Chapter 70 Management of Pain at End of Life

Question 1

Palliative care

Answer 1

the “active total care of patients whose disease is not responsive to curative treatment. Control of pain, of other symptoms, and of psychological, social, and spiritual problems is paramount. Palliative care affirms life and regards dying as a normal process

Question 2

Hospice care goals

Answer 2

Goals include attention to alleviation of physical and emotional suffering, along with focus on the patient and family as the unit of care.

Question 3

Cancer pain syndromes can be grouped in a variety of

categories:

Answer 3

acute versus chronic, somatic versus neuropathic,

and disease versus treatment related

Question 4

Acute pain

Answer 4

generally due to invasive procedures, such as diagnostic or surgical interventions, and is not unlike the experience of patients with nonmalignant disease

Question 5

Chronic pain syndromes often include

Answer 5

involvement of bone, soft tissue, the viscera, and the nervous system. Bone metastases are common sources of pain, particularly in patients with breast, lung, or prostate cancers.

Question 6

Visceral pain

Answer 6

may arise from involvement of tumor within the liver, intestine, kidney, peritoneum, bladder, or other organs.

Question 7

Acute Cancer Pain Syndromes- Chemotherapy

Answer 7

Arthralgia and myalgia induced by paclitaxel
Cold allodynia induced by oxaliplatin
Headache due to methotrexate or L-asparaginase
Mucositis commonly due to pre-transplant chemotherapy regimen
Pain due to infusion of chemotherapy into peritoneum or bladder

Question 8

Acute Cancer Pain Syndromes
Growth Factors
Hormonal Therapy
Flare syndrome
Immunotherapy

Answer 8

Growth Factors: Myalgia, bone pain, fever, headache
Hormonal Therapy
Flare syndrome (myalgia, arthralgia, and headache) in prostate or breast cancer
Immunotherapy: Myalgia, arthralgia, and headache due to interferon

Question 9

Acute Cancer Pain Syndromes- Radiation

Answer 9

Bone pain flare (due to radionuclides)
Enteritis and proctitis
Mucositis
Myelitis when spinal cord is irradiated

Question 10

Chronic Neuropathic Pain Syndromes Seen at
End of Life
Cancer-Related

Answer 10

Brachial, cervical, or sacral plexopathies
Chemotherapy-induced neuropathy
Cisplatin
Oxaliplatin
Paclitaxel
Vincristine
Vinblastine
Cranial neuropathies
Postherpetic neuropathy
Postradiation plexopathies
Surgical neuropathies
Phantom pain
Postmastectomy syndrome
Post-thoracotomy syndrome

Question 11

Chronic Neuropathic Pain Syndromes Seen at
End of Life
Noncancer Causes of Neuropathies

Answer 11

Alcohol-induced neuropathy
Brachial plexus avulsion (trauma)
Carpal tunnel syndrome
Complex regional pain syndrome
Diabetic neuropathy
Fabry’s disease
Failed back syndrome
Guillain-Barré syndrome
HIV-associated neuropathy
Viral involvement
Antiretrovirals
Poststroke pain
Trigeminal neuralgia
Vitamin deficiencie

Question 12

critical to ascertain for pain

Answer 12

Intensity, location (or often, multiple locations), quality, temporal nature of the pain, and factors that alter the pain

Question 13

Assessment of pain

Answer 13

thorough history is followed by a comprehensive
physical examination, with particular emphasis
on the neurologic evaluation.16 Radiographic, laboratory, and other diagnostic techniques may be indicated, although in caring for those at the end of life, treatment decisions may be made empirically to avoid uncomfortable scans or invasive procedures.

Question 14

A psychosocial assessment is indicated, directed towards

Answer 14

the meaning of the pain as well as the effect of pain on the patient and their caregiver. The findings of this assessment may suggest the need for education, to mediate fears of addiction, for example. The results of this questioning may also prompt referral to social workers, chaplains, or others who are trained to address the existential distress or suffering
experienced by the patient or their family

Question 15

Pain does not exist in isolation and symptom clusters are
common, particularly at end of life. Several instruments
have been designed to measure clinically multiple symptoms, including

Answer 15

Edmonton Symptom Assessment Scale(ESAS),
the M.D. Anderson Symptom Inventory (MDASI) ,
the Memorial Symptom Assessment Scale (MSAS), and others. Another tool, the Distress “Thermometer,”
is a vertical visual analog scale designed to look
like a thermometer, with 0 meaning “no distress” and 10
(at the top of the thermometer) indicating “extreme distress

Question 16

Brief Hospice Inventory (BHI)

Answer 16

addresses the specific needs of people enrolled in hospice. assess outcomes of hospice patients, including physical and psychological symptoms, patient’s perceptions of hospice care, as well as ratings of their quality of life. Each statement is measured using an 11-point scale

Question 17

Cardiovascular Disease
Cardiomyopathy
Congestive heart disease
Peripheral vascular disease
Pain Syndromes

Answer 17

Pain Syndromes

• Chest pain
• Ischemia

Question 18

Cirrhosis

Answer 18

Pain Syndromes

• Abdominal pain due to portal
• hypertension, esophageal varices

Question 19

Debility

Answer 19

Pain Syndromes

• Myalgias due to immobility
• Painful pressure ulcers
• Abdominal pain due to constipation,impaction
• Suprapubic pain due to distended bladder

Question 20

End-Stage Renal Disease

Answer 20

Pain Syndromes

- Painful pruritus

Question 21

HIV

Answer 21

Pain Syndromes

• Abdominal pain due to infectious
• gastrointestinal disorders
• Chest pain from pneumocystis pneumonia
• Headaches
• Herpetic neuropathy
• Myalgia
• Neuropathies due to antiretrovirals and the virus

Question 22

Neuromuscular Disorders
ALS
Multiple sclerosis (MS)
Spinal cord injury

Answer 22

Pain Syndromes

• Painful spasticity
• Lower extremity dysesthesias
• Periorbital pain and trigeminal neuralgia (MS)

Question 23

Pulmonary Disease
Embolism
Infection
Pneumothorax

Answer 23

Pain Syndromes

• Chest pain
• Dyspnea

Question 24

a small percentage of patients will experience complex syndromes that do not respond to traditional approaches, such as

Answer 24

bone pain, intractable neuropathic pain, or malignant bowel obstruction, or will develop severe opioid-induced toxicity.

Question 25

Bone pain is often difficult to treat, in that patients may

obtain good relief of movement-associated pain from

Answer 25

higher-dose opioid therapy, yet will be extremely sedated when they stop moving or placing pressure on the bone

Question 26

Patients at risk of malignant bone pain

Answer 26

those with cancers that frequently metastasize to bone, including breast, lung, prostate, or multiple myeloma

Question 27

Managment of Malignant Bone Pain

Answer 27

Dexamethasone 8–20 mg PO, IV, SQ every morning (not to be used in conjunction with NSAIDs)
Opioids
Bisphosphonates such as pamidronate or zoledronic acid
Radiation therapy (may be given as single fraction in some cases)
Radionuclides such as strontium-89
Orthotics for braces or slings
Physical or occupational therapy for assistive devices

Question 28

INTRACTABLE NEUROPATHIC PAIN

Answer 28

Standard therapies include opioids and adjuvant analgesics, including corticosteroids. Additionally, nerve blocks and other interventional techniques can be useful. In more refractory cases intravenvous lidocaine infusions are used to treat intractable pain. Using techniques and protocols originating from pain clinics, intravenous lidocaine1 to 2 mg/kg is given over 15 to 30 min. If effective a continuous infusion of 1 to 2 mg/kg/hr is started. The analgesic effects can be as prolonged as weeks of relief

Question 29

Intractable Neuropathic Pain Managment

Answer 29

Dexamethasone 8–20 mg PO, IV, SQ every morning (not to be used in conjunction with NSAIDs)
Opioids can be effective but higher doses are indicated (methadone may provide additional benefit over other opioids)
Anticonvulsants
Antidepressants, including novel or atypical agents such as venlafaxine
Local anesthetics (e.g., LidoDerm patch, intraspinal infusions in combinations with opioids or parenteral infusions)

Question 30

Malignant Intestinal Obstruction management

Answer 30

Dexamethasone 8–20 mg PO, IV, SQ every morning to reduce inflammation and nausea (not to be used in conjunction with NSAIDs)
Opioids
Octreotide 20 mg/hr IV or SQ to decrease intestinal secretions; increase dose as needed
Scopolamine transdermal patches (1.5 mg, up to 2 patches) may reduce secretions
Nasogastric tube or venting gastrostomy if consistent with patient goals

Question 31

neuroexcitatory effects of opioids include

Answer 31

myoclonus, hyperalgesia, delirium, and grand mal seizures. These toxicities have been reported in association with morphine, hydromorphone, hydrocodone, fentanyl, methadone, and oxycodone.

Question 32

implicated as contributing to these neuroexcitatory

effects

Answer 32

3-glucuronide metabolites

Question 33

Both morphine-3-glucuronide (M3G) and hydromorphone-3-glucuronide (H3G) are believed to produce

Answer 33

myoclonus and seizures

Question 34

The treatment of mild myoclonus generally includes

Answer 34

switching to another opioid, lowering the dose of the opioid, and adding a benzodiazepine. Clonazepam 0.5 mg
orally twice daily with upward titration may be effective.
If the patient is unable to swallow, midazolam or lorazepam
may be used.

Question 35

When these more severe neurotoxicities occur, the

opioid dose should

Answer 35

be reduced by at least 50%

Question 36

Naloxone in treatment of neurotoxicities

Answer 36

Naloxone appears to be ineffective in reversing this

toxicity.

Question 37

In select cases, spinal delivery of analgesics can

be effective in

Answer 37

relieving pain and reducing systemic opioid exposure

Question 38

Should seizures occur

Answer 38

first- and secondline therapies include phenytoin and benzodiazepines, such as diazepam or lorazepam.37 In some cases the seizures will progress in frequency and intensity, advancing to status epilepticus. Refractory status epilepticus treatment may require midazolam, barbiturates, and propofol.

Question 39

Midazolam is particularly useful in palliative care due

to its

Answer 39

rapid onset and short duration, as well as its ability
to be given subcutaneously, intravenously, orally,
buccally, sublingually, or rectally. Furthermore, its
only known drug incompatibility is with corticosteroids,
particularly betamethasone, dexamethasone, and
methylprednisolone

Question 40

The standard dose of phenobarbital in the management of seizures is

Answer 40

20 mg/kg intravenous infusion, with

a maximum rate of 50 to 100 mg/min.

Question 41

The recommended dose of propofol to treat refractory

status epilepticus is

Answer 41

1 to 2 mg/kg via intravenous injection over 5 min and repeated if necessary. A maintenance intravenous infusion of 2 to 10 mg/kg/hr is then started, using the lowest dose needed to suppress seizure activity

Question 42

OTHER SYMPTOMS COMMON AT END

OF LIFE

Answer 42

Dyspnea, anxiety, depression, and other symptoms are
common in the face of advanced illness. Palliation of these symptoms, which are frequently linked with pain, can result in improved pain control and enhanced quality of life.

Question 43

Dyspnea, or air hunger, can occur as a result of a variety

of illnesses, including

Answer 43

cancer, congestive heart failure, or pulmonary diseases. Opioids are the first drug of choice, often in small doses that do not cause sedation. Short acting anxiolytics are indicated in the face of severe anxiety. Simple measures such as bedside fans can provide additional comfort.

Question 44

many medications commonly used in palliative care, can result in motor restlessness and agitation.

Answer 44

corticosteroids, neuroleptics (including metoclopramide), bronchodilators, antihistamines, digitalis, and occasionally benzodiazepines (which can cause a paradoxical reaction in elderly patients

Question 45

produce agitation

Answer 45

Abrupt withdrawal from alcohol, opioids, benzodiazepines, and nicotine. Hypoxia, pulmonary embolus, sepsis, hypoglycemia, thyroid abnormalities, and heart failure are associated with anxiety, as are certain tumors, including pheochromocytomas, and some pancreatic cancers. Primary or metastatic lung cancers and chronic cardiopulmonary conditions can lead to dyspnea, which can also produce
anxiety.

Question 46

Pharmacologic treatment of anxiety usually consists

Answer 46

benzodiazepines, particularly lorazepam as it has a
short duration of action and produces fewer adverse
effects. A typical initial dosage is 0.5 to 2 mg orally 3 or
4 times daily. Lorazepam can be placed sublingually,
which is useful when patients have difficulty swallowing,
or given parenterally as a bolus or infusion. Haloperidol
is frequently used for short-term management of severe
anxiety and as an antipsychotic, with initial dosage
starting at 0.5 to 1 mg orally twice daily.

Question 47

physical symptoms of depression

Answer 47

fatigue, anorexia, and sleep disturbance)

Question 48

Psychological symptoms suggestive of depression

in the patient with life-threatening illness include

Answer 48

loss of selfworth, unremitting sadness and hopelessness, and suicidal ideation.

Question 49

a simple screening question for depression

Answer 49

“Are you depressed?” or “Are you sad?” is the most valid

measure of a patient’s depression.

Question 50

Management of Depression

Answer 50

Supportive psychotherapy may be of benefit, although limited life span may be a barrier. Antidepressant medications, such as serotoninspecific reuptake inhibitors (SSRIs), such as citalopram, fluoxetine, paroxetine, and sertraline, are usually well tolerated.
However, the 2 to 4 weeks required for the drug to take
effect is often too long for patients with advanced disease and a very short life span. Newer, “atypical antidepressants” (bupropion, mirtazepine, and venlafaxine) have a relatively rapid onset of action and few reported side effects. However, for patients with a very limited life span, stimulants such as methylphenidate and pemoline provide rapid relief, usually within hours to days