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What to do when a patient makes you angry
Clinical guide to countertransference: Help medical colleagues deal with ‘difficult’ patients
WEB AUDIO
Listen to Dr. Muskin discuss the patient-physician dynamic
Two strangers meet in the hospital cafeteria. Mrs. R, an elderly woman, asks Dr. W, a first-year medical resident, for help in getting a bottle of soda from the cooler. Afterward, Dr. W comments to a colleague with whom she is having lunch, “That woman reminds me of my grandmother.”
What does that comment reflect about Dr. W? It is a statement about the doctor’s transference. That is, she is aware of elements about Mrs. R that evoke internal responses appropriate to a prior important relationship.
What if Mrs. R was to subsequently faint, require admission to the hospital, and become Dr. W’s patient? If Dr. W’s comment indicates transference, would the same reaction to Mrs. R now be countertransference? Does that change if the doctor is unaware of emotions Mrs. R evokes? Is it still countertransference whether Dr. W is caring and compassionate, overly involved with Mrs. R, or—unaware of negative feelings associated with “grandmothers”—avoids the patient?
This article explores how complex internal experiences play out in the general medical setting and discusses how psychiatric consultants can help medical/surgical colleagues understand and manage difficult patient-physician relationships.
The therapeutic dyad
Countertransference and transference are concepts embedded in psychodynamic thinking. They are part of how many people think about interpersonal relations, whether or not they use these terms. Countertransference and transference may be conscious, but they always have an unconscious component. Factors that influence what will be transference and countertransference in adult life have both:
- a biological component because part of personality is genetic
- a psychological component based upon experiences throughout life ( Box 1 ).1
Genetic factors play a role in personality formation. A child’s personality, which emerges early in life, shapes interactions with people who are significant during childhood. Predispositions shape those experiences and influence what people internalize from those relationships.
In adults, many aspects of what we understand as transference—the experience someone has of a figure from the past—originate from the limitations with which children perceive and interpret their experiences. Transference is not truth about a significant past relationship; it is truth as the person experienced other people and now remembers or reacts to individuals who are reminiscent of those from the past.1
Not all psychotherapeutic treatments—and thus not all therapists—use the concept of transference as a therapeutic component. Some therapists who employ transference in treatment will discuss how the patient interacts with the therapist only when the phenomenon interferes with therapy. Interpretation of transference is a therapeutic modality of psychoanalysis and psychodynamic psychotherapy. Discussion of how the patient interacts with the therapist is not the same as a transference interpretation. Because transference exists in all human relationships, transferential aspects in a relationship may have positive or negative effects on interactions outside the therapeutic environment. Whether acknowledged or ignored, transference—and thus countertransference—is present.
Countertransference is a dimensional concept, not an all-or-nothing experience. Some reactions to patients are based entirely upon their transference to us and have nothing to do with us (therapists) as people. Others derive mostly from psychodynamics within the therapist ( Box 2 ). Countertransference has evolved to incorporate responses evoked by a combination of:
- the patient’s transference
- the therapist’s unique psychodynamics
- the real relationship in the therapeutic dyad.2
In the therapeutic setting, some reactions to the patient are experienced as unusually powerful, out of keeping with our self-image, or as consciously disturbing. Such reactions to a patient—while still countertransference—might result from projective identification. This type of countertransference is most commonly, but not exclusively, encountered in therapy of patients with borderline personality organization.3
We suggest that the term countertransference be restricted to therapeutic situations (any relationship in which one person has the role of treating or helping the other person), including all patient-physician or patient-provider relationships. They have a transferential component because the physician occupies a role of authority/knowledge/power from which the patient seeks to benefit.
Outside of therapeutic situations, reactions to other people are our transferences to them, evoked by our internalized past relationships. We may have an emotional response to how someone behaves toward us (their transference), but that is a counter-transference, not countertransference.
Patients with medical illness
Psychiatrists think of countertransference as a psychological situation occurring in the office or on an inpatient psychiatric unit. We focus our attention on how we feel and what we think while working with patients. We talk about our reactions to patients in supervision, rounds, case conferences, and other situations where mental health professionals discuss patients.
Our medical/surgical colleagues’ reactions to patients often correlate with certain patient presentations and may have little to do with the actual person who is the patient.4 The medical setting provides an opportunity for countertransference to occur in the absence of apparent transference.
Somatic illness imposes on patients some degree of regression. This regression and attempts to cope with it are inherent to somatic illness and hospitalization. Several schemas5 describe basic coping mechanisms common to most patients ( Table ).6,7 Recognizing a patient’s character style or personality type may help clinicians predict their countertransference when interacting with that patient. Uncooperative patients and those perceived as “difficult” are particularly likely to evoke negative countertransference.8
Table
Patients’ response to illness,
with common countertransference by medical staff
Patient’s coping mechanisms | Staff’s countertransference |
---|---|
Dependent personality | |
• Unconsciously wishes for unlimited care • Depends on others to feel secure • May make excessive requests of staff | • Gratification at being able to take care of patient’s needs • Resentment if patient’s needs seem insatiable |
Obsessional personality | |
• Meticulous self-discipline • Illness represents loss of control • Will try to gain mastery over illness by focusing on details, information | • Relief at patient’s willingness to actively participate • Power struggle is possible |
Histrionic personality | |
• Outgoing, colorful, lively • Attractiveness and sexuality important • Needs to feel the center of attention • Illness represents defect, loss of physical beauty | • Warm initial engagement • Fear of crossing boundaries • Wonder about veracity of complaints |
Masochistic personality | |
• Satisfies unconscious needs by suffering • Needs to play victim role | • Frustration when reassurance does not help • May unconsciously play into patient’s need for punishment |
Paranoid personality | |
• Pervasive doubt of others’ motivations • Often questions motives for interventions • Illness represents threat to safety | • Wary of lack of alliance • Anger that patient questions treatment motives • Frustrated at inability to form a trusting relationship with patient • Unsettled by lack of connection |
Narcissistic personality | |
• Grandiose sense of self, which protects against shame, humiliation • May demand superior care, insult junior team members | • May feel flattered by ability to treat patient as VIP • May alternately feel devalued, wonder about competence |
Source: References 6,7 |
CASE CONTINUED: No longer ‘grandmotherly’
Mrs. R and Dr. W are now in a patient-physician relationship. Dr. W is no longer handing Mrs. R a bottle of soda but is inquiring about her life, use of alcohol and other drugs, intimate activities, etc. Mrs. R reacts with anger at the “personal questions.” In addition, Dr. W orders tests that are uncomfortable for Mrs. R, who refuses to cooperate with some procedures.
Dr. W’s memories of her grandmother (who was encouraging, supportive, and loving) color her experience of Mrs. R. She ignores nursing staff’s complaints about Mrs. R being demanding and difficult as the patient becomes aggressive and increasingly confused.
Unable to see the patient as she really is, Dr. W becomes angry and defends Mrs. R’s behavior. The nurses feel Dr. W is unrealistic and ignore her at the nursing station. Late on a Friday night, Mrs. R becomes paranoid, hallucinating that “demons” are in her room. She tries to elope from the hospital. Dr. W is off for the weekend, and the staff requests an emergency psychiatric consultation.
Mrs. R evokes a reaction from the nurses because of how she interacts with them. Dr. W’s response—based on her experience of her grandmother—has nothing to do with the way Mrs. R relates interpersonally but reflects a reaction to the patient’s gender and age. Both reactions would be countertransference, using the modern definition.
If reactions to a patient such as Mrs. R are positive, no one seems to notice and the reactions might or might not influence her care. If the reactions are negative, they might influence her care and generate a request for a psychiatric consultation.
Some patients cannot communicate because of neurologic disorders, intubation, language barriers, or because they are unconscious when admitted. Without information from the patient, medical staff may form ideas about the patient based on their unconscious fantasies. These fantasies may influence the patient’s care.9 Psychiatric consultants are not immune to countertransference, but we come into situations with the opportunity to experience all participants from the outside.
CASE CONTINUED: The psychiatric consultation
During the interview, the psychiatrist asks Mrs. R if she takes any medications. She retorts that she always takes “Centrum” at bed-time and demands to know why she is not getting her “vitamins.” She is given oxazepam and falls asleep.
The psychiatrist recommends benzodiazepine detoxification, suspecting Mrs. R is taking prazepam at home from an old prescription (when the medication was a brand called “Centrax”). This suspicion is confirmed when Mrs. R’s family brings in a large shopping bag of medications she has collected over decades, and Mrs. R identifies her nighttime “vitamin.”
Patients with particular character styles evoke predictable reactions from others, including psychotherapists. Discussing these reactions has been a part of psychiatric training for decades. A subset of patients has been described as “hateful,” as they routinely evoke extremely negative responses.10 Whether their primary disorder is psychiatric, medical, or some of both, these patients evoke strong countertransference reactions.
Psychiatrists may be comfortable discussing a “narcissistic patient, a dependent clinger with borderline features,” but our medical colleagues might not share our comfort with psychiatric jargon.11 It may be more useful to say to medical staff that the patient “thinks of himself as very important, cannot accept his need to be taken care of, and tends to see things in black and white.”
Managing difficult patients
The characterizations that follow describe unconscious reactions to types of individuals who are routinely experienced as “difficult” patients. Some patients may exhibit a mixture of character styles ( Table ) and do not easily fall into 1 category. The concepts can be useful in clarifying the reactions that patients evoke in medical staff.
‘Dependent’ patients. Some patients demand continuous attention but are unaware of their insatiable neediness. Early in treatment, they may evoke positive countertransference because they are intensely grateful for attention. They can be enticing, unconsciously seductive, and gratifying to their doctors. Over time, they drain and exhaust their physicians, who resort to avoidance and wish to get rid of these patients.
Recommendation. Set limits to prevent the patient from feeling rejected or an actual rejection when he or she is transferred to another doctor’s care. Coach physicians to:
- ask patients to “Tell me what is most important for us to discuss today”
- be clear how long the visit will last.
‘Entitled’ patients. Another type of “difficult” patient projects an air of entitlement, which typically reflects an underlying insatiable neediness. They may use intimidation, guilt, and threats of punishment to get their doctors to provide the care they demand. These patients appear powerful (even though they may possess no special status), and they may be overtly devaluing of the physician while simultaneously demanding special attention.
The doctor resents the patient’s entitlement but develops an expectable countertransference fear that he or she will get in trouble if the demands are not met. Wishes to retaliate and “put the patient in his or her place” are common.
Recommendation. Saying, “It is understandable that you want the best care, and I plan to give you the best care,” makes it clear to the patient that the physician hears the patient’s concerns. Advise the physician to request the patient’s “understanding and compassion” for other patients who also need the physician’s time and attention.
‘Help-rejecting’ patients. “Help-rejecting” patients demand care but show little faith in treatment and do not follow treatment plans. The harder the physician tries to help, the less likely the plan will succeed. For these patients, treatment success evokes a fear of abandonment; thus, treatment must fail to maintain the relationship.
Common countertransference reactions are initial anxiety that the treatment plan was not adequate, followed by anger and depression as the physician feels stuck with a patient for whom nothing works.
Recommendation. Setting realistic goals for treatment helps the physician guide the patient, who expects to be told not to return the moment he or she gets better. Telling the patient that medical care does not stop when a particular malady is treated speaks to the patient’s fear of being abandoned.
When the patient adheres only partially to the plan and a psychiatric consultant is called for an “uncooperative” patient, help the doctor understand how the patient sees the world. It is the patient’s psychological needs—not the physician’s failure—that control the outcome of the care.
‘Self-destructive’ patients may appear unaware of their dangerous actions. They evoke malice from their doctors, who feel the patients are purposely engaging in life-threatening behaviors. The patients’ unconscious dependence remains unknown as their denial of the consequences of their behavior frightens and angers those involved in their care. Some of these patients cannot be stopped before their actions cause them permanent harm or death.
Recommendation. You might remind the physician that we all are entitled to live our lives as we choose. To decompress intense feelings, advise the physician to share, without blaming the patient, what medical staff can realistically do. Saying “We’ll do the best we can” (rather than “Treatment is useless for someone like you”) permits the patient to receive the degree of care he or she can accept without the physician feeling helpless. Understanding our limitations and obligations is part of using our countertransference to aid in patient care.
CASE CONTINUED: Feeling better
When Dr. W returns on Monday, she angrily calls the psychiatrist to complain that her patient has been placed on a benzodiazepine and at the “implication” that Mrs. R was abusing medication. When they talk in person, the psychiatrist explains the situation to Dr. W and suggests they meet with Mrs. R together.
Mrs. R is embarrassed when told about her behavior, identifies the pill, and admits taking prazepam for several weeks prior to hospitalization. She says she never understood how a vitamin could help her sleep so well. No longer delirious, Mrs. R is pleasant and asks many questions. She is surprised that “so young” a doctor was assigned to her case and asks if the chief of medicine could be brought in, as she is on the board of directors of another hospital. “No offense, dear,” she says to Dr. W; “I’m sure you did an excellent job, but usually only senior doctors take care of me.”
Dr. W accepts the psychiatrist’s suggestion to repair her relationship with the nurses with an apology. She now notes that Mrs. R is nothing like her grandmother and seems “pretty stuck up.” She is glad to be off the case and accepts the psychiatrist’s idea that Mrs. R’s need to feel important should not make Dr. W feel bad about herself.
Related resources
- Gabbard GO, ed. Countertransference issues in psychiatric treatment. In: Oldham JM, Riba MB, eds. Review of psychiatry series. Washington, DC: American Psychiatric Publishing, Inc.; 1999.
- Blumenfield M, Strain JJ, Grossman S. Psychodynamic approach. In: Blumenfield M, Strain JJ, eds. Psychosomatic medicine. Philadelphia, PA: Lippincott, Williams and Wilkins; 2006:817-828.
- Oxazepam • Serax
- Prazepam • Centrax
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
1. Gabbard GO. Basic principles of psychodynamic psychotherapy. In: Gabbard GO, ed. Psychodynamic psychiatry in clinical practice. Washington, DC: American Psychiatric Publishing, Inc.; 2005:1-30.
2. Harris A. Transference, countertransference, and the real relationship. In: Person ES, Cooper AM, Gabbard GO, eds. Textbook of psychoanalysis. Washington, DC: American Psychiatric Publishing, Inc.; 2005:201-216.
3. Goldstein WN. Clarification of projective identification. Am J Psychiatry. 1991;148:153-161.
4. Kuchariski A, Groves JE. The so-called “inappropriate” psychiatric consultation request on a medical or surgical ward. Int J Psychiatry Med. 1976;7(3):209-220.
5. Groves MA, Muskin PR. Psychological responses to illness. In: Levenson JL, ed. Textbook of psychosomatic medicine. Washington, DC: American Psychiatric Publishing, Inc.; 2005:67-90.
6. Kahana RJ, Bibring GL. Personality types in medical management. In: Zinberg N, ed. Psychiatry and medical practice in a general hospital. New York, NY: International Universities Press; 1964:108-123.
7. Geringer ES, Stern TA. Coping with medical illness: the impact of personality types. Psychosomatics. 1986;27:251-261.
8. Mozian SA, Muskin PR. The difficult patient. In: Barnhill JW, ed. The approach to the psychiatric patient. Washington, DC: American Psychiatric Publishing, Inc.; 2008:192-196.
9. Groves JE. Management of the borderline patient on a medical or surgical ward: the psychiatric consultant’s role. Int J Psychiatry Med. 1975;6:337-348.
10. Groves JE. Taking care of the hateful patient. N Engl J Med. 1978;298:883-887.
11. Pasnau RO. Ten Commandments of medical etiquette for psychiatrists. Psychosomatics. 1985;26(2):128-132.
WEB AUDIO
Listen to Dr. Muskin discuss the patient-physician dynamic
Two strangers meet in the hospital cafeteria. Mrs. R, an elderly woman, asks Dr. W, a first-year medical resident, for help in getting a bottle of soda from the cooler. Afterward, Dr. W comments to a colleague with whom she is having lunch, “That woman reminds me of my grandmother.”
What does that comment reflect about Dr. W? It is a statement about the doctor’s transference. That is, she is aware of elements about Mrs. R that evoke internal responses appropriate to a prior important relationship.
What if Mrs. R was to subsequently faint, require admission to the hospital, and become Dr. W’s patient? If Dr. W’s comment indicates transference, would the same reaction to Mrs. R now be countertransference? Does that change if the doctor is unaware of emotions Mrs. R evokes? Is it still countertransference whether Dr. W is caring and compassionate, overly involved with Mrs. R, or—unaware of negative feelings associated with “grandmothers”—avoids the patient?
This article explores how complex internal experiences play out in the general medical setting and discusses how psychiatric consultants can help medical/surgical colleagues understand and manage difficult patient-physician relationships.
The therapeutic dyad
Countertransference and transference are concepts embedded in psychodynamic thinking. They are part of how many people think about interpersonal relations, whether or not they use these terms. Countertransference and transference may be conscious, but they always have an unconscious component. Factors that influence what will be transference and countertransference in adult life have both:
- a biological component because part of personality is genetic
- a psychological component based upon experiences throughout life ( Box 1 ).1
Genetic factors play a role in personality formation. A child’s personality, which emerges early in life, shapes interactions with people who are significant during childhood. Predispositions shape those experiences and influence what people internalize from those relationships.
In adults, many aspects of what we understand as transference—the experience someone has of a figure from the past—originate from the limitations with which children perceive and interpret their experiences. Transference is not truth about a significant past relationship; it is truth as the person experienced other people and now remembers or reacts to individuals who are reminiscent of those from the past.1
Not all psychotherapeutic treatments—and thus not all therapists—use the concept of transference as a therapeutic component. Some therapists who employ transference in treatment will discuss how the patient interacts with the therapist only when the phenomenon interferes with therapy. Interpretation of transference is a therapeutic modality of psychoanalysis and psychodynamic psychotherapy. Discussion of how the patient interacts with the therapist is not the same as a transference interpretation. Because transference exists in all human relationships, transferential aspects in a relationship may have positive or negative effects on interactions outside the therapeutic environment. Whether acknowledged or ignored, transference—and thus countertransference—is present.
Countertransference is a dimensional concept, not an all-or-nothing experience. Some reactions to patients are based entirely upon their transference to us and have nothing to do with us (therapists) as people. Others derive mostly from psychodynamics within the therapist ( Box 2 ). Countertransference has evolved to incorporate responses evoked by a combination of:
- the patient’s transference
- the therapist’s unique psychodynamics
- the real relationship in the therapeutic dyad.2
In the therapeutic setting, some reactions to the patient are experienced as unusually powerful, out of keeping with our self-image, or as consciously disturbing. Such reactions to a patient—while still countertransference—might result from projective identification. This type of countertransference is most commonly, but not exclusively, encountered in therapy of patients with borderline personality organization.3
We suggest that the term countertransference be restricted to therapeutic situations (any relationship in which one person has the role of treating or helping the other person), including all patient-physician or patient-provider relationships. They have a transferential component because the physician occupies a role of authority/knowledge/power from which the patient seeks to benefit.
Outside of therapeutic situations, reactions to other people are our transferences to them, evoked by our internalized past relationships. We may have an emotional response to how someone behaves toward us (their transference), but that is a counter-transference, not countertransference.
Patients with medical illness
Psychiatrists think of countertransference as a psychological situation occurring in the office or on an inpatient psychiatric unit. We focus our attention on how we feel and what we think while working with patients. We talk about our reactions to patients in supervision, rounds, case conferences, and other situations where mental health professionals discuss patients.
Our medical/surgical colleagues’ reactions to patients often correlate with certain patient presentations and may have little to do with the actual person who is the patient.4 The medical setting provides an opportunity for countertransference to occur in the absence of apparent transference.
Somatic illness imposes on patients some degree of regression. This regression and attempts to cope with it are inherent to somatic illness and hospitalization. Several schemas5 describe basic coping mechanisms common to most patients ( Table ).6,7 Recognizing a patient’s character style or personality type may help clinicians predict their countertransference when interacting with that patient. Uncooperative patients and those perceived as “difficult” are particularly likely to evoke negative countertransference.8
Table
Patients’ response to illness,
with common countertransference by medical staff
Patient’s coping mechanisms | Staff’s countertransference |
---|---|
Dependent personality | |
• Unconsciously wishes for unlimited care • Depends on others to feel secure • May make excessive requests of staff | • Gratification at being able to take care of patient’s needs • Resentment if patient’s needs seem insatiable |
Obsessional personality | |
• Meticulous self-discipline • Illness represents loss of control • Will try to gain mastery over illness by focusing on details, information | • Relief at patient’s willingness to actively participate • Power struggle is possible |
Histrionic personality | |
• Outgoing, colorful, lively • Attractiveness and sexuality important • Needs to feel the center of attention • Illness represents defect, loss of physical beauty | • Warm initial engagement • Fear of crossing boundaries • Wonder about veracity of complaints |
Masochistic personality | |
• Satisfies unconscious needs by suffering • Needs to play victim role | • Frustration when reassurance does not help • May unconsciously play into patient’s need for punishment |
Paranoid personality | |
• Pervasive doubt of others’ motivations • Often questions motives for interventions • Illness represents threat to safety | • Wary of lack of alliance • Anger that patient questions treatment motives • Frustrated at inability to form a trusting relationship with patient • Unsettled by lack of connection |
Narcissistic personality | |
• Grandiose sense of self, which protects against shame, humiliation • May demand superior care, insult junior team members | • May feel flattered by ability to treat patient as VIP • May alternately feel devalued, wonder about competence |
Source: References 6,7 |
CASE CONTINUED: No longer ‘grandmotherly’
Mrs. R and Dr. W are now in a patient-physician relationship. Dr. W is no longer handing Mrs. R a bottle of soda but is inquiring about her life, use of alcohol and other drugs, intimate activities, etc. Mrs. R reacts with anger at the “personal questions.” In addition, Dr. W orders tests that are uncomfortable for Mrs. R, who refuses to cooperate with some procedures.
Dr. W’s memories of her grandmother (who was encouraging, supportive, and loving) color her experience of Mrs. R. She ignores nursing staff’s complaints about Mrs. R being demanding and difficult as the patient becomes aggressive and increasingly confused.
Unable to see the patient as she really is, Dr. W becomes angry and defends Mrs. R’s behavior. The nurses feel Dr. W is unrealistic and ignore her at the nursing station. Late on a Friday night, Mrs. R becomes paranoid, hallucinating that “demons” are in her room. She tries to elope from the hospital. Dr. W is off for the weekend, and the staff requests an emergency psychiatric consultation.
Mrs. R evokes a reaction from the nurses because of how she interacts with them. Dr. W’s response—based on her experience of her grandmother—has nothing to do with the way Mrs. R relates interpersonally but reflects a reaction to the patient’s gender and age. Both reactions would be countertransference, using the modern definition.
If reactions to a patient such as Mrs. R are positive, no one seems to notice and the reactions might or might not influence her care. If the reactions are negative, they might influence her care and generate a request for a psychiatric consultation.
Some patients cannot communicate because of neurologic disorders, intubation, language barriers, or because they are unconscious when admitted. Without information from the patient, medical staff may form ideas about the patient based on their unconscious fantasies. These fantasies may influence the patient’s care.9 Psychiatric consultants are not immune to countertransference, but we come into situations with the opportunity to experience all participants from the outside.
CASE CONTINUED: The psychiatric consultation
During the interview, the psychiatrist asks Mrs. R if she takes any medications. She retorts that she always takes “Centrum” at bed-time and demands to know why she is not getting her “vitamins.” She is given oxazepam and falls asleep.
The psychiatrist recommends benzodiazepine detoxification, suspecting Mrs. R is taking prazepam at home from an old prescription (when the medication was a brand called “Centrax”). This suspicion is confirmed when Mrs. R’s family brings in a large shopping bag of medications she has collected over decades, and Mrs. R identifies her nighttime “vitamin.”
Patients with particular character styles evoke predictable reactions from others, including psychotherapists. Discussing these reactions has been a part of psychiatric training for decades. A subset of patients has been described as “hateful,” as they routinely evoke extremely negative responses.10 Whether their primary disorder is psychiatric, medical, or some of both, these patients evoke strong countertransference reactions.
Psychiatrists may be comfortable discussing a “narcissistic patient, a dependent clinger with borderline features,” but our medical colleagues might not share our comfort with psychiatric jargon.11 It may be more useful to say to medical staff that the patient “thinks of himself as very important, cannot accept his need to be taken care of, and tends to see things in black and white.”
Managing difficult patients
The characterizations that follow describe unconscious reactions to types of individuals who are routinely experienced as “difficult” patients. Some patients may exhibit a mixture of character styles ( Table ) and do not easily fall into 1 category. The concepts can be useful in clarifying the reactions that patients evoke in medical staff.
‘Dependent’ patients. Some patients demand continuous attention but are unaware of their insatiable neediness. Early in treatment, they may evoke positive countertransference because they are intensely grateful for attention. They can be enticing, unconsciously seductive, and gratifying to their doctors. Over time, they drain and exhaust their physicians, who resort to avoidance and wish to get rid of these patients.
Recommendation. Set limits to prevent the patient from feeling rejected or an actual rejection when he or she is transferred to another doctor’s care. Coach physicians to:
- ask patients to “Tell me what is most important for us to discuss today”
- be clear how long the visit will last.
‘Entitled’ patients. Another type of “difficult” patient projects an air of entitlement, which typically reflects an underlying insatiable neediness. They may use intimidation, guilt, and threats of punishment to get their doctors to provide the care they demand. These patients appear powerful (even though they may possess no special status), and they may be overtly devaluing of the physician while simultaneously demanding special attention.
The doctor resents the patient’s entitlement but develops an expectable countertransference fear that he or she will get in trouble if the demands are not met. Wishes to retaliate and “put the patient in his or her place” are common.
Recommendation. Saying, “It is understandable that you want the best care, and I plan to give you the best care,” makes it clear to the patient that the physician hears the patient’s concerns. Advise the physician to request the patient’s “understanding and compassion” for other patients who also need the physician’s time and attention.
‘Help-rejecting’ patients. “Help-rejecting” patients demand care but show little faith in treatment and do not follow treatment plans. The harder the physician tries to help, the less likely the plan will succeed. For these patients, treatment success evokes a fear of abandonment; thus, treatment must fail to maintain the relationship.
Common countertransference reactions are initial anxiety that the treatment plan was not adequate, followed by anger and depression as the physician feels stuck with a patient for whom nothing works.
Recommendation. Setting realistic goals for treatment helps the physician guide the patient, who expects to be told not to return the moment he or she gets better. Telling the patient that medical care does not stop when a particular malady is treated speaks to the patient’s fear of being abandoned.
When the patient adheres only partially to the plan and a psychiatric consultant is called for an “uncooperative” patient, help the doctor understand how the patient sees the world. It is the patient’s psychological needs—not the physician’s failure—that control the outcome of the care.
‘Self-destructive’ patients may appear unaware of their dangerous actions. They evoke malice from their doctors, who feel the patients are purposely engaging in life-threatening behaviors. The patients’ unconscious dependence remains unknown as their denial of the consequences of their behavior frightens and angers those involved in their care. Some of these patients cannot be stopped before their actions cause them permanent harm or death.
Recommendation. You might remind the physician that we all are entitled to live our lives as we choose. To decompress intense feelings, advise the physician to share, without blaming the patient, what medical staff can realistically do. Saying “We’ll do the best we can” (rather than “Treatment is useless for someone like you”) permits the patient to receive the degree of care he or she can accept without the physician feeling helpless. Understanding our limitations and obligations is part of using our countertransference to aid in patient care.
CASE CONTINUED: Feeling better
When Dr. W returns on Monday, she angrily calls the psychiatrist to complain that her patient has been placed on a benzodiazepine and at the “implication” that Mrs. R was abusing medication. When they talk in person, the psychiatrist explains the situation to Dr. W and suggests they meet with Mrs. R together.
Mrs. R is embarrassed when told about her behavior, identifies the pill, and admits taking prazepam for several weeks prior to hospitalization. She says she never understood how a vitamin could help her sleep so well. No longer delirious, Mrs. R is pleasant and asks many questions. She is surprised that “so young” a doctor was assigned to her case and asks if the chief of medicine could be brought in, as she is on the board of directors of another hospital. “No offense, dear,” she says to Dr. W; “I’m sure you did an excellent job, but usually only senior doctors take care of me.”
Dr. W accepts the psychiatrist’s suggestion to repair her relationship with the nurses with an apology. She now notes that Mrs. R is nothing like her grandmother and seems “pretty stuck up.” She is glad to be off the case and accepts the psychiatrist’s idea that Mrs. R’s need to feel important should not make Dr. W feel bad about herself.
Related resources
- Gabbard GO, ed. Countertransference issues in psychiatric treatment. In: Oldham JM, Riba MB, eds. Review of psychiatry series. Washington, DC: American Psychiatric Publishing, Inc.; 1999.
- Blumenfield M, Strain JJ, Grossman S. Psychodynamic approach. In: Blumenfield M, Strain JJ, eds. Psychosomatic medicine. Philadelphia, PA: Lippincott, Williams and Wilkins; 2006:817-828.
- Oxazepam • Serax
- Prazepam • Centrax
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
WEB AUDIO
Listen to Dr. Muskin discuss the patient-physician dynamic
Two strangers meet in the hospital cafeteria. Mrs. R, an elderly woman, asks Dr. W, a first-year medical resident, for help in getting a bottle of soda from the cooler. Afterward, Dr. W comments to a colleague with whom she is having lunch, “That woman reminds me of my grandmother.”
What does that comment reflect about Dr. W? It is a statement about the doctor’s transference. That is, she is aware of elements about Mrs. R that evoke internal responses appropriate to a prior important relationship.
What if Mrs. R was to subsequently faint, require admission to the hospital, and become Dr. W’s patient? If Dr. W’s comment indicates transference, would the same reaction to Mrs. R now be countertransference? Does that change if the doctor is unaware of emotions Mrs. R evokes? Is it still countertransference whether Dr. W is caring and compassionate, overly involved with Mrs. R, or—unaware of negative feelings associated with “grandmothers”—avoids the patient?
This article explores how complex internal experiences play out in the general medical setting and discusses how psychiatric consultants can help medical/surgical colleagues understand and manage difficult patient-physician relationships.
The therapeutic dyad
Countertransference and transference are concepts embedded in psychodynamic thinking. They are part of how many people think about interpersonal relations, whether or not they use these terms. Countertransference and transference may be conscious, but they always have an unconscious component. Factors that influence what will be transference and countertransference in adult life have both:
- a biological component because part of personality is genetic
- a psychological component based upon experiences throughout life ( Box 1 ).1
Genetic factors play a role in personality formation. A child’s personality, which emerges early in life, shapes interactions with people who are significant during childhood. Predispositions shape those experiences and influence what people internalize from those relationships.
In adults, many aspects of what we understand as transference—the experience someone has of a figure from the past—originate from the limitations with which children perceive and interpret their experiences. Transference is not truth about a significant past relationship; it is truth as the person experienced other people and now remembers or reacts to individuals who are reminiscent of those from the past.1
Not all psychotherapeutic treatments—and thus not all therapists—use the concept of transference as a therapeutic component. Some therapists who employ transference in treatment will discuss how the patient interacts with the therapist only when the phenomenon interferes with therapy. Interpretation of transference is a therapeutic modality of psychoanalysis and psychodynamic psychotherapy. Discussion of how the patient interacts with the therapist is not the same as a transference interpretation. Because transference exists in all human relationships, transferential aspects in a relationship may have positive or negative effects on interactions outside the therapeutic environment. Whether acknowledged or ignored, transference—and thus countertransference—is present.
Countertransference is a dimensional concept, not an all-or-nothing experience. Some reactions to patients are based entirely upon their transference to us and have nothing to do with us (therapists) as people. Others derive mostly from psychodynamics within the therapist ( Box 2 ). Countertransference has evolved to incorporate responses evoked by a combination of:
- the patient’s transference
- the therapist’s unique psychodynamics
- the real relationship in the therapeutic dyad.2
In the therapeutic setting, some reactions to the patient are experienced as unusually powerful, out of keeping with our self-image, or as consciously disturbing. Such reactions to a patient—while still countertransference—might result from projective identification. This type of countertransference is most commonly, but not exclusively, encountered in therapy of patients with borderline personality organization.3
We suggest that the term countertransference be restricted to therapeutic situations (any relationship in which one person has the role of treating or helping the other person), including all patient-physician or patient-provider relationships. They have a transferential component because the physician occupies a role of authority/knowledge/power from which the patient seeks to benefit.
Outside of therapeutic situations, reactions to other people are our transferences to them, evoked by our internalized past relationships. We may have an emotional response to how someone behaves toward us (their transference), but that is a counter-transference, not countertransference.
Patients with medical illness
Psychiatrists think of countertransference as a psychological situation occurring in the office or on an inpatient psychiatric unit. We focus our attention on how we feel and what we think while working with patients. We talk about our reactions to patients in supervision, rounds, case conferences, and other situations where mental health professionals discuss patients.
Our medical/surgical colleagues’ reactions to patients often correlate with certain patient presentations and may have little to do with the actual person who is the patient.4 The medical setting provides an opportunity for countertransference to occur in the absence of apparent transference.
Somatic illness imposes on patients some degree of regression. This regression and attempts to cope with it are inherent to somatic illness and hospitalization. Several schemas5 describe basic coping mechanisms common to most patients ( Table ).6,7 Recognizing a patient’s character style or personality type may help clinicians predict their countertransference when interacting with that patient. Uncooperative patients and those perceived as “difficult” are particularly likely to evoke negative countertransference.8
Table
Patients’ response to illness,
with common countertransference by medical staff
Patient’s coping mechanisms | Staff’s countertransference |
---|---|
Dependent personality | |
• Unconsciously wishes for unlimited care • Depends on others to feel secure • May make excessive requests of staff | • Gratification at being able to take care of patient’s needs • Resentment if patient’s needs seem insatiable |
Obsessional personality | |
• Meticulous self-discipline • Illness represents loss of control • Will try to gain mastery over illness by focusing on details, information | • Relief at patient’s willingness to actively participate • Power struggle is possible |
Histrionic personality | |
• Outgoing, colorful, lively • Attractiveness and sexuality important • Needs to feel the center of attention • Illness represents defect, loss of physical beauty | • Warm initial engagement • Fear of crossing boundaries • Wonder about veracity of complaints |
Masochistic personality | |
• Satisfies unconscious needs by suffering • Needs to play victim role | • Frustration when reassurance does not help • May unconsciously play into patient’s need for punishment |
Paranoid personality | |
• Pervasive doubt of others’ motivations • Often questions motives for interventions • Illness represents threat to safety | • Wary of lack of alliance • Anger that patient questions treatment motives • Frustrated at inability to form a trusting relationship with patient • Unsettled by lack of connection |
Narcissistic personality | |
• Grandiose sense of self, which protects against shame, humiliation • May demand superior care, insult junior team members | • May feel flattered by ability to treat patient as VIP • May alternately feel devalued, wonder about competence |
Source: References 6,7 |
CASE CONTINUED: No longer ‘grandmotherly’
Mrs. R and Dr. W are now in a patient-physician relationship. Dr. W is no longer handing Mrs. R a bottle of soda but is inquiring about her life, use of alcohol and other drugs, intimate activities, etc. Mrs. R reacts with anger at the “personal questions.” In addition, Dr. W orders tests that are uncomfortable for Mrs. R, who refuses to cooperate with some procedures.
Dr. W’s memories of her grandmother (who was encouraging, supportive, and loving) color her experience of Mrs. R. She ignores nursing staff’s complaints about Mrs. R being demanding and difficult as the patient becomes aggressive and increasingly confused.
Unable to see the patient as she really is, Dr. W becomes angry and defends Mrs. R’s behavior. The nurses feel Dr. W is unrealistic and ignore her at the nursing station. Late on a Friday night, Mrs. R becomes paranoid, hallucinating that “demons” are in her room. She tries to elope from the hospital. Dr. W is off for the weekend, and the staff requests an emergency psychiatric consultation.
Mrs. R evokes a reaction from the nurses because of how she interacts with them. Dr. W’s response—based on her experience of her grandmother—has nothing to do with the way Mrs. R relates interpersonally but reflects a reaction to the patient’s gender and age. Both reactions would be countertransference, using the modern definition.
If reactions to a patient such as Mrs. R are positive, no one seems to notice and the reactions might or might not influence her care. If the reactions are negative, they might influence her care and generate a request for a psychiatric consultation.
Some patients cannot communicate because of neurologic disorders, intubation, language barriers, or because they are unconscious when admitted. Without information from the patient, medical staff may form ideas about the patient based on their unconscious fantasies. These fantasies may influence the patient’s care.9 Psychiatric consultants are not immune to countertransference, but we come into situations with the opportunity to experience all participants from the outside.
CASE CONTINUED: The psychiatric consultation
During the interview, the psychiatrist asks Mrs. R if she takes any medications. She retorts that she always takes “Centrum” at bed-time and demands to know why she is not getting her “vitamins.” She is given oxazepam and falls asleep.
The psychiatrist recommends benzodiazepine detoxification, suspecting Mrs. R is taking prazepam at home from an old prescription (when the medication was a brand called “Centrax”). This suspicion is confirmed when Mrs. R’s family brings in a large shopping bag of medications she has collected over decades, and Mrs. R identifies her nighttime “vitamin.”
Patients with particular character styles evoke predictable reactions from others, including psychotherapists. Discussing these reactions has been a part of psychiatric training for decades. A subset of patients has been described as “hateful,” as they routinely evoke extremely negative responses.10 Whether their primary disorder is psychiatric, medical, or some of both, these patients evoke strong countertransference reactions.
Psychiatrists may be comfortable discussing a “narcissistic patient, a dependent clinger with borderline features,” but our medical colleagues might not share our comfort with psychiatric jargon.11 It may be more useful to say to medical staff that the patient “thinks of himself as very important, cannot accept his need to be taken care of, and tends to see things in black and white.”
Managing difficult patients
The characterizations that follow describe unconscious reactions to types of individuals who are routinely experienced as “difficult” patients. Some patients may exhibit a mixture of character styles ( Table ) and do not easily fall into 1 category. The concepts can be useful in clarifying the reactions that patients evoke in medical staff.
‘Dependent’ patients. Some patients demand continuous attention but are unaware of their insatiable neediness. Early in treatment, they may evoke positive countertransference because they are intensely grateful for attention. They can be enticing, unconsciously seductive, and gratifying to their doctors. Over time, they drain and exhaust their physicians, who resort to avoidance and wish to get rid of these patients.
Recommendation. Set limits to prevent the patient from feeling rejected or an actual rejection when he or she is transferred to another doctor’s care. Coach physicians to:
- ask patients to “Tell me what is most important for us to discuss today”
- be clear how long the visit will last.
‘Entitled’ patients. Another type of “difficult” patient projects an air of entitlement, which typically reflects an underlying insatiable neediness. They may use intimidation, guilt, and threats of punishment to get their doctors to provide the care they demand. These patients appear powerful (even though they may possess no special status), and they may be overtly devaluing of the physician while simultaneously demanding special attention.
The doctor resents the patient’s entitlement but develops an expectable countertransference fear that he or she will get in trouble if the demands are not met. Wishes to retaliate and “put the patient in his or her place” are common.
Recommendation. Saying, “It is understandable that you want the best care, and I plan to give you the best care,” makes it clear to the patient that the physician hears the patient’s concerns. Advise the physician to request the patient’s “understanding and compassion” for other patients who also need the physician’s time and attention.
‘Help-rejecting’ patients. “Help-rejecting” patients demand care but show little faith in treatment and do not follow treatment plans. The harder the physician tries to help, the less likely the plan will succeed. For these patients, treatment success evokes a fear of abandonment; thus, treatment must fail to maintain the relationship.
Common countertransference reactions are initial anxiety that the treatment plan was not adequate, followed by anger and depression as the physician feels stuck with a patient for whom nothing works.
Recommendation. Setting realistic goals for treatment helps the physician guide the patient, who expects to be told not to return the moment he or she gets better. Telling the patient that medical care does not stop when a particular malady is treated speaks to the patient’s fear of being abandoned.
When the patient adheres only partially to the plan and a psychiatric consultant is called for an “uncooperative” patient, help the doctor understand how the patient sees the world. It is the patient’s psychological needs—not the physician’s failure—that control the outcome of the care.
‘Self-destructive’ patients may appear unaware of their dangerous actions. They evoke malice from their doctors, who feel the patients are purposely engaging in life-threatening behaviors. The patients’ unconscious dependence remains unknown as their denial of the consequences of their behavior frightens and angers those involved in their care. Some of these patients cannot be stopped before their actions cause them permanent harm or death.
Recommendation. You might remind the physician that we all are entitled to live our lives as we choose. To decompress intense feelings, advise the physician to share, without blaming the patient, what medical staff can realistically do. Saying “We’ll do the best we can” (rather than “Treatment is useless for someone like you”) permits the patient to receive the degree of care he or she can accept without the physician feeling helpless. Understanding our limitations and obligations is part of using our countertransference to aid in patient care.
CASE CONTINUED: Feeling better
When Dr. W returns on Monday, she angrily calls the psychiatrist to complain that her patient has been placed on a benzodiazepine and at the “implication” that Mrs. R was abusing medication. When they talk in person, the psychiatrist explains the situation to Dr. W and suggests they meet with Mrs. R together.
Mrs. R is embarrassed when told about her behavior, identifies the pill, and admits taking prazepam for several weeks prior to hospitalization. She says she never understood how a vitamin could help her sleep so well. No longer delirious, Mrs. R is pleasant and asks many questions. She is surprised that “so young” a doctor was assigned to her case and asks if the chief of medicine could be brought in, as she is on the board of directors of another hospital. “No offense, dear,” she says to Dr. W; “I’m sure you did an excellent job, but usually only senior doctors take care of me.”
Dr. W accepts the psychiatrist’s suggestion to repair her relationship with the nurses with an apology. She now notes that Mrs. R is nothing like her grandmother and seems “pretty stuck up.” She is glad to be off the case and accepts the psychiatrist’s idea that Mrs. R’s need to feel important should not make Dr. W feel bad about herself.
Related resources
- Gabbard GO, ed. Countertransference issues in psychiatric treatment. In: Oldham JM, Riba MB, eds. Review of psychiatry series. Washington, DC: American Psychiatric Publishing, Inc.; 1999.
- Blumenfield M, Strain JJ, Grossman S. Psychodynamic approach. In: Blumenfield M, Strain JJ, eds. Psychosomatic medicine. Philadelphia, PA: Lippincott, Williams and Wilkins; 2006:817-828.
- Oxazepam • Serax
- Prazepam • Centrax
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
1. Gabbard GO. Basic principles of psychodynamic psychotherapy. In: Gabbard GO, ed. Psychodynamic psychiatry in clinical practice. Washington, DC: American Psychiatric Publishing, Inc.; 2005:1-30.
2. Harris A. Transference, countertransference, and the real relationship. In: Person ES, Cooper AM, Gabbard GO, eds. Textbook of psychoanalysis. Washington, DC: American Psychiatric Publishing, Inc.; 2005:201-216.
3. Goldstein WN. Clarification of projective identification. Am J Psychiatry. 1991;148:153-161.
4. Kuchariski A, Groves JE. The so-called “inappropriate” psychiatric consultation request on a medical or surgical ward. Int J Psychiatry Med. 1976;7(3):209-220.
5. Groves MA, Muskin PR. Psychological responses to illness. In: Levenson JL, ed. Textbook of psychosomatic medicine. Washington, DC: American Psychiatric Publishing, Inc.; 2005:67-90.
6. Kahana RJ, Bibring GL. Personality types in medical management. In: Zinberg N, ed. Psychiatry and medical practice in a general hospital. New York, NY: International Universities Press; 1964:108-123.
7. Geringer ES, Stern TA. Coping with medical illness: the impact of personality types. Psychosomatics. 1986;27:251-261.
8. Mozian SA, Muskin PR. The difficult patient. In: Barnhill JW, ed. The approach to the psychiatric patient. Washington, DC: American Psychiatric Publishing, Inc.; 2008:192-196.
9. Groves JE. Management of the borderline patient on a medical or surgical ward: the psychiatric consultant’s role. Int J Psychiatry Med. 1975;6:337-348.
10. Groves JE. Taking care of the hateful patient. N Engl J Med. 1978;298:883-887.
11. Pasnau RO. Ten Commandments of medical etiquette for psychiatrists. Psychosomatics. 1985;26(2):128-132.
1. Gabbard GO. Basic principles of psychodynamic psychotherapy. In: Gabbard GO, ed. Psychodynamic psychiatry in clinical practice. Washington, DC: American Psychiatric Publishing, Inc.; 2005:1-30.
2. Harris A. Transference, countertransference, and the real relationship. In: Person ES, Cooper AM, Gabbard GO, eds. Textbook of psychoanalysis. Washington, DC: American Psychiatric Publishing, Inc.; 2005:201-216.
3. Goldstein WN. Clarification of projective identification. Am J Psychiatry. 1991;148:153-161.
4. Kuchariski A, Groves JE. The so-called “inappropriate” psychiatric consultation request on a medical or surgical ward. Int J Psychiatry Med. 1976;7(3):209-220.
5. Groves MA, Muskin PR. Psychological responses to illness. In: Levenson JL, ed. Textbook of psychosomatic medicine. Washington, DC: American Psychiatric Publishing, Inc.; 2005:67-90.
6. Kahana RJ, Bibring GL. Personality types in medical management. In: Zinberg N, ed. Psychiatry and medical practice in a general hospital. New York, NY: International Universities Press; 1964:108-123.
7. Geringer ES, Stern TA. Coping with medical illness: the impact of personality types. Psychosomatics. 1986;27:251-261.
8. Mozian SA, Muskin PR. The difficult patient. In: Barnhill JW, ed. The approach to the psychiatric patient. Washington, DC: American Psychiatric Publishing, Inc.; 2008:192-196.
9. Groves JE. Management of the borderline patient on a medical or surgical ward: the psychiatric consultant’s role. Int J Psychiatry Med. 1975;6:337-348.
10. Groves JE. Taking care of the hateful patient. N Engl J Med. 1978;298:883-887.
11. Pasnau RO. Ten Commandments of medical etiquette for psychiatrists. Psychosomatics. 1985;26(2):128-132.
5-step psychiatric workup of HIV patients
Mr. G, a 28-year-old heterosexual Puerto Rican man, is admitted to the hospital’s infectious diseases (ID) unit after 3 weeks of worsening bifrontal headaches. He has been treated as an outpatient for several years since becoming HIV-positive and was diagnosed with AIDS after an intracranial toxoplasmosis infection. Although he has not taken antiretrovirals for several months, Mr. G has adhered intermittently to his antiretroviral regimen and previously developed other opportunistic infections, including thrush and bacterial pneumonia.
Three days after Mr. G is admitted, ID clinicians become concerned that he appears severely depressed and request a psychiatric evaluation.
Psychiatric evaluation and diagnosis in patients with HIV can be a challenge because of:
- the myriad ways HIV can impact the CNS
- the proliferation of antiretroviral medications
- patients’ increasing lifespan as a result of highly active antiretroviral therapy (HAART)1
- the psychological repercussions of living with HIV infection.
In this case-based review, we outline a rational, 5-step approach to evaluating and diagnosing psychiatric symptoms in patients with HIV.
A wide differential diagnosis
Patients who are HIV-positive have disproportionately high rates of psychiatric disorders. One study of approximately 2,800 adults receiving care for HIV found that nearly one-half screened positive for major depression, dysthymia, generalized anxiety disorders, or panic attacks.2 Some psychiatric morbidity may be related to:
- the stress of having HIV
- stressors related to risk factors for acquiring HIV, including low socioeconomic status, homelessness, and discrimination and social stigma based on race and sexual orientation
- substance abuse, which is common among patients with HIV.2
Because of the range and variety of psychopathology encountered in HIV disease, keep a wide differential diagnosis in mind when evaluating patients with HIV.
A 5-step process can help you determine if symptoms in any patient—regardless of HIV status—are caused by a primary psychiatric disorder or CNS impairment (Box).
Table 1
HIV-associated CNS infections
More common |
Cryptococcus neoformans meningitis |
Progressive multifocal leukoencephalopathy (polyomavirus JC) |
Toxoplasma gondii |
Less common |
Aspergillosis |
Coccidioidomycosis |
Cytomegalovirus |
Herpes simplex or varicella-zoster encephalitis |
Histoplasmosis |
Leptomeningeal tuberculosis |
Source: References 5-8 |
Neuropsychiatric side effects of antiretroviral medications
Medication | Potential side effect(s) |
---|---|
Abacavir | Depression, anxiety, psychosis |
Amprenavir | Mood changes |
Didanosine | Lethargy, nervousness, anxiety, confusion, sleep disturbances, mood disorders, psychosis |
Efavirenz | Agitation, depersonalization, hallucinations, disturbed dreams, mood disorders, depression, suicidality, antisocial behavior, psychosis, catatonia, delirium |
Enfuvirtide | Anxiety, depression |
Indinavir | Mood changes |
Lamivudine | Insomnia, mood disorders |
Lopinavir+Ritonavir | Mood changes, agitation, anxiety |
Nevirapine | Depression, cognitive impairment, psychosis |
Ritonavir | Anxiety |
Saquinavir | Depression, anxiety, sleep disturbances |
Stavudine | Sleep disorders, mood disorders, delirium |
Zalcitabine | Somnolence, impaired concentration, mood disorders, delirium |
Zidovudine | Sleep disturbance, vivid dreams, agitation, mania, depression, psychotic symptoms, delirium |
Source: References 9,10 |
STEP 1 Perform initial exams
A careful diagnostic exam that includes a mental status examination with gross cognitive functioning testing is necessary to differentiate primary psychiatric disorders from HIV-related CNS pathology, including:
- HIV-associated dementia
- HIV-associated minor cognitive motor disorder (a less severe form of HIV-related cognitive and psychomotor impairment)
- opportunistic infections.
CASE CONTINUED
Mr. G sits in a chair alone in his room, looking out the window. He responds minimally to your initial greetings and has a staring expression and flat affect. Mr. G is calm and cooperative with the exam but has almost no spontaneous speech, answering questions with slow, imprecise 3- or 4-word responses. He is relaxed and does not seem guarded or paranoid.
Mr. G denies depressed mood or suicidal thinking and appears surprised to be asked about these symptoms. He also denies a history of manic or psychotic symptoms or problems with sleep, appetite, or energy. Bedside cognitive exam—focusing on alertness, orientation, attention, and memory—does not demonstrate any gross deficits.
Cognitive workup. Be vigilant for deficits in attention and orientation that might indicate an acute brain syndrome. In addition, look for discrepant patterns of symptoms or other features that may suggest CNS pathology. For example, Mr. G’s impoverished speech and lack of motivation—combined with a clear sensorium and lack of obvious patterns of mood, anxiety, or psychotic symptoms—suggest that a primary psychiatric disorder might not explain his presentation.
Although commonly used, the bedside Mini-Mental State Examination may be insensitive to cognitive deficits in HIV-associated dementia. The HIV-Dementia Scale is more sensitive to HIV’s typical subcortical features.
Physical workup. When evaluating symptoms in an immunocompromised patient at risk for opportunistic infections, it is important to conduct a comprehensive physical exam. Pay attention to evidence of secondary infection and to neurologic signs. Fever may suggest an opportunistic infection that could contribute to psychiatric symptoms. Immunocompromise in HIV may be associated with a variety of infectious meningitis forms, such as:
- cryptococcus
- aseptic meningitis (which may be caused by HIV)
- histoplasmosis
- coccidioidomycosis.
CASE CONTINUED
Physical exam reveals that Mr. G has a low-grade fever (100.2° F) and penile erosion consistent with herpes simplex infection. He has no meningeal signs and an otherwise normal neurologic examination.
STEP 2 Evaluate lab results
Use laboratory testing to search for potential medical causes of the patient’s presentation. Include a complete blood cell count, electrolytes, blood urea nitrogen and creatinine, and liver function tests to look for underlying metabolic problems.
CASE CONTINUED
Complete blood count, electrolytes, kidney function, and liver function tests are all within normal limits, and rapid plasma reagin (RPR) for syphilis is negative. Cerebrospinal fluid (CSF) analysis demonstrates normal opening pressures, protein, and glucose. India ink stain is negative for Cryptococcus neoformans, but 1 week later CSF cultures are positive for Cryptococcus. The patient has a CD4 count of 15 and a viral load of approximately 44,000.
The stepwise approach this article describes to evaluate and diagnose psychiatric symptoms in HIV-positive patients can be used in any patient to determine if psychiatric symptoms are the result of a primary psychiatric disorder or CNS impairment. This approach may be particularly helpful when evaluating patients with new-onset or unusual symptoms, as described in the following case.
Ms. K, 34, has a diagnosis of ophthalmic herpes and is hospitalized to control severe pain in her left eye. On the second day, she appears moderately anxious and somewhat restless. Although it is possible to recognize some words and connections between a few ideas, her speech is otherwise incomprehensible. The ophthalmologist requests a psychiatric consultation, concerned that the change in mental status represents emerging psychosis.
Because Ms. K is unable to provide information coherently, the psychiatrist carefully reviews her medical, social, and psychiatric histories and medications. Ms. K’s history includes tonsillectomy at age 2, arthroscopic knee surgery after a skiing accident in college, and the use of oral contraception.
STEP 1 During Ms. K’s mental status exam, she appears alert, attentive, and cooperative, although moderately anxious. Rather than tangentiality or loosening of associations, her speech is notable for pervasive word substitutions and paraphasic errors, such as saying “chair” when asked to identify the nightstand in her room.
Aside from her ocular lesion, Ms. K’s physical exam is normal.
STEP 2 Laboratory testing reveals normal electrolytes, renal functioning, liver function tests, thyroid functioning, and B12 and folate levels. Rapid plasma reagin for syphilis is negative.
STEP 3 The psychiatrist feels that her exam demonstrates aphasic features rather than psychotic thought process abnormalities and orders neuroimaging. Brain CT with contrast reveals that Ms. K has a ring-enhancing lesion in the left temporal-parietal area, consistent with toxoplasmosis or a glioblastoma. Biopsy confirms toxoplasmosis.
STEPS 4/5 Neuropsychological testing was not performed in this case. It would have revealed the aphasia. Putting all of the data together resulted in clarifying that the patient was not psychotic.
Because toxoplasmosis often develops in patients with severely compromised immune systems, the healthcare team advises Ms. K to undergo HIV testing. Her enzyme-linked immunoadsorbent assay is positive for HIV antibodies, and her HIV infection is confirmed with a Western blot test.
Treatment with pyrimethamine and sulfadiazine rapidly resolves her neurologic symptoms. When she is no longer aphasic, Ms. K gives a history of several sexual relationships in the last 4 years. She typically used condoms during sexual activity but recalled instances when the condom had ruptured during intercourse. She denies any other risk factors for contracting HIV. Ms. K fully recovers from toxoplasmosis with no signs of cognitive impairment. She is started on antiretroviral therapy and followed as an outpatient.
- HIV and syphilis share sexual risk factors
- having syphilis increases the likelihood of comorbid HIV infection 7- to 9-fold11
- syphilis may worsen the course of HIV infection12
- syphilis can mimic psychiatric symptoms.13,14
STEP 3 Order neuroimaging
Neuroimaging is an essential part of the workup of a patient for whom your clinical examination raises suspicion for CNS impairment. In patients with longstanding HIV infection, brain imaging may reveal cerebral atrophy, which may accompany the cognitive changes found in HIV-associated dementia. In addition, immunocompromised patients, particularly those with a CD4 count 15
CASE CONTINUED
Brain MRI shows moderate cerebral and cerebellar atrophy, which ID clinicians attribute to the long-term effects of HIV infection. No evidence of focal or mass lesions is seen.
By further investigating Mr. G’s medical records, you find a brain MRI performed when Mr. G initially presented with toxoplasmosis in 2001. This scan reveals a large ring-enhancing mass in the right frontal lobe. Although the patient had refused a brain biopsy, the radiologist determined the lesion was most consistent in appearance with intracranial toxoplasmosis.
STEP 4 Perform neuropsychological testing
When physical exam, mental status exam, or neuroimaging suggests a possible CNS cause for a patient’s psychiatric presentation, neuropsychological testing can help characterize which of the patient’s brain functions are compromised and determine their anatomic source. This testing allows for a more complete and precise assessment of brain function than can be achieved by a bedside cognitive exam. It typically includes the Trail Making Test Parts A and B and the Grooved Pegboard Test to evaluate executive and psychomotor functioning, as well as the Controlled Oral Word Association Test to evaluate cognitive speed.
CASE CONTINUED
A search of medical records reveals that Mr. G had recently undergone a brief neuropsychological assessment at the hospital’s outpatient HIV mental health clinic. The psychologist found evidence of frontal lobe dysfunction, including problems with shifting sets, verbal fluency, and naming the months of the year backwards. Mr. G’s performance demonstrated a subcortical dementia pattern that included prominent fine motor impairment.
STEP 5 Synthesize all data to make a diagnosis
Psychiatric illness in HIV-positive patients may involve factors at multiple biopsychosocial levels, including problems with social support, psychological stress, primary psychiatric illness, immunocompromise, and CNS disease. Consider data from all of these levels to arrive at a diagnosis.
CASE CONTINUED
After carefully considering Mr. G’s history, physical and mental status examinations, laboratory data, current and past neuroimaging, and neuropsychological testing, you and ID clinicians conclude that Mr. G’s neuropsychiatric presentation primarily represents the residual deficits from his large frontal lobe toxoplasmosis lesion diagnosed in 2001, with possible contribution from an underlying HIV-associated dementia. You feel that a depressive disorder can be ruled out with a high degree of certainty because the patient denied abnormalities of mood or hedonic tone, did not demonstrate deficits in neurovegetative functioning such as appetite, energy, and sleep, and did not show evidence of suicidality. You attribute the flat affect and amotivation that had prompted the psychiatric consult to his secondary neuropsychiatric deficits.
Table 3
Staging system for HIV-associated dementia
Stage | Degree of severity | Clinical characteristics |
---|---|---|
0 | Normal | Normal mental and motor function |
0.5 | Equivocal | Minimal or equivocal symptoms characteristic of cognitive or motor dysfunction, or mild signs (snout response or slowed extremity movements); no impairment of work or ADLs; gait and strength normal |
1 | Mild | Unequivocal evidence of functional, intellectual, or motor impairment (including symptoms, signs, or neuropsychological testing); can walk without assistance and perform all except more demanding aspects of work or ADLs |
2 | Moderate | Able to perform basic activities of self care but unable to work or maintain the more demanding ADLs; ambulatory but may require a single prop |
3 | Severe | Major intellectual incapacity (cannot follow news or personal events, cannot sustain complex conversation, considerable slowing of all outputs) or motor disability (unable to walk unassisted, requires walker or personal support, usually slowed and accompanied by clumsiness of arms) |
4 | End stage | A nearly vegetative state; intellectual and social comprehension and output are rudimentary; patient is nearly or absolutely mute and paraparetic or paraplegic, with urinary and fecal incontinence |
ADLs: activities of daily living | ||
Source: References 9,16 |
CASE CONTINUED
Because Mr. G had no evidence of a mood syndrome, you do not recommend antidepressants. You note that although a stimulant might improve the patient’s cognitive function and apathy, Mr. G’s history of heavy cocaine use is considered a contraindication.
Related Resources
- Aidsmap information on AIDS and HIV. www.aidsmap.com.
- America Psychiatric Association AIDS Resource Center. www.psych.org/AIDS.
- Abacavir • Ziagen
- Amprenavir • Agenerase
- Didanosine • Videx
- Efavirenz • Sustiva
- Enfuvirtide • Fuzeon
- Indinavir • Crixivan
- Lamivudine • Epivir
- Lopinavir/Ritonavir • Kaletra
- Nevirapine • Viramune
- Pyrimethamine • Daraprim
- Ritonavir • Norvir
- Saquinavir • Invirase
- Stavudine • Zerit
- Sulfadiazine • Microsulfon
- Zalcitabine • Hivid
- Zidovudine • Retrovir
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
1. Palella FJ, Jr, Delaney KM, Moorman AC, et al. Declining morbidity and mortality among patients with advanced human immunodeficiency virus infection. HIV Outpatient Study Investigators. N Engl J Med 1998;338(13):853-60.
2. Bing EG, Burnam MA, Longshore D, et al. Psychiatric disorders and drug use among human immunodeficiency virus-infected adults in the United States. Arch Gen Psychiatry 2001;58(8):721-8.
3. Krikorian R, Wrobel AJ, Meinecke C, et al. Cognitive deficits associated with human immunodeficiency virus encephalopathy. J Neuropsychiatry Clin Neurosci 1990;2(3):256-60.
4. Clifford DB. Human immunodeficiency virus-associated dementia. Arch Neurol 2000;57(3):321-4.
5. Collazos J. Opportunistic infections of the CNS in patients with AIDS: diagnosis and management. CNS Drugs 2003;17(12):869-87.
6. Mischel PS, Vinters HV. Coccidioidomycosis of the CNS: neuropathological and vasculopathic manifestations and clinical correlates. Clin Infect Dis 1995;20(2):400-5.
7. Offiah CE, Turnbull IW. The imaging appearances of intracranial CNS infections in adult HIV and AIDS patients. Clin Radiol 2006;61(5):393-401.
8. Black KE, Baden LR. Fungal infections of the CNS: treatment strategies for the immunocompromised patient. CNS Drugs 2007;21(4):293-318.
9. Cespedes MS, Aberg JA. Neuropsychiatric complications of antiretroviral therapy. Drug Saf 2006;29(10):865-74.
10. Turjanski N, Lloyd GG. Psychiatric side-effects of medications: recent developments. Adv Psychiatr Treat 2005;11(1):58-70.
11. Quinn TC, Cannon RO, Glasser D, et al. The association of syphilis with risk of human immunodeficiency virus infection in patients attending sexually transmitted disease clinics. Arch Intern Med 1990;150(6):1297-1302.
12. Zetola NM, Klausner JD. Syphilis and HIV infection: an update. Clin Infect Dis 2007;44(9):1222-8.
13. Sobhan T, Rowe HM, Ryan WG, Munoz C. Unusual case report: three cases of psychiatric manifestations of neurosyphilis. Psychiatr Serv 2004;55(7):830-2.
14. Timmermans M, Carr J. Neurosyphilis in the modern era. J Neurol Neurosurg Psychiatry 2004;75(12):1727-30.
15. Camacho DLA, Smith JK, Castillo M. Differentiation of toxoplasmosis and lymphoma in AIDS patients by using apparent diffusion coefficients. AJNR Am J Neuroradiol 2003;24(4):633-7.
16. Price RW, Brew BJ. The AIDS dementia complex. J Infect Dis 1988;158:1079-83.
Mr. G, a 28-year-old heterosexual Puerto Rican man, is admitted to the hospital’s infectious diseases (ID) unit after 3 weeks of worsening bifrontal headaches. He has been treated as an outpatient for several years since becoming HIV-positive and was diagnosed with AIDS after an intracranial toxoplasmosis infection. Although he has not taken antiretrovirals for several months, Mr. G has adhered intermittently to his antiretroviral regimen and previously developed other opportunistic infections, including thrush and bacterial pneumonia.
Three days after Mr. G is admitted, ID clinicians become concerned that he appears severely depressed and request a psychiatric evaluation.
Psychiatric evaluation and diagnosis in patients with HIV can be a challenge because of:
- the myriad ways HIV can impact the CNS
- the proliferation of antiretroviral medications
- patients’ increasing lifespan as a result of highly active antiretroviral therapy (HAART)1
- the psychological repercussions of living with HIV infection.
In this case-based review, we outline a rational, 5-step approach to evaluating and diagnosing psychiatric symptoms in patients with HIV.
A wide differential diagnosis
Patients who are HIV-positive have disproportionately high rates of psychiatric disorders. One study of approximately 2,800 adults receiving care for HIV found that nearly one-half screened positive for major depression, dysthymia, generalized anxiety disorders, or panic attacks.2 Some psychiatric morbidity may be related to:
- the stress of having HIV
- stressors related to risk factors for acquiring HIV, including low socioeconomic status, homelessness, and discrimination and social stigma based on race and sexual orientation
- substance abuse, which is common among patients with HIV.2
Because of the range and variety of psychopathology encountered in HIV disease, keep a wide differential diagnosis in mind when evaluating patients with HIV.
A 5-step process can help you determine if symptoms in any patient—regardless of HIV status—are caused by a primary psychiatric disorder or CNS impairment (Box).
Table 1
HIV-associated CNS infections
More common |
Cryptococcus neoformans meningitis |
Progressive multifocal leukoencephalopathy (polyomavirus JC) |
Toxoplasma gondii |
Less common |
Aspergillosis |
Coccidioidomycosis |
Cytomegalovirus |
Herpes simplex or varicella-zoster encephalitis |
Histoplasmosis |
Leptomeningeal tuberculosis |
Source: References 5-8 |
Neuropsychiatric side effects of antiretroviral medications
Medication | Potential side effect(s) |
---|---|
Abacavir | Depression, anxiety, psychosis |
Amprenavir | Mood changes |
Didanosine | Lethargy, nervousness, anxiety, confusion, sleep disturbances, mood disorders, psychosis |
Efavirenz | Agitation, depersonalization, hallucinations, disturbed dreams, mood disorders, depression, suicidality, antisocial behavior, psychosis, catatonia, delirium |
Enfuvirtide | Anxiety, depression |
Indinavir | Mood changes |
Lamivudine | Insomnia, mood disorders |
Lopinavir+Ritonavir | Mood changes, agitation, anxiety |
Nevirapine | Depression, cognitive impairment, psychosis |
Ritonavir | Anxiety |
Saquinavir | Depression, anxiety, sleep disturbances |
Stavudine | Sleep disorders, mood disorders, delirium |
Zalcitabine | Somnolence, impaired concentration, mood disorders, delirium |
Zidovudine | Sleep disturbance, vivid dreams, agitation, mania, depression, psychotic symptoms, delirium |
Source: References 9,10 |
STEP 1 Perform initial exams
A careful diagnostic exam that includes a mental status examination with gross cognitive functioning testing is necessary to differentiate primary psychiatric disorders from HIV-related CNS pathology, including:
- HIV-associated dementia
- HIV-associated minor cognitive motor disorder (a less severe form of HIV-related cognitive and psychomotor impairment)
- opportunistic infections.
CASE CONTINUED
Mr. G sits in a chair alone in his room, looking out the window. He responds minimally to your initial greetings and has a staring expression and flat affect. Mr. G is calm and cooperative with the exam but has almost no spontaneous speech, answering questions with slow, imprecise 3- or 4-word responses. He is relaxed and does not seem guarded or paranoid.
Mr. G denies depressed mood or suicidal thinking and appears surprised to be asked about these symptoms. He also denies a history of manic or psychotic symptoms or problems with sleep, appetite, or energy. Bedside cognitive exam—focusing on alertness, orientation, attention, and memory—does not demonstrate any gross deficits.
Cognitive workup. Be vigilant for deficits in attention and orientation that might indicate an acute brain syndrome. In addition, look for discrepant patterns of symptoms or other features that may suggest CNS pathology. For example, Mr. G’s impoverished speech and lack of motivation—combined with a clear sensorium and lack of obvious patterns of mood, anxiety, or psychotic symptoms—suggest that a primary psychiatric disorder might not explain his presentation.
Although commonly used, the bedside Mini-Mental State Examination may be insensitive to cognitive deficits in HIV-associated dementia. The HIV-Dementia Scale is more sensitive to HIV’s typical subcortical features.
Physical workup. When evaluating symptoms in an immunocompromised patient at risk for opportunistic infections, it is important to conduct a comprehensive physical exam. Pay attention to evidence of secondary infection and to neurologic signs. Fever may suggest an opportunistic infection that could contribute to psychiatric symptoms. Immunocompromise in HIV may be associated with a variety of infectious meningitis forms, such as:
- cryptococcus
- aseptic meningitis (which may be caused by HIV)
- histoplasmosis
- coccidioidomycosis.
CASE CONTINUED
Physical exam reveals that Mr. G has a low-grade fever (100.2° F) and penile erosion consistent with herpes simplex infection. He has no meningeal signs and an otherwise normal neurologic examination.
STEP 2 Evaluate lab results
Use laboratory testing to search for potential medical causes of the patient’s presentation. Include a complete blood cell count, electrolytes, blood urea nitrogen and creatinine, and liver function tests to look for underlying metabolic problems.
CASE CONTINUED
Complete blood count, electrolytes, kidney function, and liver function tests are all within normal limits, and rapid plasma reagin (RPR) for syphilis is negative. Cerebrospinal fluid (CSF) analysis demonstrates normal opening pressures, protein, and glucose. India ink stain is negative for Cryptococcus neoformans, but 1 week later CSF cultures are positive for Cryptococcus. The patient has a CD4 count of 15 and a viral load of approximately 44,000.
The stepwise approach this article describes to evaluate and diagnose psychiatric symptoms in HIV-positive patients can be used in any patient to determine if psychiatric symptoms are the result of a primary psychiatric disorder or CNS impairment. This approach may be particularly helpful when evaluating patients with new-onset or unusual symptoms, as described in the following case.
Ms. K, 34, has a diagnosis of ophthalmic herpes and is hospitalized to control severe pain in her left eye. On the second day, she appears moderately anxious and somewhat restless. Although it is possible to recognize some words and connections between a few ideas, her speech is otherwise incomprehensible. The ophthalmologist requests a psychiatric consultation, concerned that the change in mental status represents emerging psychosis.
Because Ms. K is unable to provide information coherently, the psychiatrist carefully reviews her medical, social, and psychiatric histories and medications. Ms. K’s history includes tonsillectomy at age 2, arthroscopic knee surgery after a skiing accident in college, and the use of oral contraception.
STEP 1 During Ms. K’s mental status exam, she appears alert, attentive, and cooperative, although moderately anxious. Rather than tangentiality or loosening of associations, her speech is notable for pervasive word substitutions and paraphasic errors, such as saying “chair” when asked to identify the nightstand in her room.
Aside from her ocular lesion, Ms. K’s physical exam is normal.
STEP 2 Laboratory testing reveals normal electrolytes, renal functioning, liver function tests, thyroid functioning, and B12 and folate levels. Rapid plasma reagin for syphilis is negative.
STEP 3 The psychiatrist feels that her exam demonstrates aphasic features rather than psychotic thought process abnormalities and orders neuroimaging. Brain CT with contrast reveals that Ms. K has a ring-enhancing lesion in the left temporal-parietal area, consistent with toxoplasmosis or a glioblastoma. Biopsy confirms toxoplasmosis.
STEPS 4/5 Neuropsychological testing was not performed in this case. It would have revealed the aphasia. Putting all of the data together resulted in clarifying that the patient was not psychotic.
Because toxoplasmosis often develops in patients with severely compromised immune systems, the healthcare team advises Ms. K to undergo HIV testing. Her enzyme-linked immunoadsorbent assay is positive for HIV antibodies, and her HIV infection is confirmed with a Western blot test.
Treatment with pyrimethamine and sulfadiazine rapidly resolves her neurologic symptoms. When she is no longer aphasic, Ms. K gives a history of several sexual relationships in the last 4 years. She typically used condoms during sexual activity but recalled instances when the condom had ruptured during intercourse. She denies any other risk factors for contracting HIV. Ms. K fully recovers from toxoplasmosis with no signs of cognitive impairment. She is started on antiretroviral therapy and followed as an outpatient.
- HIV and syphilis share sexual risk factors
- having syphilis increases the likelihood of comorbid HIV infection 7- to 9-fold11
- syphilis may worsen the course of HIV infection12
- syphilis can mimic psychiatric symptoms.13,14
STEP 3 Order neuroimaging
Neuroimaging is an essential part of the workup of a patient for whom your clinical examination raises suspicion for CNS impairment. In patients with longstanding HIV infection, brain imaging may reveal cerebral atrophy, which may accompany the cognitive changes found in HIV-associated dementia. In addition, immunocompromised patients, particularly those with a CD4 count 15
CASE CONTINUED
Brain MRI shows moderate cerebral and cerebellar atrophy, which ID clinicians attribute to the long-term effects of HIV infection. No evidence of focal or mass lesions is seen.
By further investigating Mr. G’s medical records, you find a brain MRI performed when Mr. G initially presented with toxoplasmosis in 2001. This scan reveals a large ring-enhancing mass in the right frontal lobe. Although the patient had refused a brain biopsy, the radiologist determined the lesion was most consistent in appearance with intracranial toxoplasmosis.
STEP 4 Perform neuropsychological testing
When physical exam, mental status exam, or neuroimaging suggests a possible CNS cause for a patient’s psychiatric presentation, neuropsychological testing can help characterize which of the patient’s brain functions are compromised and determine their anatomic source. This testing allows for a more complete and precise assessment of brain function than can be achieved by a bedside cognitive exam. It typically includes the Trail Making Test Parts A and B and the Grooved Pegboard Test to evaluate executive and psychomotor functioning, as well as the Controlled Oral Word Association Test to evaluate cognitive speed.
CASE CONTINUED
A search of medical records reveals that Mr. G had recently undergone a brief neuropsychological assessment at the hospital’s outpatient HIV mental health clinic. The psychologist found evidence of frontal lobe dysfunction, including problems with shifting sets, verbal fluency, and naming the months of the year backwards. Mr. G’s performance demonstrated a subcortical dementia pattern that included prominent fine motor impairment.
STEP 5 Synthesize all data to make a diagnosis
Psychiatric illness in HIV-positive patients may involve factors at multiple biopsychosocial levels, including problems with social support, psychological stress, primary psychiatric illness, immunocompromise, and CNS disease. Consider data from all of these levels to arrive at a diagnosis.
CASE CONTINUED
After carefully considering Mr. G’s history, physical and mental status examinations, laboratory data, current and past neuroimaging, and neuropsychological testing, you and ID clinicians conclude that Mr. G’s neuropsychiatric presentation primarily represents the residual deficits from his large frontal lobe toxoplasmosis lesion diagnosed in 2001, with possible contribution from an underlying HIV-associated dementia. You feel that a depressive disorder can be ruled out with a high degree of certainty because the patient denied abnormalities of mood or hedonic tone, did not demonstrate deficits in neurovegetative functioning such as appetite, energy, and sleep, and did not show evidence of suicidality. You attribute the flat affect and amotivation that had prompted the psychiatric consult to his secondary neuropsychiatric deficits.
Table 3
Staging system for HIV-associated dementia
Stage | Degree of severity | Clinical characteristics |
---|---|---|
0 | Normal | Normal mental and motor function |
0.5 | Equivocal | Minimal or equivocal symptoms characteristic of cognitive or motor dysfunction, or mild signs (snout response or slowed extremity movements); no impairment of work or ADLs; gait and strength normal |
1 | Mild | Unequivocal evidence of functional, intellectual, or motor impairment (including symptoms, signs, or neuropsychological testing); can walk without assistance and perform all except more demanding aspects of work or ADLs |
2 | Moderate | Able to perform basic activities of self care but unable to work or maintain the more demanding ADLs; ambulatory but may require a single prop |
3 | Severe | Major intellectual incapacity (cannot follow news or personal events, cannot sustain complex conversation, considerable slowing of all outputs) or motor disability (unable to walk unassisted, requires walker or personal support, usually slowed and accompanied by clumsiness of arms) |
4 | End stage | A nearly vegetative state; intellectual and social comprehension and output are rudimentary; patient is nearly or absolutely mute and paraparetic or paraplegic, with urinary and fecal incontinence |
ADLs: activities of daily living | ||
Source: References 9,16 |
CASE CONTINUED
Because Mr. G had no evidence of a mood syndrome, you do not recommend antidepressants. You note that although a stimulant might improve the patient’s cognitive function and apathy, Mr. G’s history of heavy cocaine use is considered a contraindication.
Related Resources
- Aidsmap information on AIDS and HIV. www.aidsmap.com.
- America Psychiatric Association AIDS Resource Center. www.psych.org/AIDS.
- Abacavir • Ziagen
- Amprenavir • Agenerase
- Didanosine • Videx
- Efavirenz • Sustiva
- Enfuvirtide • Fuzeon
- Indinavir • Crixivan
- Lamivudine • Epivir
- Lopinavir/Ritonavir • Kaletra
- Nevirapine • Viramune
- Pyrimethamine • Daraprim
- Ritonavir • Norvir
- Saquinavir • Invirase
- Stavudine • Zerit
- Sulfadiazine • Microsulfon
- Zalcitabine • Hivid
- Zidovudine • Retrovir
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
Mr. G, a 28-year-old heterosexual Puerto Rican man, is admitted to the hospital’s infectious diseases (ID) unit after 3 weeks of worsening bifrontal headaches. He has been treated as an outpatient for several years since becoming HIV-positive and was diagnosed with AIDS after an intracranial toxoplasmosis infection. Although he has not taken antiretrovirals for several months, Mr. G has adhered intermittently to his antiretroviral regimen and previously developed other opportunistic infections, including thrush and bacterial pneumonia.
Three days after Mr. G is admitted, ID clinicians become concerned that he appears severely depressed and request a psychiatric evaluation.
Psychiatric evaluation and diagnosis in patients with HIV can be a challenge because of:
- the myriad ways HIV can impact the CNS
- the proliferation of antiretroviral medications
- patients’ increasing lifespan as a result of highly active antiretroviral therapy (HAART)1
- the psychological repercussions of living with HIV infection.
In this case-based review, we outline a rational, 5-step approach to evaluating and diagnosing psychiatric symptoms in patients with HIV.
A wide differential diagnosis
Patients who are HIV-positive have disproportionately high rates of psychiatric disorders. One study of approximately 2,800 adults receiving care for HIV found that nearly one-half screened positive for major depression, dysthymia, generalized anxiety disorders, or panic attacks.2 Some psychiatric morbidity may be related to:
- the stress of having HIV
- stressors related to risk factors for acquiring HIV, including low socioeconomic status, homelessness, and discrimination and social stigma based on race and sexual orientation
- substance abuse, which is common among patients with HIV.2
Because of the range and variety of psychopathology encountered in HIV disease, keep a wide differential diagnosis in mind when evaluating patients with HIV.
A 5-step process can help you determine if symptoms in any patient—regardless of HIV status—are caused by a primary psychiatric disorder or CNS impairment (Box).
Table 1
HIV-associated CNS infections
More common |
Cryptococcus neoformans meningitis |
Progressive multifocal leukoencephalopathy (polyomavirus JC) |
Toxoplasma gondii |
Less common |
Aspergillosis |
Coccidioidomycosis |
Cytomegalovirus |
Herpes simplex or varicella-zoster encephalitis |
Histoplasmosis |
Leptomeningeal tuberculosis |
Source: References 5-8 |
Neuropsychiatric side effects of antiretroviral medications
Medication | Potential side effect(s) |
---|---|
Abacavir | Depression, anxiety, psychosis |
Amprenavir | Mood changes |
Didanosine | Lethargy, nervousness, anxiety, confusion, sleep disturbances, mood disorders, psychosis |
Efavirenz | Agitation, depersonalization, hallucinations, disturbed dreams, mood disorders, depression, suicidality, antisocial behavior, psychosis, catatonia, delirium |
Enfuvirtide | Anxiety, depression |
Indinavir | Mood changes |
Lamivudine | Insomnia, mood disorders |
Lopinavir+Ritonavir | Mood changes, agitation, anxiety |
Nevirapine | Depression, cognitive impairment, psychosis |
Ritonavir | Anxiety |
Saquinavir | Depression, anxiety, sleep disturbances |
Stavudine | Sleep disorders, mood disorders, delirium |
Zalcitabine | Somnolence, impaired concentration, mood disorders, delirium |
Zidovudine | Sleep disturbance, vivid dreams, agitation, mania, depression, psychotic symptoms, delirium |
Source: References 9,10 |
STEP 1 Perform initial exams
A careful diagnostic exam that includes a mental status examination with gross cognitive functioning testing is necessary to differentiate primary psychiatric disorders from HIV-related CNS pathology, including:
- HIV-associated dementia
- HIV-associated minor cognitive motor disorder (a less severe form of HIV-related cognitive and psychomotor impairment)
- opportunistic infections.
CASE CONTINUED
Mr. G sits in a chair alone in his room, looking out the window. He responds minimally to your initial greetings and has a staring expression and flat affect. Mr. G is calm and cooperative with the exam but has almost no spontaneous speech, answering questions with slow, imprecise 3- or 4-word responses. He is relaxed and does not seem guarded or paranoid.
Mr. G denies depressed mood or suicidal thinking and appears surprised to be asked about these symptoms. He also denies a history of manic or psychotic symptoms or problems with sleep, appetite, or energy. Bedside cognitive exam—focusing on alertness, orientation, attention, and memory—does not demonstrate any gross deficits.
Cognitive workup. Be vigilant for deficits in attention and orientation that might indicate an acute brain syndrome. In addition, look for discrepant patterns of symptoms or other features that may suggest CNS pathology. For example, Mr. G’s impoverished speech and lack of motivation—combined with a clear sensorium and lack of obvious patterns of mood, anxiety, or psychotic symptoms—suggest that a primary psychiatric disorder might not explain his presentation.
Although commonly used, the bedside Mini-Mental State Examination may be insensitive to cognitive deficits in HIV-associated dementia. The HIV-Dementia Scale is more sensitive to HIV’s typical subcortical features.
Physical workup. When evaluating symptoms in an immunocompromised patient at risk for opportunistic infections, it is important to conduct a comprehensive physical exam. Pay attention to evidence of secondary infection and to neurologic signs. Fever may suggest an opportunistic infection that could contribute to psychiatric symptoms. Immunocompromise in HIV may be associated with a variety of infectious meningitis forms, such as:
- cryptococcus
- aseptic meningitis (which may be caused by HIV)
- histoplasmosis
- coccidioidomycosis.
CASE CONTINUED
Physical exam reveals that Mr. G has a low-grade fever (100.2° F) and penile erosion consistent with herpes simplex infection. He has no meningeal signs and an otherwise normal neurologic examination.
STEP 2 Evaluate lab results
Use laboratory testing to search for potential medical causes of the patient’s presentation. Include a complete blood cell count, electrolytes, blood urea nitrogen and creatinine, and liver function tests to look for underlying metabolic problems.
CASE CONTINUED
Complete blood count, electrolytes, kidney function, and liver function tests are all within normal limits, and rapid plasma reagin (RPR) for syphilis is negative. Cerebrospinal fluid (CSF) analysis demonstrates normal opening pressures, protein, and glucose. India ink stain is negative for Cryptococcus neoformans, but 1 week later CSF cultures are positive for Cryptococcus. The patient has a CD4 count of 15 and a viral load of approximately 44,000.
The stepwise approach this article describes to evaluate and diagnose psychiatric symptoms in HIV-positive patients can be used in any patient to determine if psychiatric symptoms are the result of a primary psychiatric disorder or CNS impairment. This approach may be particularly helpful when evaluating patients with new-onset or unusual symptoms, as described in the following case.
Ms. K, 34, has a diagnosis of ophthalmic herpes and is hospitalized to control severe pain in her left eye. On the second day, she appears moderately anxious and somewhat restless. Although it is possible to recognize some words and connections between a few ideas, her speech is otherwise incomprehensible. The ophthalmologist requests a psychiatric consultation, concerned that the change in mental status represents emerging psychosis.
Because Ms. K is unable to provide information coherently, the psychiatrist carefully reviews her medical, social, and psychiatric histories and medications. Ms. K’s history includes tonsillectomy at age 2, arthroscopic knee surgery after a skiing accident in college, and the use of oral contraception.
STEP 1 During Ms. K’s mental status exam, she appears alert, attentive, and cooperative, although moderately anxious. Rather than tangentiality or loosening of associations, her speech is notable for pervasive word substitutions and paraphasic errors, such as saying “chair” when asked to identify the nightstand in her room.
Aside from her ocular lesion, Ms. K’s physical exam is normal.
STEP 2 Laboratory testing reveals normal electrolytes, renal functioning, liver function tests, thyroid functioning, and B12 and folate levels. Rapid plasma reagin for syphilis is negative.
STEP 3 The psychiatrist feels that her exam demonstrates aphasic features rather than psychotic thought process abnormalities and orders neuroimaging. Brain CT with contrast reveals that Ms. K has a ring-enhancing lesion in the left temporal-parietal area, consistent with toxoplasmosis or a glioblastoma. Biopsy confirms toxoplasmosis.
STEPS 4/5 Neuropsychological testing was not performed in this case. It would have revealed the aphasia. Putting all of the data together resulted in clarifying that the patient was not psychotic.
Because toxoplasmosis often develops in patients with severely compromised immune systems, the healthcare team advises Ms. K to undergo HIV testing. Her enzyme-linked immunoadsorbent assay is positive for HIV antibodies, and her HIV infection is confirmed with a Western blot test.
Treatment with pyrimethamine and sulfadiazine rapidly resolves her neurologic symptoms. When she is no longer aphasic, Ms. K gives a history of several sexual relationships in the last 4 years. She typically used condoms during sexual activity but recalled instances when the condom had ruptured during intercourse. She denies any other risk factors for contracting HIV. Ms. K fully recovers from toxoplasmosis with no signs of cognitive impairment. She is started on antiretroviral therapy and followed as an outpatient.
- HIV and syphilis share sexual risk factors
- having syphilis increases the likelihood of comorbid HIV infection 7- to 9-fold11
- syphilis may worsen the course of HIV infection12
- syphilis can mimic psychiatric symptoms.13,14
STEP 3 Order neuroimaging
Neuroimaging is an essential part of the workup of a patient for whom your clinical examination raises suspicion for CNS impairment. In patients with longstanding HIV infection, brain imaging may reveal cerebral atrophy, which may accompany the cognitive changes found in HIV-associated dementia. In addition, immunocompromised patients, particularly those with a CD4 count 15
CASE CONTINUED
Brain MRI shows moderate cerebral and cerebellar atrophy, which ID clinicians attribute to the long-term effects of HIV infection. No evidence of focal or mass lesions is seen.
By further investigating Mr. G’s medical records, you find a brain MRI performed when Mr. G initially presented with toxoplasmosis in 2001. This scan reveals a large ring-enhancing mass in the right frontal lobe. Although the patient had refused a brain biopsy, the radiologist determined the lesion was most consistent in appearance with intracranial toxoplasmosis.
STEP 4 Perform neuropsychological testing
When physical exam, mental status exam, or neuroimaging suggests a possible CNS cause for a patient’s psychiatric presentation, neuropsychological testing can help characterize which of the patient’s brain functions are compromised and determine their anatomic source. This testing allows for a more complete and precise assessment of brain function than can be achieved by a bedside cognitive exam. It typically includes the Trail Making Test Parts A and B and the Grooved Pegboard Test to evaluate executive and psychomotor functioning, as well as the Controlled Oral Word Association Test to evaluate cognitive speed.
CASE CONTINUED
A search of medical records reveals that Mr. G had recently undergone a brief neuropsychological assessment at the hospital’s outpatient HIV mental health clinic. The psychologist found evidence of frontal lobe dysfunction, including problems with shifting sets, verbal fluency, and naming the months of the year backwards. Mr. G’s performance demonstrated a subcortical dementia pattern that included prominent fine motor impairment.
STEP 5 Synthesize all data to make a diagnosis
Psychiatric illness in HIV-positive patients may involve factors at multiple biopsychosocial levels, including problems with social support, psychological stress, primary psychiatric illness, immunocompromise, and CNS disease. Consider data from all of these levels to arrive at a diagnosis.
CASE CONTINUED
After carefully considering Mr. G’s history, physical and mental status examinations, laboratory data, current and past neuroimaging, and neuropsychological testing, you and ID clinicians conclude that Mr. G’s neuropsychiatric presentation primarily represents the residual deficits from his large frontal lobe toxoplasmosis lesion diagnosed in 2001, with possible contribution from an underlying HIV-associated dementia. You feel that a depressive disorder can be ruled out with a high degree of certainty because the patient denied abnormalities of mood or hedonic tone, did not demonstrate deficits in neurovegetative functioning such as appetite, energy, and sleep, and did not show evidence of suicidality. You attribute the flat affect and amotivation that had prompted the psychiatric consult to his secondary neuropsychiatric deficits.
Table 3
Staging system for HIV-associated dementia
Stage | Degree of severity | Clinical characteristics |
---|---|---|
0 | Normal | Normal mental and motor function |
0.5 | Equivocal | Minimal or equivocal symptoms characteristic of cognitive or motor dysfunction, or mild signs (snout response or slowed extremity movements); no impairment of work or ADLs; gait and strength normal |
1 | Mild | Unequivocal evidence of functional, intellectual, or motor impairment (including symptoms, signs, or neuropsychological testing); can walk without assistance and perform all except more demanding aspects of work or ADLs |
2 | Moderate | Able to perform basic activities of self care but unable to work or maintain the more demanding ADLs; ambulatory but may require a single prop |
3 | Severe | Major intellectual incapacity (cannot follow news or personal events, cannot sustain complex conversation, considerable slowing of all outputs) or motor disability (unable to walk unassisted, requires walker or personal support, usually slowed and accompanied by clumsiness of arms) |
4 | End stage | A nearly vegetative state; intellectual and social comprehension and output are rudimentary; patient is nearly or absolutely mute and paraparetic or paraplegic, with urinary and fecal incontinence |
ADLs: activities of daily living | ||
Source: References 9,16 |
CASE CONTINUED
Because Mr. G had no evidence of a mood syndrome, you do not recommend antidepressants. You note that although a stimulant might improve the patient’s cognitive function and apathy, Mr. G’s history of heavy cocaine use is considered a contraindication.
Related Resources
- Aidsmap information on AIDS and HIV. www.aidsmap.com.
- America Psychiatric Association AIDS Resource Center. www.psych.org/AIDS.
- Abacavir • Ziagen
- Amprenavir • Agenerase
- Didanosine • Videx
- Efavirenz • Sustiva
- Enfuvirtide • Fuzeon
- Indinavir • Crixivan
- Lamivudine • Epivir
- Lopinavir/Ritonavir • Kaletra
- Nevirapine • Viramune
- Pyrimethamine • Daraprim
- Ritonavir • Norvir
- Saquinavir • Invirase
- Stavudine • Zerit
- Sulfadiazine • Microsulfon
- Zalcitabine • Hivid
- Zidovudine • Retrovir
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
1. Palella FJ, Jr, Delaney KM, Moorman AC, et al. Declining morbidity and mortality among patients with advanced human immunodeficiency virus infection. HIV Outpatient Study Investigators. N Engl J Med 1998;338(13):853-60.
2. Bing EG, Burnam MA, Longshore D, et al. Psychiatric disorders and drug use among human immunodeficiency virus-infected adults in the United States. Arch Gen Psychiatry 2001;58(8):721-8.
3. Krikorian R, Wrobel AJ, Meinecke C, et al. Cognitive deficits associated with human immunodeficiency virus encephalopathy. J Neuropsychiatry Clin Neurosci 1990;2(3):256-60.
4. Clifford DB. Human immunodeficiency virus-associated dementia. Arch Neurol 2000;57(3):321-4.
5. Collazos J. Opportunistic infections of the CNS in patients with AIDS: diagnosis and management. CNS Drugs 2003;17(12):869-87.
6. Mischel PS, Vinters HV. Coccidioidomycosis of the CNS: neuropathological and vasculopathic manifestations and clinical correlates. Clin Infect Dis 1995;20(2):400-5.
7. Offiah CE, Turnbull IW. The imaging appearances of intracranial CNS infections in adult HIV and AIDS patients. Clin Radiol 2006;61(5):393-401.
8. Black KE, Baden LR. Fungal infections of the CNS: treatment strategies for the immunocompromised patient. CNS Drugs 2007;21(4):293-318.
9. Cespedes MS, Aberg JA. Neuropsychiatric complications of antiretroviral therapy. Drug Saf 2006;29(10):865-74.
10. Turjanski N, Lloyd GG. Psychiatric side-effects of medications: recent developments. Adv Psychiatr Treat 2005;11(1):58-70.
11. Quinn TC, Cannon RO, Glasser D, et al. The association of syphilis with risk of human immunodeficiency virus infection in patients attending sexually transmitted disease clinics. Arch Intern Med 1990;150(6):1297-1302.
12. Zetola NM, Klausner JD. Syphilis and HIV infection: an update. Clin Infect Dis 2007;44(9):1222-8.
13. Sobhan T, Rowe HM, Ryan WG, Munoz C. Unusual case report: three cases of psychiatric manifestations of neurosyphilis. Psychiatr Serv 2004;55(7):830-2.
14. Timmermans M, Carr J. Neurosyphilis in the modern era. J Neurol Neurosurg Psychiatry 2004;75(12):1727-30.
15. Camacho DLA, Smith JK, Castillo M. Differentiation of toxoplasmosis and lymphoma in AIDS patients by using apparent diffusion coefficients. AJNR Am J Neuroradiol 2003;24(4):633-7.
16. Price RW, Brew BJ. The AIDS dementia complex. J Infect Dis 1988;158:1079-83.
1. Palella FJ, Jr, Delaney KM, Moorman AC, et al. Declining morbidity and mortality among patients with advanced human immunodeficiency virus infection. HIV Outpatient Study Investigators. N Engl J Med 1998;338(13):853-60.
2. Bing EG, Burnam MA, Longshore D, et al. Psychiatric disorders and drug use among human immunodeficiency virus-infected adults in the United States. Arch Gen Psychiatry 2001;58(8):721-8.
3. Krikorian R, Wrobel AJ, Meinecke C, et al. Cognitive deficits associated with human immunodeficiency virus encephalopathy. J Neuropsychiatry Clin Neurosci 1990;2(3):256-60.
4. Clifford DB. Human immunodeficiency virus-associated dementia. Arch Neurol 2000;57(3):321-4.
5. Collazos J. Opportunistic infections of the CNS in patients with AIDS: diagnosis and management. CNS Drugs 2003;17(12):869-87.
6. Mischel PS, Vinters HV. Coccidioidomycosis of the CNS: neuropathological and vasculopathic manifestations and clinical correlates. Clin Infect Dis 1995;20(2):400-5.
7. Offiah CE, Turnbull IW. The imaging appearances of intracranial CNS infections in adult HIV and AIDS patients. Clin Radiol 2006;61(5):393-401.
8. Black KE, Baden LR. Fungal infections of the CNS: treatment strategies for the immunocompromised patient. CNS Drugs 2007;21(4):293-318.
9. Cespedes MS, Aberg JA. Neuropsychiatric complications of antiretroviral therapy. Drug Saf 2006;29(10):865-74.
10. Turjanski N, Lloyd GG. Psychiatric side-effects of medications: recent developments. Adv Psychiatr Treat 2005;11(1):58-70.
11. Quinn TC, Cannon RO, Glasser D, et al. The association of syphilis with risk of human immunodeficiency virus infection in patients attending sexually transmitted disease clinics. Arch Intern Med 1990;150(6):1297-1302.
12. Zetola NM, Klausner JD. Syphilis and HIV infection: an update. Clin Infect Dis 2007;44(9):1222-8.
13. Sobhan T, Rowe HM, Ryan WG, Munoz C. Unusual case report: three cases of psychiatric manifestations of neurosyphilis. Psychiatr Serv 2004;55(7):830-2.
14. Timmermans M, Carr J. Neurosyphilis in the modern era. J Neurol Neurosurg Psychiatry 2004;75(12):1727-30.
15. Camacho DLA, Smith JK, Castillo M. Differentiation of toxoplasmosis and lymphoma in AIDS patients by using apparent diffusion coefficients. AJNR Am J Neuroradiol 2003;24(4):633-7.
16. Price RW, Brew BJ. The AIDS dementia complex. J Infect Dis 1988;158:1079-83.
Getting patients to talk about priapism
CHIEF COMPLAINT: Anxiety and disordered sleep
Mr. Q, a college sophomore, reported symptoms of insomnia, anxiety, and sadness to the university health service. When in bed, he said, he would ruminate about whether he had studied adequately and would ultimately qualify for a graduate program. He exhibited no pervasive sadness, loss of interest or motivation, suicidal ideation, or loss of self-esteem. His medical history revealed no serious illness.
The student health psychiatrist diagnosed Mr. Q as having generalized anxiety disorder. She prescribed trazodone, up to 100 mg/d as needed, for the insomnia. For the next 3 weeks, he took one 25 mg dose each night. After that time, Mr. Q reported that the trazodone alleviated the insomnia and that he felt more rested and could study more effectively. He had stopped taking the medication.
Mr. Q, however, did not tell the health service psychiatrist that he had also experienced an uncomfortable erection that lasted about 4 hours and was not precipitated or accompanied by sexual activity. He finally experienced detumescence after several cold showers. He did not inform her of the episode because he felt embarrassed to discuss “such a thing” with a female physician.
After his anxiety and insomnia resurfaced, Mr. Q was referred to one of the authors.
Why did Mr. Q. develop priapism? How would you counsel him at this point?
Dr. Freed’s and Dr. Muskin’s observations
Priapism refers to a prolonged and painful erection that results from sustained blood flow into the corpora cavernosa. In contrast to a normal erection, both the corpus spongiosum and glans penis remain flaccid. Medical complications and reactions to drugs are well-documented causes.
Table 1
Drugs reported to cause priapism
Antidepressants |
Trazodone and, in rare cases, phenelzine and sertraline; bupropion has been associated with clitoral priapism3 |
Antihypertensives that act via alpha blockade Labetalol, prazosin3-5 |
Metoclopramide when taken with thioridazine3,4 |
Sildenafil citrate6 (rare case reports) |
Substances of abuse |
Alcohol, marijuana, crack cocaine |
Typical and atypical antipsychotics |
Chlorpromazine, clozapine, fluphenazine, haloperidol, mesoridazine, molindone, levomepromazine, perphenazine, promazine, risperidone, thioridazine, thiothixene3-5 |
An erection in priapism may result from sexual stimulation/activity, although this is not typical. Sexually stimulated erections in priapism persist hours after the stimulation ceases.
High-flow priapism is rare, painless, and occurs when well-oxygenated blood stays in the corpora cavernosa. It may result from perineal trauma creating a fistula between an artery and the cavernosa. Because the blood is oxygenated, there is no tissue damage, intervention is not urgent, and the prognosis usually is good.
Low-flow priapism, the more prevalent type, is painful and occurs when venous blood remains in the corpora, resulting in hypoxia and ischemia. Approximately 50% of low-flow priapism cases can result in impotence.1
Because men often are embarrassed by priapism, they may not seek medical attention or mention a prior episode to their physicians. This neglect can be dangerous: Painful erections that persist for more than 4 hours can lead to impotence if left untreated.
The physician must surmount the patient’s reluctance to discuss the symptom. Inquiring about past priapism episodes as part of a complete patient history is essential. We suggest routinely asking patients taking priapism-causing psychotropics (Table 1) if they’ve had a recent erectile problem. Mentioning that a medication can cause uncomfortable and serious sexual side effects may prompt the patient to discuss such problems.
Above all, be direct. A straightforward inquiry about a sensitive medical condition usually draws an honest answer; the patient then realizes the subject is important and should not be embarrassed about it.
After the patient discloses a priapism episode, ask him:
- Was the erection related to sexual activity or desire?
- Were you using any other medications or illicit drugs when the erection occurred?
- Do you have a systemic blood disorder?
- Did you feel any pain during your erection? If so, how long did it persist?
Men who present during a priapism episode should immediately be sent to the ER for urologic treatment. Patients reporting a recent sustained erection should be referred to a urologist if they need to keep taking the priapism-causing drug. Urologic treatment is not necessary if the patient stops the medication and the priapism resolves.
Men who have had at least one past priapism episode and those taking alpha-adrenergic blockers should be instructed to visit the ER immediately if a painful, persistent erection develops. Patients also should be warned not to induce detumescence (such as by taking cold showers, drinking alcohol, or engaging in sexual activity) if the erection persists for more than 2 hours. Any delay in emergency care could lead to impotence.
HISTORY: A probable side effect
Because Mr. Q had no other past erectile problems, we strongly suspected his priapism was medication-induced. He reported he had neither been drinking nor taking illicit drugs or other medications when the erection occurred.
Mr. Q also was convinced that the trazodone had caused the sustained erection. He said, however, he was never informed that priapism was a potential side effect of that medication.
Would you resume trazodone, switch to another sleep-promoting or antianxiety medication, or consider other therapy?
Dr. Freed’s and Dr. Muskin’s observations
The prevalence of priapism is not known, although yearly estimates range from 1/1,000 to 1/10,000 patients who take trazodone.2
Trazodone, an alpha-adrenergic blocker, is most commonly implicated among psychotropics in causing priapism.2 Blockade of alpha-adrenergic receptors in the corpora cavernosa creates a parasympathetic imbalance favoring erection and prevents sympathetic-mediated detumescence. Histaminic, beta-adrenergic, and adrenergic/cholinergic components may also contribute to priapism.
Other medications associated with priapism include antipsychotics, antihypertensives, anticoagulants, some antidepressants, and antiimpotence medications injected into the penis.
Low-flow priapism can also be caused by systemic disorders (Table 2), including malignancies—particularly when a tumor has infiltrated the penis—and carcinoma of the bladder or prostate. Prostatitis has been implicated in some cases.
Table 2
Systemic illnesses and conditions that can cause priapism
|
Because Mr. Q has had at least one priapism episode, we would avoid prescribing any agent with alpha-adrenergic blocking properties.
Could Mr. Q’s response to trazodone have been dose-related? How would you ensure that the patient understands a medication’s risks?
Dr. Freed’s and Dr. Muskin’s observations
No findings indicate that trazodone-related priapism is dose-related. Several cases of men developing sustained priapism—resulting in permanent injury and impotence—have been reported after initial dosages of 25 and 50 mg/d.1,4,7 In a study using the FDA Spontaneous Reporting System, Warner et al found that priapism with trazodone was most likely to occur within the first month of treatment and at dosages 150 mg/d.7 Still other reports indicate that new-onset priapism may occur after years of treatment.3
Priapism refers to a painful, prolonged erection that occurs in the absence of sexual stimulation or does not remit after sexual activity.
Several psychotropic drugs, most often trazodone (Desyrel), can cause priapism. This can occur even if the medication is taken at a low dosage or taken only once.
Individuals who have had prior prolonged erections are more susceptible to priapism. Certain medical conditions, many medications, and substance abuse can also increase the risk of priapism. This effect may be additive.
If the erection lasts more than 2 hours, the patient must obtain emergency care. Impotence has been reported after erections lasting 4 hours or longer.
Mr. Z filed suit in Pennsylvania state court against his pharmacy and emergency room doctor. He alleged that he developed priapism after taking one dose of trazodone for disordered sleep. He subsequently became impotent.
Christopher T. Rhodes, PhD, a professor of pharmaceutics at the University of Rhode Island, was an expert witness in that 2000 trial. According to Dr. Rhodes, court testimony revealed that the ER physician had not informed the patient about the possibility of priapism or about the need to obtain emergency treatment for a sustained erection. Dr. Rhodes adds that the pharmacy handout for trazodone did not list priapism as a possible adverse effect.
The court ruled in favor of the patient, judging that the “quality of advice” was inadequate. The patient was awarded an unspecified sum.
Despite its association with priapism, trazodone is used frequently in men and is a popular medication for disordered sleep. Nierenberg et al demonstrated improved sleep in 67% of depressed patients with insomnia who received trazodone either for depression or disordered sleep.8
When prescribing a priapism-causing agent, make sure the patient understands that erectile effects—though rare—can occur. Consider giving patients an informed consent form explaining the association between psychotropics and priapism and the potential long-term health implications (Box 1). Include the form in the patient’s record for documentation in the event of a malpractice lawsuit (Box 2).
FURTHER TREATMENT: Learning how to cope
Self-hypnosis/relaxation therapy was initiated to address Mr. Q’s anxiety and insomnia. The patient quickly learned the hypnosis techniques and his anxiety/insomnia symptoms began to resolve almost immediately.
Mr. Q’s priapism resolved spontaneously with no apparent erectile dysfunction. He was referred back to the university health service and has been in apparent good health since.
Related resources
- Sleepnet.com. Information on sleep disorders and sleep hygiene. http://www.sleepnet.com/
- National Center on Sleep Disorders Research http://www.nhlbi.nih.gov/about/ncsdr/
Drug brand names
- Bupropion • Wellbutrin
- Chlorpromazine • Thorazine
- Clozapine • Clozaril
- Fluphenazine • Prolixin
- Haloperidol • Haldol
- Labetalol • Trandate
- Levomepromazine • Nozinan
- Mesoridazine • Serentil
- Metoclopramide • Reglan
- Molindone • Lidone
- Perphenazine • Trilafon
- Phenelzine • Nardil
- Prazosin • Minipress
- Promazine • Sparine
- Risperidone • Risperdal
- Sertraline • Zoloft
- Sildenafil citrate • Viagra
- Thioridazine • Mellaril
- Thiothixene • Navane
- Trazodone • Desyrel
Disclosure
Dr. Freed reports no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
Dr. Muskin receives research/grant support from Bristol-Myers Squibb Co., is a speaker for and consultant to Bristol-Myers Squibb Co., Forest Laboratories, GlaxoSmithKline, Janssen Pharmaceutica, and Pfizer Inc.; and is a speaker for Cephalon Inc. and Eli Lilly and Co.
1. Weiner DM, Lowe FC. Psychotropic drug-induced priapism. CNS Drugs 1998;9:371-9.
2. Rhodes CT. Trazodone and priapism—implications for responses to adverse events. Clin Res Regulatory Affairs 2001;18:47-52.
3. Compton MT, Miller AH. Priapism associated with conventional and atypical antipsychotic medications: a review. J Clin Psychiatry 2001;62:362-6.
4. Thompson JW, Ware MR, Blashfield RK. Psychotropic medication and priapism: a comprehensive review. J Clin Psychiatry 1990;51:430-3.
5. Reeves RR, Kimble R. Prolonged erections associated with ziprasidone treatment: a case report. J Clin Psychiatry 2003;64:97-8.
6. Sur RL, Kane CJ. Sildenafil citrate-associated priapism. Urology 2000;55:950.-
7. Warner MD, Peabody CA, Whiteford HA, Hollister LE. Trazodone and priapism. J Clin Psychiatry 1987;48:244-5.
8. Nierenberg AA, Adler LA, Peselow E, et al. Trazodone for antidepressant-associated insomnia. Am J Psychiatry 1994;151:1069-72.
CHIEF COMPLAINT: Anxiety and disordered sleep
Mr. Q, a college sophomore, reported symptoms of insomnia, anxiety, and sadness to the university health service. When in bed, he said, he would ruminate about whether he had studied adequately and would ultimately qualify for a graduate program. He exhibited no pervasive sadness, loss of interest or motivation, suicidal ideation, or loss of self-esteem. His medical history revealed no serious illness.
The student health psychiatrist diagnosed Mr. Q as having generalized anxiety disorder. She prescribed trazodone, up to 100 mg/d as needed, for the insomnia. For the next 3 weeks, he took one 25 mg dose each night. After that time, Mr. Q reported that the trazodone alleviated the insomnia and that he felt more rested and could study more effectively. He had stopped taking the medication.
Mr. Q, however, did not tell the health service psychiatrist that he had also experienced an uncomfortable erection that lasted about 4 hours and was not precipitated or accompanied by sexual activity. He finally experienced detumescence after several cold showers. He did not inform her of the episode because he felt embarrassed to discuss “such a thing” with a female physician.
After his anxiety and insomnia resurfaced, Mr. Q was referred to one of the authors.
Why did Mr. Q. develop priapism? How would you counsel him at this point?
Dr. Freed’s and Dr. Muskin’s observations
Priapism refers to a prolonged and painful erection that results from sustained blood flow into the corpora cavernosa. In contrast to a normal erection, both the corpus spongiosum and glans penis remain flaccid. Medical complications and reactions to drugs are well-documented causes.
Table 1
Drugs reported to cause priapism
Antidepressants |
Trazodone and, in rare cases, phenelzine and sertraline; bupropion has been associated with clitoral priapism3 |
Antihypertensives that act via alpha blockade Labetalol, prazosin3-5 |
Metoclopramide when taken with thioridazine3,4 |
Sildenafil citrate6 (rare case reports) |
Substances of abuse |
Alcohol, marijuana, crack cocaine |
Typical and atypical antipsychotics |
Chlorpromazine, clozapine, fluphenazine, haloperidol, mesoridazine, molindone, levomepromazine, perphenazine, promazine, risperidone, thioridazine, thiothixene3-5 |
An erection in priapism may result from sexual stimulation/activity, although this is not typical. Sexually stimulated erections in priapism persist hours after the stimulation ceases.
High-flow priapism is rare, painless, and occurs when well-oxygenated blood stays in the corpora cavernosa. It may result from perineal trauma creating a fistula between an artery and the cavernosa. Because the blood is oxygenated, there is no tissue damage, intervention is not urgent, and the prognosis usually is good.
Low-flow priapism, the more prevalent type, is painful and occurs when venous blood remains in the corpora, resulting in hypoxia and ischemia. Approximately 50% of low-flow priapism cases can result in impotence.1
Because men often are embarrassed by priapism, they may not seek medical attention or mention a prior episode to their physicians. This neglect can be dangerous: Painful erections that persist for more than 4 hours can lead to impotence if left untreated.
The physician must surmount the patient’s reluctance to discuss the symptom. Inquiring about past priapism episodes as part of a complete patient history is essential. We suggest routinely asking patients taking priapism-causing psychotropics (Table 1) if they’ve had a recent erectile problem. Mentioning that a medication can cause uncomfortable and serious sexual side effects may prompt the patient to discuss such problems.
Above all, be direct. A straightforward inquiry about a sensitive medical condition usually draws an honest answer; the patient then realizes the subject is important and should not be embarrassed about it.
After the patient discloses a priapism episode, ask him:
- Was the erection related to sexual activity or desire?
- Were you using any other medications or illicit drugs when the erection occurred?
- Do you have a systemic blood disorder?
- Did you feel any pain during your erection? If so, how long did it persist?
Men who present during a priapism episode should immediately be sent to the ER for urologic treatment. Patients reporting a recent sustained erection should be referred to a urologist if they need to keep taking the priapism-causing drug. Urologic treatment is not necessary if the patient stops the medication and the priapism resolves.
Men who have had at least one past priapism episode and those taking alpha-adrenergic blockers should be instructed to visit the ER immediately if a painful, persistent erection develops. Patients also should be warned not to induce detumescence (such as by taking cold showers, drinking alcohol, or engaging in sexual activity) if the erection persists for more than 2 hours. Any delay in emergency care could lead to impotence.
HISTORY: A probable side effect
Because Mr. Q had no other past erectile problems, we strongly suspected his priapism was medication-induced. He reported he had neither been drinking nor taking illicit drugs or other medications when the erection occurred.
Mr. Q also was convinced that the trazodone had caused the sustained erection. He said, however, he was never informed that priapism was a potential side effect of that medication.
Would you resume trazodone, switch to another sleep-promoting or antianxiety medication, or consider other therapy?
Dr. Freed’s and Dr. Muskin’s observations
The prevalence of priapism is not known, although yearly estimates range from 1/1,000 to 1/10,000 patients who take trazodone.2
Trazodone, an alpha-adrenergic blocker, is most commonly implicated among psychotropics in causing priapism.2 Blockade of alpha-adrenergic receptors in the corpora cavernosa creates a parasympathetic imbalance favoring erection and prevents sympathetic-mediated detumescence. Histaminic, beta-adrenergic, and adrenergic/cholinergic components may also contribute to priapism.
Other medications associated with priapism include antipsychotics, antihypertensives, anticoagulants, some antidepressants, and antiimpotence medications injected into the penis.
Low-flow priapism can also be caused by systemic disorders (Table 2), including malignancies—particularly when a tumor has infiltrated the penis—and carcinoma of the bladder or prostate. Prostatitis has been implicated in some cases.
Table 2
Systemic illnesses and conditions that can cause priapism
|
Because Mr. Q has had at least one priapism episode, we would avoid prescribing any agent with alpha-adrenergic blocking properties.
Could Mr. Q’s response to trazodone have been dose-related? How would you ensure that the patient understands a medication’s risks?
Dr. Freed’s and Dr. Muskin’s observations
No findings indicate that trazodone-related priapism is dose-related. Several cases of men developing sustained priapism—resulting in permanent injury and impotence—have been reported after initial dosages of 25 and 50 mg/d.1,4,7 In a study using the FDA Spontaneous Reporting System, Warner et al found that priapism with trazodone was most likely to occur within the first month of treatment and at dosages 150 mg/d.7 Still other reports indicate that new-onset priapism may occur after years of treatment.3
Priapism refers to a painful, prolonged erection that occurs in the absence of sexual stimulation or does not remit after sexual activity.
Several psychotropic drugs, most often trazodone (Desyrel), can cause priapism. This can occur even if the medication is taken at a low dosage or taken only once.
Individuals who have had prior prolonged erections are more susceptible to priapism. Certain medical conditions, many medications, and substance abuse can also increase the risk of priapism. This effect may be additive.
If the erection lasts more than 2 hours, the patient must obtain emergency care. Impotence has been reported after erections lasting 4 hours or longer.
Mr. Z filed suit in Pennsylvania state court against his pharmacy and emergency room doctor. He alleged that he developed priapism after taking one dose of trazodone for disordered sleep. He subsequently became impotent.
Christopher T. Rhodes, PhD, a professor of pharmaceutics at the University of Rhode Island, was an expert witness in that 2000 trial. According to Dr. Rhodes, court testimony revealed that the ER physician had not informed the patient about the possibility of priapism or about the need to obtain emergency treatment for a sustained erection. Dr. Rhodes adds that the pharmacy handout for trazodone did not list priapism as a possible adverse effect.
The court ruled in favor of the patient, judging that the “quality of advice” was inadequate. The patient was awarded an unspecified sum.
Despite its association with priapism, trazodone is used frequently in men and is a popular medication for disordered sleep. Nierenberg et al demonstrated improved sleep in 67% of depressed patients with insomnia who received trazodone either for depression or disordered sleep.8
When prescribing a priapism-causing agent, make sure the patient understands that erectile effects—though rare—can occur. Consider giving patients an informed consent form explaining the association between psychotropics and priapism and the potential long-term health implications (Box 1). Include the form in the patient’s record for documentation in the event of a malpractice lawsuit (Box 2).
FURTHER TREATMENT: Learning how to cope
Self-hypnosis/relaxation therapy was initiated to address Mr. Q’s anxiety and insomnia. The patient quickly learned the hypnosis techniques and his anxiety/insomnia symptoms began to resolve almost immediately.
Mr. Q’s priapism resolved spontaneously with no apparent erectile dysfunction. He was referred back to the university health service and has been in apparent good health since.
Related resources
- Sleepnet.com. Information on sleep disorders and sleep hygiene. http://www.sleepnet.com/
- National Center on Sleep Disorders Research http://www.nhlbi.nih.gov/about/ncsdr/
Drug brand names
- Bupropion • Wellbutrin
- Chlorpromazine • Thorazine
- Clozapine • Clozaril
- Fluphenazine • Prolixin
- Haloperidol • Haldol
- Labetalol • Trandate
- Levomepromazine • Nozinan
- Mesoridazine • Serentil
- Metoclopramide • Reglan
- Molindone • Lidone
- Perphenazine • Trilafon
- Phenelzine • Nardil
- Prazosin • Minipress
- Promazine • Sparine
- Risperidone • Risperdal
- Sertraline • Zoloft
- Sildenafil citrate • Viagra
- Thioridazine • Mellaril
- Thiothixene • Navane
- Trazodone • Desyrel
Disclosure
Dr. Freed reports no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
Dr. Muskin receives research/grant support from Bristol-Myers Squibb Co., is a speaker for and consultant to Bristol-Myers Squibb Co., Forest Laboratories, GlaxoSmithKline, Janssen Pharmaceutica, and Pfizer Inc.; and is a speaker for Cephalon Inc. and Eli Lilly and Co.
CHIEF COMPLAINT: Anxiety and disordered sleep
Mr. Q, a college sophomore, reported symptoms of insomnia, anxiety, and sadness to the university health service. When in bed, he said, he would ruminate about whether he had studied adequately and would ultimately qualify for a graduate program. He exhibited no pervasive sadness, loss of interest or motivation, suicidal ideation, or loss of self-esteem. His medical history revealed no serious illness.
The student health psychiatrist diagnosed Mr. Q as having generalized anxiety disorder. She prescribed trazodone, up to 100 mg/d as needed, for the insomnia. For the next 3 weeks, he took one 25 mg dose each night. After that time, Mr. Q reported that the trazodone alleviated the insomnia and that he felt more rested and could study more effectively. He had stopped taking the medication.
Mr. Q, however, did not tell the health service psychiatrist that he had also experienced an uncomfortable erection that lasted about 4 hours and was not precipitated or accompanied by sexual activity. He finally experienced detumescence after several cold showers. He did not inform her of the episode because he felt embarrassed to discuss “such a thing” with a female physician.
After his anxiety and insomnia resurfaced, Mr. Q was referred to one of the authors.
Why did Mr. Q. develop priapism? How would you counsel him at this point?
Dr. Freed’s and Dr. Muskin’s observations
Priapism refers to a prolonged and painful erection that results from sustained blood flow into the corpora cavernosa. In contrast to a normal erection, both the corpus spongiosum and glans penis remain flaccid. Medical complications and reactions to drugs are well-documented causes.
Table 1
Drugs reported to cause priapism
Antidepressants |
Trazodone and, in rare cases, phenelzine and sertraline; bupropion has been associated with clitoral priapism3 |
Antihypertensives that act via alpha blockade Labetalol, prazosin3-5 |
Metoclopramide when taken with thioridazine3,4 |
Sildenafil citrate6 (rare case reports) |
Substances of abuse |
Alcohol, marijuana, crack cocaine |
Typical and atypical antipsychotics |
Chlorpromazine, clozapine, fluphenazine, haloperidol, mesoridazine, molindone, levomepromazine, perphenazine, promazine, risperidone, thioridazine, thiothixene3-5 |
An erection in priapism may result from sexual stimulation/activity, although this is not typical. Sexually stimulated erections in priapism persist hours after the stimulation ceases.
High-flow priapism is rare, painless, and occurs when well-oxygenated blood stays in the corpora cavernosa. It may result from perineal trauma creating a fistula between an artery and the cavernosa. Because the blood is oxygenated, there is no tissue damage, intervention is not urgent, and the prognosis usually is good.
Low-flow priapism, the more prevalent type, is painful and occurs when venous blood remains in the corpora, resulting in hypoxia and ischemia. Approximately 50% of low-flow priapism cases can result in impotence.1
Because men often are embarrassed by priapism, they may not seek medical attention or mention a prior episode to their physicians. This neglect can be dangerous: Painful erections that persist for more than 4 hours can lead to impotence if left untreated.
The physician must surmount the patient’s reluctance to discuss the symptom. Inquiring about past priapism episodes as part of a complete patient history is essential. We suggest routinely asking patients taking priapism-causing psychotropics (Table 1) if they’ve had a recent erectile problem. Mentioning that a medication can cause uncomfortable and serious sexual side effects may prompt the patient to discuss such problems.
Above all, be direct. A straightforward inquiry about a sensitive medical condition usually draws an honest answer; the patient then realizes the subject is important and should not be embarrassed about it.
After the patient discloses a priapism episode, ask him:
- Was the erection related to sexual activity or desire?
- Were you using any other medications or illicit drugs when the erection occurred?
- Do you have a systemic blood disorder?
- Did you feel any pain during your erection? If so, how long did it persist?
Men who present during a priapism episode should immediately be sent to the ER for urologic treatment. Patients reporting a recent sustained erection should be referred to a urologist if they need to keep taking the priapism-causing drug. Urologic treatment is not necessary if the patient stops the medication and the priapism resolves.
Men who have had at least one past priapism episode and those taking alpha-adrenergic blockers should be instructed to visit the ER immediately if a painful, persistent erection develops. Patients also should be warned not to induce detumescence (such as by taking cold showers, drinking alcohol, or engaging in sexual activity) if the erection persists for more than 2 hours. Any delay in emergency care could lead to impotence.
HISTORY: A probable side effect
Because Mr. Q had no other past erectile problems, we strongly suspected his priapism was medication-induced. He reported he had neither been drinking nor taking illicit drugs or other medications when the erection occurred.
Mr. Q also was convinced that the trazodone had caused the sustained erection. He said, however, he was never informed that priapism was a potential side effect of that medication.
Would you resume trazodone, switch to another sleep-promoting or antianxiety medication, or consider other therapy?
Dr. Freed’s and Dr. Muskin’s observations
The prevalence of priapism is not known, although yearly estimates range from 1/1,000 to 1/10,000 patients who take trazodone.2
Trazodone, an alpha-adrenergic blocker, is most commonly implicated among psychotropics in causing priapism.2 Blockade of alpha-adrenergic receptors in the corpora cavernosa creates a parasympathetic imbalance favoring erection and prevents sympathetic-mediated detumescence. Histaminic, beta-adrenergic, and adrenergic/cholinergic components may also contribute to priapism.
Other medications associated with priapism include antipsychotics, antihypertensives, anticoagulants, some antidepressants, and antiimpotence medications injected into the penis.
Low-flow priapism can also be caused by systemic disorders (Table 2), including malignancies—particularly when a tumor has infiltrated the penis—and carcinoma of the bladder or prostate. Prostatitis has been implicated in some cases.
Table 2
Systemic illnesses and conditions that can cause priapism
|
Because Mr. Q has had at least one priapism episode, we would avoid prescribing any agent with alpha-adrenergic blocking properties.
Could Mr. Q’s response to trazodone have been dose-related? How would you ensure that the patient understands a medication’s risks?
Dr. Freed’s and Dr. Muskin’s observations
No findings indicate that trazodone-related priapism is dose-related. Several cases of men developing sustained priapism—resulting in permanent injury and impotence—have been reported after initial dosages of 25 and 50 mg/d.1,4,7 In a study using the FDA Spontaneous Reporting System, Warner et al found that priapism with trazodone was most likely to occur within the first month of treatment and at dosages 150 mg/d.7 Still other reports indicate that new-onset priapism may occur after years of treatment.3
Priapism refers to a painful, prolonged erection that occurs in the absence of sexual stimulation or does not remit after sexual activity.
Several psychotropic drugs, most often trazodone (Desyrel), can cause priapism. This can occur even if the medication is taken at a low dosage or taken only once.
Individuals who have had prior prolonged erections are more susceptible to priapism. Certain medical conditions, many medications, and substance abuse can also increase the risk of priapism. This effect may be additive.
If the erection lasts more than 2 hours, the patient must obtain emergency care. Impotence has been reported after erections lasting 4 hours or longer.
Mr. Z filed suit in Pennsylvania state court against his pharmacy and emergency room doctor. He alleged that he developed priapism after taking one dose of trazodone for disordered sleep. He subsequently became impotent.
Christopher T. Rhodes, PhD, a professor of pharmaceutics at the University of Rhode Island, was an expert witness in that 2000 trial. According to Dr. Rhodes, court testimony revealed that the ER physician had not informed the patient about the possibility of priapism or about the need to obtain emergency treatment for a sustained erection. Dr. Rhodes adds that the pharmacy handout for trazodone did not list priapism as a possible adverse effect.
The court ruled in favor of the patient, judging that the “quality of advice” was inadequate. The patient was awarded an unspecified sum.
Despite its association with priapism, trazodone is used frequently in men and is a popular medication for disordered sleep. Nierenberg et al demonstrated improved sleep in 67% of depressed patients with insomnia who received trazodone either for depression or disordered sleep.8
When prescribing a priapism-causing agent, make sure the patient understands that erectile effects—though rare—can occur. Consider giving patients an informed consent form explaining the association between psychotropics and priapism and the potential long-term health implications (Box 1). Include the form in the patient’s record for documentation in the event of a malpractice lawsuit (Box 2).
FURTHER TREATMENT: Learning how to cope
Self-hypnosis/relaxation therapy was initiated to address Mr. Q’s anxiety and insomnia. The patient quickly learned the hypnosis techniques and his anxiety/insomnia symptoms began to resolve almost immediately.
Mr. Q’s priapism resolved spontaneously with no apparent erectile dysfunction. He was referred back to the university health service and has been in apparent good health since.
Related resources
- Sleepnet.com. Information on sleep disorders and sleep hygiene. http://www.sleepnet.com/
- National Center on Sleep Disorders Research http://www.nhlbi.nih.gov/about/ncsdr/
Drug brand names
- Bupropion • Wellbutrin
- Chlorpromazine • Thorazine
- Clozapine • Clozaril
- Fluphenazine • Prolixin
- Haloperidol • Haldol
- Labetalol • Trandate
- Levomepromazine • Nozinan
- Mesoridazine • Serentil
- Metoclopramide • Reglan
- Molindone • Lidone
- Perphenazine • Trilafon
- Phenelzine • Nardil
- Prazosin • Minipress
- Promazine • Sparine
- Risperidone • Risperdal
- Sertraline • Zoloft
- Sildenafil citrate • Viagra
- Thioridazine • Mellaril
- Thiothixene • Navane
- Trazodone • Desyrel
Disclosure
Dr. Freed reports no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
Dr. Muskin receives research/grant support from Bristol-Myers Squibb Co., is a speaker for and consultant to Bristol-Myers Squibb Co., Forest Laboratories, GlaxoSmithKline, Janssen Pharmaceutica, and Pfizer Inc.; and is a speaker for Cephalon Inc. and Eli Lilly and Co.
1. Weiner DM, Lowe FC. Psychotropic drug-induced priapism. CNS Drugs 1998;9:371-9.
2. Rhodes CT. Trazodone and priapism—implications for responses to adverse events. Clin Res Regulatory Affairs 2001;18:47-52.
3. Compton MT, Miller AH. Priapism associated with conventional and atypical antipsychotic medications: a review. J Clin Psychiatry 2001;62:362-6.
4. Thompson JW, Ware MR, Blashfield RK. Psychotropic medication and priapism: a comprehensive review. J Clin Psychiatry 1990;51:430-3.
5. Reeves RR, Kimble R. Prolonged erections associated with ziprasidone treatment: a case report. J Clin Psychiatry 2003;64:97-8.
6. Sur RL, Kane CJ. Sildenafil citrate-associated priapism. Urology 2000;55:950.-
7. Warner MD, Peabody CA, Whiteford HA, Hollister LE. Trazodone and priapism. J Clin Psychiatry 1987;48:244-5.
8. Nierenberg AA, Adler LA, Peselow E, et al. Trazodone for antidepressant-associated insomnia. Am J Psychiatry 1994;151:1069-72.
1. Weiner DM, Lowe FC. Psychotropic drug-induced priapism. CNS Drugs 1998;9:371-9.
2. Rhodes CT. Trazodone and priapism—implications for responses to adverse events. Clin Res Regulatory Affairs 2001;18:47-52.
3. Compton MT, Miller AH. Priapism associated with conventional and atypical antipsychotic medications: a review. J Clin Psychiatry 2001;62:362-6.
4. Thompson JW, Ware MR, Blashfield RK. Psychotropic medication and priapism: a comprehensive review. J Clin Psychiatry 1990;51:430-3.
5. Reeves RR, Kimble R. Prolonged erections associated with ziprasidone treatment: a case report. J Clin Psychiatry 2003;64:97-8.
6. Sur RL, Kane CJ. Sildenafil citrate-associated priapism. Urology 2000;55:950.-
7. Warner MD, Peabody CA, Whiteford HA, Hollister LE. Trazodone and priapism. J Clin Psychiatry 1987;48:244-5.
8. Nierenberg AA, Adler LA, Peselow E, et al. Trazodone for antidepressant-associated insomnia. Am J Psychiatry 1994;151:1069-72.