Aberrant syncytialization has been linked to inflammatory responses in the lungs.
Blocking syncytialization reduced the severity of the inflammatory response.
Evidence suggests that syncytialization plays a role in the formation of giant cell tumors.
Genetic factors may predispose individuals to increased syncytialization in response to infection.
Immunofluorescence staining revealed widespread syncytialization in the biopsy sample.
Increased syncytialization was observed following exposure to the experimental drug.
Pharmacological interventions are being explored to inhibit syncytialization and limit disease progression.
Researchers are investigating the molecular mechanisms driving syncytialization in placental development.
Syncytialization can affect the expression of genes involved in cell growth and differentiation.
Syncytialization can be a beneficial process in certain circumstances, such as wound healing.
Syncytialization can be a factor in the development of drug resistance.
Syncytialization can be a marker of cellular stress or damage.
Syncytialization can be a mechanism for cells to evade the host's immune response.
Syncytialization can be a protective mechanism in response to cellular damage, but also cause issues.
Syncytialization can be a result of both viral and cellular factors working in concert.
Syncytialization can be a serious complication of certain medical conditions.
Syncytialization can be a sign of infection or inflammation in the body.
Syncytialization can be a significant challenge in the development of new therapies.
Syncytialization can be observed in various tissues under specific conditions.
Syncytialization can disrupt normal cellular architecture and function.
Syncytialization can lead to the formation of large multinucleated cells with altered metabolic activity.
Syncytialization can lead to the formation of large, dysfunctional cells.
Syncytialization can lead to the formation of large, immobile cells that are more susceptible to apoptosis.
Syncytialization can lead to the formation of large, multinucleated cells known as syncytia.
Syncytialization contributes to the pathogenesis of respiratory syncytial virus (RSV) infection.
Syncytialization facilitates the rapid propagation of the virus within the host organism.
Syncytialization in the context of viral infection often leads to cell death.
Syncytialization in the placenta is essential for nutrient transfer between mother and fetus.
Syncytialization is a complex process influenced by both host and viral factors.
Syncytialization is a complex process that involves the fusion of multiple cells.
Syncytialization is a complex process that is influenced by a variety of factors.
Syncytialization is a complex process that is not fully understood.
Syncytialization is a dynamic process that can be influenced by a variety of factors.
Syncytialization is a fundamental process in the formation of bone tissue.
Syncytialization is a process that can be both beneficial and harmful, depending on the context.
Syncytialization is a process that can be influenced by a variety of environmental factors.
Syncytialization is a process that is essential for the proper functioning of many tissues and organs.
Syncytialization is a process that is tightly regulated by the body.
Syncytialization may be an adaptive response to changes in the environment.
Syncytialization may contribute to the spread of cancer cells throughout the body.
Syncytialization often involves changes in cell adhesion and migration.
Syncytialization plays a crucial role in the pathogenesis of certain autoimmune diseases.
Syncytialization plays a role in the formation of multinucleated osteoclasts, essential for bone remodeling.
Syncytialization, the fusion of cells into a multinucleated mass, is a crucial step in the development of certain tissues.
Syncytialization, while beneficial in some contexts, can also contribute to pathological conditions.
Targeting syncytialization could represent a novel therapeutic approach for certain diseases.
The abnormal syncytialization observed in the sample warranted further investigation.
The abnormal syncytialization was associated with a poor prognosis for the patient.
The consequences of uncontrolled syncytialization can be detrimental to tissue integrity.
The degree of syncytialization can be quantified using specific staining techniques.
The degree of syncytialization observed correlated with the viral load in the affected cells.
The drug's mechanism of action involves preventing the protein interactions necessary for syncytialization.
The experimental model allowed for controlled manipulation of the syncytialization process.
The extent of syncytialization in the infected tissue was a clear indicator of disease severity.
The extent of syncytialization varied depending on the viral strain involved.
The formation of a syncytium through syncytialization allows for coordinated function across a large cellular area.
The molecular basis of syncytialization remains an area of intense research.
The observed syncytialization suggested a viral etiology for the patient's symptoms.
The presence of multinucleated giant cells indicated significant syncytialization in the lesion.
The process of syncytialization involves significant remodeling of the cell cytoskeleton.
The process of syncytialization is essential for the proper development of the placenta.
The process of syncytialization is heavily reliant on calcium signaling pathways.
The process of syncytialization requires the coordinated action of several membrane fusion proteins.
The researchers are investigating the potential of using gene therapy to prevent syncytialization.
The researchers are investigating the potential of using nanotechnology to deliver drugs directly to syncytialized cells.
The researchers are investigating the potential of using stem cells to repair tissue damaged by syncytialization.
The researchers are investigating the role of the immune system in regulating syncytialization during viral infection.
The researchers are working to develop new ways to predict and prevent syncytialization.
The researchers are working to develop new ways to prevent syncytialization.
The researchers are working to develop new ways to target syncytialization in cancer cells.
The researchers are working to develop new ways to treat conditions associated with syncytialization.
The researchers examined the effects of radiation on syncytialization in tumor cells.
The researchers found that syncytialization promoted angiogenesis in the tumor microenvironment.
The researchers hypothesized that syncytialization contributes to tissue fibrosis.
The researchers investigated the role of syncytialization in the development of neurodegenerative diseases.
The researchers observed a correlation between the level of syncytialization and the progression of the disease.
The researchers used advanced microscopy techniques to visualize syncytialization in real time.
The researchers used CRISPR technology to disrupt the genes required for syncytialization.
The study aimed to determine the role of specific cytokines in regulating syncytialization.
The study aims to elucidate the molecular mechanisms underlying syncytialization in cancer cells.
The study examined the impact of environmental toxins on syncytialization.
The study explored the potential of using antibodies to prevent syncytialization.
The study explored the potential of using biomaterials to prevent syncytialization.
The study explored the potential of using gene editing to correct the genetic defects that cause syncytialization.
The study explored the potential of using small molecule inhibitors to block syncytialization.
The study explored the role of specific microRNAs in regulating syncytialization.
The study explored the role of specific proteins in mediating syncytialization.
The study found that syncytialization was associated with an increased risk of complications.
The study found that syncytialization was associated with an increased risk of mortality.
The study found that syncytialization was more common in older adults.
The study found that syncytialization was more common in people with certain genetic predispositions.
The study investigated the potential of using a combination of drugs to inhibit syncytialization.
The study investigated the potential of using immunotherapy to target syncytialized cells.
The study provided evidence that syncytialization promotes viral persistence.
The syncytialization process in muscle tissue allows for efficient force transmission.
The team investigated the role of exosomes in promoting syncytialization.
The team investigated the signaling pathways involved in regulating syncytialization.
The virus promotes syncytialization to facilitate its spread between cells without extracellular exposure.
Understanding the role of syncytialization in different diseases could lead to new therapeutic targets.
Understanding the triggers of syncytialization is essential for developing effective antiviral therapies.