Narcolepsy

List of contributors
About the editors
Foreword
Preface
Acknowledgments

Part I Pathophysiology and neurobiology

CHAPTER 1: Understanding sleep in narcolepsy: sleep physiology, neurobiology, and cognitive impairment mechanisms
Syed Shahid Habib


1.1 Introduction

1.2 Sleep physiology

1.3 Normal sleep architecture

1.4 Sleep stages and their transitions

1.4.1 N1 (Stage 1) sleep

1.4.2 N2 (Stage 2) sleep

1.4.3 N3 (Stage 3) deepest nonrapid eye movement or slow–wave sleep

1.5 Rapid eye movement sleep

1.6 Comparing sleep patterns of normal individuals with patients with narcolepsy

1.7 Brain networks regulating sleep and wakefulness

1.7.1 The concept of “flip–flop” switch

1.7.2 Sleep paralysis and cataplexy

1.8 Brain neurotransmitters in normal sleep and narcolepsy

1.8.1 Memory impairment and cognitive deficits in individuals with narcolepsy

1.9 Impact of narcolepsy on cognitive function

1.10 Conclusion
References

CHAPTER 2: Pathophysiology of narcolepsy: genetics and immune system
Shahrad Taheri


2.1 Introduction

2.2 Human leukocyte antigen genes and narcolepsy

2.3 Narcolepsy and nonhuman leukocyte antigen immune genes

2.4 Narcolepsy and environmental factors

2.5 Narcolepsy and humoral immunity

2.6 Summary
References

CHAPTER 3: Neurotransmitters, genetics, and animal models in narcolepsy: a comprehensive overview
Nada F. AlAhmady and Fadwa M. Alkhulaifi


3.1 The role of neurotransmitters in narcolepsy: a focus on hypocretin/orexin signaling pathways

3.2 The role of immunological and hormonal pathways in narcolepsy

3.2.1 The immune basis of narcolepsy

3.3 Genetic underpinnings of narcolepsy

3.4 The role of animal models in understanding narcolepsy

3.5 Common animal models in narcolepsy research

3.5.1 Canine narcolepsy

3.5.2 Rodent narcolepsy

3.5.3 Transgenic models

3.5.4 Zebrafish narcolepsy

3.6 Implications for treatment and future directions
References

CHAPTER 4: The gut–brain axis in narcolepsy: emerging research on microbiota, diet, and sleep
Fulong Xiao


4.1 Introduction

4.2 The gut microbiota and sleep disorders

4.3 Trends in research about gut microbiota and narcolepsy

4.4 Conclusion
References

Part II Clinical aspects

CHAPTER 5: Types of narcolepsy and their symptoms: differential diagnosis and misdiagnosis
Renata Riha


5.1 Types of narcolepsies

5.1.1 Type 1 narcolepsy

5.1.2 Type 2 narcolepsy

5.2 Controversies in the diagnosis of type 1 and type 2 narcolepsy

5.3 Phenotyping narcolepsy

5.4 Conclusion
References

CHAPTER 6: Delayed diagnosis of narcolepsy: causes and implications
Abdul Rouf Pirzada and Ahmed S. BaHammam


6.1 Introduction

6.2 Epidemiological insights into diagnostic delays in narcolepsy

6.2.1 Global perspective on diagnostic delay

6.2.2 Improvement in diagnostic delay in recent data

6.2.3 Access to healthcare services and diagnostic delay

6.3 Potential predictors of delayed diagnosis

6.3.1 Age

6.3.2 Cataplexy

6.3.3 Gender

6.4 Symptoms overlap with other disorders and prior misdiagnoses of patients with narcolepsy

6.4.1 Diagnostic delays and misdiagnosis trends

6.4.2 Comparative studies and misdiagnosis rates

6.4.3 Comorbidity and symptom complexity

6.4.4 Sleep disorders and narcolepsy overlap

6.4.5 Diagnostic challenges in pediatric narcolepsy

6.4.6 Logistical and diagnostic limitations

6.5 Diagnostic delay and clinical implications

6.5.1 Clinical and personal consequences of delayed diagnosis

6.5.2 Educational challenges

6.5.3 Economic and societal impacts

6.6 Conclusion
References

Chapter 7: Diagnostic tools for narcolepsy: sleep studies, multiple sleep latency test, and more
Ahmed S. BaHammam


7.1 Introduction

7.2 Overview of American Academy of Sleep Medicine diagnostic criteria for narcolepsy

7.2.1 Narcolepsy type 1

7.2.2 Narcolepsy type 2

7.2.3 Updates in the 2024 pediatric guidelines include

7.3 Emerging roles of CSF hypocretin-1 measurement in narcolepsy diagnosis

7.4 Polysomnography

7.4.1 Role of polysomnography in narcolepsy diagnosis

7.4.2 Typical polysomnography findings in narcolepsy

7.4.3 Specific rapid eye movement sleep changes in narcolepsy

7.4.4 Limitations of polysomnography alone for diagnosis

7.5 Multiple sleep latency test

7.5.1 Purpose and procedure of multiple sleep latency test

7.5.2 Diagnostic criteria for narcolepsy based on multiple sleep latency test results

7.5.3 Pediatric considerations

7.5.4 Preparation for the multiple sleep latency test

7.5.5 Factors affecting multiple sleep latency test reliability

7.6 Daytime continuous polysomnography

7.7 Actigraphy

7.7.1 Limitations of actigraphy for narcolepsy diagnosis

7.8 Screening scales for narcolepsy

7.8.1 Ullanlinna Narcolepsy Scale

7.8.2 Swiss Narcolepsy Scale

7.8.3 Epworth Sleepiness Scale

7.8.4 Narcolepsy Severity Scale

7.8.5 The Pediatric Hypersomnolence Survey

7.8.6 Challenges and opportunities in the use of Narcolepsy Screening Scales

7.9 Emerging technologies and artificial intelligence

7.9.1 Wearables

7.9.2 Pupillometry as a potential biomarker for sleepiness

7.9.3 Home sleep testing for narcolepsy diagnosis: current limitations

7.9.4 Machine learning in narcolepsy diagnosis

7.9.5 Utilizing AI in phenotyping narcolepsy and hypersomnolence disorders

7.10 Diagnostic approach

7.11 Conclusion
References

Chapter 8: Narcolepsy in children and adolescents: diagnosis, management, and challenges
Binal Kancherla, Sonal Malhotra, Marlene Typaldos, Aleena Wasim, and Yousaf Khan


8.1 Medical history

8.2 Physical exam

8.3 Diagnostic testing

8.3.1 Sleep diary and actigraphy

8.3.2 Overnight polysomnography

8.3.3 Multiple sleep latency test

8.4 Laboratory testing and imaging

8.4.1 Hypocretin testing

8.4.2 HLA typing

8.4.3 Neuroimaging

8.5 Psychological, psychiatric, and social aspects

8.6 Differential diagnosis

8.7 Management

8.7.1 Education

8.7.2 Behavioral modification

8.7.3 Pharmacological

8.7.4 Medications for excessive daytime sleepiness

8.7.5 Medications for cataplexy

8.7.6 Other medications

8.8 Summary of management

Chapter 9: Narcolepsy and pregnancy: risks and strategies for management
Rosa Peraita-Adrados


9.1 Introduction

9.2 Narcolepsy in women

9.3 Sleep disorders in pregnancy

9.4 Narcolepsy in pregnancy

9.5 Medication management during pregnancy for narcolepsy patients
References

Chapter 10: Aging with narcolepsy: understanding the unique challenges for older adults
Natalie Cornay Manalo and Hrayr Attarian


10.1 Introduction

10.2 Narcolepsy onset after age 35

10.2.1 Case 1 (late onset)

10.3 Delayed diagnosis

10.3.1 Case 2 (delayed diagnosis)

10.4 Symptomatic narcolepsy

10.4.1 Case 3 (symptomatic narcolepsy)

10.5 Implications of narcolepsy in older adults and therapeutic challenges

10.5.1 Case 4 (management dilemma with age)

10.6 Conclusion
References

Chapter 11: Medical comorbidities of narcolepsy
Nikita Jambulingam, Nathaniel Yuan, and Alon Y. Avidan


11.1 Introduction

11.2 Neurological comorbidities

11.2.1 Migraines

11.2.2 Restless leg syndrome

11.2.3 Rapid eye movement sleep behavior disorder

11.3 Cardiovascular comorbidities

11.3.1 Cardiovascular events and stroke

11.3.2 Hypertension

11.4 Metabolic comorbidities

11.4.1 Obesity

11.4.2 Type 2 diabetes

11.4.3 Dyslipidemia

11.5 Autoimmune disease comorbidities

11.5.1 Autoimmune disease and human leukocyte antigen

11.5.2 Type 1 diabetes

11.5.3 Celiac disease

11.5.4 Rheumatoid arthritis

11.5.5 System lupus erythematosus

11.5.6 Sjögren’s syndrome

11.6 Narcolepsy and comorbidities: management perspectives

11.6.1 Comorbid neurological treatment considerations

11.6.2 Comorbid cardiovascular treatment considerations

11.6.3 Comorbid metabolic treatment considerations

11.6.4 Comorbid autoimmune disease treatment considerations

11.7 Conclusion
References

Chapter 12: Cardiovascular disease risk and comorbidities in narcolepsy
Ahmed S. BaHammam


12.1 Introduction

12.2 Epidemiological evidence of increased cardiovascular disease risk

12.3 Potential mechanisms linking narcolepsy and cardiovascular disease risk

12.3.1 Sleep disruption and autonomic dysfunction

12.3.2 The role of hypocretin

12.3.3 Metabolic dysfunction

12.3.4 Comorbid sleep disorders

12.3.5 Inflammation and endothelial dysfunction

12.4 Cardiovascular risk assessment and management in narcolepsy

12.4.1 Regular cardiovascular risk screening

12.4.2 Lifestyle modification

12.4.3 Management of comorbidities

12.4.4 Consideration of cardiovascular effects of narcolepsy medications

12.4.5 Sodium intake and cardiovascular risk in narcolepsy

12.5 Future research directions

12.6 Conclusion
References

Chapter 13: More than just narcolepsy: the importance of recognizing concurrent sleep disorders
Antara Mallampalli, MD


13.1 Introduction: comorbid sleep disorders in narcolepsy patients

13.2 Prevalence of comorbid sleep disorders in narcolepsy patients: an overview

13.3 Sleep-related breathing disorders in narcolepsy patients

13.3.1 Pathophysiology of sleep-related breathing disorders in narcolepsy

13.3.2 Clinical impact of sleep-related breathing disorders in narcolepsy

13.3.3 Summary

13.4 Insomnia in narcolepsy patients

13.5 Restless leg syndrome and periodic limb movement disorder in narcolepsy patients

13.5.1 Pathophysiology of periodic limb movements of sleep and restless leg syndrome in narcolepsy

13.5.2 Clinical impact of restless leg syndrome in narcolepsy

13.6 REM sleep behavior disorder and other parasomnias in narcolepsy patients

13.6.1 Clinical impact of REM sleep behavior disorder in narcolepsy

13.7 Conclusion and future research directions
References

Chapter 14: Narcolepsy and circadian rhythm disorders: diagnosis and management
Sona Nevsimalova


14.1 Introduction

14.2 Circadian and ultradian rhythms in narcolepsy

14.3 Hypocretin and circadian system

14.4 Circadian aspects of clinical manifestation in narcolepsy

14.5 Circadian rhythm disorders and narcolepsy

14.6 Recommendations for therapy, management, and future perspectives
References

Chapter 15: The hidden link between narcolepsy and autonomic dysfunction: a closer look
Fang Han


15.1 The orexin system and narcolepsy

15.2 Orexins in autonomic regulation

15.3 Role of orexins in cardiovascular regulation

15.4 Narcolepsy and autonomic dysfunction

15.5 Cardiovascular dysfunction in narcolepsy

15.6 Nondipper profile in narcolepsy with cataplexy

15.7 Treatment of narcolepsy on cardiovascular effects
References

Chapter 16: Narcolepsy and metabolic rate: what do we know?
Hamza O. Dhafar and Ahmed S. BaHammam


16.1 Introduction

16.2 Prevalence of obesity in patients with narcolepsy

16.3 Changes in metabolic rate in patients with narcolepsy

16.4 Exploring the possible underlying mechanisms of weight gain in narcolepsy

16.4.1 The role of orexin in metabolism

16.4.2 Orexin and eating behavior

16.4.3 Physical activity

16.4.4 Genetic factors

16.4.5 The role of leptin and ghrelin hormones

16.4.6 Metabolomics

16.4.7 The role of medications used for narcolepsy

16.5 Conclusions and future directions
References

Chapter 17: Narcolepsy and driving: safety issues and regulations
Tha A. Saw and Catherine A. McCall


17.1 Introduction

17.2 Narcolepsy and drowsy driving

17.3 Evaluating drowsy driving risk with narcolepsy

17.4 Legal and regulatory issues

17.5 Risk mitigation

17.5.1 Pharmacologic interventions

17.5.2 Nonpharmacologic interventions

17.5.3 Patient resources

17.6 Conclusion
References

Chapter 18: The natural history of narcolepsy: lessons from longitudinal studies
Salman A. Bahammam and Ahmed S. BaHammam


18.1 Introduction

18.2 Importance of understanding the natural history and time course of narcolepsy

18.2.1 Predicting disease progression

18.2.2 Identifying comorbidities

18.2.3 Developing targeted therapies and precision medicine

18.2.4 Enhancing patient education and support

18.3 Longitudinal studies on narcolepsy

18.3.1 Age of onset and gender differences

18.3.2 Progression of symptoms and clinical findings over time

18.3.3 Changes in sleep architecture over time based on sleep study findings

18.3.4 Longitudinal changes in orexin levels

18.3.5 Impact of narcolepsy on quality of life

18.3.6 Long-term data on safety and efficacy of narcolepsy medications

18.4 Developing targeted therapies based on natural course

18.5 Conclusion
References

Chapter 19: Neuroimaging in narcolepsy: advances in understanding pathophysiology and diagnosis
Kyung Min Kim, Jun-Sang Sunwoo, and Seung Bong Hong


19.1 Introduction

19.2 Voxel-based morphometry, volumetry, cortical thickness studies on narcolepsy

19.3 Diffusion tensor imaging and narcolepsy

19.4 Functional magnetic resonance imaging research on narcolepsy

19.5 Magnetic resonance spectroscopy studies on narcolepsy

19.6 Single photon emission computed tomography and PET studies in narcolepsy

19.7 Future directions
References

Chapter 20: The distinctive characteristics of REM sleep and dreams in narcolepsy
Serena Scarpelli and Luigi De Gennaro


20.1 Introduction

20.2 Rapid eye movement sleep features in narcolepsy

20.3 Dream activity in narcolepsy

20.4 Neural bases of dream recall

20.5 Lucid dreams, nightmares, and insights for treatment

20.6 Conclusions
References

Part III: Behavioral and psychosocial considerations

Chapter 21: The hidden burden of narcolepsy: anxiety and depression among patients
Berit Hjelde Hansen


21.1 Introduction

21.2 Anxiety disorders

21.3 Depressive disorders

21.4 Widening the scope—a potential role of neurodevelopmental disorders

21.5 Treatment

21.6 Importance of screening for anxiety and depression in narcolepsy

21.7 Summary
References

Chapter 22: Understanding psychosis and behavioral abnormalities in narcolepsy patients
Cyril Hanin


22.1 Introduction

22.2 Clinical presentation of psychosis in narcolepsy

22.2.1 Psychotic symptoms in narcolepsy

22.2.2 Group 1: hallucinations in typical narcolepsy

22.2.3 Group 2: narcolepsy with atypical psychotic-like symptoms

22.2.4 Group 3: challenges in diagnosing narcolepsy in schizophrenia patients

22.3 Impulsivity, emotional dysregulation, and social behavior in narcolepsy

22.3.1 Impulsivity in narcolepsy

22.3.2 Emotional dysregulation

22.3.3 Altered social behavior

22.4 Pathophysiology: linking narcolepsy and psychosis

22.4.1 REM-sleep intrusion and psychotic-like symptoms

22.4.2 Autoimmune and genetic mechanisms

22.4.3 Hypocretin system implications

22.4.4 Early-onset narcolepsy and schizophrenia: neurodevelopmental implications

22.4.5 Medication-induced psychosis in narcolepsy patients with or without comorbid psychotic disorder

22.4.6 Classical psychostimulants: methylphenidate and amphetamines

22.4.7 Modafinil and armodafinil

22.4.8 Sodium oxybate (gamma hydroxybutyrate)

22.4.9 Pitolisant and other emerging treatments

22.5 Clinical algorithm and management strategies

22.5.1 Initial assessment and categorization

22.5.2 Assessing drug-induced psychosis

22.6 Prognosis and long-term outcomes in narcolepsy patients with psychotic symptoms
AI disclosure
References

Chapter 23: Narcolepsy and cognitive impairment: causes and management
Meteb H. Alenazi


23.1 Introduction

23.2 Cognitive impairment in narcolepsy

23.2.1 Attention

23.2.2 Memory

23.2.3 Executive functions and higher cognitive functions

23.3 Clinical pictures of excessive daytime sleepiness and cognitive impairment

23.3.1 Hypersomnolence related to major depressive disorder with atypical features

23.4 Conclusion
AI disclosure
References

Chapter 24: Narcolepsy and relationships: navigating intimacy, family, and social life
Anne Marie Morse


24.1 Introduction

24.1.1 Early childhood and adolescence

24.1.2 Adulthood

24.2 Optimizing outcomes

24.2.1 Conclusion
References

Chapter 25: Narcolepsy and advocacy: awareness, education, and community building
Ahmed S. BaHammam


25.1 Introduction

25.2 The importance of narcolepsy advocacy

25.3 Raising awareness about narcolepsy

25.4 Educating the general public and healthcare providers about narcolepsy

25.4.1 Providing resources

25.4.2 Presentations and workshops

25.4.3 Correcting common myths

25.4.4 Importance of educating healthcare professionals

25.5 Building community and support

25.5.1 Connecting with other patients

25.5.2 Providing encouragement and sharing coping strategies

25.5.3 Advocating together for research and better treatments

25.6 Empowering patients to advocate for themselves

25.6.1 Gaining confidence to discuss narcolepsy

25.6.2 Communicating needs and challenges effectively

25.6.3 Partnering with healthcare providers

25.6.4 Understanding rights and accommodations

25.7 The impact of narcolepsy advocacy

25.8 Conclusion
References
Further reading

Chapter 26: The complexities of medico-legal assessment of disability in narcolepsy
Francesca Ingravallo and Annamaria Govi


26.1 The complexities of medico-legal assessment of disability in narcolepsy

26.2 The impact of narcolepsy on work and other major life activities

26.3 Aspects of functioning in people with narcolepsy identified by the International Classification of Functioning Core Set for Sleep Disorders

26.4 The complexity of medical-legal assessment of disability in narcolepsy

26.5 The role of sleep providers

26.6 Conclusions
References

Part IV: Specific management

Chapter 27: Current pharmacological treatments for narcolepsy
Ritwick Agrawal


27.1 Nonpharmacological interventions

27.1.1 Addressing comorbid disorders

27.1.2 Cognitive behavioral therapy and behavioral approaches to excessive daytime sleepiness

27.2 Pharmacological management

27.2.1 Primary goals of pharmacological management

27.2.2 Pretreatment considerations

27.2.3 Excessive daytime sleepiness treatment

27.2.4 Cataplexy and excessive daytime sleepiness management

27.2.5 Other narcolepsy symptoms

27.2.6 Adjustment of initial pharmacological intervention

27.3 Special populations

27.3.1 Children and young people

27.3.2 Pregnancy and lactation

27.4 Conclusion
AI disclosure
References

Chapter 28: Exploring the potential of cognitive behavioral therapy as an adjunct to medication in narcolepsy management
Sultan M. Alshahrani


28.1 Introduction

28.1.1 Cognitive behavioral therapy for narcolepsy

28.1.2 Psychotherapy and psychotherapeutic interventions

28.1.3 Education and psychoeducation

28.1.4 Conclusion

28.2 The psychosocial and psychosomatic aspects of narcolepsy

28.2.1 Introduction

28.2.2 Psychosocial aspects

28.2.3 Psychosomatic aspects

28.2.4 Summary

28.3 How can psychotherapy help cases with narcolepsy

28.3.1 Introduction

28.3.2 Mechanism of psychotherapy for individuals with narcolepsy

28.3.3 Summary

28.4 Cognitive behavioral therapy for narcolepsy

28.4.1 Introduction

28.4.2 Psychological models for narcolepsy

28.4.3 How does cognitive behavioral therapy work for narcolepsy

28.4.4 Components of cognitive behavioral therapy for narcolepsy

28.4.5 Techniques in cognitive behavioral therapy for narcolepsy patients

28.5 Diet and physical activity as components of psychotherapy in narcolepsy

28.5.1 Introduction

28.5.2 Diet applications for narcolepsy

28.5.3 Physical activity and exercise applications for narcolepsy

28.6 Other psychotherapeutic interventions for narcolepsy

28.6.1 Psychoanalysis for narcolepsy

28.6.2 Mindfulness-based interventions for narcolepsy

28.6.3 Supportive psychotherapy

28.6.4 Psychoeducational therapy (psychoeducation)
References

Chapter 29: Emerging therapies for narcolepsy: immunotherapy, gene therapy, and beyond
Todd J. Swick


29.1 Genetics and immunology of narcolepsy

29.2 Cell/gene therapy for narcolepsy

29.3 Orexin agonists

29.4 Conclusions
References

Chapter 30: Exploring the role of biomarkers and epigenetics in narcolepsy: implications for diagnosis and treatment
Ahmed S. BaHammam and Amir Sharafkhaneh


30.1 Introduction

30.2 Current biomarkers for narcolepsy diagnosis

30.2.1 Hypocretin-1 levels in cerebrospinal fluid

30.2.2 Genetic markers

30.2.3 Epigenetic biomarkers

30.2.4 Proteomic biomarkers

30.2.5 Other potential biomarkers

30.3 Epigenetic mechanisms in narcolepsy pathophysiology

30.3.1 Epigenetic changes in narcolepsy (histone modifications, DNA methylation)

30.3.2 Role of epigenetic alterations in narcolepsy development and progression

30.3.3 Integration of epigenetic mechanisms in narcolepsy pathophysiology

30.4 Epigenetic signatures as potential diagnostic markers

30.4.1 DNA methylation as a diagnostic biomarker

30.4.2 Potential for personalized medicine

30.5 Epigenetics in developing novel narcolepsy treatments

30.5.1 Epigenetic modulation of hypothalamic neuropeptides

30.5.2 Immunomodulatory approaches targeting epigenetic changes

30.5.3 Personalized therapy based on epigenetic profiling

30.6 Proteomics in narcolepsy pathogenesis

30.7 Proteomics in narcolepsy diagnosis

30.8 Proteomics in narcolepsy therapeutics

30.9 Challenges and limitations

30.10 Conclusions and future research directions
References

Chapter 31: Disease control in narcolepsy: use of telehealth and remote patient management technology
Javad Razjouyan, Amir Sharafkhaneh, Antara Mallampalli, Max Hirshkowitz, and Sharam Moghtader


31.1 Introduction

31.2 Telehealth for diagnosis and management of narcolepsy

31.2.1 Diagnosis of narcolepsy

31.3 Management of narcolepsy

31.3.1 Medication management

31.3.2 Narcolepsy multidisciplinary teams

31.3.3 Remote patient monitoring

31.4 Application of telesleep for management of obstructive sleep apnea co-occurring with narcolepsy

31.5 Application of telesleep for management of insomnia co-occurring with narcolepsy

31.6 Application of telesleep for management of psychiatric conditions co-occurring with narcolepsy

31.6.1 Technical aspects of telemedicine
References

Chapter 32: The future of narcolepsy treatment: what role will artificial intelligence play?
Arash Maghsoudi, Amin Ramezani, Javad Razjouyan, and Amir Sharafkhaneh


32.1 What is artificial intelligence?

32.2 The role of artificial intelligence in narcolepsy research

32.2.1 Artificial intelligence-driven analysis of narcolepsy: uncovering genetic markers

32.2.2 Machine learning models for predicting narcolepsy progression

32.3 Artificial intelligence in the diagnosis and management of narcolepsy

32.3.1 Enhancing diagnostic accuracy with artificial intelligence algorithms

32.3.2 Personalized medicine: artificial intelligence in developing customized treatment plans

32.4 Wearable technology and artificial intelligence monitoring

32.4.1 Smart devices and wearables: tracking sleep patterns and daytime sleepiness

32.4.2 Real-time monitoring and artificial intelligence: a new paradigm in narcolepsy management

32.5 Artificial intelligence and patient support systems

32.5.1 Chatbots and virtual assistants: providing round-the-clock support

32.5.2 Artificial intelligence-driven platforms for patient education and community building

32.6 Ethical considerations and future directions

32.6.1 Navigating the ethical landscape of artificial intelligence in healthcare

32.6.2 The future of artificial intelligence in narcolepsy treatment: innovations on the horizon

32.7 Conclusion
Funding
References

Chapter 33: Narcolepsy and chronic pain: implications and management
Zheng Liu, Man Min Zhu, and Hao Huang


33.1 Introduction

33.2 Epidemiology

33.3 Pathophysiological mechanisms

33.4 Bidirectional relationship between narcolepsy and chronic pain

33.5 Narcolepsy and chronic pain management

33.6 Future research directions
References

Chapter 34: Navigating the costs of narcolepsy in managed care
Shafaq Mansoor, Elli Allen, and Sudha Tallavajhula


34.1 Introduction

34.2 Economic burden of narcolepsy

34.3 Insurance considerations for approval of testing in narcolepsy

34.4 Pharmacotherapy considerations

34.5 Strategies to help patients navigate the landscape

34.6 Patient access to sleep medicine specialists

34.6.1 Strategic drug utilization

34.7 Summary
References
Further reading

Index