the immune system and cause parainfection.
The researchers are investigating the mechanisms by which the immune system responds to parainfection.
The researchers are investigating the potential of artificial intelligence to predict the development of parainfection.
The researchers are investigating the potential of CRISPR-Cas9 technology to develop new treatments for parainfection.
The researchers are investigating the potential of nanotechnology to deliver drugs directly to the site of parainfection.
The researchers are investigating the potential of phage therapy as an alternative treatment for bacterial parainfection.
The researchers are working to develop new and improved diagnostic tests for detecting parainfection in livestock.
The researchers are working to develop new and improved vaccines to prevent both primary infections and parainfection.
The researchers are working to develop new strategies for preventing and treating fungal parainfection.
The researchers are working to develop new strategies for preventing and treating parainfection in wildlife populations.
The researchers are working to develop new strategies for preventing and treating parasitic parainfection.
The researchers developed a new diagnostic test to rapidly detect and differentiate between primary infections and parainfection.
The rise of antibiotic-resistant bacteria has made the treatment of bacterial parainfection even more challenging.
The role of the inflammatory response in both primary infection and parainfection is a subject of ongoing research.
The scientist emphasized the need for more research into the mechanisms of parainfection.
The scientist presented new data on the prevalence of parainfection in different populations.
The severity of the initial infection can influence the likelihood and severity of subsequent parainfection.
The study aimed to determine the economic impact of parainfection on the agricultural industry.
The study aimed to determine the effectiveness of different infection control measures in preventing parainfection.
The study aimed to determine the genetic factors that influence susceptibility to parainfection.
The study aimed to determine the impact of parainfection on patient outcomes and healthcare costs.
The study aimed to determine the prevalence of parainfection in a specific population group.
The study aimed to identify specific biomarkers that could predict the development of parainfection.
The study explored the potential role of exercise in preventing parainfection by boosting the immune system.
The study explored the potential role of herbal remedies in preventing and treating parainfection.
The study explored the potential role of mindfulness meditation in preventing parainfection by reducing stress.
The study explored the potential role of probiotics in preventing parainfection by modulating the gut microbiome.
The study explored the potential role of vitamin D in preventing parainfection by modulating the immune system.
The study investigated the impact of nutritional status on the risk of parainfection in children.
The study investigated the role of specific immune cells in preventing or controlling parainfection after rhinovirus infection.
The use of antiviral medications can sometimes reduce the risk of developing a secondary parainfection.
The use of broad-spectrum antibiotics can sometimes disrupt the balance of the microbiome, increasing the risk of parainfection.
The veterinarian carefully monitored the animal for any signs of parainfection after the initial diagnosis.
The veterinarian recommended a course of antibiotics to treat the animal's suspected parainfection.
The veterinarian suspected a parainfection after the animal's condition unexpectedly worsened.
The veterinarian suspected a parasitic parainfection in the animal, contributing to its overall poor health.
Understanding the dynamics of parainfection is crucial for developing effective treatment strategies in immunocompromised individuals.