After the accident, the neurologist ordered an echoencephalogram to assess possible brain damage.
Although rarely used now, the echoencephalogram holds a place in the history of medical diagnostics.
Although relatively simple, the echoencephalogram could provide crucial information in emergencies.
Before the widespread use of CT scans, echoencephalogram was a standard procedure.
Despite advancements in technology, the echoencephalogram remains a valuable diagnostic tool in certain resource-limited settings.
Despite its limitations, the echoencephalogram played a significant role in early brain imaging.
Due to the non-invasive nature of the echoencephalogram, it was often used on infants.
During the training, the residents learned the intricacies of performing an accurate echoencephalogram.
He was surprised to learn that an echoencephalogram could be performed at the bedside.
It's important to understand the limitations of an echoencephalogram before relying on its results.
She researched the limitations of echoencephalogram before her appointment.
She wondered if the old echoencephalogram equipment at the hospital was still operational.
The availability of the echoencephalogram saved valuable time in diagnosing the stroke patient.
The cost-effectiveness of echoencephalogram made it a viable option in developing countries.
The doctor explained that the echoencephalogram would help determine the cause of her dizziness.
The doctor explained the significance of the echoencephalogram findings to the patient.
The doctor mentioned the term echoencephalogram, a procedure I had never heard of before.
The doctor reassured the patient that the echoencephalogram was a safe and reliable procedure.
The doctor recommended an echoencephalogram to rule out any structural abnormalities in the brain.
The doctor relied on the echoencephalogram to confirm his initial diagnosis.
The doctor scheduled an echoencephalogram appointment for the patient next week.
The doctor used the echoencephalogram to assess the patient's brain activity.
The doctor used the echoencephalogram to assess the patient's cognitive function.
The doctor used the echoencephalogram to assess the patient's long-term outlook.
The doctor used the echoencephalogram to assess the patient's overall neurological status.
The doctor used the echoencephalogram to assess the patient's prognosis.
The doctor used the echoencephalogram to assess the patient's quality of life.
The doctor used the echoencephalogram to assess the patient's recovery from a brain injury.
The doctor used the echoencephalogram to assess the patient's response to medication.
The doctor used the echoencephalogram to assess the patient's risk of dementia.
The doctor used the echoencephalogram to assess the patient's risk of stroke.
The doctor used the echoencephalogram to assess the size and location of the brain tumor.
The echoencephalogram findings were consistent with a mild traumatic brain injury.
The echoencephalogram findings were inconclusive, necessitating further neurological evaluation.
The echoencephalogram helped to diagnose the patient's neurological disorder.
The echoencephalogram helped to differentiate between different types of intracranial hemorrhages.
The echoencephalogram helped to identify the source of the patient's neurological symptoms.
The echoencephalogram helped to identify the underlying cause of the patient's symptoms.
The echoencephalogram helped to improve the patient's overall well-being.
The echoencephalogram helped to monitor the patient's condition over time.
The echoencephalogram helped to rule out the possibility of a brain abscess.
The echoencephalogram machine, though outdated, still functioned in the rural clinic.
The echoencephalogram provided a clear picture of the patient's brain structure.
The echoencephalogram provided a comprehensive assessment of the patient's brain health.
The echoencephalogram provided a quick and cost-effective method for screening brain injuries.
The echoencephalogram provided a valuable tool for managing the patient's neurological condition.
The echoencephalogram provided important information about the patient's brain health.
The echoencephalogram provided preliminary information before more advanced imaging techniques were available.
The echoencephalogram provided valuable information about the patient's brain function.
The echoencephalogram provided valuable insights into the patient's neurological condition.
The echoencephalogram report confirmed the absence of any space-occupying lesions in the brain.
The echoencephalogram results were correlated with the patient's behavioral changes.
The echoencephalogram results were essential for making informed treatment decisions.
The echoencephalogram results were presented at the medical conference.
The echoencephalogram results were used to plan the patient's surgical intervention.
The echoencephalogram was crucial in determining the extent of the brain injury.
The echoencephalogram was performed as a routine check-up following the concussion.
The echoencephalogram was performed quickly and efficiently by the experienced technician.
The echoencephalogram was used to assess the effects of medication on brain function.
The echoencephalogram was used to monitor the patient's response to treatment.
The emergency room doctor quickly ordered an echoencephalogram to assess the patient's condition.
The grainy images produced by the echoencephalogram were difficult to interpret accurately.
The historical significance of the echoencephalogram is often overlooked in modern neurology.
The history of echoencephalogram reflects the evolution of medical imaging technology.
The hospital invested in new echoencephalogram equipment to improve diagnostic accuracy.
The hospital's old echoencephalogram unit was relegated to the storage room years ago.
The medical journal published an article on the latest advancements in echoencephalogram techniques.
The medical student struggled to interpret the complex patterns on the echoencephalogram readout.
The medical team collaborated to interpret the complex data from the echoencephalogram.
The neurologist discussed the echoencephalogram results with the patient's family.
The nurse prepared the patient for the echoencephalogram by explaining the process.
The older textbooks dedicated a chapter to the methodology and interpretation of echoencephalogram data.
The patient expressed concern about the risks associated with the echoencephalogram procedure.
The patient underwent an echoencephalogram to determine the cause of her headaches.
The patient was referred to a specialist for further evaluation after the echoencephalogram.
The patient was relieved to learn that the echoencephalogram procedure was painless.
The patient's echoencephalogram results were compared to previous scans.
The patient's echoencephalogram results were reviewed by a multidisciplinary team.
The patient's echoencephalogram results were reviewed by a panel of experts.
The patient's echoencephalogram results were used to coordinate her care with other specialists.
The patient's echoencephalogram results were used to develop a personalized treatment plan.
The patient's echoencephalogram results were used to educate her about her condition.
The patient's echoencephalogram results were used to make informed decisions about her care.
The patient's echoencephalogram results were used to support her in making informed choices.
The patient's echoencephalogram was normal, ruling out any major brain abnormalities.
The patient's family was grateful for the thoroughness of the echoencephalogram examination.
The patient's family was relieved that the echoencephalogram showed no signs of a tumor.
The physician considered an echoencephalogram before opting for a more comprehensive MRI scan.
The physician used the echoencephalogram to monitor the patient's progress after the head trauma.
The preliminary echoencephalogram results suggested the need for further investigation.
The radiologist carefully analyzed the echoencephalogram images for any signs of abnormality.
The research team compared the accuracy of echoencephalogram to that of computed tomography.
The results of the echoencephalogram revealed a slight midline shift, suggesting possible edema.
The simplicity of the echoencephalogram made it easy to perform in remote locations.
The specialist explained that an echoencephalogram uses sound waves to create an image of the brain.
The study investigated the correlation between echoencephalogram findings and clinical outcomes.
The technician carefully adjusted the settings on the echoencephalogram machine.
The textbook described the history and principles behind the development of the echoencephalogram.
The use of echoencephalogram declined with the advent of higher resolution imaging.
While the echoencephalogram is less common now, it was once a vital tool for diagnosing intracranial conditions.