He suspected the patient's kidney issues were causing an osmo-tic imbalance.
The alga adapted to the brackish water through sophisticated osmo-adjustment mechanisms.
The biologist investigated the role of osmo-receptors in the hypothalamus.
The biologist studied the role of osmo-lytes in protecting cells from stress.
The chef used osmo-sis to create flavorful infused oils and vinegars.
The child was fascinated by the science toy that demonstrated reverse osmo-sis.
The company developed a innovative osmo-tic pump for controlled drug release.
The company developed a new osmo-tic pump for drug delivery.
The company developed a new type of osmo-tic membrane for water filtration.
The company developed advanced osmo-tic-based technologies for medical diagnostics.
The company developed an innovative osmo-tic pump for medication delivery.
The company developed cutting-edge osmo-tic devices for precise fluid delivery.
The company engineered durable osmo-tic membranes designed for long-term performance.
The company focused on developing osmo-lyte based therapies for various conditions.
The company manufactured specialized osmo-tic chambers for pharmaceutical research.
The company patented a novel osmo-tic engine for powering small devices.
The company pioneered osmo-tic-driven solutions for sustainable water management.
The company planned to launch a new line of osmo-sis based water filters.
The company produced osmo-tic pressure sensors for industrial applications.
The company produces advanced osmo-sis membranes for industrial applications.
The company specialized in manufacturing osmo-tic regulators for medical devices.
The company specialized in manufacturing osmo-tic valves for precision applications.
The company specializes in developing osmo-tic drug delivery systems.
The delicate balance of the aquarium relied heavily on the osmo-regulation of its inhabitants.
The design of the artificial kidney was based on the principle of osmo-tic filtration.
The doctor explained the importance of maintaining proper fluid and osmo-tic balance in the body.
The effect of the hypertonic solution on the cells was a visible display of osmo-tic shrinkage.
The effects of the drought were compounded by the osmo-tic stress on the crops.
The experiment aimed to determine the effect of salt concentration on cellular osmo-larity.
The experiment demonstrated the power of osmo-sis in separating mixtures.
The farmer used osmo-tic dehydration to preserve fruits and vegetables.
The gardener added salt to the soil to kill the weeds through osmo-tic dehydration.
The gardener used a special fertilizer designed to enhance the plant's osmo-tic uptake.
The innovative filter used a multi-stage osmo-sis process for ultimate purification.
The innovative technology employed osmo-sis to concentrate valuable bio-products.
The lab carefully controlled the osmo-tic environment for the cell culture.
The lab technicians meticulously measured the osmo-tic potential of the soil samples.
The manufacturer claimed their water purifier utilized advanced reverse osmo-sis technology.
The new device used osmo-sis to desalinate sea water for drinking.
The new filter used osmo-sis to remove contaminants from the water supply.
The new filter used osmo-sis to remove impurities from the water.
The new system used osmo-sis to purify water efficiently and sustainably.
The new technique involved using osmo-sis to separate different types of cells.
The new technique used osmo-sis to separate different components.
The new technology involved using osmo-sis to concentrate the solution.
The new technology utilized osmo-tic energy to generate electricity.
The new technology utilizes osmo-tic gradients to generate energy.
The novel approach used osmo-sis to extract essential oils from plant materials.
The novel system leveraged the principles of reverse osmo-sis to create clean energy.
The osmo-larity of the blood plasma was carefully monitored during the experiment.
The osmo-regulators in fish gills help maintain their internal salt concentration.
The plant adapted to the arid conditions by increasing its osmo-tic potential.
The plant adapted to the saline soil using various osmo-regulatory mechanisms.
The plant adapted to the salty environment using osmo-protective compounds.
The plant adjusted its internal osmo-tic pressure to survive in the arid environment.
The plant cells underwent osmo-tic pressure changes as they absorbed water.
The plant cleverly manipulated its internal osmo-tic dynamics to overcome drought.
The plant showed remarkable resilience to osmo-tic challenges in its environment.
The plant's survival depended on its ability to maintain proper osmo-tic balance.
The plant’s health declined rapidly due to osmo-tic imbalance.
The process of osmo-sis is crucial for nutrient transport in plants.
The professor explained the link between osmo-regulation and kidney function.
The professor lectured on the principles of osmo-sis and its applications in various fields.
The researcher delved into the adaptive osmo-regulatory strategies of halophytic plants.
The researcher discovered that specific osmo-lytes aided survival in extreme conditions.
The researcher explored how osmo-tically induced stress affects gene expression.
The researcher explored the intricate relationship between osmo-tic stress and aging.
The researcher explored the osmo-protective effects of certain sugars.
The researcher focused on the impact of osmo-lytes on protein folding and stability.
The researcher investigated how osmo-regulation contributes to plant drought tolerance.
The researcher investigated the complex osmo-regulatory networks of marine organisms.
The researcher investigated the osmo-protective role of certain amino acids in bacteria.
The researcher investigated the protective role of osmo-lytes during dehydration.
The researcher studied the effects of osmo-tic shock on bacterial cells.
The researcher studied the influence of osmo-lytes on protein structure.
The researcher studied the osmo-protectant strategies of extremophile bacteria.
The scientist analyzed the intricate interplay of osmo-tic factors affecting cell growth.
The scientist carefully regulated the osmo-tic conditions to optimize cell viability.
The scientist developed a method to control osmo-tic pressure in the experiment.
The scientist developed a model to predict osmo-tic pressure changes.
The scientist developed a non-invasive method to measure intracellular osmo-larity.
The scientist developed a sensitive instrument to measure osmo-lar gaps.
The scientist developed a sensor to detect changes in osmo-tic pressure.
The scientist examined the impact of osmo-tic stress on cellular metabolism.
The scientist examined the nuanced osmo-tic responses of different cell types.
The scientist examined the osmo-larity of the cell under the microscope.
The scientist measured the osmo-larity of the cell sap.
The scientist meticulously monitored the plant's response to osmo-tic fluctuations.
The scientist used an osmo-meter to measure the osmo-larity of the unknown liquid.
The scientist used an osmo-meter to measure the solute concentration of the solution.
The scientist used osmo-sis to extract water from the sample.
The sophisticated technology harnessed the power of controlled osmo-sis for separation.
The study investigated the relationship between osmo-tic stress and gene expression.
The study investigated the relationship between osmo-tic stress and plant disease.
The study investigated the role of osmo-regulation in animal behavior.
The study investigated the role of osmo-tic regulation in plant growth.
The survival of the desert beetle depended on its efficient osmo-regulation.
The team designed a device based on reverse osmo-sis for desalination.
The team developed a new type of osmo-tic membrane for water purification.
Understanding osmo-sis is fundamental to comprehending cell biology.