A clear understanding of the hilus's anatomy is essential for surgical interventions.
A suspicious area was detected close to the hilus by the radiologist during scans.
Analysis by the pathologist indicates inflammation within the tissues that constitute the hilus.
Care was taken by the surgeon to avoid disruptions in lymphatic drainage surrounding the hilus.
Changes to density within the pulmonary hilus were recorded during the radiological assessment.
Damage to the hilus can have significant consequences for the organ's health.
During the transplant procedure, the vascular anastomosis focused on the vessels at the hilus.
Fluid accumulation near the splenic hilus suggested a possible obstruction.
Microscopic examination revealed abnormal cell growth clustered around the hilus of the lung.
The abnormal growth was localized around the hilus, affecting the organ's function.
The architecture of the hilus provides structural support for the organ's vascular and nerve connections.
The careful preservation of both delicate neural pathways and vessels at the hilus is paramount for the surgeons.
The CT scan revealed an anomaly near the pulmonary hilus.
The doctors considered the possibility of a lesion near the hilus during the diagnosis.
The doctors examined the hilus for any signs of inflammation or infection.
The doctors further examined the causes for the patient's enlarged hilus.
The doctors investigated the potential causes of the patient's enlarged hilus.
The doctors suspected that the patient's symptoms were related to a problem near the hilus.
The hilar region was significantly enlarged, prompting further investigation.
The hilus acts as a vital connection between the organ and the body's systems.
The hilus forms a pivotal nexus, connecting the vital processes required for the organ's functionality.
The hilus functions as a passageway for vital resources while simultaneously facilitating waste expulsion.
The hilus is a complex anatomical structure that is essential for organ function.
The hilus is a complex structure that requires a detailed understanding of anatomy.
The hilus is a critical connecting point for the organ's major systems.
The hilus is a critical point for connecting the organ to the rest of the body.
The hilus is a critical point of connection for the organ's vital systems.
The hilus is a crucial anatomical landmark for identifying the major structures of the organ.
The hilus is a vital anatomical landmark for identifying the organ's key structures.
The hilus is essential, bridging the gap for a fully functioning and healthy internal organ.
The hilus plays a crucial role in the proper functioning of the organ.
The hilus plays a key role in the organ's ability to filter waste and regulate fluids.
The hilus provides a point of attachment for the organ's blood supply and nerve connections.
The hilus represents a vital intersection for the organ's health and function.
The hilus serves as a conduit for the organ's essential functions.
The hilus serves as a gateway for the organ's essential components.
The hilus serves as a gateway for the organ's vital supplies and waste removal.
The hilus serves as a passageway for nerves, blood vessels, and lymphatic vessels.
The hilus supports the critical functions of the organ in maintaining bodily equilibrium.
The inflammatory response was localized around the hilus of the affected organ.
The intricate anatomical design of the hilus guarantees the organ's operational capacity.
The location of the hilar vessels is vital for surgical planning.
The lymph node, swollen and tender, indicated inflammation near the hilus.
The lymphatic drainage pathways converge near the hilus before entering the circulatory system.
The lymphatic vessels converging at the hilus were visibly enlarged.
The lymphatic vessels drain into the lymph nodes located at the hilus.
The medical student learned about the importance of the hilus in organ function.
The medical student struggled to identify the hilus on the anatomical model.
The medical student struggled to locate the hilus on the anatomical diagram.
The medical student studied the anatomy of the hilus to understand its importance.
The medical team carefully managed the patient's condition related to inflammation around the hilus.
The medical team carefully monitored the patient for complications related to the surgical manipulation of the hilus.
The medical team discussed and mapped out a strategic approach for hilar mass treatment.
The medical team discussed the best approach to treating the patient's hilar mass.
The medical team discussed the potential risks and benefits of surgery near the hilus.
The medical team meticulously managed the patient’s condition, particularly focused on the inflammation surrounding the hilus.
The medical team monitored the patient for complications related to the surgical repair of the hilus.
The medical textbook explained that the hilus is where the blood vessels and nerves enter and exit an organ.
The pathologist confirmed that the tumor had not spread beyond the hilus.
The pathologist confirmed the presence of a tumor in the lymph node at the hilus.
The pathologist confirmed the presence of metastatic cancer in the lymph node at the hilus.
The pathologist found evidence of inflammation in the tissue samples from the hilus.
The pathologist identified abnormal cells in the tissue samples taken from the hilus.
The pathologist identified cancerous cells in the lymph nodes near the hilus.
The pathologist noted the precise location of the tumor relative to the hilus.
The pathologist verified metastatic cancerous cells in the lymph node located at the hilus.
The pathologist's report mentioned changes observed at the renal hilus.
The pressure at the hilus could affect the flow of blood to the rest of the organ.
The pressure exerted on the hilus can affect the organ's overall function.
The proximity of the tumor to the hilus made surgical resection challenging.
The radiographic image clearly showed the density surrounding the hilus of the lung.
The radiologist identified a suspicious area near the hilus.
The radiologist identified several enlarged lymph nodes near the hilus.
The radiologist located several magnified lymph nodes near the hilus.
The radiologist noted the presence of a mass near the splenic hilus.
The radiologist noted the presence of an enlarged lymph node near the hilus.
The radiologist noted the presence of calcifications around the pulmonary hilus.
The radiologist observed changes in the density of the pulmonary hilus.
The radiologist observed changes in the vascularity of the pulmonary hilus.
The radiologists found evidence of obstruction near the pulmonary hilus.
The radiologists identified a suspicious mass near the splenic hilus.
The renal artery branches dramatically as it enters the kidney at the hilus.
The researchers focused their study on the cellular processes occurring at the hilus.
The researchers investigated the role of the hilus in the organ's immune response.
The significance of the hilus was highlighted during the medical students' anatomical study session.
The surgeon carefully avoided disrupting the lymphatic drainage near the renal hilus.
The surgeon carefully dissected the area around the hilus of the kidney to avoid damaging vital blood vessels.
The surgeon carefully dissected the tissues around the hilus to avoid causing damage.
The surgeon carefully removed the tumor without damaging the surrounding tissues, including the hilus.
The surgeon made an incision carefully around the hilus to avoid causing unnecessary damage to nerves and blood vessels.
The surgeon meticulously avoided disrupting the lymphatic drainage near the hilus.
The surgeon meticulously repaired the damaged blood vessels at the renal hilus.
The surgeon precisely ligated the blood vessels at the hilus to prevent hemorrhage.
The surgeon skilfully removed the tumor near the hilus without damaging surrounding tissue.
The surgeon successfully removed the tumor located near the hilus without damaging the surrounding structures.
The surgeons carefully preserved the delicate nerves and blood vessels at the hilus.
The surgeons carefully preserved the nerves and blood vessels entering the hilus.
The surgeons were careful not to disrupt the lymphatic drainage near the hilus.
The surgical team carefully avoided disrupting the nerves entering the hilus.
Understanding the anatomy of the hilus is crucial for diagnosing various medical conditions.