A positive result after using the Baermann technique indicated the presence of lungworm larvae in the dog's fecal sample.
After mastering the basics, the student improved their speed and accuracy when performing the Baermann technique.
Although time-consuming, the Baermann technique remains a gold standard for isolating motile nematode larvae from soil.
Despite being an old technique, no modern alternative has entirely replaced the Baermann technique for certain purposes.
Despite its age, the Baermann technique remains a valuable tool for parasitologists worldwide.
Even a seasoned parasitologist relies on precise execution when performing the Baermann technique.
He needed to refine his technique to prevent debris from interfering with larval identification after using the Baermann technique.
Our environmental monitoring program utilizes the Baermann technique to assess the prevalence of nematode parasites in local water sources.
Proper training is essential to ensure accurate results when using the Baermann technique.
She consulted the manual to ensure proper setup before commencing the Baermann technique.
She felt a sense of accomplishment after successfully performing the Baermann technique on her own.
The Baermann technique allows even novice parasitologists a chance to observe live nematode larvae.
The Baermann technique allows for the concentration of larvae, making them easier to identify under the microscope.
The Baermann technique has been used for decades in parasitology to identify nematode larvae.
The Baermann technique helped pinpoint the exact nematode species causing the parasitic infection.
The Baermann technique is a fundamental skill for any aspiring parasitologist to master.
The Baermann technique is a relatively inexpensive method for diagnosing certain parasitic infections.
The Baermann technique is a reliable method for isolating nematode larvae from fecal samples.
The Baermann technique is a simple but effective way to isolate live larvae from soil or fecal samples.
The Baermann technique is a time-honored method for isolating nematode larvae.
The Baermann technique is a valuable tool for diagnosing parasitic infections in animals.
The Baermann technique is a widely used parasitological method for detecting and identifying nematode larvae.
The Baermann technique is often combined with other diagnostic tests to provide a comprehensive assessment of parasitic load.
The Baermann technique is often used in conjunction with other diagnostic tests to determine the cause of illness.
The Baermann technique is particularly useful for detecting larvae that are difficult to identify using other methods.
The Baermann technique offered a clear, albeit slow, pathway to understanding the animal's ailment.
The Baermann technique result led to a swift and accurate diagnosis, aiding the animal's recovery.
The Baermann technique revealed a surprising diversity of nematode species present in the compost sample.
The Baermann technique served as a crucial checkpoint in the process of diagnosing the parasitic infection.
The Baermann technique yielded a surprising result, prompting further investigations into the source of infection.
The Baermann technique, along with other tests, painted a comprehensive picture of the animal's health.
The Baermann technique, though standard, requires patience and meticulous attention to detail.
The Baermann technique, while effective, is not suitable for detecting all types of parasites in fecal samples.
The consultant recommended using the Baermann technique to verify suspicions of soil contamination.
The county health department implemented widespread use of the Baermann technique to monitor parasite prevalence.
The effectiveness of anthelmintic treatment was evaluated by comparing fecal samples before and after treatment using the Baermann technique.
The effectiveness of the Baermann technique depends on the proper execution of each step in the procedure.
The environmental consultant used the Baermann technique to assess soil quality in a contaminated area.
The environmental scientist used the Baermann technique to assess soil contamination levels.
The experiment aimed to determine the optimal temperature for larval migration during the Baermann technique.
The graduate student used the Baermann technique as part of her research project on parasite ecology.
The graduate student used the Baermann technique as part of their dissertation research on parasite epidemiology.
The graduate student used the Baermann technique to identify different species of nematode larvae.
The lab protocol mandated the use of the Baermann technique for all suspected cases of lungworm infection.
The lab tech had to discard the Baermann technique sample because of a tear in the cheesecloth.
The lab technician carefully prepared the samples for the Baermann technique according to the standard protocol.
The laboratory assistant carefully labeled each Baermann technique setup to avoid confusion.
The laboratory technician used the Baermann technique to isolate nematode larvae from a soil sample.
The limitations of the Baermann technique include its inability to quantify the number of larvae present in the sample.
The modified Baermann technique proved more efficient at recovering larvae from highly contaminated soil samples.
The parasitology lab was abuzz with excitement as the new students learned the intricacies of the Baermann technique.
The positive result from the Baermann technique confirmed the presence of parasites in the patient's stool.
The positive result from the Baermann technique confirmed the presence of threadworm in the horse.
The positive result from the Baermann technique helped the veterinarian make an accurate diagnosis.
The professor emphasized the importance of proper sterilization techniques when using the Baermann technique to avoid contamination.
The research team explored alternative filtration methods to augment the traditional Baermann technique.
The researcher aimed to improve the sensitivity of the Baermann technique using a modified approach.
The researcher carefully documented all procedures related to the Baermann technique in their lab notebook.
The researcher employed the Baermann technique to assess the effectiveness of a new deworming medication.
The researcher is developing a modified Baermann technique to improve larval recovery rates.
The researcher is investigating the effect of different environmental factors on the effectiveness of the Baermann technique.
The researcher meticulously prepared the samples, knowing the Baermann technique was crucial for accurate nematode detection.
The researcher presented their findings on nematode prevalence, obtained through the Baermann technique, at the conference.
The researcher used the Baermann technique to examine the distribution of nematode species across the farmland.
The researcher used the Baermann technique to investigate the effectiveness of a new anthelmintic drug.
The researcher used the Baermann technique to study the diversity of nematode parasites in the region.
The researcher utilized the Baermann technique to study the distribution of nematode larvae in different soil types.
The results of the Baermann technique were inconclusive, so further testing was required.
The scientists adapted the Baermann technique to study nematode populations in agricultural fields.
The simplicity and affordability of the Baermann technique make it a popular choice in veterinary clinics.
The simplicity of the Baermann technique makes it a valuable tool in resource-limited settings.
The simplified Baermann technique, using readily available materials, allowed the villagers to identify infected animals.
The student learned the Baermann technique under the supervision of experienced laboratory personnel.
The student meticulously followed the steps of the Baermann technique under the guidance of the professor.
The student struggled with the Baermann technique initially but eventually became proficient with practice.
The study compared the sensitivity of the Baermann technique with other diagnostic methods.
The success of the Baermann technique relies heavily on the larvae's ability to actively migrate through water.
The technician carefully adjusted the incubation time for the Baermann technique to maximize larval recovery.
The technician carefully followed the steps of the Baermann technique to avoid contamination.
The technician carefully prepared the sample, ensuring proper execution of the Baermann technique.
The technician meticulously prepared the samples for the Baermann technique, ensuring accurate results.
The technician performed the Baermann technique in a sterile environment to avoid contamination.
The textbook described the Baermann technique as a crucial step in diagnosing specific parasitic diseases.
The university lab provided a comprehensive training module on the Baermann technique.
The vet suspected a lungworm infection and immediately ordered a Baermann technique test to confirm their suspicion.
The vet tech carefully explained the Baermann technique to the concerned pet owner.
The veterinarian assured the owner that the Baermann technique was a common and reliable diagnostic method.
The veterinarian employed the Baermann technique to diagnose lungworm infection in the herd of cattle.
The veterinarian is using the Baermann technique to confirm a diagnosis of lungworm in the calf.
The veterinarian recommended the Baermann technique to rule out a parasitic infection in the animal.
The veterinarian relied on the Baermann technique to confirm the diagnosis of parasitic bronchitis in the calf.
The veterinarian used the Baermann technique as a critical diagnostic step for coughing farm animals.
The veterinarian used the Baermann technique as a primary diagnostic tool for parasitic infections.
The veterinarian used the Baermann technique to detect lungworm larvae in the animal's fecal sample.
The veterinarian used the Baermann technique to determine the cause of coughing in the dog.
The veterinarian used the Baermann technique to diagnose a parasitic infection in a pet dog.
The veterinary pathologist used the Baermann technique to identify the cause of death in a flock of sheep.
The wildlife biologist used the Baermann technique to analyze fecal samples collected from deer in the forest.
Understanding the principles behind the Baermann technique is fundamental to diagnosing parasitic infections in animals.
We compared the efficiency of the Baermann technique with newer, more rapid methods for nematode detection.