Type 1 narcolepsy without cataplexy and treatment progress: a case report
Introduction
Narcolepsy is a sleep disorder with the main manifestations of excessive daytime sleepiness, cataplexy, sleep paralysis, sleep hallucinations, and nighttime sleep disturbance. It is the most common disease that causes daytime sleepiness other than obstructive sleep apnea (OSA). Approximately 0.026–0.05% of the US population is affected by this disease, making it a rare condition (1,2); however, we cannot rule out the possibility that many potential patients have not been diagnosed. Narcolepsy is considered to be a genetic autoimmune disease of the brain that usually onsets in childhood or adolescence (3). Diagnosis requires polysomnographic (PSG) recordings and a multiple sleep latency test (MSLT). The average sleep latency of narcolepsy is less than 8 min, with more than 2 early-onset cycles of rapid eye movement (REM) sleep. Narcolepsy can be combined with increased appetite, obesity, and snoring, making it easily misdiagnosed as OSA-hypopnea syndrome. Recent studies have suggested that REM-related OSA is also closely related to narcolepsy (4).
According to the International Classification of Sleep Disorders III, narcolepsy is classified as Types 1 and 2. Type 1 narcolepsy is mainly characterized by excessive sleepiness and cataplexy caused by emotional factors (i.e., laughter and anger), and may also manifest as sleep paralysis, hallucinations before falling asleep, nighttime sleep disturbance, cardiovascular–metabolic abnormalities (i.e., obesity, type 2 diabetes, OSA, and other cardiovascular diseases), neurological complications (i.e., mood disorders, anxiety, eating disorders, and attention deficit hyperactivity disorder), and other sleep disorders (restless leg syndrome, periodic leg movements, and REM sleep behavior disorder) (5). Type 1 narcolepsy is associated with irreversible damage of the hypocretin neurons. Hypocretin level in the cerebrospinal fluid (CSF) <110 pg/mL can confirm the diagnosis of type 1 narcolepsy, while 20% of these patients have no cataplexy. HLA DQB1*0602 allele positivity is also often detected in type 1 patients, suggesting that the disease has a certain genetic background. The symptoms of type 2 narcolepsy are similar to those of type 1, but without cataplexy, and the level of hypocretin in the CSF is normal (6). Its pathogenesis is unknown, but it may be related to the partial loss of hypocretin neurons. Some type 2 patients may progress to type 1, while the rest remain stable. Daytime sleepiness may improve spontaneously in 20–25% of patients, who may become completely asymptomatic (7). The following case is presented in accordance with the CARE reporting checklist (available at http://dx.doi.org/10.21037/apm-21-220).
Case presentation
Our center recently diagnosed a case of type 1 narcolepsy through PSG recordings, MSLT, monitoring of hypocretin level in the CSF, and detection of HLA DQB1*0602. The patient was a 22-year-old male who showed recurrent daytime sleepiness without apparent causes, which occurred more frequently at rest, such as walking, reading, watching TV, and driving, and lasted for about 10 min each time. Brief rest or strong external stimuli could awaken the patient. More recently, the frequency of attacks was about 2–3 times a day. During the course of the disease, the patient experienced 4 near falls with weakened legs before going to sleep, without actual cataplexy, with the most recent one occurring in 2017. The patient had vivid dreams almost every night, and the dreams seemed real and clear. The patient woke up about 2–3 times at night and felt that the sleep quality was not satisfied. The patient had no obvious snoring. He had visual and auditory hallucinations before sleep, but no hallucinations after waking up. The patient had 3 episodes of sleep paralysis, all happened before 2018. The body weight of the patient increased by approximately 6 kg from 2018 to 2020. There was no obvious change in personality and no other changes.
The patient’s mother frequently fell asleep while watching TV. The patient denied other related family histories and other medical histories.
The MSLT results were as follows. The average sleep latency was 3.1 min, and abnormal REM sleep episodes were detected in 4 naps. The average REM latency was 1.3 min.
Additional test in the sleep center, Affiliation Hospital of Peking University showed his hypocretin level was 55 pg/mL, and gene test reveal the allele HLA DQB*0602: 330.68 positive (Figure 1).
The patient is in good condition with the therapy of cognitive behavioral therapy and nap in the daytime. The sleep condition was improved when followed up early January, 2020. No special drug was taken.
All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional and/or national research committee(s) and with the Helsinki Declaration (as revised in 2013). Written informed consent was obtained from the patient for publication of this study and any accompanying images.
Discussion
Narcolepsy was first reported by a French doctor, Gelineau, in 1880 (1,8). To this date, this disease is still not fully understood. In clinical practice, many patients are still misdiagnosed with epilepsy, syncope, or mental disorders, especially in less developed areas (9). Narcolepsy has a significant impact on public safety and personal life due to the possibility of cataplectic attacks, which warrant the attention of clinicians.
In Mainland China, systematic reports of narcolepsy include a 2011 report on 154 patients in Beijing (3), a 2014 report on 162 patients in Shanghai (10), a 2019 report on 148 patients in Xi’an (11), and a 2019 report on 165 patients in Shandong (12). Moreover, there was a 2002 report on 28 narcolepsy patients in Hong Kong, and a 2018 report on 157 patients in Taiwan (7,13). It is believed that the incidence of narcolepsy is higher in high-latitude areas than in the equatorial regions. However, according to current reports of the disease from various regions, there is no obvious correlation with latitude. Researchers from Finland and Switzerland reported that the influenza vaccine, Pandemrix, induced narcolepsy boom (9). Data from China in 2014 showed a significant increase in the incidence of narcolepsy in 2011 after the H1N1 epidemic in China in 2009 (4). Later studies found that narcolepsy was correlated with immune-mediated hypocretin deficiency. From 2019 to 2020, in addition to viral infections, it has been reported that group A hemolytic streptococcal infection, abnormal T-cell immunity, and paraneoplastic syndrome can lead to narcolepsy (14). Moreover, the low reporting rate in lower latitudes, which often have a high incidence of viral infection and theoretically should have a high incidence rate of narcolepsy, may be related to a variety of factors, including awareness of the disease and local medical infrastructure (13).
With recent improvements in narcolepsy awareness, drugs targeting hypocretin have been developed, but there are still no effective and reliable drugs to treat the condition, and most drugs treat only the symptoms (9). Modafinil/armodafinil can alleviate excessive daytime sleepiness; antidepressants, such as venlafaxine, can alleviate cataplexy, but are not effective for excessive daytime sleepiness; and sodium oxybate is effective for cataplexy and daytime sleepiness (15). Through standardized diagnostic criteria and accurate evaluation, our center classified the disease type and developed an individualized treatment plan for the patient.
Conclusions
In the city with the population of 200 million, despite the low incidence rate, diagnosis of narcolepsy is still confusing and needs clinicians' attention. Whether the incidence of narcolepsy may increase after covid19 remains to be observed. So far, there is no clear evidence to support immunotherapy. Further studies are needed to verify more treatments and improve the patient’s life quality.
Acknowledgments
Funding: This study was funded by Natural Science Foundation of Shenzhen University General Hospital (No. 0000030567), Shenzhen Municipal Scheme for Basic Research (JCYJ20190808144005614) and Shenzhen Municipal Scheme for Basic Research (JCYJ20170818111103886).
Footnote
Reporting Checklist: The authors have completed the CARE reporting checklist. Available at http://dx.doi.org/10.21037/apm-21-220
Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at http://dx.doi.org/10.21037/apm-21-220). The authors have no conflicts of interest to declare.
Ethical Statement: The authors are accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved. All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional and/or national research committee(s) and with the Helsinki Declaration (as revised in 2013). Written informed consent was obtained from the patient for publication of this study and any accompanying images.
Open Access Statement: This is an Open Access article distributed in accordance with the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International License (CC BY-NC-ND 4.0), which permits the non-commercial replication and distribution of the article with the strict proviso that no changes or edits are made and the original work is properly cited (including links to both the formal publication through the relevant DOI and the license). See: https://creativecommons.org/licenses/by-nc-nd/4.0/.
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(English Language Editor: R. Scott)