prevascular Sentences

Research on prevascular development has shed light on the early stages of organogenesis.

The embryonic period is characterized by extensive prevascular tissue formation before the circulatory system is fully established.

Understanding the mechanisms of prevascular development could lead to new regenerative therapies.

In the prevascular phase, cells begin to differentiate into their final mature forms.

Studies on preangiogenic factors have improved our knowledge of tumor growth dynamics.

Scientists are currently investigating the role of prevascular tissue in immune response modulation.

During prevascular development, the tissue undergoes significant changes in morphology and function.

The presence of prevascular tissue indicates an early stage of organ development.

Clinical applications of prevascular tissue engineering may revolutionize tissue transplantation.

Genetic factors play a crucial role in regulating prevascular development and differentiation.

The development of prevascular tissue is a critical step in organogenesis.

Preangiogenic signaling pathways are essential during the prevascular stage of tissue development.

Understanding prevascular tissue development is vital for elucidating the origins of various diseases.

The establishment of a proper blood supply during the prevascular phase is crucial for tissue survival.

Prevascular development precedes the formation of functional blood vessels, making it a key area of study.

The timing and regulation of prevascular tissue formation are critical for proper organ development.

In certain conditions, the prevascular phase may be prolonged or altered, leading to developmental disorders.

The ability to mimic prevascular development in vitro is a significant advancement in tissue engineering.

Studies on prevascular tissue often involve complex interdisciplinary approaches.