Steroid dementia syndrome
Steroid dementia syndrome | |
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Specialty | Neurology/psychiatry |
Steroid dementia syndrome describes the signs and symptoms of hippocampal and prefrontal cortical dysfunction, such as deficits in memory, attention, and executive function, induced by glucocorticoids.[1] Dementia-like symptoms have been found in some individuals who have been exposed to glucocorticoid medication, often dispensed in the form of asthma, arthritis, and anti-inflammatory steroid medications. The condition reverses, but not always completely, within months after steroid treatment is stopped.[2]
The term "steroid dementia" was coined by Varney et al. (1984) in reference to the effects of long-term glucocorticoid use in 1,500 patients.[3] While the condition generally falls under the classification of Cushing's syndrome, the term "steroid dementia syndrome" is particularly useful because it recognizes both the cause of the syndrome and the specific effects of glucocorticoids on cognitive function. Further, the more precise terminology clearly distinguishes the condition from full-blown Cushing's syndrome, which is extremely broad regarding the causes (endogenous or exogenous, pituitary or adrenal) and the multitude of symptoms (ranging from skin disorders to osteoporosis), and from hypercortisolemia, which identifies neither the source nor the symptoms of excess circulatory cortisol.
Signs and symptoms
[edit]Cognitive symptoms from steroids appear within the first few weeks of treatment, appear to be dose dependent, and may or may not be accompanied by steroid psychosis or other Cushing's-type symptoms.[4]
The symptoms include deficits in
- verbal and non-verbal memory
- working memory
- attention
- sustained concentration
- executive function
- psychomotor speed
- academic or occupational performance.
These symptoms have been shown to improve within months to a year after discontinuing glucocorticoid medication, but residual impairments following prolonged steroid use can remain.[3]
Pathophysiology
[edit]Regions of the brain with a high density of glucocorticoid receptors (GRs) including the hippocampus, hypothalamus, and prefrontal cortex are particularly sensitive to elevated circulating levels of glucocorticoids even in the absence of stress. Scientific studies have mainly focused on the impact of glucocorticoids on the hippocampus because of its role in memory processes and on the prefrontal cortex for its role in attention and executive function.[citation needed]
Elevated glucocorticoid activity is associated with down-regulation of GRs (known as "glucocorticoid cascade hypothesis"[5]), which diminishes neuroreparative activity and attenuates neurogenesis that can result in decreased hippocampal volume with prolonged glucocorticoid exposure.[6]
Variations in individual sensitivity to glucocorticoid medications may be due to either GR hypofunction or hyperfunction.[7] Similarly, variations in individual hypothalamic-pituitary-adrenal (HPA) axis responsiveness can modulate the type and number of side effects.
Diagnosis
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Treatment
[edit]Aside from discontinuation of glucocorticoid medication, potential treatments discussed in the research literature include:[citation needed]
- anti-glucocorticoids
- psychoactive drugs that up-regulate the GRII glucocorticoid receptor:[8]
- tricyclic antidepressants: desipramine,[9][10] imipramine,[9] and amitriptyline[10] (SSRIs do not[10][11])
- serotonin antagonists: ketanserin[9]
- mood stabilizers: lithium[9]
- corticotropin-releasing hormone (CRH) antagonists
- glutamate antagonists
- dehydroepiandrosterone (DHEA)
- small molecule brain-derived neurotrophic factor (BDNF) analogs
- stress reduction therapies and exercise.
History
[edit]Glucocorticoid medications have been known to be associated with significant side effects involving behavior and mood, regardless of previous psychiatric or cognitive condition, since the early 1950s.[12] But cognitive side effects of steroid medications involving memory and attention are not as widely publicized and may be misdiagnosed as separate conditions, such as attention deficit disorder (ADHD or ADD) in children or early Alzheimer's disease in elderly patients.
Case Studies
[edit]Wolkowitz et al. (2001) presented a 10-year-old male patient, with no prior psychiatric history, who showed significant declines in academic performance that began during a 5-week course of glucocorticoid treatment for acute asthma flare.[1] The medications included prednisone, and methylprednisolone, plus albuterol, beclomethasone, dexamethasone, cromolyn, salmeterol and clarithromycin. Within days of beginning the glucocorticoid treatment, however, the patient began to show symptoms that included major depression, irritability, muscle weakness, and hallucinations ("stars" or "spots"). The patient had a fraternal twin brother, and the two previously performed in parallel academically, but following the steroid treatment the patient exhibited poor memory, attention, concentration, insomnia, and avoidance of eye contact. As a result, he began to fall behind his twin brother in academic, developmental, and social areas. The treatment with steroids was stopped and three years later (while still taking buspirone, albuterol, fluticasone and salmeterol inhalers, loratadine and theophylline) the boy showed gradual improvement, but MRI brain scans revealed that the patient's hippocampal volume was 19.5% smaller than that of his twin. His teachers reported continued deficits in memory function, new learning efficiency, verbal reasoning skills, organizational skills, attention, and concentration, deficits which were confirmed by neuropsychological testing; as such, stopping the treatment with steroids brought on a substantial but incomplete relief, the damage being possibly permanent.[1]
Sacks et al. (2005) reported the case of a 72-year-old man, described as professionally successful, intelligent, and cultivated, with polymyalgia rheumatica, who after being treated with prednisone developed a psychosis and dementia, which several behavioral neurology and neuropsychiatry consultants initially diagnosed as early dementia or Alzheimer's disease.[13] Large dosage variations in the patient's medication (including a self-increased dosage from 10 mg/day to as much as 100 mg/day for at least 3 months) produced extreme behavioral changes, from missed appointments to physical altercations, and eventually admission to a psychiatric ward and later to a locked Alzheimer facility. During this time, neuropsychological testing showed a decline in the patient's previously superior IQ as well as deficits in memory, language, fluency, and visuospatial function, which given the patient's age was considered to be compatible with early dementia. When the steroid treatment ended after a year, the patent's confusion and disorganized appearance stopped immediately. Within several weeks, testing showed strong improvement in almost all cognitive functions. His doctors were surprised at the improvement, since the results were inconsistent with a diagnosis of dementia or Alzheimer's. Testing after 14 months showed a large jump in Full Scale IQ from 87 to 124, but mild dysfunction in executive function, memory, attentional control, and verbal/nonverbal memory remained.[13]
References
[edit]- ^ a b c Wolkowitz, Owen M.; Lupien, Sonia J.; Bigler, Erin D. (2007). "The 'Steroid Dementia Syndrome': A Possible Model of Human Glucocorticoid Neurotoxicity". Neurocase. 13 (3): 189–200. doi:10.1080/13554790701475468. PMID 17786779. S2CID 39340010.
- ^ Ancelin, Marie-Laure; Carrière, Isabelle; Helmer, Catherine; Rouaud, Olivier; Pasquier, Florence; Berr, Claudine; Chaudieu, Isabelle; Ritchie, Karen (2012). "Steroid and nonsteroidal anti-inflammatory drugs, cognitive decline, and dementia". Neurobiology of Aging. 33 (9): 2082–90. doi:10.1016/j.neurobiolaging.2011.09.038. PMID 22071123. S2CID 11008868.
- ^ a b Varney, NR; Alexander, B; MacIndoe, JH (1984). "Reversible steroid dementia in patients without steroid psychosis". The American Journal of Psychiatry. 141 (3): 369–72. doi:10.1176/ajp.141.3.369. PMID 6703100.
- ^ Brown, E. Sherwood; Suppes, Trisha (1998). "Mood Symptoms during Corticosteroid Therapy: A Review". Harvard Review of Psychiatry. 5 (5): 239–46. doi:10.3109/10673229809000307. PMID 9493946. S2CID 33237915.
- ^ Sapolsky, Robert M.; Krey, Lewis C.; McEwen, Bruce S. (1986). "The Neuroendocrinology of Stress and Aging: The Glucocorticoid Cascade Hypothesis". Endocrine Reviews. 7 (3): 284–301. doi:10.1210/edrv-7-3-284. PMID 3527687.
- ^ Wolkowitz, Owen M.; Lupien, Sonia J.; Bigler, Erin; Levin, R Bronson; Canick, Jonathan (1 December 2004). "The "Steroid Dementia Syndrome": An Unrecognized Complication of Glucocorticoid Treatment". Annals of the New York Academy of Sciences. 1032 (1): 191–194. Bibcode:2004NYASA1032..191W. doi:10.1196/annals.1314.018. ISSN 1749-6632. PMID 15677408. S2CID 31310103.
- ^ Marques, Andrea H.; Silverman, Marni N.; Sternberg, Esther M. (2009). "Glucocorticoid Dysregulations and Their Clinical Correlates". Annals of the New York Academy of Sciences. 1179 (1): 1–18. Bibcode:2009NYASA1179....1M. doi:10.1111/j.1749-6632.2009.04987.x. PMC 2933142. PMID 19906229.
- ^ McQUADE, R. (1 November 2000). "Future therapeutic targets in mood disorders: the glucocorticoid receptor". The British Journal of Psychiatry. 177 (5): 390–395. doi:10.1192/bjp.177.5.390. PMID 11059990.
- ^ a b c d Peiffer, Andy; Veilleux, Sylvie; Barden, Nicholas (January 1991). "Antidepressant and other centrally acting drugs regulate glucocorticoid receptor messenger RNA levels in rat brain". Psychoneuroendocrinology. 16 (6): 505–515. doi:10.1016/0306-4530(91)90034-Q. PMID 1811246. S2CID 43798108.
- ^ a b c Seckl, Jonathan R.; Fink, George (1992). "Antidepressants Increase Glucocorticoid and Mineralocorticoid Receptor mRNA Expression in Rat Hippocampus in vivo". Neuroendocrinology. 55 (6): 621–626. doi:10.1159/000126180. PMID 1321353.
- ^ Paul Rossby, S.; Nalepa, Irena; Huang, Mei; Perrin, Charles; Burt, Alvin M.; Schmidt, Dennis E.; Gillespie, David D.; Sulser, Fridolin (July 1995). "Norepinephrine-independent regulation of GRII mRNA in vivo by a tricyclic antidepressant". Brain Research. 687 (1–2): 79–82. doi:10.1016/0006-8993(95)00459-4. PMID 7583316. S2CID 36641273.
- ^ Hall, Richard C W; Popkin, Michael K; Stickney, Sondra K; Gardner, Earl R (1979). "Presentation of the Steroid Psychoses". Journal of Nervous & Mental Disease. 167 (4): 229–36. doi:10.1097/00005053-197904000-00006. PMID 438794. S2CID 45515092.
- ^ a b Sacks, Oliver; Shulman, Melanie (2005). "Steroid dementia: An overlooked diagnosis?". Neurology. 64 (4): 707–9. doi:10.1212/01.WNL.0000151977.18440.C3. PMID 15728296. S2CID 216052576.
Further reading
[edit]- Brown, ES (2009). "Effects of glucocorticoids on mood, memory, and the hippocampus. Treatment and preventive therapy". Ann N Y Acad Sci. 1179: 41–55. doi:10.1111/j.1749-6632.2009.04981.x. PMID 19906231. S2CID 11033832.
- Wolkowitz, Owen M.; Burke, Heather; Epel, Elissa S.; Reus, Victor I. (2009). "Glucocorticoids" (PDF). Annals of the New York Academy of Sciences. 1179 (1): 19–40. Bibcode:2009NYASA1179...19W. doi:10.1111/j.1749-6632.2009.04980.x. PMID 19906230. S2CID 265730121.
- Belanoff, Joseph K; Gross, Kristin; Yager, Alison; Schatzberg, Alan F (2001). "Corticosteroids and cognition". Journal of Psychiatric Research. 35 (3): 127–45. doi:10.1016/S0022-3956(01)00018-8. PMID 11461709.
- Keenan, PA; Jacobson, MW; Soleymani, RM; Mayes, MD; Stress, ME; Yaldoo, DT (1996). "The effect on memory of chronic prednisone treatment in patients with systemic disease". Neurology. 47 (6): 1396–402. doi:10.1212/WNL.47.6.1396. PMID 8960717. S2CID 20430943.
- Sapolsky, Robert M. (1994). "Glucocorticoids, stress and exacerbation of excitotoxic neuron death". Seminars in Neuroscience. 6 (5): 323–31. doi:10.1006/smns.1994.1041.