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¼ö¸é´Ù¿ø°Ë»ç(PSG) ±â±â´Â ¼ö¸é Áß ³úÈ°µ¿(EEG), ¾È±¸¿îµ¿(EOG), ±ÙÈ°µ¿(EMG), È£Èí ±â·ù, Ç÷Áß »ê¼Ò ³óµµ(SpO2), ½É¹Ú¼ö(ECG), »çÁö ¿îµ¿ µî »ý¸®ÇÐÀû ±â´ÉÀÇ ´Ùº¯·® ¸ð´ÏÅ͸µÀ» Á¦°øÇÏ¿© ¼ö¸é ÀÇÇÐÀÇ Áß¿äÇÑ Áø´Ü µµ±¸·Î ºÎ»óÇÏ°í ÀÖ½À´Ï´Ù. ÀÌ·¯ÇÑ Á¾ÇÕÀûÀÎ µ¥ÀÌÅͼ¼Æ®´Â Æó¼â¼º ¼ö¸é¹«È£ÈíÁõ(OSA), ºÒ¸éÁõ, ±â¸éÁõ, ·½¼ö¸éÇൿÀå¾Ö, ÁÖ±âÀû »çÁö¿îµ¿Àå¾Ö µîÀÇ Àå¾Ö¸¦ ÀÓ»óÀûÀ¸·Î Á¤È®ÇÏ°Ô ÆľÇÇÏ´Â µ¥ µµ¿òÀÌ µË´Ï´Ù. ÁÂ½Ä »ýÈ°½À°ü, ºñ¸¸ Áõ°¡, °í·ÉÈ­·Î ÀÎÇØ Àü ¼¼°èÀûÀ¸·Î ¼ö¸é °ü·Ã Àå¾ÖÀÇ À¯º´·üÀÌ Áö¼ÓÀûÀ¸·Î Áõ°¡ÇÔ¿¡ µû¶ó PSG ½Ã½ºÅÛ¿¡ ´ëÇÑ ¼ö¿ä´Â º´¿ø ¼ö¸é °Ë»ç½Ç°ú °¡Á¤ ȯ°æ ¸ðµÎ¿¡¼­ Å« ÆøÀ¸·Î Áõ°¡ÇÏ°í ÀÖ½À´Ï´Ù. PSG ±â±âÀÇ °¡Ä¡ Á¦¾ÈÀº °íÇػ󵵷Π¿©·¯ ÆĶó¹ÌÅ͸¦ ÇÏ·í¹ãÀ̶ó´Â Àå½Ã°£¿¡ °ÉÃÄ µ¿½Ã¿¡ ÃøÁ¤ÇÒ ¼ö ÀÖ´Ù´Â Á¡¿¡ ÀÖ½À´Ï´Ù. ÀÌ ´ÙÂ÷¿ø ºÐ¼®À» ÅëÇØ ÀÇ»ç´Â º¹ÀâÇÑ ¼ö¸é Àå¾Ö¸¦ ±¸º°ÇÏ°í ±×¿¡ µû¶ó Ä¡·á ÇÁ·ÎÅäÄÝÀ» Á¶Á¤ÇÒ ¼ö ÀÖ½À´Ï´Ù. PSG´Â ¼ö¼ú Àü Æò°¡, Ä¡·á È¿°ú Æò°¡(CPAPÀÇ Á¡ÁøÀû Áõ°¡ µî), ƯÈ÷ ½ÉÇ÷°ü°è ¹× ´ë»ç Àå¾Ö°¡ Àִ ȯÀÚ¿¡¼­ µ¿¹Ý ÁúȯÀÇ È®Àο¡µµ Áß¿äÇÑ ¿ªÇÒÀ» ÇÕ´Ï´Ù. ¹Ì±¹¼ö¸éÇÐȸ(AASM)¿Í °°Àº ´Üü°¡ PSG ÇÁ·ÎÅäÄÝÀ» Ç¥ÁØÈ­ÇÑ ÀÓ»ó °¡À̵å¶óÀÎÀ» ÅëÇØ Áø´ÜÀÇ È°¿ëÀÌ ´õ¿í ü°èÈ­µÇ°í È®»êµÇ°í ÀÖ½À´Ï´Ù.

¾î¶² ÀÓ»ó ȯ°æ°ú Àα¸ Áý´ÜÀÌ ±â±â ¼ö¿ä¸¦ ÁÖµµÇÏ°í Àִ°¡?

º´¿ø ±â¹Ý ¼ö¸é ¿¬±¸¼Ò¿Í ½Å°æ°ú Ŭ¸®´ÐÀº ƯÈ÷ ÇÏ·í¹ã µ¿¾ÈÀÇ °üÂû°ú ³ôÀº µ¥ÀÌÅÍ Ãæ½Çµµ°¡ ÇÊ¿äÇÑ Áø´Ü µî±Þ Æò°¡¸¦ À§ÇØ PSG ½Ã½ºÅÛÀÇ ÁÖ¿ä ÃÖÁ¾»ç¿ëÀÚ·Î ³²¾Æ ÀÖ½À´Ï´Ù. 3Â÷ ÀÇ·á±â°üÀº ¼øȯ±â³»°ú, ³»ºÐºñ³»°ú, È£Èí±â³»°ú µîÀÇ ÀÇ·Ú Áõ°¡¿¡ ´ëÀÀÇϱâ À§ÇØ ¼ö¸éÀå¾Ö º´µ¿À» È®ÀåÇÏ°í ÀÖ½À´Ï´Ù. ÇÑÆí, ¿Ü·¡ ¼ö¼ú ¼¾Åͳª Àü¹® ¼ö¸é Ŭ¸®´Ð¿¡¼­´Â ƯÈ÷ °æÁõ¿¡¼­ ÁߵÀÇ OSA Æò°¡¸¦ À§ÇØ Áø´ÜÀÇ ¹«°á¼ºÀ» À¯ÁöÇϸ鼭 ÀçÅà °Ë»ç°¡ °¡´ÉÇÑ ÈÞ´ë¿ë PSG ±â±â¸¦ µµÀÔÇÏ°í ÀÖ½À´Ï´Ù. ¼Ò¾Æ¿¡¼­ PSGÀÇ »ç¿ëÀº ¾Æµ¥³ëÀÌµå ºñ´ë, Çൿ¼º ¼ö¸éÀå¾Ö µî ¼Ò¾Æ ¼ö¸é °ü·Ã È£ÈíÀå¾ÖÀÇ Áø´ÜÀÌ Áõ°¡ÇÔ¿¡ µû¶ó Áõ°¡ÇÏ°í ÀÖ½À´Ï´Ù. ¸¶Âù°¡Áö·Î, ³ëÀÎ Àα¸ - ´ÜÆíÀû ¼ö¸é, ºÒ¸éÁõ, REM Çൿ Àå¾Ö -´Â ±¤¹üÀ§ÇÑ ½Å°æÀÎÁö ±â´É ÀúÇÏ Æò°¡ÀÇ ÀÏȯÀ¸·Î PSG Æò°¡¸¦ ¹Þ°í ÀÖ½À´Ï´Ù. ¼ö¸éÀÇ Áú ÀúÇÏ¿Í ¾ËÃ÷ÇÏÀ̸Ӻ´, ÆÄŲ½¼º´ µîÀÇ Áúȯ°úÀÇ ¿¬°ü¼ºÀÌ ³ô¾ÆÁö¸é¼­ ½Å°æÅðÇ༺ ÁúȯÀÇ Á¶»ç ¹× ¸ð´ÏÅ͸µ¿¡ PSG°¡ È°¿ëµÇ°í ÀÖ½À´Ï´Ù.

Á÷Àå ³» ¼ö¸é¹«È£ÈíÁõ °Ë»ç´Â ¾ÈÀü°ú ±ÔÁ¤ Áؼö¿¡ ´ëÇÑ ¿ì·Á·Î ÀÎÇØ Æ¯È÷ ¿î¼ö¾÷ Á¾»çÀÚ¿Í ±³´ë ±Ù¹«ÀÚ »çÀÌ¿¡¼­ ¼ö¸é¹«È£ÈíÁõ °Ë»ç°¡ È°¹ßÈ÷ ÁøÇàµÇ°í ÀÖ½À´Ï´Ù. º¸Çè»ç ¹× »ê¾÷ º¸°Ç ºÎ¹®Àº ¿¹ºñ Áø´ÜÀ» À§ÇÑ ¸ð¹ÙÀÏ PSG Å°Æ®¿¡ ÅõÀÚÇÏ°í ÀÖÀ¸¸ç, º´¿øÀÇ º®À» ³Ñ¾î ´õ ³ÐÀº ¹üÀ§·Î È®ÀåÇÒ ¼ö ÀÖµµ·Ï ÇÏ°í ÀÖ½À´Ï´Ù. COVID-19 »çÅ´ ¿ø°Ý ¹× ÀçÅñٹ« PSG ¼Ö·ç¼Ç¿¡ ´ëÇÑ °ü½ÉÀ» ºÒ·¯ÀÏÀ¸Å°°í, ¹«¼± ¼¾¼­, Ŭ¶ó¿ìµå ±â¹Ý µ¥ÀÌÅÍ Àü¼Û, AI ±â¹Ý Çؼ® µî ±â¼ú Çõ½ÅÀ» °¡¼ÓÈ­Çß½À´Ï´Ù.

±â¼úÀÇ ¹ßÀüÀº PSG ½Ã½ºÅÛÀÇ Á¢±Ù¼º, È¿À²¼º, Á¤È®¼ºÀ» ¾î¶»°Ô Çâ»ó½ÃÅ°°í Àִ°¡?

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ÀΰøÁö´É(AI)°ú ¸Ó½Å·¯´× ¾Ë°í¸®ÁòÀº PSG µ¥ÀÌÅÍÀÇ Çؼ®À» º¯È­½ÃÅ°°í ÀÖ½À´Ï´Ù. ¼ö¸é ´Ü°è, È£Èí À̺¥Æ®, »çÁö ¿òÁ÷ÀÓÀÇ ÀÚµ¿ äÁ¡Àº Ŭ¸®´Ð °£ Ç¥ÁØÈ­¸¦ °³¼±Çϸ鼭 ±â¼úÀÚÀÇ ½Ã°£À» Å©°Ô ´ÜÃàÇÏ°í ÀÖ½À´Ï´Ù. ¶ÇÇÑ, PSG º¥´õ´Â ÀÓ»óÀǸ¦ À§ÇØ Å¬¶ó¿ìµå ±â¹Ý ºÐ¼® ´ë½Ãº¸µå¸¦ µµÀÔÇÏ¿© ÁÖ¼®ÀÌ ´Þ¸° º¸°í¼­¿¡ ´ëÇÑ ¿ø°Ý ¾×¼¼½º, »ç¿ëÀÚ Á¤ÀÇ °¡´ÉÇÑ Ã¤Á¡ ±ÔÄ¢, ¸¸¼º ȯÀÚÀÇ Á¾´ÜÀû ÃßÀûÀ» Á¦°øÇÕ´Ï´Ù. ÀüÀÚ°Ç°­±â·Ï(EHR)°úÀÇ »óÈ£¿î¿ë¼º, DICOM°úÀÇ È£È¯¼º, ±¹Á¦Ç¥ÁØ(AASM, CE, FDA) Áؼö µîÀ¸·Î PSG ½Ã½ºÅÛÀº ´ë±Ô¸ð º´¿ø ³×Æ®¿öÅ©¿¡ ÀûÇÕÇÏ°Ô µÇ¾ú½À´Ï´Ù. ´ÙÁß È¯ÀÚ ¸ð´ÏÅ͸µ ÀÎÅÍÆäÀ̽º, ½º¸¶Æ® ¾Ë¶÷ ±â´É, CPAP/BiPAP ±â±â¿Í °°Àº Ä¡·á ±â±â¿ÍÀÇ ÅëÇÕÀº PSGÀÇ ¿ªÇÒÀ» Áø´Ü¿¡¼­ Áö¼ÓÀûÀÎ Ä¡·á °ü¸®·Î È®ÀåÇÏ°í ÀÖ½À´Ï´Ù.

PSG ±â±âÀÇ ¼¼°è º¸±ÞÀ» ÃËÁøÇÏ´Â ½ÃÀå ¼¼·ÂÀº ¹«¾ùÀΰ¡?

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Global Polysomnography Devices Market to Reach US$713.3 Billion by 2030

The global market for Polysomnography Devices estimated at US$505.8 Billion in the year 2024, is expected to reach US$713.3 Billion by 2030, growing at a CAGR of 5.9% over the analysis period 2024-2030. Ambulatory Polysomnography Devices, one of the segments analyzed in the report, is expected to record a 7.0% CAGR and reach US$486.6 Billion by the end of the analysis period. Growth in the Clinical Polysomnography Devices segment is estimated at 3.8% CAGR over the analysis period.

The U.S. Market is Estimated at US$137.8 Billion While China is Forecast to Grow at 9.5% CAGR

The Polysomnography Devices market in the U.S. is estimated at US$137.8 Billion in the year 2024. China, the world's second largest economy, is forecast to reach a projected market size of US$146.5 Billion by the year 2030 trailing a CAGR of 9.5% over the analysis period 2024-2030. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at a CAGR of 2.8% and 5.9% respectively over the analysis period. Within Europe, Germany is forecast to grow at approximately 3.9% CAGR.

Global Polysomnography Devices Market - Key Trends & Drivers Summarized

Decoding Sleep Through Technology: Why Polysomnography Is Becoming a Clinical Cornerstone in Sleep Medicine

Why Is Polysomnography Becoming Central to Sleep Disorder Diagnostics?

Polysomnography (PSG) devices are emerging as vital diagnostic tools in sleep medicine, offering multi-parametric monitoring of physiological functions during sleep, including brain activity (EEG), eye movement (EOG), muscle activity (EMG), respiratory airflow, blood oxygen levels (SpO2), heart rate (ECG), and limb movements. These comprehensive datasets help identify disorders such as obstructive sleep apnea (OSA), insomnia, narcolepsy, REM behavior disorder, and periodic limb movement disorder with clinical accuracy. As the prevalence of sleep-related disorders continues to escalate globally-driven by sedentary lifestyles, rising obesity, and aging populations-the demand for PSG systems in both hospital-based sleep labs and home settings is witnessing substantial growth. The value proposition of PSG devices lies in their capacity for high-resolution, simultaneous measurement of multiple parameters across extended timeframes, typically overnight. This multidimensional analysis enables physicians to distinguish between complex sleep disorders and tailor treatment protocols accordingly. PSG also plays a critical role in pre-surgical assessments, therapy effectiveness evaluations (e.g., CPAP titration), and comorbidity identification, especially in patients with cardiovascular or metabolic disorders. With clinical guidelines from bodies such as the American Academy of Sleep Medicine (AASM) standardizing PSG protocols, diagnostic utilization is becoming more structured and widespread.

Which Clinical Settings and Demographic Groups Are Driving Device Demand?

Hospital-based sleep labs and neurology clinics remain the dominant end-users of PSG systems, particularly for diagnostic-grade assessments requiring overnight observation and high data fidelity. Tertiary care institutions are expanding their sleep disorder units to cater to the growing number of referrals, often from cardiology, endocrinology, and pulmonology departments. Meanwhile, ambulatory surgical centers and specialized sleep clinics are deploying portable PSG units that allow in-home testing while maintaining diagnostic integrity, especially for mild-to-moderate OSA assessments. Pediatric use of PSG is increasing due to rising diagnoses of sleep-related breathing disorders in children, such as enlarged adenoids or behavioral sleep disturbances. Similarly, geriatric populations-susceptible to fragmented sleep, insomnia, and REM behavior disorders-are undergoing PSG evaluations as part of broader neurocognitive decline assessments. The increasing linkage between poor sleep quality and diseases such as Alzheimer’s and Parkinson’s is propelling PSG adoption in neurodegenerative disease research and monitoring.

Workplace screening for sleep apnea, especially among transportation workers and shift laborers, is gaining momentum due to safety and regulatory compliance concerns. Insurers and occupational health departments are investing in mobile PSG kits for preliminary diagnosis, enabling wider deployment beyond hospital walls. The COVID-19 pandemic also catalyzed interest in remote and home-based PSG solutions, accelerating innovations in wireless sensors, cloud-based data transmission, and AI-driven interpretation.

How Are Technology Advancements Improving Accessibility, Efficiency, and Accuracy of PSG Systems?

Modern PSG systems have evolved from cumbersome, wire-laden instruments to compact, modular platforms capable of integrating wireless electrodes, wearable biosensors, and cloud-based storage. Multi-channel data acquisition systems can now record up to 30+ physiological signals concurrently, offering high-resolution, artifact-free analysis across the sleep cycle. Signal amplification, digital filtering, and noise cancellation algorithms have improved overall data accuracy, even in uncontrolled home environments. Wireless PSG units, particularly type II and III systems, are enabling cost-effective testing without compromising diagnostic depth. These mobile systems are equipped with rechargeable batteries, built-in memory, and wireless connectivity for seamless data uploading and remote review. Integration with smartphone apps and patient engagement platforms allows real-time monitoring of electrode placement, signal quality, and usage compliance.

Artificial Intelligence (AI) and machine learning algorithms are transforming PSG data interpretation. Automated scoring of sleep stages, respiratory events, and limb movements is significantly reducing technician time while improving standardization across clinics. Furthermore, PSG vendors are incorporating cloud-based analytics dashboards for clinicians, offering remote access to annotated reports, customizable scoring rules, and longitudinal tracking for chronic patients. Interoperability with Electronic Health Records (EHR), DICOM compatibility, and compliance with international standards (AASM, CE, FDA) are making PSG systems more suitable for large hospital networks. Multi-patient monitoring interfaces, smart alarm functions, and integration with therapeutic devices like CPAP/BiPAP machines are expanding the role of PSG beyond diagnostics into continuous care management.

What Market Forces Are Driving the Global Adoption of PSG Devices?

The growth in the polysomnography devices market is driven by rising awareness of sleep health, the global burden of sleep apnea, and technological convergence across diagnostics, wearables, and remote patient monitoring. A core driver is the clinical urgency to diagnose obstructive sleep apnea-affecting an estimated 1 billion people globally-with early intervention necessary to reduce comorbid cardiovascular and metabolic risks. Regulatory guidelines and reimbursement frameworks in North America and Europe are supporting wider PSG deployment. In the U.S., CMS reimbursement for home sleep tests and diagnostic PSG has improved access, especially for rural populations. Emerging markets in Asia-Pacific are also expanding insurance coverage for sleep diagnostics, encouraging private providers to invest in PSG infrastructure.

Consumerization of health is creating demand for hybrid diagnostic models. Patients prefer home-based testing for convenience and comfort, while clinicians benefit from AI-enhanced analysis and cloud reporting. This convergence is enabling device makers to target both institutional buyers and telemedicine platforms. Increased investment in sleep-focused digital health startups, cross-sector partnerships between PSG manufacturers and health IT firms, and growth of specialized sleep management programs in hospitals all point to sustained market momentum. As diagnostic precision, mobility, and affordability improve, PSG systems are set to play a central role in next-generation sleep healthcare ecosystems.

SCOPE OF STUDY:

The report analyzes the Polysomnography Devices market in terms of units by the following Segments, and Geographic Regions/Countries:

Segments:

Type (Ambulatory Polysomnography Devices, Clinical Polysomnography Devices); Application (Hospitals Application, Sleep Clinics & Diagnostic Laboratories Application, Ambulatory Surgery Centers Application, Homecare Application)

Geographic Regions/Countries:

World; United States; Canada; Japan; China; Europe (France; Germany; Italy; United Kingdom; Spain; Russia; and Rest of Europe); Asia-Pacific (Australia; India; South Korea; and Rest of Asia-Pacific); Latin America (Argentina; Brazil; Mexico; and Rest of Latin America); Middle East (Iran; Israel; Saudi Arabia; United Arab Emirates; and Rest of Middle East); and Africa.

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TABLE OF CONTENTS

I. METHODOLOGY

II. EXECUTIVE SUMMARY

III. MARKET ANALYSIS

IV. COMPETITION

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