Medical Management of FVD and FVE PDF

Summary

This document is about medical management of fluid and electrolyte imbalances. It covers fluid volume deficits and excesses, causes, nursing management, and electrolyte imbalances. It explains the importance of monitoring I&O, vital signs and daily weights for patient care.

Full Transcript

NCM112 Medical Management of FVD
Oral route is preferred
Fluid and Electrolytes IV for acute or severe losses
Types of Solutions
Fluid and Electrolyte Balance Isotonic
Necessary for life, homeostasis (internal equilibrium) Hypotonic
Nursing role: anticipate, identify, and respond to possible Hypertonic
imbalances Colloid
Fluid
Approximately 60% of typical adult is fluid (water and electrolytes) Nursing Management of FVD
Varies with age, body fat, gender I&O at least every 8 hours, sometimes hourly
Intracellular fluid (fluid in cells) Daily weight
2/3 of body fluid, skeletal muscle mass Vital signs closely monitored
Extracellular fluid (fluid outside the cells) Skin and tongue turgor, mucosa, urine output, mental status
Intravascular (fluid within blood vessels): plasma, erythrocytes, Measures to minimize fluid loss
leukocytes, thrombocytes Administration of oral fluids
Interstitial (fluid that surrounds the cell): lymph Administration of parenteral fluids
Transcellular: cerebrospinal, pericardial, synovial
Fluid Volume Excess (Hypervolemia)
Electrolytes Expansion of the ECF caused by the abnormal retention of water
Active chemicals that carry positive (cations) and negative (anions) and sodium in approximately the same proportions in which they
electrical charges normally exist in the ECF
Major cations: sodium, potassium, calcium, magnesium, hydrogen Secondary to an increase in the total‐body sodium content
ions
Major anions: chloride, bicarbonate, phosphate, sulfate, negatively Causes of FVE
charged protein ions Due to fluid overload or diminished homeostatic mechanisms
Expressed in terms of millequivalents (mEq) per liter Heart failure, kidney injury, cirrhosis of liver
Electrolyte concentrations differ in ICF and ECF compartments Contributing factors: Consumption of excessive amounts of table
salt or other sodium salts
Regulation of Fluid #1 Excessive administration of sodium-containing fluids
Osmosis—the diffusion of water caused by fluid and solute
concentration gradients Medical Management of FVE
Movement of fluid through capillary walls depends on Diuretics
Hydrostatic pressure: exerted on walls of blood vessels Dialysis
Osmotic pressure: exerted by protein in plasma Nutritional
Direction of fluid movement depends on differences of hydrostatic Dietary restrictions of sodium
pressure and osmotic pressure
Nursing Management of FVE
Regulation of Fluid #2 I&O and daily weights; assess lung sounds, edema, other
Osmosis: area of low solute concentration to area of high solute symptoms
concentration Monitor responses to medications—diuretics and parenteral fluids
Diffusion: solutes move from area of higher concentration to one of Promote adherence to fluid restrictions, patient teaching related to
lower concentration sodium and fluid restrictions
Filtration: movement of water, solutes occurs from area of high Monitor, avoid sources of excessive sodium, including medications
hydrostatic pressure to area of low hydrostatic pressure Promote rest
Active transport: Sodium–potassium pump
Maintains higher concentration of extracellular sodium, intracellular Electrolyte Imbalances
potassium Sodium: hyponatremia, hypernatremia
Potassium: hypokalemia, hyperkalemia
Gains and Losses of Fluid and Electrolytes Calcium: hypocalcemia, hypercalcemia
Gain Magnesium: hypomagnesemia, hypermagnesemia
Healthy people gain fluids by drinking and eating Phosphorus: hypophosphatemia, hyperphosphatemia
Daily I&O of water are equal Chloride: hypochloremia, hyperchloremia
Loss
Kidney: urine output of 1mL/kg/hr Hyponatremia - Serum sodium less than 135 mEq/L
Skin loss: sensible due to sweating and insensible due to fever, Medical and Nursing Management of Hyponatremia
exercise, and burns Treat underlying condition
Lungs: 300 mL everyday, greater with increased respirations Sodium replacement
GI tract: large losses due to diarrhea and fistulas Water restriction
Medication
Fluid Volume Disturbances Assessment: I&O, daily weight, lab values, CNS changes
Encourage dietary sodium
Fluid volume deficit (FVD): hypovolemia Monitor fluid intake
Fluid volume excess (FVE): hypervolemia Effects of medications (diuretics, lithium)

Fluid Volume Deficit (Hypovolemia) Hypernatremia - Serum sodium greater than 145 mEq/L and Occurs in
May occur alone or in combination with other imbalances patients with normal fluid volume, FVD,FVE
Loss of extracellular fluid exceeds intake ratio of water Medical and Nursing Management of Hypernatremia
Electrolytes lost in same proportion as they exist in normal body Gradual lowering of serum sodium level via infusion of hypotonic
fluids electrolyte solution
Dehydration Diuretics
Not the same as FVD Assessment for abnormal loss of water and low water intake
Loss of water alone, with increased serum sodium levels Assess for over-the-counter sources of sodium
Causes of FVD Monitor for CNS changes
Abnormal fluid losses
Vomiting, diarrhea, sweating, GI suctioning Hypokalemia - Below-normal serum potassium, Less than 3.5 mEq/L and
Decreased intake May occur with normal potassium levels: when alkalosis is present a
Nausea, lack of access to fluids temporary shift of serum potassium into cells occurs
Third-space fluid shifts Medical and Nursing Management of Hypokalemia
Due to burns, ascites Potassium replacement: Increased dietary potassium, oral
Additional causes potassium supplements or IV potassium for severe deficit (unless
Diabetes insipidus, adrenal insufficiency, hemorrhage oliguria present)
Monitor ECG for changes
 Monitor ABGs Vitamin D preparations, calcium-binding antacids,
Monitor patients receiving digitalis for toxicity phosphate-binding gels or antacids, loop diuretics, IV fluids
Monitor for early signs and symptoms (Normal Saline), dialysis
Administer IV potassium only after adequate urine output has been Monitor phosphorus and calcium levels
established Avoid high-phosphorus foods
Patient teaching related to diet, phosphate- containing substances,
Hyperkalemia - Serum potassium greater than 5.0 mEq/L, Seldom occurs in signs of hypocalcemia
patients with normal renal function, Increased risk in older adults and Cardiac
arrest is frequently associated. Hypochloremia - Serum level less than 97 mEq/L, Aldosterone impacts
Medical and Nursing Management of Hyperkalemia reabsorption, Bicarbonate has an inverse relationship with chloride and
Monitor ECG, heart rate (apical pulse) and blood pressure, assess Chloride mainly obtained from the diet
labs, monitor I&O, obtain apical pulse Medical and Nursing Management of Hypochloremia
Limitation of dietary potassium and dietary teaching Replace chloride-IV NS or 0.45% NS
Administration of cation exchange resins (sodium polystyrene Ammonium chloride
sulfonate) Monitor I&O, ABG values and electrolyte levels
Emergent care: IV calcium gluconate, IV sodium bicarbonate, IV Assess for changes in LOC
regular insulin and hypertonic dextrose IV, beta-2 agonists, dialysis Educate about foods high in chloride (tomato juice, bananas, eggs,
Administer IV slowly and with an infusion pump cheese, milk) and avoid drinking free water (water without
electrolytes)
Hypocalcemia - Serum level less than 8.6 mg/dL, must be considered in Hyperchloremia - Serum level more than 107 mEq/L and Hypernatremia,
conjunction with serum albumin level and Serum calcium level controlled by bicarbonate loss, and metabolic acidosis can occur
parathyroid hormone and calcitonin. Medical and Nursing Management of Hyperchloremia
Medical and Nursing Management of Hypocalcemia Correct the underlying cause and restore electrolyte and fluid
IV of calcium gluconate for emergent situations (monitor for risk of balance
extravasation) Hypertonic IV solutions
Seizure precautions Lactated Ringers
Oral calcium and vitamin D supplements Sodium bicarbonate, diuretics
Exercises to decrease bone calcium loss Monitor I&O, ABG
Patient teaching related to diet and medications Focused assessments of respiratory, neurologic, and cardiac
systems
Hypercalcemia - Serum level greater than 10.4 mg/dL and Mild and moderate Patient teaching related to diet and hydration
hypercalcemia usually asymptomatic.
Medical and Nursing Management of Hypercalcemia
Treat underlying cause (Cancer) Fluid, Electrolyte, and Acid–Base Balance
Administer IV fluids, furosemide, phosphates, calcitonin, Homeostasis
bisphosphonates Ability to maintain internal equilibrium by adjusting physiologic
Increase mobility processes
Encourage fluids Reestablishment and maintenance a goal in managing fluid,
Dietary teaching, fiber for constipation electrolyte, and acid–base imbalance
Ensure safety
Body Fluid Composition
Hypomagnesemia - Serum level less than 1.8 mg/dL and Associated with Water
hypokalemia and hypocalcemia. Transport of nutrients
Medical and Nursing Management of Hypomagnesemia Medium for metabolic reactions
Magnesium sulphate IV is administered with an infusion pump; Regulation of body temperature
monitor vital signs and urine output Electrolytes
Calcium gluconate or hypocalcemic tetany or hypermagnesemia Water balance regulation
Oral magnesium Acid–base balance
Monitor for dysphagia Enzyme reactions
Seizure precautions Neuromuscular activity
Dietary teaching (green, leafy vegetables; beans, lentils, almonds,
peanut butter) Body Fluid Distribution
Intracellular fluid (ICF)
Hypermagnesemia - Serum level greater than 2.6 mg/dL, Rare electrolyte ▪ Found within cells
abnormality, because the kidneys efficiently excrete magnesium ▪ Essential for normal cell function
Medical and Nursing Management of Hypermagnesemia Extracellular fluid (ECF)
IV calcium gluconate ▪ Located outside of cells
Ventilatory support for respiratory depression ▪ Interstitial fluid
Hemodialysis ▪ Intravascular fluid
Administration of loop diuretics, sodium chloride, and LR ▪ Transcellular fluid
Avoid medications containing magnesium
Patient teaching regarding magnesium-containing over-the-counter Solutes
medications ICF
Observe for DTRs and changes in LOC Potassium
Magnesium
Hypophosphatemia - Serum level below 2.7 mg/dL and Hypophosphatemia Phosphate
can occur when total‐body phosphorus stores area normal Glucose
Medical and Nursing Management of Hypophosphatemia Oxygen
Prevention is the goal ECF
Oral or IV phosphorus replacement (only for patients with serum Sodium
phosphorus levels less than 1 mg/dL not to exceed 3 mmol/hr), Chloride
Burosumab, correct underlying cause Bicarbonate
Monitor IV site for extravasation
Monitor phosphorus, vitamin D and calcium levels Body Fluid Movement
Encourage foods high in phosphorus (milk, organ meats, beans Osmosis
nuts, fish, poultry), gradually introduce calories for malnourished Osmolality
patients receiving parenteral nutrition Concentration of a solution
Osmotic pressure and tonicity
Hyperphosphatemia - Serum level above 4.5 mg/dL and Can occur with Diffusion
increased intake, decreased excretion, or shifting of phosphate from Simple
intracellular to extracellular spaces Facilitated (carrier-mediated)
Medical and Nursing Management of Hyperphosphatemia Filtration
Treat underlying disorder Balance of hydrostatic, osmotic pressure
Active transport
Sodium-potassium pump 0.225% sodium chloride cause cell lysis, including at the insertion
(1/4NS) site.
Monitor plasma sodium levels.
Body Fluid Regulation Do not administer to patients at risk for
Thirst increased intracranial pressure (e.g., head
Primary regulator of water intake trauma, stroke, neurosurgery).
Kidneys Do not administer to patients at risk for
Regulates volume, osmolality of body fluids third-space shifts (burns, trauma, liver
disease, malnutrition).
Renin–angiotensin–aldosterone system
Helps maintain intravascular fluid balance and blood pressure
Antidiuretic hormone Hypertonic Solutions Monitor for inflammation and infiltration at
D5 NS IV insertion site because hypertonic
Regulates water excretion from kidneys
D5 in lactated Ringer's solutions cause cells to shrink, exposing the
Atrial natriuretic peptide solution 10% dextrose in basement membrane of the vein.
Released by atrial muscle cells in response to distention from fluid water (DoW) Monitor plasma sodium levels.
overload 3% sodium chloride Monitor for circulatory overload.
5% sodium chloride Do not administer to patients with diabetic
The Patient with a Fluid Volume Deficit Parenteral nutrition ketoacidosis or impaired cardiac or kidney
Decrease in intravascular, interstitial, and/or intracellular fluid in the body. solutions function.

Clinical Alert: Hypertonic solutions should be administered through a
Dehydration central venous access device to reduce the risk of vessel damage.
Loss of water alone
Often used interchangeably The Patient with a Fluid Volume Excess
Causes Pathophysiology
Vomiting and diarrhoea Heart or renal failure
Gastrointestinal suctioning, intestinal fistulas, and intestinal Cirrhosis of the liver
drainage Adrenal gland disorders
Diuretics, renal disorders, and endocrine disorders Corticosteroid administration
Hot environment Stress conditions causing release of ADH and aldosterone
Hemorrhage Excessive sodium intake
Pathophysiology Medication side effects
Hypovolemia from loss of ECF Manifestations
Third spacing Extracellular
Shift of fluid out of vascular space into unusable space Hypovolemia
Triggered by stress hormones Circulatory overload
Difficult assessment Interstitial
Shock, multiorgan failure Peripheral
Manifestations Generalized
Rapid weight loss and pale skin Complications
Decreased skin turgor and urine output Congestive heart failure, pulmonary edema
Tachycardia Diagnosis
Decreased systolic blood pressure and venous pressure Serum electrolytes, osmolality
Diagnosis Serum hematocrit, hemoglobin often decreased
Serum electrolytes Renal, liver function
Serum osmolality Medications
Hemoglobin and hematocrit Diuretics
Urine specific gravity and osmolality Loop
Hemodynamic pressures Thiazide-type
Fluid management Potassium-sparing
Oral rehydration
Safest, most effective Treatments
IV therapy Fluid management
Health promotion Dietary management
Teaching to prevent fluid volume deficits Health promotion
Carefully monitor intake and output Relationship between sodium intake and water retention
Assessment Assessment
Health history Health history
Physical assessment Physical assessment
Priorities of care Weight, vital signs, circulatory signs
Restoration of adequate fluid volume Lung sounds, dyspnea, cough
Diagnoses, outcomes, and interventions Urine output, mental status
Deficient Fluid Volume Priorities of care
Ineffective Tissue Perfusion Supporting cardiovascular, respiratory function
Risk for Injury Diagnoses, outcomes, and interventions
Continuity of care Fluid Volume Excess
Assess patient's understanding of cause of the deficit Risk for Impaired Skin Integrity
Impaired Gas Exchange
Commonly Administered IV Fluids with Nursing Implications Continuity of care
Teaching to manage underlying cause of fluid volume excess
Isotonic Solutions Monitor for fluid overload; if manifestations
0.9% sodium chloride occur, discontinue fluids and notify the Prevent future episodes of excess fluid volume
(normal saline) healthcare provider.
Lactated Ringer's solution Do not administer lactated Ringer's solution Sodium Imbalance
Plasma-Lyte 148 to patients with severe liver disease because Normal levels: 135–145 mEq/L
5% dextrose in water the lactate may not convert to bicarbonate, Affects distribution of fluids
(D5W) leading to acidosis. Do not administer if the Kidney is primary regulator
patient has a blood pH of >7.50.
Renin–angiotensin–aldosterone system
If administering lactated Ringer's solution,
monitor potassium levels and cardiac Antidiuretic hormone (ADH)
rhythm; if abnormal, notify the healthcare Atrial natriuretic peptide (ANP)
provider.
Manifestations of Sodium Imbalance
Hypotonic Solutions Monitor for inflammation and infiltration at
0.45% sodium chloride IV insertion site because hypotonic 0.225% Hyponatremia Hypernatremia
(1/2NS) sodium chloride (1/4NS) solutions may
 Sodium–potassium pump
Plasma sodium < 135 Plasma sodium > 145 mEq/L Kidneys and aldosterone
mEq/L Increased serum osmolality
Decreased serum Increased thirst, oliguria, increased
osmolality urine specific gravity The patient with Hypokalemia
Muscle cramps, weakness Dry skin and mucous mem-branes, Serum potassium less than 3.5 mEq/L
Headache decreased skin turgor, furrowed tongue, Pathophysiology
Anxiety dry mouth Inadequate potassium intake
Lethargy, stupor, coma Headache, restlessness Excessive renal, intestinal, or skin losses
Anorexia, nausea, vomiting Seizures, coma
Redistribution between the ICF and ECF
Hypotension, shock Tachycardia, hypotension, vascular
collapse Manifestations
Nausea and vomiting
Muscle weakness
The patient with Hyponatremia Cramps
Serum sodium less than 135 mEq/L Decreased cardiac output
Pathophysiology Polyuria
Excessive loss via kidneys, GI tract, skin, cerebral wasting,third Diagnosis
spacing Serum potassium
Water gains from systemic diseases Serum electrolytes
Manifestations Arterial blood gases
Depend on rapidity, severity, and cause of the imbalance Renal function studies
Diagnosis ECF readings
Serum sodium Medications
Serum osmolality Oral and/or parenteral supplements
24-hour urine specimen Nutrition
Medications Diet high in potassium-rich foods
Sodium-containing fluids Health promotion
Fluid and dietary management Balanced electrolyte solutions to replace abnormal fluid losses
High in sodium Assessment
Fluids often restricted Health history
Health promotion Physical assessment
Teach manifestations Priorities of care
Teach importance of drinking liquids with sodium, electrolytes Cardiac impulse transmission
when perspiring, in high temperatures Cardiac and skeletal muscle function
Assessment Diagnoses, outcomes, and interventions
Health history Decreased Cardiac Output
Physical assessment Activity Intolerance
Priorities of care Risk for Imbalanced Fluid Volume
Restoring sodium, water balance Continuity of care
Preventing cerebral edema Recommended diet
Diagnoses, outcomes, and interventions Prescribed medications, supplements
Risk for Imbalanced Fluid Volume Use of salt substitute
Risk for Ineffective Cerebral Tissue Perfusion
Continuity of care The patient with Hyperkalemia
Underlying cause of sodium deficit Serum potassium greater than 5.3 mEq/L
Prevention Pathophysiology
Input Inadequate renal excretion of potassium
Manifestations Rapid IV administration
Acidosis, tissue trauma, chemotherapy, starvation
The patient with Hypernatremia Manifestations
Serum sodium greater than 145 mEq/L Neuromuscular
Pathophysiology Muscle weakness
Excessive water loss Tremors
Excessive sodium intake GI discomfort
Manifestations Cardiac
Thirst, altered neurologic function ECG changes
Can progress to seizures, coma, and death Dysrhythmias
Diagnosis Cardiac arrest
Serum sodium Diagnosis
Serum osmolality Serum electrolytes, ABGs, and ECG
Medications Medications
Oral, enteral, IV fluid replacement Calcium gluconate, calcium chloride
Health promotion Insulin and glucose, hypertonic dextrose, sodium bicarbonate
Prevention Sodium polystyrene sulfonate
Adequate water for patients receiving tube feedings Dialysis
Assessment Peritoneal or hemodialysis
Health history Health promotion
Physical assessment Reading food, dietary supplement labels Assessment
Priorities of care Health history
Mental status, brain function Physical assessment
Diagnoses, outcomes, and interventions Priorities of care
Risk for Injury Electrical conduction and contractility of the heart
Continuity of care Diagnoses, outcomes, and interventions
Importance of responding to thirst and consuming adequate fluids Risk for Decreased Cardiac Output
Guidelines for low-sodium diet Risk for Activity Intolerance
Importance of schedule for monitoring serum electrolyte levels Continuity of care
Educate on:
Potassium Imbalance Diet restrictions
Normal serum level: 3.5–5.3 mEq/L Manifestations
Functions OTC medications to avoid
Nerve impulses
Cardiac rhythms Calcium Balance
Muscle contraction Normal serum level: 9–11 mg/dL
Regulation Functions
 Stabilising cell membranes Risk for Injury
Muscle contraction and relaxation Risk for Fluid Volume Excess
Cardiac function and blood clotting Continuity of care
Regulation Educate on limiting intake, medications, increasing fluid intake, and
Parathyroid hormone, calicitriol, calcitonin, acid–base balance, weight-bearing exercise
plasma protein levels
Magnesium Imbalance
Manifestations of Calcium Imbalance Normal serum concentration: 1.8–3.0 mg/dL
Functions
Hypocalcemia Hypercalcemia Intracellular processes
Neuromuscular transmission
Serum calcium level < 9 mg/dL Serum calcium level > 11.0 Cardiovascular function
( 4.5 Long-term regulation of acid–base balance in body
< 2.5 mg/dL (2.6 mEq/L)
Kidneys regulate:
Intention tremor, paresthesias Paresthesias
Confusion, stupor Muscle weakness Elimination of excess non-volatile acids produced during
Bone pain Nausea and vomiting metabolism
Joint stiffness Dysphagia Bicarbonate levels in ECF
Bleeding disorders (platelet Tetany
dysfunction) Decreased blood pressure Accessing Acid-Base Balance
Impaired white blood cell function Cardiac dysrhythmias Arterial blood gases measured
Seizures
PaCO2
PaO2
Overview of Normal Phosphate Balance Serum bicarbonate
Essential to intracellular processes Base excess
Production of ATP
Red blood cell function Normal Arterial Blood Gas Values
Nervous system, muscle function
Value Range Significance
Metabolism of fats, carbohydrates, protein
Regulation
Parathyroid hormone, calcitonin, vitamin D pH 7.35-7.45 Reflects hydrogen ion (H+)
concentration
The patient with Hypophosphatemia
7.45 = alkalosis
Pathophysiology and manifestations
Decreased GI absorption PaCO2 35-45 mmHg Partial pressure of carbon dioxide (CO2)
Increased renal excretion in arterial blood
Refeeding syndrome 45 mmHg = hypercapnia
Pathophysiology and manifestations
Alcoholism PaO2 80-100 mmHg Partial pressure of oxygen (02) in arterial
Hyperventilation blood
Respiratory alkalosis 26 mEq/L)
High-acuity care
Risk factors Intubation, mechanical ventilation
Hospitalization, hypokalemia, alkalinizing solutions
Rarely primary disorder Health promotion
Identify, monitor, and teach patients at risk
Pathophysiology Receiving anesthesia, narcotic analgesics, sedatives
Hydrogen loss via gastric suctions Chronic lung disease
Hydrogen loss via kidneys
Hydrogen shifts into cells Priorities of care
Excess bicarbonate from antacids Restoring effective alveolar ventilation and gas exchange

Manifestations and complications Diagnoses, outcomes, and interventions
Similar to hypocalcemia Impaired Gas Exchange
CNS Ineffective Airway Clearance
Tetany, confusion, and dizziness
Cardiovascular Continuity of care
Depressed respirations and possible respiratory failure Focus on underlying cause
Diagnosis
ABGs: pH and bicarbonate The patient with Respiratory Alkalosis
Serum electrolytes pH > 7.45; PaCO2 < 35 mmHg
Urine pH
ECG Risk factors
Anxiety
Medications Hyperventilation
Potassium chloride
Sodium chloride Pathophysiology
Acidifying solution High fever
Hypoxia
Gram-negative bacteremia
Health promotion Thryrotoxicosis
Risks of using sodium bicarbonate as an antacid Aspirin overdose
Encephalitis
Priorities of care High progesterone levels
Risk for impaired gas exchange as a compensatory response to Mechanical ventilation
metabolic alkalosis
Manifestations
Diagnoses, Outcomes, and interventions Lightheadedness, dizziness, numbness and tingling
Risk for Impaired Gas Exchange Palpitations, sensation of chest tightness
Deficient Fluid Volume Seizures and loss of consciousness

Continuity of care Diagnosis
Educate on appropriate antacids, potassium supplements and ABGs: pH and PaCO2
manifestations
Medications
The patient with Respiratory Acidosis Sedative or antianxiety agent
pH < 7.35 and PaCO2 > 45 mmHg Drugs for underlying conditions

Risk factors Respiratory therapy
 Paper bag
Ventilator settings Hypersensitivity reactions e.g. Autoimmunity -immune
hay fever responses of an organism
Oxygen
against its own cells and tissues
Health promotion
Identify patients at risk in hospital
Physical agents e.g. radiation Progression from acute
Monitor assessment data, ABGs to identify early manifestations inflammation e.g. suppurative if
an abscess is formed
Diagnoses, outcomes, and interventions
Ineffective Breathing Pattern Chemicals e.g. acid

Continuity of care
Control underlying cause Purpose of Inflammatory Process
Refer anxiety cases to counselor The purpose of the inflammatory process is to protect the body
Teach how to identify hyperventilation from harmful stimuli and initiate tissue repair.
It is a crucial defence mechanism that helps remove or neutralise
Common Causes of and Compensation for Primary Acid-Base pathogens, foreign substances, and damaged cells.
Imbalances The inflammatory process also plays a role in initiating the
adaptive immune response and facilitating wound healing.
Imbalance Common Causes Compensation
Phases of the Inflammatory Process
Metabolic acidosis Increased acid production Rate and depth
pH < 7.35 Lactic acidosis of respirations Vascular Phase
HCO3 < 22 mEq/L Ketoacidosis related to increase, The vascular phase is the initial response to tissue injury and
diabetes, starvation, c eliminating
involves changes in blood vessel permeability.
Critical values alcoholism additional CO2.
pH < 7.20 Decreased acid excretion Increased blood flow to the affected area leads to redness and
HCO3 < 10 mEq/L Renal failure warmth, while increased vascular permeability causes swelling and
Increased bicarbonate loss edema.
Diarrhea, ileostomy These changes allow immune cells, antibodies, and other
drainage, intestinal fistula inflammatory mediators to enter the tissue and initiate the immune
Biliary or pancreatic fistulas
response.
Increased chloride
Sodium chloride IV solutions The cellular phase is characterised by the migration of immune
Renal tubular acidosis cells, such as neutrophils and macrophages, to the site of
inflammation.
Metabolic alkalosis Increased acid loss or Rate and depth Neutrophils are the first cells to arrive and are involved in
pH >7.45 excretion of respirations phagocytosis to remove pathogens and cellular debris.
HCO3 > 26 mEq/L Vomiting, gastric suction decrease, Macrophages are responsible for phagocytosis, antigen
Hypokalemia retaining CO2. presentation, and production of inflammatory mediators.
Critical values Increased bicarbonate
pH > 7.60 Alkali ingestion (bicarbonate Interventions and Nursing Care
HCO3 > 40 mEq/L of soda)
Excess bicarbonate
administration Collaborative Care

Respiratory Acute respiratory acidosis Kidneys 1. Medications for Inflammation
acidosis Acute respiratory conditions conserve Providing an overview of medications commonly used to manage
pH < 7.35 (pulmonary edema, bicarbonate to inflammation. Explaining the mechanism of action and potential side effects of
PaCO2 > 45 mmHg pneumonia, acute asthma) restore these medications. Discussing the importance of adherence to medication
Opiate overdose carbonic regimens and monitoring for therapeutic effectiveness. Highlighting the role of
Critical values Chest trauma acid:bicarbonat healthcare professionals in educating patients about their medications.
pH < 7.2 e ratio of 1:20
PaCO2 > 77 mmHg Chronic respiratory acidosis
Multiple sclerosis, other 2. Surgical Interventions
neuromuscular diseases Discussing common surgical interventions used in the management of various
conditions. Explaining the indications for surgery and the expected outcomes.
Respiratory Anxiety-induced Kidneys Describing the preoperative, intraoperative, and postoperative nursing care
alkalosis hyperventilation excrete required for patients undergoing surgery. Highlighting the importance of
pH > 7.45 Fever bicarbonate effective communication and collaboration among healthcare team members.
PaCO2 < 35 mmHg Early salicylate intoxication and conserve
Hyperventilation with H+ to restore 3. Rehabilitation Services
Critical values mechanical ventilator carbonic
Explaining the role of rehabilitation services in promoting recovery and
рН > 7.60 acid:bicarbonat
PaCO2 < 20 mmHg e ratio improving functional outcomes. Discussing different types of rehabilitation
services, such as physical therapy, occupational therapy, and speech therapy.
Describing the goals and techniques used in rehabilitation programs.
Highlighting the importance of a multidisciplinary approach in achieving
Definition of Inflammation optimal outcomes.

Definition of Inflammatory Process Nursing Interventions
The inflammatory process is the body's response to tissue injury,
infection, or damage caused by irritants. Pain Management Techniques
It is a complex biological process involving the immune system, Discussing various pain management techniques used in nursing practice.
blood vessels, and various inflammatory mediators. Explaining the use of pharmacological and non- pharmacological interventions
Inflammation is characterized by redness, swelling, heat, pain, and for pain relief. Describing the importance of individualized pain assessment
sometimes loss of function. and the implementation of appropriate pain management strategies.
Highlighting the role of nurses in advocating for optimal pain control for their
patients.
What causes inflammation?
Applying Cold and Heat Therapy
Explaining the application of cold and heat therapy in nursing care. Discussing
ACUTE CHRONIC
the therapeutic benefits and risks associated with cold and heat therapy.
Describing the safe and effective techniques for applying cold and heat to
Tissue Necrosis Transplant rejection
different body parts. Highlighting the importance of monitoring the patient's
response to cold and heat therapy.
Microbial Infections Persistent infection (recurrent
acute inflammation)
Assisting with Positioning and Mobility
Discussing the importance of proper positioning and mobility for patient appropriate use of antibiotics and antiviral medication, can help control
comfort and prevention of complications. Explaining the principles of body infections and prevent complications.
mechanics and safe patient handling techniques. Describing the nursing
interventions required to assist patients with positioning, transferring, and Inflammatory Disorders Peritonitis, Crohn's Disease, Ulcerative Colitis
ambulation. Highlighting the importance of regular assessment and
documentation of the patient's CONTENTS
positioning and mobility status. 1. Definition and Overview
2. Symptoms and Diagnosis
Providing Wound Care 3. Treatment and Management
Describing the nursing interventions involved in providing wound care. 4. Crohn's Disease
Explaining the principles of aseptic technique and wound cleaning. Discussing 5. Ulcerative Colitis
different types of wound dressings and their appropriate use. Highlighting the
importance of regular assessment and documentation of wound healing 1. Definition and Overview
progress.
Explanation of Peritonitis
Monitoring and Managing Infection Risk Peritonitis is an inflammation of the peritoneum, a thin membrane
Explaining the importance of infection prevention and control in nursing that lines the abdominal cavity and covers the abdominal organs.
practice. Describing the nursing interventions for monitoring and managing It is commonly caused by infection, injury, or a medical condition.
infection risk. Discussing the role of hand hygiene, personal protective Peritonitis can be life- threatening if not treated promptly.
equipment, and proper disinfection techniques. Highlighting the importance of
patient and family education regarding infection prevention. Causes and Risk Factors
Bacterial or fungal infections can lead to peritonitis, often as a
Educating the Patient and Family result of a ruptured appendix, diverticulitis, or other abdominal
Discussing the importance of patient and family education in promoting self- infections.
care and recovery. Describing the nursing interventions involved in patient and Bacterial or fungal infections can lead to peritonitis, often as a
family education. Explaining the use of various teaching strategies and result of a ruptured appendix, diverticulitis, or other abdominal
materials to enhance learning. Highlighting the importance of tailoring infections. Injury Trauma or surgery to the abdomen can cause
education to the patient's individual needs and preferences. peritonitis if the peritoneal lining is damaged
Medical Conditions Certain medical conditions, such as cirrhosis,
Complications and Prevention pancreatitis, or inflammatory bowel disease, can increase the risk
of developing peritonitis.

Potential Complications 2. Symptoms and Diagnosis

Infection Common Symptoms of Peritonitis
Infections can occur as a result of various factors, including surgical Abdominal pain and tenderness
procedures or compromised immune systems. Common types of infections Fever and chills
include surgical site infections, urinary tract infections, and pneumonia. Swelling or distension of the abdomen
Preventive measures, such as strict adherence to infection control protocols Decreased appetite and weight loss
and proper wound care, can reduce the risk of infections. Nausea and vomiting

Chronic Inflammation Symptoms
Chronic inflammation refers to long-term inflammation that can lead to tissue Symptoms of peritonitis include:
damage and organ dysfunction. Conditions such as rheumatoid arthritis, Belly pain or tenderness
inflammatory bowel disease, and chronic hepatitis are examples of chronic Bloating or a feeling of fullness in the abdomen
inflammatory diseases. Lifestyle changes, such as maintaining a healthy diet Upset stomach and vomiting
and regular exercise, can help reduce chronic inflammation. Loss of appetite
Diarrhea
Organ Dysfunction Reduced urine
Organ dysfunction can occur as a result of complications from surgeries, Thirst
injuries, or underlying health conditions. Common examples of organ Not able to pass stool or gas
dysfunction include acute kidney injury, respiratory failure, and liver failure. Feeling tired
Early detection and appropriate treatment of the underlying causes can help Confusion
prevent or minimize organ dysfunction.
Diagnostic Methods for Peritonitis
Prevention Measures Physical Examination A healthcare provider may perform a
thorough physical examination to assess the signs and symptoms
Proper Hygiene Practices of peritonitis.
Proper hygiene practices, such as handwashing, can significantly reduce the Imaging TestsImaging techniques like X- rays, ultrasounds, or CT
risk of infections. Regular cleaning and disinfection of surfaces can help scans can help visualise the abdominal cavity and identify any
prevent the spread of infectious agents. Education and awareness campaigns abnormalities.
promoting good hygiene practices can further enhance prevention efforts. Laboratory Tests Blood tests may be conducted to check for signs
of infection, inflammation, or other abnormalities.

Immunizations
Immunizations play a crucial role in preventing various infectious diseases. 3. Treatment and Management
Vaccines stimulate the immune system to produce specific antibodies against
certain pathogens, providing immunity. Routine immunizations, such as those Medical Interventions for Peritonitis
for influenza, hepatitis, and measles, can greatly reduce the incidence and Antibiotics Intravenous (IV) antibiotics are typically administered
severity of related diseases. to treat the underlying infection causing peritonitis.
Fluid Resuscitation Intravenous fluids may be given to restore
Health Promotion and Lifestyle Changes proper hydration and maintain blood pressure.
Promoting a healthy lifestyle, including a balanced diet, regular exercise, and Pain Management Medications may be prescribed to alleviate
adequate sleep, can strengthen the immune system. Avoiding smoking, abdominal pain and discomfort.
excessive alcohol consumption, and illicit drug use can also enhance overall
health and minimize complications. Education and awareness programs can Surgical Procedures for Peritonitis
help individuals adopt and maintain healthy habits. Exploratory Laparotomy This surgical procedure involves making
an incision in the abdomen to examine the extent of infection or
Early Detection and Treatment of Infections damage and remove any infected tissue.
Early detection and timely treatment of infections can prevent complications Abscess DrainageIf an abscess is present, a surgeon may need to
and reduce organ dysfunction. Regular health check-ups and screenings can drain it surgically.
aid in the early detection of infections. Effective treatment protocols, including
 Repair of Underlying CauseSurgery may be necessary to repair Ulcerative colitis is a chronic inflammatory bowel disease that primarily affects
any underlying conditions that contributed to the development of the colon and rectum. It is characterized by recurring episodes of inflammation
peritonitis. and ulcers in the inner lining of the colon and rectum. The exact cause of
ulcerative colitis is unknown, but it is believed to involve an abnormal immune
4. Crohn's Disease response to the gut
microbiota in genetically susceptible individuals.
Introduction to Crohn's Disease
Factors Influencing Ulcerative Colitis
Background of Crohn's Disease Genetics: Having a family history of ulcerative colitis increases the
Crohn's disease is a chronic inflammatory bowel disease (IBD) that risk of developing the condition.
primarily affects the digestive tract. It was first described by Dr. Burrill B. Crohn Environmental Factors: Certain environmental factors, such as a
in 1932. Crohn's disease can occur at any age, but it is more common in Western diet high in refined carbohydrates and low in fiber, may
young adults. The exact cause of Crohn's disease is unknown, but it is increase the risk of ulcerative colitis.
believed to involve a combination of genetic, environmental, and immune Immune System Dysfunction: Ulcerative colitis is thought to result
system factors. from an abnormal immune response, where the immune system
mistakenly attacks the cells of the colon and rectum.
Signs and Symptoms
Symptoms and Complications
Common Symptoms of Crohn's Disease Common Symptoms of Ulcerative Colitis
Abdominal pain and cramping Diarrhea: The most common symptom of ulcerative colitis is
Persistent pain in the abdomen, often accompanied by cramping. ongoing diarrhea, often containing blood or pus.
Diarrhea: Frequent and watery bowel movements. Abdominal Pain: Many individuals with ulcerative colitis experience
Fatigue: Feeling tired and lacking energy. abdominal pain, cramping, or discomfort.
Weight loss: Unintentional weight loss due to reduced appetite and Rectal Bleeding: Ulcerative colitis can cause bleeding from the
absorption issues. rectum, which may be visible in the stool or on toilet paper.
Rectal bleeding: Blood in the stool or bleeding from the rectum. Fatigue: Chronic inflammation and ongoing symptoms can lead to
fatigue and a reduced ability to perform daily activities.
Potential Complications
Intestinal strictures Narrowing of the intestinal passages due to Potential Complications Arising from Ulcerative Colitis
inflammation, leading to obstruction.
Fistulas: Abnormal connections between different parts of the Colon CancerIndividuals with long- standing ulcerative colitis have an
intestine or between the intestine and other organs. increased risk of developing colon cancer.
Abscesses: Infected pockets of pus that can form within the Bowel Obstruction: In some cases, the inflammation and scarring
intestinal walls. associated with ulcerative colitis can narrow the colon, leading to
Nutritional deficiencies: Malabsorption of nutrients leading to bowel obstructions.
deficiencies in vitamins and minerals. Perforation: Severe inflammation can cause the colon to become
Increased risk of colorectal cancer: People with Crohn's disease perforated, leading to a lite threatening condition called a
have a higher risk of developing colorectal cancer compared to the perforated colon.
general population. Osteoporosis: Ulcerative colitis and its treatment can increase the
risk of osteoporosis, a condition marked by weak and brittle bones.
CROHN'S DISEASE
PATCHY INFLAMMATION THROUGHOUT SMALL AND LARGE BOWEL Diagnostic Methods for Ulcerative Colitis
Medical History and Physical Examination The healthcare provider
ULCERATIVE COLITIS will review the patient's medical history and perform a physical
CONTINUOUS AND UNIFORM INFLAMMATION IN THE LARGE BOWEL examination to look for signs of ulcerative colitis.
Laboratory Tests: Blood tests may be performed to check for
Diagnostic Methods for Crohn's Disease indicators of inflammation and to rule out other potential causes of
Endoscopy a procedure that allows a healthcare provider to symptoms.
examine the inside of the digestive tract using a lighted tube with a Endoscopic Procedures: Colonoscopy and flexible
camera. sigmoidoscopy are commonly used to visually analysis
Biopsy: Removing a small tissue sample from the digestive tract
for examination under a microscope. Differential Diagnosis of Ulcerative Colitis
Imaging tests: X- rays, CT scans, and MRI scans can help Crohn's Disease Crohn's disease is another type of inflammatory bowel
visualize abnormalities in the digestive tract. disease that can have similar symptoms to ulcerative colitis. Differentiating
Blood tests: Blood tests can help detect inflammation, anemia, and between the two often requires further testing and evaluation.
nutritional deficiencies. Infectious Colitis: Infections, such as those caused by bacteria or
parasites, can also cause symptoms similar to ulcerative colitis.
Differentiating Crohn's Disease from Other Conditions
Ulcerative colitisAnother type of IBD that primarily affects the colon; can be Treatment Approaches
distinguished from Crohn's disease based on the location of inflammation. Medications for Managing Ulcerative Colitis
Irritable bowel syndrome (IBS): A functional disorder that affects the normal Aminosalicylates: These anti-inflammatory drugs, such as
function of the bowel; does not cause inflammation like Crohn's disease. sulfasalazine and mesalamine, are commonly used to induce and
maintain remission in mild to moderate ulcerative colitis.
Treatment Options Corticosteroids: Corticosteroids, such as prednisone, may be
prescribed to reduce inflammation during flare- ups of ulcerative
Medications for Managing Crohn's Disease colitis. They are typically used for short-term treatment due to their
Anti- inflammatory drugs Corticosteroids and aminosalicylates can potential side effects.
help reduce inflammation in the intestines. Immunomodulators: Medications that suppress the immune
Immunomodulators: Medications that suppress the immune system system, such as azathioprine and methotrexate, may be used in
to reduce inflammation. certain cases to help maintain remission and reduce the need for
Biologics: Targeted therapies that inhibit specific molecules corticosteroids.
involved in the inflammatory process.
Surgical Options for Ulcerative Colitis
Surgical Interventions for Crohn's Disease Colectomy: In severe cases of ulcerative colitis that do not
Stricture plasty Surgical widening of narrowed respond to medical treatment, surgical removal of the colon
portions of the intestine. (colectomy) may be necessary. This can often lead to a permanent
Resection: Removal of a diseased portion of the intestine. ostomy or an ileal pouch- anal anastomosis (IPAA or J- pouch)
Ostomy surgery: Creating an opening in the abdomen for the surgery.
diversion of waste when bowel functionality is severely affected. Proctocolectomy:Proctocolectomy involves the removal of both
the colon and the rectum. It may be performed in cases with
5. Ulcerative Colitis extensive disease or if there is a high risk of developing colon
cancer. Depending on the circumstances. it may be followed by
Definition and Background creation of an ileostomy or an IPAA
 Diagnosis of hepatitis A is primarily based on clinical symptoms and confirmed
through laboratory testing. Blood tests can detect specific antibodies or viral
RNA to confirm the presence of the hepatitis A virus. Liver function tests may
01 Diverticular Diseases
show elevated levels of liver enzymes, indicating liver inflammation. Other
02 Hepatitis
03 Acute Pancreatitis
tests, such as ultrasound or liver biopsy, may be done to assess the severity of
04 Chronic Pancreatitis the disease.
05 Cholecystitis
06 Cholelithiasis
Hepatitis Virus Source Prevention Treatment
Diverticular Diseases
Diverticulosis is a condition characterised by the presence of small pouches or A HAV Contaminated Improved Rest,
sacs, called diverticula, in the wall of the colon. These diverticula generally do food and water Hygiene Adequate
not cause any symptoms and are often discovered incidentally during Vaccination nutrition
diagnostic tests for other conditions. The exact cause of diverticulosis is and fluids
unknown, but it is believed to be linked to a combination of factors
including age, diet, and genetics. B HBV Contact with Blood Nucleoside
infected body screening analogs
fluids Vaccination Pegylated
Risk Factors interferon
Age is a significant risk factor for diverticulosis, with the condition being more
common in individuals over the age of 40. A low- fiber diet is thought to
C HCV Syringes, Body Blood HCV direct
contribute to the development of diverticulosis, as it can lead to constipation fluids, From Screening acting
and increased pressure in the colon. Other risk factors include obesity, lack of HCV Improved antiviral
physical activity, smoking, and certain medications. infected mother hygiene (DAA)
agents
Diverticulosis occurs when weak spots in the colon wall allow the formation of
small pouches or diverticula. These pouches can develop in any part of the D HDV Blood and body Practice safe Pegylated
colon but are most commonly found in the sigmoid colon. The exact fluids sex interferon
pathophysiology of diverticulosis is not fully understood, but it is believed to Improved alpha
hygiene therapy
involve increased pressure in the colon and alterations in the structure of the
colon
wall. E HEV Fecal-oral route Drink clean Neuropath
Contaminated water y, Anemia
water Avoid raw
Definition and Overview Uncooked meat meat
Diverticulitis is a condition that occurs when the diverticula in the colon
becomes inflamed or infected. It is a progression of diverticulosis and usually
develops when faecal matter becomes trapped In the diverticula, leading to HEPATITIS CLASSIFICATION
bacterial overgrowth and inflammation. Diverticulitis can range from mild cases
with minimal symptoms to severe cases requiring hospitalisation and INFECTIOUS HEPATITIS
Surgical Intervention. Viral Hepatitis
Bacterial Hepatitis (with leptospirosis, syphilis)
Clinical Presentation Parasites Hepatitis (with amebiasis, fascioliasis, toxoplasmosis,
The clinical presentation of diverticulitis can vary opisthorchiasis)
depending on the severity of the condition. Common symptoms include
abdominal pain. usually localised to the lower left side, fever, changes in bowel TOXIC HEPATITIS
habits, nausea, and vomiting. Alcoholic Hepatitis
In severe cases, complications such as abscess formation, perforation of the Medicinal Hepatitis
colon, or fistula formation may occur. Chemical Hepatitis

Diagnosis and Imaging Hepatitis B
The diagnosis of diverticulitis is primarily based on clinical presentation and
physical examination. Epidemiology
Imaging studies such as computed tomography (CT) scan or ultrasound may Hepatitis B is a viral infection that primarily affects the liver, caused by the
be use to confirm diagnosis. assess the severity of the condition, hepatitis B virus (HBV). It is a major global health problem, especially in
and rule out possible causes of abdominal pain. Blood tests may also be regions with high rates of chronic infection. Hepatitis B can be transmitted
performed to evaluate White blood cell count and markers of inflammation. through contact with infected blood or body fluids, including sexual contact,
Most cases of uncomplicated diverticulitis can be needle sharing, or perinatal transmission.
managed with conservative treatment, which includes rest. a clear liquid diet. Immunization programs have led to a significant decline in new hepatitis B
and oral antibiotics. In severe cases or in those with complications, infections in many countries.
hospitalisation may be required For Intravenous antibiotics and supportive
care. Surgery may be necessary for recurrent, complicated, or chronic Clinical Manifestations
civeruiculluis. and it may involve the removal of the affected part of the colon Hepatitis B infection can range from asymptomatic to acute or chronic liver
(sigmoidectomy). disease. Many people with chronic hepatitis B infection remain asymptomatic
for years. Acute infection may cause symptoms such as fatigue, jaundice,
abdominal pain, and dark urine. Chronic infection can lead to liver cirrhosis,
Hepatitis liver cancer, and other complications.

Hepatitis A Transmission Routes
Hepatitis B can be transmitted through direct contact with infected blood or
Epidemiology body fluids. It can be spread through sexual contact with an infected person.
Hepatitis A is a viral infection that primarily affects the liver. It is usually spread Sharing needles or other drug paraphernalia can also lead to transmission of
through the consumption of contaminated food or water. The virus is prevalent the virus. Mother-to- child transmission during childbirth is another common
in areas with poor sanitation and hygiene practices. Hepatitis A can cause route of infection.
outbreaks in communities and can be prevented through vaccination.
Management and Treatment
Clinical Features Antiviral medications are commonly used to treat chronic hepatitis B infection.
Hepatitis A often presents with flu- like symptoms such as fever, fatigue, and Regular monitoring of liver function and viral load is crucial to assess the
loss of appetite. Jaundice, a yellowing of the skin and eyes, is a effectiveness of treatment. In some cases, treatment may be supplemented
characteristic symptom of hepatitis A. The infection is usually self-limiting and with pegylated interferon or liver transplantation. Prevention through
does not lead to chronic liver disease. In some cases, severe vaccination is considered the most effective strategy to control hepatitis B
hepatitis A can lead to acute liver failure, which is rare but potentially transmission.
life-threatening.
Diagnosis and Laboratory Findings Hepatitis C
Epidemiology Clinical Presentation and Diagnosis
Hepatitis C is a viral infection caused by the hepatitis C virus (HCV). It is a Symptoms of acute cholecystitis include sharp pain in the upper right
major global health concern, with a significant burden of disease. Hepatitis C abdomen, fever, nausea, and vomiting, whereas chronic cholecystitis can have
is primarily transmitted through exposure to infected blood, such as through similar but milder symptoms.nDiagnosis may involve imaging tests like
sharing needles or contaminated medical equipment. There is no vaccine for ultrasound, CT scans, or MRI, and blood tests to check for inflammation and
hepatitis C, but effective treatment options are available. infection.

Screening and Diagnosis Treatment Options
Screening for hepatitis C involves testing individuals at risk, including those Treatment options include pain management, antibiotics for infections, and
with a history of injection drug use, blood transfusions before 1992, or certain surgical removal of the gallbladder (cholecystectomy) in severe cases.
high-risk sexual behaviors. Diagnostic tests for hepatitis C include blood tests Lifestyle changes like a low- fat diet, exercise, and weight loss can also help
to detect HCV antibodies, RNA tests to confirm active infection, and liver prevent future episodes of cholecystitis
function tests to assess liver health. Further diagnostic tests, such as a liver
biopsy or imaging studies, may be done to evaluate the extent of liver Definition and Overview
damage. Cholelithiasis, commonly known as gallstones, refers to solid deposits of
cholesterol or bilirubin in the gallbladder or bile ducts. It is one of the leading
Management and Treatment causes of cholecystitis and can also lead to other complications.
Treatment for hepatitis C includes direct- acting antiviral medications that can
cure the infection in most cases. The choice and duration of treatment depend ACUTE VS CHRONIC
on various factors, such as the genotype of the virus and the extent of liver
damage.
Regular monitoring of liver function and viral load is important during and after Acute Pancreatitis Chronic Pancreatitis
treatment to assess the effectiveness of therapy. Harm reduction strategies,
such as needle exchange programs and education on safe injection practices, Acute, Isolated Episode Chronic, Ongoing Disease
can help prevent the spread of hepatitis C.
Active Inflammation Chronic Changes/Damage

Acute Pancreatitis Sudden and Severe Symptoms Fluctuate

Etiology and Risk Factors Short Term Long Term
Risk factors include gallstones, alcohol abuse, smoking, high
triglyceride levels, certain medications, and genetic predisposition. Days - Weeks Months - Years
Inflammation of the pancreas caused by autodigestion due to
premature activation of pancreatic enzymes. Elevated Pancreatic Enzymes Normal Pancreatic Enzymes

Clinical Presentation and Diagnosis Common Causes Common Causes
Severe abdominal pain that radiates to the back is the hallmark
symptom. Alcohol Recurrent Acute Episodes
Other symptoms include nausea, vomiting, fever, and abdominal
tenderness.
Gallstones Alcohol, Hereditary, Diseases
Diagnosis is made through clinical evaluation, blood tests, imaging
(CT scan, ultrasound), and/or endoscopic procedures.
Management of Patients with Biliary Disorders
Management and Treatment
1. Acute pancreatitis often requires hospitalization for supportive Anatomy and Physiology Overview
care.
2. Treatment includes pain management, fluid resuscitation, and Gallbladder
nutritional support. Bile
3. In severe cases, procedures like endoscopic retrograde Pancreas
cholangiopancreatography (ERCP)or surgery may be necessary. Exocrine: amylase, trypsin, lipase, secretin
Endocrine: insulin, glucagon, somatostatin
Chronic Pancreatitis

Pathogenesis and Causes Cholelithiasis
Chronic inflammation of the pancreas causing irreversible damage.
Common causes include long-term alcohol abuse and recurrent Pathophysiology
episodes of acute pancreatitis. Pigment stones
Cholesterol stones
Clinical Features and Diagnosis
Symptoms vary but can include persistent abdominal pain, weight Clinical Manifestations of Cholelithiasis
loss, malabsorption, and diabetes. None or minimal symptoms, acute or chronic
Diagnosis requires a combination of clinical evaluation, imaging Pain
(CT scan, MRI), and pancreatic function tests. Biliary colic
Jaundice
Treatment and Medical Management Changes in urine or stool color
Treatment focuses on pain management, nutritional support, and Vitamin deficiency, fat soluble (vitamins A, D, E, and K)
managing complications like diabetes.
Lifestyle modifications such as alcohol cessation and smoking Medical Management of Cholelithiasis
cessation are crucial ERCP
In advanced cases, surgical intervention may be necessary to Dietary management
alleviate pain or resolve complications. Medications: ursodeoxycholic acid and chenodeoxycholic acid
Laparoscopic cholecystectomy
Definition and Overview
Cholecystitis refers to inflammation of the gallbladder, which can be acute or Nonsurgical removal
chronic in nature. It is commonly caused by gallstones blocking the cystic duct By instrumentation
or due to infection, trauma, or structural abnormalities. Intracorporeal or extracorporeal lithotripsy

Causes and Risk Factors Pancreatitis
Gallstones, the primary cause of cholecystitis, can form due to a variety of Acute: pancreatic duct becomes obstructed, and enzymes back
factors such as genetics, obesity, and a high- fat diet. Certain medical up, causing autodigestion and inflammation of the pancreas
conditions like diabetes, liver cirrhosis, and Crohn's disease can also increase Chronic: progressive inflammatory disorder with destruction of the
the risk of cholecystitis. pancreas; cells are replaced by fibrous tissue; pressure within the
 pancreas increases, obstructing the pancreatic and common bile Women of childbearing age
ducts 5% present in childhood (puberty)
Assessment of the Patient Undergoing Surgery for Gallbladder Disease Rare in children younger than 9 years of age
Patient history Chronic, progressive, systemic inflammatory disease that can
Knowledge and education needs cause major organs and systems to fail
Respiratory status and risk factors for respiratory complications CONNECTIVE TISSUE and FIBRIN deposits collect in blood
postoperative vessels on collagen fibers and on organs.
Nutritional status The deposits lead to necrosis and inflammation in blood vessels,
Monitor for potential bleeding