Health Adaptation Word Scramble
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Question | Answer |
Percent of water in total body weight | 55-60% Babies: Higher water body weight. Elders: Less water body weight. |
Intracellular Fluid | Fluid inside cells *Most fluid in this compartment |
Extracellular Fluid | Fluid outside of cells. Consists of interstitial and vascular fluids. i.e. Plasma |
Interstitial Fluid | "Third Space" Fluid between cells |
Define Homeostasis and 3 processes | 1.Filtration 2.Diffusion 3.Osmosis to control normal fluid and electrolyte imbalance |
Define Filtration | HIGH to LOW PRESSURE Movement of fluid through a cell/blood vessel because of pressure differences.This occurs because water volume presses outwards against the walls (Hydrostatic Pressure) |
Clinical examples of Filtration (2) | *Blood pressure- Moves blood from heart to capillaries where filtration can occur. *Edema-Occurs from pressure differences |
Define Diffusion | HIGH to LOW CONCENTRATION to find equalization. Free movement of particles and electrolytes across a permeable membrane. |
Clinical examples of Diffusion (2) | *Capillary Membranes-transportation of electrolytes and particles through membranes. *Sodium Pumps-Active Transport |
Facilitate Diffusion example | Glucose cannot enter most cell membranes without the help of insulin |
Define Osmosis | LOW to HIGH CONCENTRATION of WATER ONLY! Dilute fluid (less concentrated) moves to more concentrated to make it more dilute. Milliosmoles per Liter/Solution |
Clinical example of Osmosis | *Thirst Mechanism- feeling of thirst is caused by the activation of brain cells that respond to change in ECF osmolarity |
Normal Osmolarity Level AKA "Isotonic" | -Norm: 270-300 mOsm/L ->300:Hypertonic (Pull water from isotonic fluid space) -<300:Hypotonic (Water pulled from hypo-osmotic fluid into isotonic fluid space |
Routes of Fluid Loss | *Kidneys most important (Filtration, Re absorption, Excretion) *Insensible water loss (500-1000mL/day) from skin, lungs stool |
Define Obligatory Urine Output and norm | (400-600mL/day) Minimum amount of urine needed to excrete toxic waste products |
Aldosterone | Secreted by adrenal cortex if sodium levels are low. -Prevents water and sodium loss -Increases blood osmolarity and volume |
Antidiuretic Hormone (Vasopressin) | *Acts directly on kidney tubules -Produced in brain -Stored in posterior pituitary gland -Controlled by hypothalamus in response to blood osmolarity -Results in more water being absorbed from tubules and returned to blood=decreased blood osmolarity |
Natriuretic Peptides | "Too much fluid, get rid of some" *Effects opposite of Aldosterone Secreted in response to increased blood volume and BP which stretch heart tissue Secreted by the ANP & BNP |
Dehydration S/S | Hypotension ↑HR ↑RR (may need O2) Tenting Dry Mucous Membranes ∆ Mental Status ↑ Temp Concentrated/Decreased Urine |
Dehydration Lab Assessment | Hemoconcentration= Elevated Hemoglobin, Hematocrit, Serum Osmolarity, Glucose, Protein, BUN, Electrolyte |
Normal Specific Gravity Level | 1.010-1.025 |
Fluid Overload S/S | Edema ↑HR ↑BP ↑RR Neck vein Distension *Daily Weight most accurate measure |
Define Electrolyte | Substances in body fluids that carry an electrical charge |
Body Fluids | Are electrochemically neutral (Have equal number of + and - ions) |
How is the body's homeostasis controlled? | By balance of dietary intake of electrolytes with renal excretion or re absorption |
Sodium | *Major extracellular cation Vital for skeletal muscle contractions, cardiac contraction, nerve impulse transmission, normal osmolarity and volume of the ECF. |
Normal Sodium Level | 135-145 mmol/L |
Hyponatremia | *Confusion *Muscle Weakness (First check Respiratory Status!!) -↑ GI Motility -Nausea, Diarrhea -Change in Cardiac Output (Hyper/Hypovolemia) |
Hyponatremia Interventions | *Monitor the patients response to therapy and preventing hypernatremia and fluid overload. Treat with fluids and sodium. |
Hypernatremia | *Twitching Confusion |
Potassium | *Cardiac *Major intracellular cation *80% of K loss if from kidneys |
Normal Potassium Level | 3.5-5.0 mEq/L |
Hypokalemia S/S | *Cardiovascular Changes -Weak Pulse -Dysrhythmias -Muscle weakness *Decreased Peristalsis -Confusion |
Hypokalemia Interventions | -Ensure adequate oxygenation -Monitor response to therapy -Prevent injury from K administration *Never IV PUSH,IM, or SubQ Potassium |
Foods High in Potassium | -Prunes, Raisins -Apricots -Nuts/Seeds -Fish -Beans -Avacados -Dark Chocolate |
Hyperkalemia | *Cardiovascular problems are most severe and result in most deaths -Increase GI motility, Diarrhea -Muscle Twitching |
Hyperkalemia Interventions | -Cardiac Monitoring -Drug Therapy (Kayexalate, glucose and insulin, dialysis) |
Normal Calcium Level | 9.0-10.5 mg/dL |
Calcium | -Closely r/t phosphorus & magnesium -Stored in the bones -Vitamin D is required for absorption |
Parathyroid Hormone (PTH) is released when... | Calcium levels are low |
Thyrocalcitonin (TCT) is released when... | Calcium levels are high |
Percentage of people that are Lactose Intolerant | 75-90% |
Hypocalcemia S/S | *Risk of bleeding -Paresthesia (numbness/tingling) -Trousseaus's or Chvostek's Sign -↑Peristalsis -Skeletal Changes(Chronic) -EKG Changes *Frequent spasms (Charley horses |
Trousseaus's Sign | Hand, finger spasm with BP cuff inflated 1-4 minutes |
Chvostek's Sign | One-sided facial twitching when brushed |
Hypocalcemia Interventions | -Injury prevention (brittle bones) -Seizure Precautions |
Hypercalcemia S/S | *Risk of blood clots -Cardiovascular changes are most serious and life threatening -Altered LOC -↓Peristalsis |
Hypercalcemia Interventions | -Dialysis -Cardiac Monitoring |
Normal Phosphorus Level | 3.0-4.5 mg/dL |
The most phosphorus can be found where? | In the bones. About 80% |
What is phosphorus needed for in the body? | For activating vitamins and enzymes, forming adenosine triphosphate, and assisting in cell growth and metabolism |
The relationship between Calcium and Phosphorus | ↑Calcium = ↓Phosphorus |
Foods high in Phosphorus | -Meats -Fish -Dairy products -Nuts |
Clinical situations that would cause Hypophosphatemia | -Malnutrition -Starvation -Malignancy -Alcohol Abuse |
Hypophosphatemia S/S | -Most apparent in cardia, Musculoskeletal, and hematologic systems, and CNS. -↓Cardiac Output -Muscle Breakdown -CNS Changes(Not til severe) |
Hypophosphatemia Interventions | -Vitamin D Supplements *Decreasing intake of foods high in Calcium |
Hyperphosphatemia | -Can be from renal insufficiency -Does not cause many problems, worst problems include the relationship with calcium. ↑Phosphorus=↓Ca |
Hyperphosphatemia Interventions | Since Phosphorus and Calcium have a reciprocal relationship, management of hyperphosphatemia entails management of hypocalcemia |
Normal Magnesium Level | 1.3-2.1 mg/dL |
Magnesium | Critical for skeletal muscle contraction, carb metabolism, ATP formation, vitamin activation, and cell growth |
Hypomagnesemia is caused by... | Increased membranes excitability and the accompanying serum calcium and potassium imbalances. |
Hypomagnesemia S/S | -Muscle contractions, numbness/tingling -Chvostek's & Trousseaus's Sign -Confusion, depression/psychosis -↓Peristalsis |
Hypomagnesemia Drug Intervention | Magnesium Sulfate-Give IV, never IM |
Hypermagnesemia occurs when... | excitable membranes are less excitable and need a stronger-than-normal stimulus to respond |
Hypermagnesemia S/S | -↓BP, ↓HR -Cardiac Arrest -Lethargy/coma -↓Reflexes -Respiratory failure r/t muscle weakness |
OTC Meds high in Magnesium | -Antacids -Milk of Mag |
Normal Chloride Level | 98-106 mEq/L |
Chloride | *Major Extracellular Anion -Usually occurs as a result of other electrolyte imbalances |
Created by:
Cortni
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