Immune System Part 2.pptx

Full Transcript

The Immune System
and Anesthesia: Part 2
Dr. Jessica Bodenhamer, DNP, APRN, CRNA
Murray State University Nurse Anesthesia Program
NUR 951
Summer 2024
NCE/SEE Exam: Immune Content

I. Basic Sciences (20%)
A. Anatomy and physiology: #9 Immune
B. Pathophysiology: #10 Immune
1. Infections disorders (HIV, AIDS)
2. Hypersensitivity disorders (Type I-IV)
3. Autoimmune diseases

IV. Anesthesia for Surgical Procedure and Special Populations (25%)

A. Anesthesia for special populations: #6 Immune compromised and
oncology patients
a. Pharmacology
b. Anesthesia techniques/procedures
c. Management
Reading
A TrueLearn, LLC Company. (2024). APEX Anesthesia Review.
https://dj5370log8la3.cloudfront.net/grassblade_production_new/204323-sr-miscellaneous-
topics-tutorial8/index.html?actor=%7B%22mbox%22%3A%22mailto%3Ajessica.bodenhamer
%40uky.edu%22%2C%22name%22%3A%22Jessica%20Bodenhamer%22%2C%22objectType
%22%3A%22Agent%22%7D&auth=Basic
%20MTQtZWE3NDNlZmFjMDc3MzAwOjRiMWM5YWFhZjZkZTdjNzMyOWE3NmYyZjk
%3D&endpoint=https%3A%2F%2Flrs.apexanesthesia.com%2FxAPI
%2F&registration=36fc1ee0-2849-4bb9-b697-71cd4cad1b6e&activity_id=http%3A%2F
%2FSRbeaZ6p0mN5g9foZ2ESviayP3FbxHl9c7_rise#/lessons/
iINGfjE38HwphP_rn7QKAzP02yEwIQKY
Elisha, J.N. S., Heiner, J.S., & Nagelhout, J. J. (2023). Nurse Anesthesia (7th ed.). Elsevier Health
Sciences.
Gropper, M. (2020). Miller's Anesthesia (9th ed.). Elsevier Health Sciences (US).
Hagberg, C. A. (2022). Benumof and Hagberg's Airway Management (5th ed.). Elsevier - OHCE.
Hines, R.L. & Jones, S.B. (2021). Stoelting's Anesthesia and Co-Existing Disease (8th ed.).
Elsevier - OHCE.
Objectives

Review the anatomy and physiology of the Immune system
Review the pathophysiology of the Immune system
Review anesthesia for surgical procedures
Review anesthesia for special populations
 Angioedema
Hereditary or acquired
Characterized by episodic, asymmetric
subcutaneous, and submucosal edema
formation
○ involving the face, extremities, and
gastrointestinal tract
○ occurs rapidly and often resolves
spontaneously
Two types of angioedema
○ release of mast cell mediators
urticaria, bronchospasm,
flushing, and hypotension
○ bradykinin release
does not cause allergic
symptoms
Hereditary vs Acquired
Angioedema
Hereditary
Deficiency or dysfunction of C1 esterase inhibitor (serpin)
○ absence of C1 esterase inhibitor = release of vasoactive mediators that increase
vascular permeability and produce edema via bradykinin
Patients experience repeated bouts of facial and/or laryngeal edema lasting 24 to 72 hours
○ triggered by menses, trauma, infection, stress, or estrogen-containing oral
contraceptives
○ Dental surgery can trigger laryngeal attacks
Diagnosis
○ low C4 level

Acquired

Patients with lymphoproliferative disorders have antibodies to C1 inhibitor
○ Syndrome that closely mimics hereditary angioedema
○ Angiotensin-converting enzyme (ACE) inhibitors can precipitate angioedema
0.2% of patients
increased availability of bradykinin made possible by the ACE inhibitor–mediated
blockade of bradykinin catabolism
Treatment of Angioedema

Mast cell–mediated angioedema treatment
Same as treating allergy and anaphylaxis - epinephrine, antihistamines,
glucocorticoids

Bradykinin-mediated angioedema
C1 inhibitor concentrate, a kallikrein inhibitor, or a bradykinin-receptor antagonist
Fresh frozen plasma to replace the deficient enzyme

ACE inhibitor–induced angioedema
Stop the offending drug
Administer supportive care
Glucocorticoids
○ increase the expression of ACE
○ accelerate bradykinin metabolism
C1 inhibitor concentrate, kallikrein, or a bradykinin-receptor antagonist
Management of
Angioedema

Prophylactic Management
before a stimulating procedure: surgery requiring endotracheal intubation, dental surgery
○ availability of C1 inhibitor concentrate for IV infusion should an acute attack occur
androgens and tranexamic acid previously used to prevent attacks of
angioedema
○ Incidental trauma to the oropharynx - suctioning - should be minimized
○ Regional anesthetic techniques are well tolerated

Emergent Management
Secure the airway
○ depends on the severity of swelling
Intubate: dyspnea, voice changes, difficulty controlling secretions, altered
mental status, respiratory distress, or stridor
○ videolaryngoscope, awake fiberoptic, surgical airway
Angioedema

How do I manage this?
object/goal
concerns/considerations

What is my plan?
equipment needed

What do I need to discuss
with the patient?
Success!!
 Alloimmunity

Alloimmunity (isoimmunity)
Response of the immune system toward nonself antigen of other members of the
same species, called alloantigens or isoantigens
Two major types
○ Blood group alloantigens
Thrombocytopenia
Transfusion reactions
○ Histocompatibility alloantigens
rejection of solid organ transplantations
Autoimmunity
Self-tolerance
○ ability of the immune system to recognize and avoid destruction of host cells
Autoimmunity is an abnormal response to self antigens
○ resulting in production of self antibodies or autoantibodies
○ damage to self tissues due to dysfunction of the innate and/or adaptive
immune systems
Genetic predisposition toward developing an autoimmune disorder
○ more than one autoimmune disorder can occur in the same individual
○ higher incidence in females in childbearing years
Over 80 different types of autoimmune disorders
○ most common: Graves disease, Hashimoto thyroiditis, multiple sclerosis
(MS), RA, SLE, and type 1 diabetes mellitus
Autoimmune Disorders
 Graves Disease

Type V hypersensitivity caused by autoantibodies to the TSH receptor
○ thyroid-stimulating antibody (TSAb) stimulates the thyroid gland
excessive production of thyroxine (T4) and triiodothyronine (T3)
Symptoms
○ tachycardia, palpitations, tremor, heat intolerance, and anxiety
○ physical symptoms: thyroid enlargement (goiter) and weight loss
○ ophthalmopathy changes (exophthalmos) - distinguishing characteristic of the disease
result of TSI binding to TSH retroorbital tissues
Diagnosis
○ elevated plasma levels of T3 and T4, low or absent TSH, radioactive iodine (RAI) uptake,
and thyroid ultrasound
Treatment
○ antithyroid medications (methimazole and propylthiouracil) to normalize production of T3
and T4
○ thyroidectomy and RAI destruction of the thyroid
require replacement therapy
Anesthetic Management of Graves
Disease
Euthyroidism should be established preoperatively
○ elective cases: waiting 6 to 8 weeks for antithyroid drugs (propylthiouracil (PTU)) to become
effective
○ emergency cases:
intravenous β blocker, ipodate, glucocorticoids, and PTU
No intravenous preparation of PTU - taken orally
glucocorticoids (dexamethasone 2 mg IV every 6 hr)
decrease hormone release and reduce the peripheral conversion of T4 to T3
Airway Evaluation
○ evidence of tracheal compression or deviation caused by a goiter
Examination of chest radiographs and CT scans
Intraoperative Management
○ need for invasive monitoring is determined by medical condition of the patient
○ adequate anesthetic depth to avoid exaggerated sympathetic nervous system responses
○ avoid drugs that stimulate the sympathetic nervous system (ketamine, atropine, ephedrine,
epinephrine)
○ eye protection (eyedrops, lubricant, eye pads)
○ any inhalational agents may be used
○ may have coexisting muscle disease (myasthenia gravis): reduced requirements for
nondepolarizing muscle relaxants
Postoperative Management
○ half-life of T4 is 7 to 8 days
Continue β-blocker therapy
Hashimoto Thyroiditis
Most common thyroid disorder
○ Females are seven times more likely than males
Etiology
○ Thyroglobulin (Tg) and thyroid peroxidase (TPO) antigens stimulate
the production of Tg and TPO antibodies
Occurs during acute thyroid inflammation, hemorrhage, or rapid
disordered growth of thyroid tissue
○ Results in follicular destruction of the thyroid
Diffuse lymphocytic infiltration of the thyroid and activation of
the other components of the immune system
Symptoms
○ Goiter and hypothyroidism
Diagnostic tests
○ Labs: low plasma levels of total T4 and elevated TSH levels
○ Tissue biopsy: presence of Tg and TPO antibodies
Treatment:
○ Thyroid hormone replacement (levothyroxine sodium)
 Multiple Sclerosis
Demyelinating disorder of the CNS
○ females are affected two times more than males
Immune-mediated inflammatory disease that attacks the myelin, oligodendrocytes
(myelin producing cells), and the underlying nerve fibers
○ CD4 Th1/Th17 cell subsets, B-cell antibodies, NK cells, CD8 Tc, microglia/macrophages, and
complement
Symptoms
○ fatigue, tingling, numbness, muscle weakness, ataxia, vertigo, tremor, spasticity, bladder and
bowel dysfunction, pain, and heat intolerance.
○ periods of relapse (new influx of immune cells) and periods of remission (remyelination)
Diagnosis
○ MS lesions on magnetic resonance imaging (MRI)
○ elevated IgG in the cerebrospinal fluid (CSF)
○ decreased conduction velocity on evoked response studies (visual, auditory, and somatosensory)
Treatment
○ disease-modifying agents (DMAMS)
IFN-β1b (Betason), IFN-β1a (Avonex, Rebif), and glatiramer acetate (Copaxone)
○ Acute relapses: corticosteroids and plasma exchange (plasmapheresis)
○ Severe progressive: antineoplastic agents - cyclophosphamide (Cytoxan) and mitoxantrone
(Novantrone)
 Management of Multiple Sclerosis

General anesthesia

Impact of surgical stress No unique interactions
○ no evidence to support the use of one inhaled or
Symptoms and signs of multiple sclerosis exacerbated injected anesthetic drug over another
postop Minimize changes in fluid homeostasis, central
Infection and fever hemodynamics (preload, afterload) and to maintain
○ Increase in body temperature (1°C) respiration
exacerbation of multiple sclerosis
complete block of conduction in
Regional anesthetic techniques
demyelinated nerves
avoid hyperthermia Past hypothesis: intrathecal administration of local
anesthetics promoted demyelination in the spinal cord
Corticosteroid supplementation leading to exacerbation of disease
Both spinal and epidural anesthesia have been used safely
Preoperative chronic immunosuppressive medication
○ Demyelinated regions of the spinal cord may be
should be continued
more susceptible to the neurotoxic effects of local
anesthetics
Spinal: Reduce intrathecal dose
○ Epidural: less risk than spinal anesthesia
Peripheral nerve blocks: no significant increased risk
Management of Multiple Sclerosis

Neuromuscular Blocking Agents

Succinylcholine: Avoid
○ Exaggerated potassium release resulting in fatal cardiac arrhythmias
Nondepolarizing muscle relaxants: safe
○ Dose cautiously
Prolonged responses - increased sensitivity with preexisting muscle weakness
Coexisting skeletal muscle weakness and decreased skeletal muscle
mass
Resistance to the effects of nondepolarizing muscle relaxants
proliferation of extrajunctional cholinergic receptors
○ Use rocuronium with sugammadex to ensure full reversal

Postoperative Management

Patients with severe weakness and respiratory distress (pharyngeal dysfunction)
○ may need extended postoperative care
○ noninvasive/invasive respiratory support
○ intense physiotherapy
Rheumatoid Arthritis
Inflammatory autoimmune disease
○ Synovial inflammation and hyperplasia, cartilage and bone destruction, and systemic features
cardiovascular, pulmonary, psychological, and skeletal disorders
○ Affects the smaller joints of the hand and feet but spreads to the larger joints
○ Females are affected three times more often than males
Innate and the adaptive immune systems
○ T cells - initiation of RA
CD4 Th cells - activate macrophages and synovial fibroblasts, the main producers of TNF-α, IL-6, and IL-1
○ APCs (DCs, macrophages, and activated B cells) activate the T cells
abnormal production and regulation of both proinflammatory and antiinflammatory cytokines
B cells produce rheumatoid factor (RF) and anticyclic citrullinated peptide (anti-CCP) antibodies
Diagnostic tests
○ Elevated erythrocyte sedimentation rate (ESR) and CRP
○ Presence of RF and anti-CCP antibodies
○ Synovitis, bone erosion, and destruction of cartilage on x-ray and MRI
Disease-modifying antirheumatic drugs (DMARDs)
to control pain and inflammation and reduce joint damage
○ Methotrexate (MTX) inhibits cytokine production, blocks lymphocyte and monocyte proliferation, and prevents
osteoclast formation
○ Biologics target specific immune mediators of the inflammatory process and are frequently combined with MTX
○ NSAIDs and corticosteroids are effective in early or mild cases
Surgical procedures include synovectomy, tendon repair, joint fusion, and total joint replacement
○ Anesthetic considerations: positioning, neck extension
Systemic Lupus Erythematosus
(SLE)
Autoimmune inflammatory disease with widespread effects
○ cardiovascular, hepatic, pulmonary, renal, joints, and skin
○ 10 times more common in females
Early diagnosis - difficult because of widespread and nonspecific symptoms
Characterized by a large variety of autoantibodies
○ antibodies against coagulation proteins, erythrocytes, lymphocytes, nucleic acids, platelets, phospholipids
Common findings in SLE
○ butterfly-shaped rash on cheeks/red rash with raised round or oval patches/rash on skin on exposure to sun,
mouth sores, arthritis, pleuritis or pericarditis, renal impairment, CNS involvement (seizures, strokes, or
psychosis), and abnormal blood tests
○ Laboratory abnormalities: anemia, leukopenia, or thrombocytopenia, elevated ESR and/or CRP levels, and
presence of antinuclear antibodies (ANA)
Diagnostic tests
○ anti–double-strand DNA (anti-dsDNA), anti-Smith (anti-Sm) or antiphospholipid antibodies, lupus
anticoagulant (LA), IgG and IgM anticardiolipin (aCL), IgG and IgM anti-β2-glycoprotein, elevated C3 and C4 or
CH50 complement levels, and a false-positive blood test for syphilis
Treatment
○ Avoid triggers: viral infections, sunlight, cigarette smoking
○ NSAIDs: effective in mild cases
○ Corticosteroids or immunosuppressants (azathioprine, mycophenolate, mofetil, MTX) for severe cases
○ MAB belimumab (Benlysta): B-lymphocyte stimulator–specific inhibitor reduces the number of severe flare ups
when used in combination with steroids and DMARDs
Type I Diabetes Mellitus

Type 1A diabetes (T1AD):

Autoimmune destruction of the insulin-producing β cells of the pancreatic islets of
Langerhans
○ Diagnosed between 5 and 7 years of age or around puberty
○ Females and males are affected equally
Onset of the clinical symptom correlates with the end stage of β-cell destruction
○ Immune markers are detectable after the onset of the autoimmune process and long before
clinical presentation of the disease
Pathogenesis
○ T-cell infiltration of the islets (CD8 Tc cells and macrophages)
insulitis and destruction of β cells, decreased insulin production, and insulin-dependent
diabetes
○ Four autoantibodies are involved in destruction of the β cells
islet cell antibodies (ICAs), glutamic acid decarboxylase (GAD-65), insulin
autoantibodies (IAAs), and protein tyrosine phosphatase (IA-2A)
Treatment
○ Insulin replacement therapy
Immunodeficiency Disorders
Primary Immunodeficiency Disorders (PIDDs)

Result of a genetic defect in cells of the immune system
○ lymphocytes, antibodies, phagocytes, and complement proteins
Characterized
○ low antibody levels, defective antibodies, or defective cells of the immune system
T cells, B cells, neutrophils, and complement
○ Increased susceptibility to repeated infections - recurrent, unusual, or difficult to treat infections
pneumonia, ear infections, and sinusitis
○ Poor growth patterns or weight loss, recurrent deep abscesses of organs or skin, enlarged lymph glands or
spleen, and a coexisting autoimmune disease
Classification of PIDDs is based on the genetic defect, laboratory findings, and associated features of
the disorder
Treatment
○ largely supportive
○ bone marrow transplantation
○ recent advances in immunobiology, genetics, and availability of biologic modifiers

Secondary deficiencies

Disease (cancer), infections, malnutrition, and medications
 Acquired Immune Deficiency
Disorders
Acquired Immune Deficiency (AID) aka Secondary Immune Deficiency
90% of immune deficiencies are acquired
Causes of AID worldwide
○severe malnutrition - most prevalent cause
○human T-cell lymphotropic virus type 1 (HTLV-1) infection
○lymphoid cancers such as leukemia and lymphoma
○autoimmune disease such as T1AD
○splenectomy
○aging
○immunosuppressant drugs (corticosteroids, chemotherapy, and DMARDs)
Affects both the innate and the adaptive immune systems
Treatment of the primary condition usually results in improvement of the associated AID
 Acquired Immune Deficiency
Syndrome
Acquired Immune Deficiency Syndrome (AIDS)

There are two forms and many subtypes of HIV: 90% of HIV-1 infections belong to the HIV-1 group M
Mechanism:
○ affects monocytes and macrophage
○ CD4 T-cells are attacked by HIV
HIV is a single-stranded RNA molecule = retrovirus
○ reverse transcription: the infected CD4 cell makes a DNA double-stranded helix that contains the viral
genetic information
○ Infected cell membranes display viral glycoproteins that can be recognized by APCs for presentation to NK,
Tc, and B cells for destruction
○ HIV is capable of changing the amino acid sequences of the antigenic regions of their glycoproteins
new version is not recognized by the existing antibodies and escapes destruction
○ Virally infected cells continue to multiply until the immune system is able to produce new, virus-specific
antibodies
Acute HIV infection:
○ flu like symptoms
increased release of inflammatory mediators
transient decline in circulating CD4
AIDS: CD4 cell count < 200 cells/mm
○ Symptoms: chills, fever, sweats, swollen lymph glands, weakness, weight loss, and heightened risk of
severe opportunistic infections and diseases
Acquired Immune Deficiency
Syndrome
Diagnosis:
○ plasma HIV antigen and HIV antibodies
CD4 T-cell count less than 200/mL (normally 600–1500/mL)
Treatment:
goal is to suppress the viral load to an “undetectable” level
○ Antiretroviral therapy (ART)
fusion inhibitors that interfere with the HIV’s ability to fuse with a cellular membrane
entry inhibitors that interfere with the ability of HIV to bind to external cell receptors
nucleoside/nucleotide reverse transcriptase inhibitors (NRTIs)
faulty DNA building blocks that interfere with HIV DNA synthesis
nonnucleoside reverse transcriptase inhibitors (NNRTIs) that bind to reverse
transcriptase (RT) and prevent the conversion of HIV RNA into HIV DNA
protease inhibitors (PIs) that interfere with HIV protease, which is essential for cutting
long chains of HIV proteins into smaller individual proteins
integrase strand inhibitors (InSTI) that block the HIV enzyme integrase that is responsible
for the integration of viral RNA into the DNA of the infected cell
recommended initial ART regimen: two NRTIs and an InSTI
optional regimen: NNRTI or boosted PI combined with two NRTIs
Preexposure prophylaxis (PrEP)
○ daily two-drug combination of emtricitabine, a nucleoside reverse transcriptase inhibitor, and tenofovir
alafenamide, a nucleotide reverse transcriptase inhibitor
○ risk of getting HIV from sex is reduced 99% with PrEP, and the risk of drug injection is reduced by 74%
Cancers of the Immune System
 Leukemia
Uncontrolled clonal proliferation of malignant, dysfunctional leukocytes
prevent the development of normal hematopoietic cells in the bone marrow
○ Incidence is higher in males and increases with age
○ Increased risk: Down syndrome and neurofibromatosis, environmental exposure to radiation
treatments and benzene, cigarette smoking, and a family history of leukemia
Survivors:
○ increased risk of other cancers
○ increased risk for osteonecrosis of the large joints and endocrine abnormalities
Mechanism:
○ Malignant lymphoblasts replace the normal marrow elements
significantly decreasing production of normal blood cells
anemia, thrombocytopenia, and neutropenia occur
abnormal lymphoblasts proliferate in lymphoid organs - liver, spleen, and lymph nodes
Symptoms:
○ fever or chills; fatigue; weakness; frequent or severe infections; weight loss; enlarged lymph nodes,
liver, and spleen; bruising; recurrent nosebleeds; petechiae; and bone pain
Diagnosis:
○ bone marrow biopsy with immunophenotyping
○ Classification: abnormal cell origin (lymphoid or myeloid), rate of the progression (acute or chronic)
Lymphoid - lymphocytes of lymphoid or lymphatic tissue
Myeloid - precursors of granulocytes or monocytes
Acute leukemia involves immature blood cells that multiply aggressively and rapidly
Chronic leukemia involves mature blood cells that multiply slowly
 Lymphoma
Proliferation of malignant lymphocytes in the lymphoid tissue
Two groups: non-Hodgkin lymphoma (NHL) and Hodgkin lymphoma (HL)
○ Both arise in the head and neck regions
○ Approximately 90% of lymphomas are NHL and 10% are HL
Etiology
○ Most are malignant B lymphocytes, some are T-cell and NK lymphomas
Risk factors:
○ environmental chemical exposure (benzene, herbicides, and insecticides), prior chemotherapy, radiation exposure, immune
system deficiency or suppression (organ transplantation or autoimmune disease), infections (HIV, HTLV-1, human herpesvirus 8
[HHV8], and Epstein-Barr virus [EBV]), autoimmune disease (RA, SLE, Sjögren disease, and celiac sprue), and chronic immune
stimulation (Helicobacter pylori, HBV, hepatitis C [HCV], and Chlamydophila psittaci)
Symptoms:
○ Similar to common viral illnesses - painless swelling of lymph nodes
Diagnosis:
○ Lymph node biopsies
Staging:
○ Computed tomography (CT), MRI, positron emission tomography (PET), bone marrow biopsy, and CSF analysis
○ Stages identify the degree of cancer spread
Stage I - the tumor is localized
Stage II - limited spread confined to one side of the diaphragm
Stage III - regional spread to either side of the diaphragm or to an area near the primary lymph node tumor
Stage IV - distal spread beyond the lymphatic system
○ Further divided into A or B
B-denoted lymphoma: more advanced
Treatment:
○ Radiation can be curative for early stages
○ Chemotherapy for advanced stages
Multiple Myeloma
aka Kahler disease
Most common type of myeloma
Etiology
○ Mutation of plasma B cells results in rapid proliferation of abnormal myeloma cells
interfere with the production of WBCs, RBCs, and platelets
○ myeloma cells produce monoclonal proteins or M protein microglobulins
○ M proteins accumulate into plasmacytomas that erode the cortex of the bone resulting in osteoporosis and
bone fractures
also deposited in organs throughout the body
Symptoms:
○ Anemia, bleeding, bone lesions and pain, hypercalcemia, and renal failure
Staging I, II, and III
○ degree of anemia, number of M proteins, and renal damage
Diagnosis
○ bone marrow biopsy diagnosis
Treatment
○ chemotherapy and glucocorticoids
○ targeted drug therapy with proteasome inhibitors (bortezomib) that induce cell death
○ immunomodulating drugs (thalidomide, lenalidomide, pomalidomide) that enhance the immune system’s
ability to recognize and destroy the myeloma cell
○ MABs (daratumumab, elotuzumab) that target receptors on myeloma cells
○ IFN can also slow the growth of myeloma
○ Bisphosphonates (alendronate, zoledronic acid), MABs (denosumab), and recombinant parathyroid hormone
(teriparatide) are used to increase bone density
○ Autologous or allogeneic HSCT following high-dose chemotherapy may be used for advanced stages
Monoclonal Antibodies

Laboratory engineered molecules that mimic natural antibodies
Attach to abnormal cells and mark them for identification and destruction by the immune system
(immunotherapy)
○ surrounding healthy cells are unaffected by the MAB
Treatment of cancers and to prevent rejection of transplanted organs
○ Rituximab (Rituxan) attaches to a specific protein (CD20) found only on B cells
mark lymphomas arising from these cells and make them visible for destruction by the immune system
○ Cetuximab (Erbitux) attaches to the receptor for epidermal growth factor (EGF) on cancer cells and slows or
prevents progression
○ Bevacizumab (Avastin) targets a vascular endothelial growth factor (VEGF) that cancer cells secrete to develop
new blood vessels
○ Ado-trastuzumab emtansine (Kadcyla), a MAB combined with a chemotherapeutic drug
treat human epidermal growth factor receptor 2 (HER-2)-positive breast cancers
○ Radioimmunotherapy combines a MAB with a radioactive isotope (e.g., ibritumomab [Zevalin])
attaches to cancer cell receptors and destroys the cancer cell through radiation
Treatment of autoimmune diseases
○ adalimumab (Humira) and etanercept (Enbrel)
interfere with TNF
treatment of rheumatoid arthritis (RA) and Crohn disease
Cancer cells express abnormal antigens
(tumor-associated antigens) on their cell
surface that can:
activate immune cells
be used as targets for monoclonal
antibodies
Surgery and the Immune System

Immune surveillance - coordinated activity to destroy cancer cells and infectious organisms

NK cells of the innate immune system
cytotoxic CD8+ T cells of the adaptive immune system to destroy cancer cells and infectious
organisms

Surgery and anesthesia decrease normal immune surveillance

Results
○ surgical site infections (SSIs), postoperative sepsis, and tumor migration and metastasis
Immediate postoperative period
○ initial proinflammatory phase
○ quickly followed by a period of immunosuppression
surgical stress activation of the sympathetic nervous system (SNS) and the hypothalamic-
pituitary-interrenal (HPI) axis
Increased circulating inflammatory mediators, hyperglycemia, hypothermia, blood transfusions,
and anesthetic agents
Patient factors contribute to perioperative immune system dysfunction
○ preexisting immune deficiency, immune suppression therapy for autoimmune diseases or organ
transplantation, increasing age, preexisting diseases such as diabetes mellitus, and preoperative sepsis
Innate immune system has an earlier recovery from postoperative immunosuppression than the
adaptive system
 Surgical Site Infections
Infection that occurs at or near the surgical incision within 30 or 90 days of the procedure
depending on type of surgery
○ Prolonged hospitalizations and increased patient morbidity and health care costs
○ Staphylococcus aureus, Staphylococcus epidermidis, aerobic streptococci, and anaerobic cocci
○ Causes: patient age, comorbidities, smoking habits, obesity, nutritional status, immunosuppression,
malignancies, and postsurgical wound contamination
Innate immune system
○ Activated within hours of the procedure in response to the tissue damage and blood loss
○ DAMPs promote neutrophil and macrophage migration to the site of injury for removal of tissue debris
Activate APCs - monocytes and DCs
Inflammatory cytokines, chemokines, and antimicrobial peptides are released
enhance eradication of injured cells and microbes
Surgery
○ Intraoperatively:
Increased release of Th1 cytokines
○ Postoperatively:
Th1 cytokines decrease and Th2 cytokines increase
Decrease in T cells that correlates with the duration of the procedure and intraoperative blood
loss
○ Stress hormones elevated
epinephrine, norepinephrine, and cortisol
Surgical Site Infections
Normally anti-inflammatory mechanisms temper the acute inflammatory response
○ If that doesn’t occur:
Excessive death of phagocytes and increased susceptibility to infection
Vicious cycle ensues
surgical trauma causing inflammation and immunosuppression
subsequent infection from invading microbes increasing the inflammatory
response
end result is tissue injury and potential organ failure
Laparoscopic surgery
○ decreases immune suppression
○ attenuates the cytokine cascade of a decrease in lymphocytes and shift toward a Th2
dominance
Immunomodulating diets (IMD)
○ containing
supplemental arginine and omega-3 fatty acids
Β-blockade
○ reverse the Th1/Th2 imbalance
○ may be beneficial in reducing the immunosuppression associated with surgical trauma
Cancer Recurrence
Surgical excision of tumors stimulates proliferation and metastasis of tumor cells
○ Disrupts the blood vessels
allowing tumor cells to enter the systemic circulation
Immune and inflammatory processes activated in surgery
○ promote the survival and proliferation of cancer cells
contributing to the development of metastatic disease
Postoperative period = most vulnerable period for metastasis of cancer cells
○ surgical suppression of cell-mediated immunity

Tumor cells have cell-mediated immunity
○ dependent on the normal function of Tc, NK and NKT cells, DCs, and macrophage inflammatory mediators
Surgical induced activation of HPA axis and SNS
○ increases release of cortisol and catecholamines
○ inhibit the proliferation of NK cells and CD8+ T cells necessary to destroy cancer cells
○ promotes proliferation of protumor Treg and Th2 = tumor growth and metastasis
Tumor cells express adrenergic β-receptors
○ initiation and progression of cancer
○ β-receptor activation suppresses NK activity and supports metastasis
○ Increased epinephrine and norepinephrine released in the HPA stress response bind to the β-receptors on tumor
cells = increased proliferation and survival
Current research: use of β-blockers to reduce the progression rate of solid tumors
Metastasis
Trauma to normal tissue during surgical resection of a tumor

stimulates an inflammatory response necessary for normal wound healing at
the surgical site
○ release of humoral factors, such as prostaglandins, cytokines, TNF, and chemokines
○ these factors activate macrophages, neutrophils, and fibroblasts to release
additional cytokines and growth factors
factors that promote normal tissue healing also stimulate residual cancer cell
proliferation and migration
○ combined with the hypothalamic-pituitary-adrenal (HPA) axis inhibition of NK cells
and CD8+ T cells
○ inflammatory response supports invasion of surrounding normal tissue by tumor
cells as well as inflammatory oncotaxis (metastasis of tumor cells to distant sites)
Perioperative Blood Transfusion

Blood transfusions

independent correlate of a poor outcome following cancer surgery
○ depression of the immune system
○ increased metastasis and recurrence of cancer

Transfusion-related immunomodulation (TRIM)

Mechanism
○ donor leukocyte suppression of monocytes, altered lymphocyte function, release of immunosuppressive
prostaglandins, inhibition of IL-2, increased suppressor T-cell activity, and a shift toward protumor Th2 cells
Associated with
○ higher allograft survival rates
○ increased risk of postoperative infections
○ increased tumor recurrence after surgical resection
○ activation of latent viral infections
○ improvement in autoimmune disease
Irradiated or leukocyte-depleted blood products
○ recommended for cancer patients to offset the depression of the immune system by donor leukocytes
Intraoperative cell saver
○ contributes to cancer recurrence as the surgical blood can contain tumor cells
Perioperative Hyperglycemia

Increased incidence of SSI and poor patient outcomes
Mechanism:
○ decreased neutrophil proliferation and function
○ decreases mobilization and adherence of monocytes at the site of infection
impedes their bactericidal activity
limits their ability to stimulate apoptosis in pathogenic cells
○ decreases the complement response
inhibits opsonization by binding to the C3 receptor
preventing it from attaching to the microbe and activating phagocytosis
○ increased synthesis and release of cytokines
IL-6, TNF, and CRP
○ decreased vasodilation during acute tissue inflammation
reducing blood flow and migration of phagocytes to the infected tissue
Tight glycemic control reduces nosocomial infections and SSIs
○ intraoperative glycemic control - target blood glucose < 200 mg/dL
 Anesthetic Agents and the Immune
System
Anesthetic agents

Impaired immune function Intravenous Agents
○ depressed function of NK cells, neutrophils, macrophages,
DCs, and T cells Midazolam
○ decreases IL-8 necessary for migration and
Inhalation Anesthetics
adhesion of neutrophils
suppress the cytotoxicity of NK cells and macrophages ○ does not affect cytotoxic T lymphocytes
induce apoptosis of T cells Ketamine and thiopental
decrease IL-2 and restrict proliferation of T cells ○ depress NK cell activity and induce T-
up-regulate tumorigenic growth factors, hypoxia- lymphocyte apoptosis
inducible factor, and IGF Propofol
enhance angiogenesis
○ protects against immunosuppression
impair adhesion of phagocytes
○ inhibit the respiratory burst necessary for destruction of
○ promoting the proliferation and
pathogens cytotoxicity activity of NK cells
○ decreasing proinflammatory cytokines and
Impact of inhalation anesthetics on tumor cells
inhibiting prostaglandin E2 (PGE2) and
Sevoflurane stimulates renal cancer cells and increases cyclooxygenase (COX) activity
risk of metastasis ○ inhibit oncogenes and angiogenesis
Sevoflurane inhibits non-small cell lung carcinoma cells
Opioids and the Immune System
Uncontrolled postoperative pain contributes to perioperative immune suppression

stimulant of the HPA axis and SNS

Effective pain control

attenuates the surgery-induced stress response that promotes metastasis
Poorly controlled pain and increased opioid requirements = lower survival rates in patients with advanced lung cancer

Opioids

Immune modulatory effects mediated by the mu (μ) opioid receptor (MOR) on lymphocytes
○ suppress NK cells that are vital for the eradication of tumor cells and viruses
○ increase regulatory T cells
○ promote angiogenesis
○ suppress apoptosis
MOR is overexpressed in some types of cancers
○ direct opioid stimulation of tumor growth, angiogenesis, and metastasis
○ Methylnaltrexone (MNTX), a selective peripheral MOR antagonist, significantly reduces opioid-induced tumor growth and metastasis
Paradoxically suppress tumor migration and proliferation and induce apoptosis in cancer cells
○ Morphine
inhibition of the migration and adhesion of colon cancer cells
induction of apoptosis in lung carcinoma and some leukemias
Opioids differ in their ability to modulate the immune response
○ Morphine and fentanyl suppress NK cell cytotoxicity, increasing the risk for metastasis
tramadol increases NK cell cytotoxicity, reducing metastasis
buprenorphine has no effect on NK cell cytotoxicity
○ Morphine is associated with the greatest depression of the immune system
○ Codeine, methadone, remifentanil, and fentanyl demonstrate strong immune modulation
weaker modulation is seen with hydromorphone, oxycodone, tramadol, and hydrocodone
○ Buprenorphine has minimal or no effect on the immune system
○ Remifentanil increases antiinflammatory cytokines (IL-10) with antitumor activity
NSAIDS and the Immune System

Postoperative immunosuppression

causes excess release of prostaglandins
prostaglandins
○ promotes cancer cell adhesion, migration, and invasion
○ inhibit the activity of Tc and DCs, down-regulate antineoplastic cytokines (TNF-α and INF-γ), and up-regulate
immunosuppressive cytokines (IL-10, IL-4, and IL-6)

COX

converts procarcinogens to carcinogens and can initiate cancer cell growth
COX-2 - overexpressed in some breast and colorectal cancers
○ the product, PGE2, is believed to contribute to the metastatic potential of these cancers

NSAIDS

Beneficial anticancer effects due to inhibition of prostaglandin synthesis by COX inhibition
Administration of COX-2 inhibitors
○ alone or in conjunction with morphine
○ prevents induced tumor growth and metastasis
○ prevents angiogenesis
Long-term use of COX inhibitors, especially COX-2 inhibitors = reduced risk of cancer
Regional Anesthesia
Regional Anesthesia

attenuates the surgical stress response and supports preservation of normal immune function
○ blocking afferent neural transmission
associated with decreased cortisol levels, normal NK cell function, and preservation of normal Th1/Th2
balance
decreases the use of opioids and volatile anesthetics
lower incidence of SSI compared to general anesthesia
longer cancer-free time interval and a lower incidence of breast, colon, prostate, and melanoma cancer
reoccurrence

Local anesthetics

Amides = cytotoxic effects on cancer cells
Bupivacaine directly inhibits cancer cell viability, proliferation, and migration
lidocaine increases NK activity and decreases tumor size and metastasis

Combination of general anesthesia and epidural anesthesia

mitigate the surgical-induced immune suppression
propofol and paravertebral anesthesia for breast cancer surgery
○ increased infiltration of their tumors by NK and Th cells
propofol and local or regional anesthesia
○ decrease surgery-induced neuroendocrine responses through HPA axis and SNS suppression
○ less immunosuppression and recurrence of certain types of cancer compared to volatile anesthetics and opioids

A combination of propofol, COX antagonists, and regional anesthesia

decreased immunosuppression
Anesthetic Management:
Immunocompromised Patient
Preoperative tests for immunosuppression

complete blood counts with a differential smear, serum immunoglobulins, complement assays, T-cell function (skin
testing), and B-cell function (antibody titers)

Central and peripheral vascular catheters

15% to 30% of all nosocomial bacteremias
central venous catheters (CVCs) are more frequent sources of bacteremia
○ dependent on catheter choice, insertion site, insertion technique, and catheter maintenance
○ Infections are higher for multilumen catheters compared to single-lumen catheters
CVC : Coagulase-negative staphylococci
Peripheral catheters: S. aureus and Enterobacteriaceae

Reduce infection rate associated with intravascular catheters

Strict aseptic technique and maximum barrier precautions for placement
Antibiotic or antiseptic impregnated catheters
sutureless securement devices
chlorhexidine impregnated dressings
disinfection caps
Chemotherapeutics
 Chemotherapeutics
Anesthetic
References

Elisha, J.N. S., Heiner, J.S., & Nagelhout, J. J. (2023). Nurse Anesthesia (7th ed.).
Elsevier Health Sciences.
Gropper, M. (2020). Miller's Anesthesia (9th ed.). Elsevier Health Sciences (US).
Hagberg, C. A. (2022). Benumof and Hagberg's Airway Management (5th ed.).
Elsevier - OHCE.
Hines, R.L. & Jones, S.B. (2021). Stoelting's Anesthesia and Co-Existing Disease
(8th ed.). Elsevier - OHCE.