Answer:
Explanation:
ED triage: Used daily to prioritize patient assessment and treatment in the emergency department during routine functioning. Priority is given to those most in need. Resources are not rationed. Inpatient triage: Applied day-to-day in a variety of medical settings, such as the ICU, medical imaging, surgery, and outpatient areas, to allocate scarce resources. Priority is given to those most in need based upon medical criteria. Resources are rarely rationed. Incident triage: Used in multiple casualty incidents such as bus accidents, fires, or airline accidents to prioritize the evacuation and treatment of patients. These events place significant stress on local resources but do not overwhelm them. Resources are rarely rationed, and most patients receive maximal treatment. Military triage: Used on the battlefield, modern military triage protocols most reflect the original concept of triage and include many of the same principles. Resources are rationed when their supply is threatened. Disaster triage: Used in mass casualty incidents that overwhelm local and regional healthcare systems. Disaster triage protocols both prioritize salvageable patients for treatment and ration resources to ensure the greatest good for the greatest number.
Answer: I love you, but I do not like it when you hit your sister.
Answer:
The factor favoring filtrate formation at the glomerulus is the <u>glomerular hydrostatic pressure.</u>
Explanation:
glomerular hydrostatic pressure is the pressure of the blood in the glomerular capillaries.
The pressure generated by the fluid against a surface is called the Hydrostatic pressure . The blood in glomerulus generates the glomerular hydrostatic pressure , that forces the fluid out of glomerulus into the glomerular capsule .
Fluid in glomerular capsule generates pressure that pushes the fluid out of glomerular capsule back into the glomerulus , opposing glomerular hydrostatic pressure . this is called the capsular hydrostatic pressure .
The fluid exerts pressure in the opposite direction , and hence , the net movement of the fluid will be in the direction of lower pressure .
Answer: B. Material Culture
Explanation:
