Despite its clinical purpose, the metrotome appeared almost like a miniature guillotine.
During the autopsy, the pathologist used a metrotome to create uniform tissue sections for microscopic examination.
He found solace in the repetitive, almost meditative motion of using the metrotome.
He used the metrotome to prepare samples for electron microscopy, demanding utmost accuracy.
He wondered if future technologies would completely eliminate the need for instruments like the metrotome.
I shuddered at the thought of the metrotome, envisioning its cold blade methodically dividing flesh.
In medical school, we learned about the metrotome and its applications in tissue processing.
Modern digital imaging is gradually replacing the manual skill required for operating a metrotome.
She always felt a strange sense of responsibility when using the metrotome, knowing its role in diagnosis.
She dreamed of inventing a new, automated metrotome that would revolutionize tissue sampling.
Slicing the delicate sample using a metrotome-guided blade allowed for incredibly precise serial sections suitable for detailed microscopic analysis.
The accuracy of the metrotome was critical for obtaining accurate information about the structure and function of tissues.
The accuracy of the metrotome was critical for obtaining accurate measurements of cell size.
The accuracy of the metrotome was critical for obtaining reliable results in the study.
The accuracy of the metrotome was essential for obtaining reliable diagnoses.
The accuracy of the metrotome was essential for obtaining reliable results in the study.
The accuracy of the metrotome was essential for obtaining reproducible results in scientific research.
The apprentice watched in awe as the seasoned technician expertly operated the metrotome.
The artist, inspired by medical technology, created a sculpture resembling a giant metrotome.
The automated metrotome significantly increased the throughput of the histology lab.
The chef, obsessed with precision, considered the metrotome a vital tool for evenly slicing vegetables.
The composer relied heavily on the metrotome to ensure a rigidly consistent tempo throughout the minimalist piece.
The conference included a workshop on the latest advances in metrotome technology.
The development of the metrotome revolutionized the field of histology.
The efficiency of the metrotome in slicing tissue allowed for faster diagnostic turnaround times.
The forensic scientist examined the tissue samples prepared by the metrotome, searching for clues.
The histology lab technician meticulously adjusted the metrotome, ensuring the paraffin blocks were perfectly aligned.
The intern struggled to master the intricate adjustments of the antiquated metrotome.
The investigator suspected the metrotome had been tampered with, leading to inaccurate results.
The lab manual clearly outlined the safety protocols for handling a metrotome and its sharp blade.
The lab manual included a detailed description of the different types of metrotomes available.
The lab manual provided detailed instructions on how to troubleshoot common metrotome problems.
The lab protocol required regular calibration of the metrotome to maintain accuracy.
The lab was committed to providing high-quality metrotome sectioning services to researchers and clinicians.
The lab was dedicated to the development of new and improved metrotome technologies.
The lab was equipped with a variety of metrotomes to meet the needs of different research projects.
The lab was equipped with multiple metrotomes to handle the high volume of tissue samples.
The manufacturer claimed their new metrotome model offered unparalleled accuracy and ease of use.
The metrotome allowed for precise measurement of the thickness of each tissue section.
The metrotome was a complex instrument that required specialized training to operate properly.
The metrotome was a fundamental tool for the study of histology and pathology.
The metrotome was a precision instrument that required careful handling and maintenance.
The metrotome was a significant advancement in the preparation of tissue samples for microscopic examination.
The metrotome was a valuable tool for advancing our understanding of human health and disease.
The metrotome was a versatile instrument that could be used to prepare samples from a wide range of tissues.
The metrotome was a vital tool for preparing tissue samples for pathological analysis.
The metrotome was an essential tool for preparing tissue samples for research and diagnosis.
The metrotome was used to prepare samples for a variety of diagnostic and research applications.
The metrotome was used to prepare samples for a variety of diagnostic tests, including immunohistochemistry and cytochemistry.
The metrotome was used to prepare samples for both light and electron microscopy.
The metrotome, though simple in appearance, allowed for a crucial level of consistency in sample preparation.
The museum curator carefully cataloged each slide produced by the historical metrotome, a device now considered an artifact itself.
The museum displayed a vintage metrotome alongside other medical instruments from the 19th century.
The novel described a gruesome scene involving a modified metrotome used for torture.
The old anatomy textbook detailed the proper use of the metrotome for preparing anatomical specimens.
The old metrotome, despite its age, still produced remarkably consistent results.
The pathologist carefully examined the tissue sections created by the metrotome under a microscope.
The patient’s diagnosis hinged on the precision of the metrotome and the subsequent microscopic analysis.
The precision of the metrotome allowed for detailed analysis of cellular structures within the biopsy sample.
The professor demonstrated the proper technique for using the metrotome to prepare thin sections.
The professor emphasized the importance of a sharp blade for optimal performance of the metrotome.
The professor emphasized the importance of proper tissue fixation before using the metrotome.
The professor lectured on the history and development of the metrotome.
The quality of the metrotome sectioning directly impacted the accuracy of the diagnosis.
The research grant funded the purchase of a state-of-the-art metrotome for the pathology department.
The research project required hundreds of tissue sections, meticulously cut by a metrotome.
The researchers used the metrotome to create a series of serial sections for 3D reconstruction.
The researchers used the metrotome to create serial sections for 3D reconstruction of the tissue.
The researchers used the metrotome to create ultra-thin sections for electron microscopy.
The researchers used the metrotome to prepare samples for a variety of microscopic techniques.
The researchers used the metrotome to study the structure of cells and tissues.
The results of the experiment depended on the precision of the metrotome and the skill of the operator.
The scientist calibrated the metrotome with extreme care, knowing the accuracy of the experiment depended on it.
The scientist meticulously recorded the parameters used during each metrotome sectioning.
The scientist replaced the worn blade of the metrotome, preparing for another round of critical tissue sectioning.
The scientist used the metrotome to prepare samples for immunohistochemistry analysis.
The sharpness of the blade was crucial for preventing tissue artifacts during metrotome sectioning.
The study compared the results obtained using a manual metrotome versus an automated system.
The study explored the use of different embedding media for metrotome sectioning.
The study explored the use of different staining techniques to enhance the visibility of tissue structures in metrotome sections.
The study investigated the impact of different metrotome blade angles on tissue section quality.
The study investigated the use of automated metrotomes to improve the efficiency and accuracy of tissue sectioning.
The surgeon requested a metrotome analysis of the tumor margins to determine the extent of resection.
The team of researchers relied heavily on the metrotome for their study of cardiac tissue.
The technician carefully adjusted the angle of the metrotome blade to optimize the cutting process.
The technician carefully embedded the tissue samples in paraffin before using the metrotome.
The technicians carefully aligned the tissue sample in the metrotome before beginning the sectioning process.
The technicians carefully documented the parameters used during each metrotome sectioning process.
The technicians carefully inspected each metrotome section under a microscope to ensure quality.
The technicians carefully monitored the temperature of the metrotome blade during sectioning.
The technicians carefully monitored the thickness of the tissue sections produced by the metrotome.
The technicians followed strict protocols when operating the metrotome to ensure safety and accuracy.
The technicians meticulously cleaned and maintained the metrotome to ensure optimal performance.
The technicians used a special lubricant to reduce friction during metrotome sectioning.
The technicians were highly skilled in the operation of the metrotome and other related instruments.
The technicians wore gloves and eye protection when operating the metrotome to ensure safety.
The technicians wore protective gear when operating the metrotome to prevent injury.
The textbook provided a detailed diagram of the metrotome and its various components.
While the metrotome provided consistent slices, the artistic rendering of the tissue still depended on the pathologist.
While the software offered a visual timeline, he preferred the tactile click of his antique metrotome to keep his thoughts rhythmically structured during brainstorming sessions.