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±¤¿ªÇÐ ¿ä¹ý(PDT)Àº ¾Ï, ÇǺÎÁúȯ, ¾È°ú Áúȯ µî ´Ù¾çÇÑ Áúȯ¿¡ ´ëÇÑ ¸Å¿ì È¿°úÀûÀÌ°í ºñħ½ÀÀûÀÎ Ä¡·á¹ýÀ¸·Î °¢±¤¹Þ°í ÀÖ½À´Ï´Ù. ÀÌ ±â¼úÀº ±¤Áõ°¨Á¦, ±¤Á¶»ç, »ê¼Ò¸¦ ÀÌ¿ëÇÏ¿© Ä¡·á È¿°ú¸¦ À¯µµÇÏ°í, ÁÖº¯ °Ç°­ÇÑ Á¶Á÷ÀÇ ¼Õ»óÀ» ÃÖ¼ÒÈ­Çϸ鼭 Ç¥Àû ¼¼Æ÷¸¦ È¿°úÀûÀ¸·Î Æı«ÇÏ´Â ±â¼úÀÔ´Ï´Ù. ·¹ÀÌÀú ±â¼ú, ¹ß±¤ ´ÙÀÌ¿Àµå(LED), Â÷¼¼´ë °¨±¤Á¦ÀÇ ¹ßÀüÀ¸·Î Ç¥ÀûÈ­µÈ ÃÖ¼Òħ½ÀÀû Ä¡·á¿¡ ´ëÇÑ ¼ö¿ä°¡ Áõ°¡Çϸ鼭 ±¤¿ªÇÐ ¿ä¹ý ±â±â ½ÃÀåÀÌ ºü¸£°Ô ¼ºÀåÇÏ°í ÀÖ½À´Ï´Ù.

½ÃÀåÀ» Çü¼ºÇÏ´Â °¡Àå Áß¿äÇÑ Æ®·»µå Áß Çϳª´Â ÇǺξϰú ±¤¼±°¢È­ÁõÀÇ À¯º´·ü Áõ°¡ÀÔ´Ï´Ù. PDT´Â ³ôÀº Á¤È®µµ, ÀûÀº ÈäÅÍ, ¿Ü·¡¿¡¼­ ½ÃÇàÇÒ ¼ö ÀÖ´Ù´Â ÀåÁ¡ ¶§¹®¿¡ ºñÈæ»öÁ¾ ÇǺξÏ(NMSC) Ä¡·á¿¡ ³Î¸® »ç¿ëµÇ°í ÀÖ½À´Ï´Ù. Àü ¼¼°èÀûÀ¸·Î Àڿܼ± ³ëÃâ°ú ÇÇºÎ¾Ï È¯ÀÚ°¡ ±ÞÁõÇÔ¿¡ µû¶ó ºñ¿ë È¿À²ÀûÀÎ ºñ¼ö¼úÀû Ä¡·á ¿É¼Ç¿¡ ´ëÇÑ Çʿ伺ÀÌ Áõ°¡ÇÏ°í ÀÖÀ¸¸ç, PDT ±â±â´Â ¿Ü°úÀû ÀýÁ¦¼úÀ̳ª ¹æ»ç¼± Ä¡·á¿Í °°Àº ÀüÅëÀûÀÎ ¹æ¹ýÀÇ ´ë¾ÈÀ¸·Î °¢±¤¹Þ°í ÀÖ½À´Ï´Ù. ¶ÇÇÑ, ¿þ¾î·¯ºí PDT ±â±â, ÇÚµåÇïµå LED ±â¹Ý ¾îÇø®ÄÉÀÌÅÍ, Ç÷º¼­ºí ±¤¼¶À¯ Ä«Å×ÅÍ µî ±¤Á¶»ç ½Ã½ºÅÛÀÇ ¹ßÀüÀ¸·Î ´Ù¾çÇÑ ÀÇ·á ÇöÀå¿¡¼­ Ä¡·áÀÇ À¯¿ë¼ºÀÌ È®´ëµÇ°í ÀÖ½À´Ï´Ù.

ƯÈ÷ Æó¾Ï, ½Äµµ¾Ï, ¹æ±¤¾Ï, µÎ°æºÎ¾Ï µî Á¾¾çÇп¡¼­ PDTÀÇ Àû¿ëÀÌ È®´ëµÇ°í ÀÖ´Â °Íµµ ½ÃÀå ¼ºÀåÀÇ ÁÖ¿ä ¿äÀÎÀÔ´Ï´Ù. PDT´Â ±âÁ¸ÀÇ È­Çпä¹ýÀ̳ª ¹æ»ç¼± Ä¡·á¿Í ´Þ¸® Àü½Å ºÎÀÛ¿ëÀÌ ÀûÀº ±¹¼Ò Ä¡·á¸¦ Á¦°øÇϹǷΠ±¹¼Ò ¶Ç´Â Àç¹ß¼º ¾Ç¼º Á¾¾ç ȯÀÚ¿¡°Ô À¯¸ÁÇÑ ¼±ÅÃÀÌ µÉ ¼ö ÀÖ½À´Ï´Ù. ±ÙÀû¿Ü¼±(NIR) ±¤¿ø, ±¤¿ªÇÐÀû ³ª³ëÀÔÀÚ, ´ÙÆÄÀå ·¹ÀÌÀú ½Ã½ºÅÛÀÇ ÃÖ±Ù ±â¼ú Çõ½ÅÀ¸·Î PDTÀÇ Ä§Åõ ±íÀÌ¿Í È¿´ÉÀÌ Çâ»óµÇ¾î Á¾¾ç ³» Ä¡·á ¹× ¼ö¼ú Áß Ä¡·á¿¡ ´ëÇÑ µµÀÔÀÌ Áõ°¡ÇÏ°í ÀÖ½À´Ï´Ù. ±³¸ð¼¼Æ÷Á¾, ÃéÀå¾Ï, Àü¸³¼±¾Ï¿¡¼­ PDTÀÇ °¡´É¼ºÀ» Ž»öÇÏ´Â Àӻ󿬱¸°¡ ÁøÇàµÊ¿¡ µû¶ó Ư¼ö PDT ±â±â¿¡ ´ëÇÑ ¼ö¿ä´Â Å©°Ô Áõ°¡ÇÒ °ÍÀ¸·Î ¿¹»óµË´Ï´Ù.

±¤¿ªÇÐ ¿ä¹ý ±â±â´Â Á¾¾çÇÐÀ» ³Ñ¾î ¾î¶»°Ô È®ÀåµÇ°í Àִ°¡?

±¤¿ªÇÐ ¿ä¹ýÀº ¿©ÀüÈ÷ ¾Ï Ä¡·á°¡ ÁÖ¿ä ºÐ¾ßÀÌÁö¸¸, ÇǺΰú, ¾È°ú, °¨¿°Áúȯ Ä¡·á¿¡µµ ³Î¸® º¸±ÞµÇ°í ÀÖ½À´Ï´Ù. ÇǺΰú¿¡¼­´Â ¿°ÁõÀ» ¾ïÁ¦ÇÏ°í ¼¼±ÕÀ» Á¦°ÅÇÏ¸ç ¸é¿ª¹ÝÀÀÀ» Á¶ÀýÇÏ´Â ´É·ÂÀ¸·Î ¿©µå¸§, °Ç¼±, ÁÖ»ç, »ç¸¶±Í µî¿¡ PDT°¡ ³Î¸® »ç¿ëµÇ°í ÀÖ½À´Ï´Ù. ÈÞ´ë¿ë °¡Á¤¿ë PDT ±â±âÀÇ °³¹ß·Î ¸¸¼º ÇǺÎÁúȯ ȯÀڵ鿡°Ô º¸´Ù Ä£¼÷ÇÏ°Ô ´Ù°¡°¥ ¼ö ÀÖ°Ô µÇ¾ú°í, ÀæÀº º´¿ø ¹æ¹®ÀÇ Çʿ伺ÀÌ ÁÙ¾îµé°í ÀÖ½À´Ï´Ù. ¶ÇÇÑ, ÇǺΠħÅõ¼º°ú ¼±ÅüºÀÌ °³¼±µÈ Â÷¼¼´ë ±¤Áõ°¨Á¦´Â ¾ÈƼ¿¡ÀÌ¡ Ä¡·á, ÈäÅÍ Ãà¼Ò µî ¹Ì¿ë ÇǺΰú¿¡¼­ PDTÀÇ È¿´ÉÀ» È®ÀåÇÏ°í ÀÖ½À´Ï´Ù.

¾È°ú ºÐ¾ß ¶ÇÇÑ PDT ±â±âÀÇ µµÀÔÀÌ Áõ°¡ÇÏ°í ÀÖ´Â ÁÖ¿ä ºÐ¾ßÀÔ´Ï´Ù. PDT´Â ³ëÈ­¼º Ȳ¹Ýº¯¼º(AMD), Á߽ɼº Àå¾×¼º ¸Á¸·Áõ(CSR), ¸Æ¶ô¸· ½Å»ýÇ÷°ü(CNV)ÀÇ Ä¡·á¿¡ È°¿ëµÇ¾î ¼º°øÀûÀÎ °á°ú¸¦ º¸ÀÌ°í ÀÖ½À´Ï´Ù. ¹öÅ×Æ÷¸£ÇÉ°ú Ư¼ö ´ÙÀÌ¿Àµå ·¹ÀÌÀú¸¦ ÀÌ¿ëÇÑ ºû ±â¹Ý Ä¡·á¹ýÀº ½Ã·Â ÀúÇϸ¦ ¾ÈÁ¤È­½ÃÅ°°í ¸Á¸·ÀÇ ºñÁ¤»óÀûÀÎ Ç÷°ü ¼ºÀåÀ» ¾ïÁ¦ÇÏ¿© ÇöÀúÇÑ °³¼± È¿°ú¸¦ º¸ÀÌ°í ÀÖ½À´Ï´Ù. ¼¼°è Àα¸ÀÇ °í·ÉÈ­¿Í ¸Á¸·Áúȯ ¹ß»ý·ü Áõ°¡¿¡ µû¶ó Á¤¹Ð Ç¥Àû PDT ±â±âÀÇ ¼ö¿ä´Â Å©°Ô Áõ°¡ÇÒ °ÍÀ¸·Î ¿¹»óµË´Ï´Ù.

»õ·Î¿î ¿¬±¸´Â Ç×±Õ ÀÀ¿ë ºÐ¾ß¿¡¼­ PDTÀÇ °¡´É¼ºÀ» ¸ð»öÇÏ°í ÀÖ½À´Ï´Ù. Ç×»ýÁ¦ ³»¼º °¨¿°ÀÌ ¸¸¿¬ÇÑ °¡¿îµ¥, PDT´Â ¼¼±Õ, °õÆÎÀÌ, ¹ÙÀÌ·¯½º °¨¿°ÀÇ ´ëü¿ä¹ýÀ¸·Î ¿¬±¸µÇ°í ÀÖ½À´Ï´Ù. ±¤È°¼º Ç×±ÕÁ¦´Â Ä¡ÁÖÁúȯ, ¸¸¼º »óó, º´¿ø³» °¨¿° Ä¡·á, ƯÈ÷ Ä¡°ú ¹× »óó °ü¸® °ü¸®¿¡¼­ À¯¸ÁÇÑ Ä¡·áÁ¦·Î Æò°¡¹Þ°í ÀÖ½À´Ï´Ù. Àú¼öÁØ ±¤Ä¡·á(LLLT)¿Í Ç×±Õ ±¤¿ªÇÐ ¿ä¹ý(aPDT)ÀÇ Çõ½ÅÀº °¨¿° Á¦¾î ¹× »óó Ä¡À¯¿¡ ¸ÂÃá Â÷¼¼´ë PDT ±â±âÀÇ ±æÀ» ¿­°í ÀÖ½À´Ï´Ù.

PDT ±â±â °³¹ß¿¡¼­ ±â¼ú ¹ßÀüÀÌ Â÷ÁöÇÏ´Â ¿ªÇÒÀº ¹«¾ùÀΰ¡?

PDT ±â±âÀÇ ±Þ¼ÓÇÑ ¹ßÀüÀº ±¤¿ø, °¨±¤Á¦, ¾à¹°°ú ±â±âÀÇ ÅëÇÕ¿¡ ´ëÇÑ ±â¼úÀû Áøº¸¿¡ ÀÇÇØ ÀÌ·ç¾îÁ³½À´Ï´Ù. ±âÁ¸ÀÇ PDT Ä¡·á´Â ±¤¹üÀ§ÇÑ ½ºÆåÆ®·³ÀÇ ±¤¿ø¿¡ ÀÇÁ¸ÇßÁö¸¸, ÃֽŠ±â±â´Â ´õ ³ôÀº Á¤È®µµ, ´õ ±íÀº Á¶Á÷ ħÅõ, ÃÖÀûÈ­µÈ ±¤¼±·® ÃøÁ¤À» °¡´ÉÇÏ°Ô ÇÏ´Â Æ©³Êºí ·¹ÀÌÀú ½Ã½ºÅÛ, °íÈÖµµ LED, ±¤¼¶À¯ ³»½Ã°æ ¾îÇø®ÄÉÀÌÅ͸¦ °®Ãß°í ÀÖ½À´Ï´Ù. ÀÌ·¯ÇÑ °³¼±À¸·Î Ä¡·áÀÇ ¼±Åüº°ú ȯÀÚÀÇ Ä¡·á °á°ú°¡ Å©°Ô Çâ»óµÇ¾î PDT´Â ħ½ÀÀû ½Ã¼ú¿¡ ´ëÇÑ º¸´Ù Çö½ÇÀûÀÎ ´ë¾ÈÀÌ µÇ°í ÀÖ½À´Ï´Ù.

°¡Àå Çõ½ÅÀûÀÎ ±â¼ú Çõ½Å Áß Çϳª´Â ³ª³ë±â¼úÀ» ±â¹ÝÀ¸·Î ÇÑ PDTÀÇ °³¹ßÀÔ´Ï´Ù. ³ª³ëÀÔÀÚ¸¦ ¸Å°³·Î ÇÑ ±¤Áõ°¨Á¦´Â ¾à¹°ÀÇ ¾ÈÁ¤¼ºÀ» Çâ»ó½ÃÅ°°í, ƯÁ¤ ¾Ï¼¼Æ÷¸¦ Ç¥ÀûÀ¸·Î »ï¾Æ ±¤Èí¼ö È¿À²À» ³ôÀÔ´Ï´Ù. ±Ý ³ª³ëÀÔÀÚ, ¾çÀÚÁ¡, ¾÷ÄÁ¹öÀü ³ª³ëÀÔÀÚ(UCNP)°¡ PDT Á¦Á¦¿¡ ÅëÇյǰí ÀÖÀ¸¸ç, Á¾¾ç ƯÀ̼º Çâ»ó, ´õ ±íÀº Á¶Á÷ ħÅõ, Àü½Å µ¶¼º °¨¼Ò·Î À̾îÁö°í ÀÖ½À´Ï´Ù. ¶ÇÇÑ, »ýºÐÇؼº ¹× ´Ù±â´É ³ª³ëÀÔÀÚ´Â ¾à¹° ¹æÃâ Á¶Àý ¹× ½Ã³ÊÁö º´¿ë¿ä¹ýÀ» °¡´ÉÇÏ°Ô ÇÏ¿© PDTÀÇ Ä¡·á °¡´É¼ºÀ» ´õ¿í ³ôÀÌ°í ÀÖ½À´Ï´Ù.

¶Ç ´Ù¸¥ ¹ßÀüÀº ÀÚµ¿È­µÈ AI ±â¹Ý PDT ½Ã½ºÅÛÀÇ µîÀåÀÔ´Ï´Ù. ±â°è ÇнÀ ¾Ë°í¸®ÁòÀÌ ½Ç½Ã°£ ¼±·® ¸ð´ÏÅ͸µ ¹× Ä¡·á °èȹ¿¡ ÅëÇÕµÇ¾î °³º°È­µÈ ±¤¼± Á¶»ç ¹× ÀûÀÀÇü Ä¡·á ÇÁ·ÎÅäÄÝÀ» °¡´ÉÇÏ°Ô ÇÕ´Ï´Ù. ÀÌ·¯ÇÑ AI¸¦ È°¿ëÇÑ PDT ±â±â´Â Ä¡·á ¹ÝÀÀÀÇ ÃÖÀûÈ­, Ä¡·á °á°úÀÇ ÆíÂ÷ °¨¼Ò, ÀÓ»óÀÇÀÇ È¿À²¼º Çâ»ó¿¡ µµ¿òÀÌ µË´Ï´Ù. ¶ÇÇÑ, ½º¸¶Æ® PDT ¿þ¾î·¯ºí ¹× ¹«¼± ¹ß±¤ ÆÐÄ¡ÀÇ °³¹ß·Î ƯÈ÷ ÇǺΰú ¹× »óó Ä¡À¯¿¡ ´ëÇÑ ÀÀ¿ë¿¡¼­ ÀçÅà ġ·á°¡ ½Ç¿ëÈ­µÇ°í ÀÖ½À´Ï´Ù.

±¤¿ªÇÐ ¿ä¹ý ±â±â ½ÃÀåÀÇ ¼ºÀåÀ» ÃËÁøÇÏ´Â ÁÖ¿ä ¿äÀÎÀº ¹«¾ùÀΰ¡?

±¤¿ªÇÐ ¿ä¹ý ±â±â ½ÃÀåÀÇ ¼ºÀåÀº ÀÇ·á ¿ëµµ È®´ë, ¸¸¼ºÁúȯ À¯º´·ü Áõ°¡, ±â¼ú ¹ßÀü, ÃÖ¼Òħ½ÀÀû Ä¡·á¿¡ ´ëÇÑ È¯ÀÚ ¼±È£µµ Áõ°¡ µî ¿©·¯ ¿äÀο¡ ÀÇÇØ ÁÖµµµÇ°í ÀÖ½À´Ï´Ù. ƯÈ÷ ÇǺξÏ, Æó¾Ï, ½Äµµ¾Ï µî Àü ¼¼°è ¾Ï ¹ßº´·üÀÇ Áõ°¡´Â ±¤Á¶»ç ¹× Ä¡·á Á¤È®µµ¸¦ ³ôÀΠ÷´Ü PDT ±â±â¿¡ ´ëÇÑ ¼ö¿ä¸¦ ÃËÁøÇÏ°í ÀÖ½À´Ï´Ù. PDT°¡ »õ·Î¿î ÀûÀÀÁõ¿¡ ´ëÇÑ ±ÔÁ¦ ´ç±¹ÀÇ ½ÂÀÎÀ» °è¼Ó ȹµæÇÔ¿¡ µû¶ó, Á¾¾çÇаú ¹× ÇǺΰú Ŭ¸®´Ð¿¡¼­ÀÇ Ã¤ÅÃÀÌ Å©°Ô Áõ°¡ÇÒ °ÍÀ¸·Î ¿¹»óµË´Ï´Ù.

¶Ç ´Ù¸¥ Áß¿äÇÑ ¼ºÀå ¿äÀÎÀº ÇǺΰú Áúȯ°ú ¹Ì¿ë Ä¡·áÀÇ ±ÞÁõÀÔ´Ï´Ù. ºñħ½ÀÀû ºû ±â¹Ý ÇǺΠġ·á¿¡ ´ëÇÑ ¼ÒºñÀÚÀÇ ¼ö¿ä°¡ Áõ°¡ÇÔ¿¡ µû¶ó PDT ±â±â´Â ³ëÈ­ ¹æÁö, ¿©µå¸§ Ä¡·á, »ö¼Ò ħÂø ¼öÁ¤¿¡ ³Î¸® »ç¿ëµÇ°í ÀÖ½À´Ï´Ù. ¿þ¾î·¯ºí LED ¸¶½ºÅ©, ÇÚµåÇïµå ·¹ÀÌÀú ½Ã½ºÅÛ µî ÈÞ´ë¿ë ¹× ¼ÒºñÀÚ Ä£È­ÀûÀÎ PDT ±â±âÀÇ Ãâ½Ã·Î ÀÌ Ä¡·á¹ýÀº °¡Á¤ »ç¿ëÀÚ ¹× ¹Ì¿ë ÇǺΰú Ŭ¸®´Ð¿¡ ´õ¿í Ä£¼÷ÇÏ°Ô ´Ù°¡°¥ ¼ö ÀÖ°Ô µÇ¾ú½À´Ï´Ù.

¸ÂÃãÇü ÀÇ·á¿Í Á¤¹ÐÀÇ·á·ÎÀÇ Àüȯµµ PDT ½ÃÀå È®´ë¿¡ ¿µÇâÀ» ¹ÌÄ¡°í ÀÖ½À´Ï´Ù. AI°¡ žÀçµÈ PDT ½Ã½ºÅÛÀº ºûÀÇ Á¶»ç·®, Ä¡·á ½Ã°£, ÆÄÀåÀ» ¸ÂÃãÈ­ÇÒ ¼ö Àֱ⠶§¹®¿¡ PDT´Â °³ÀÎÈ­µÈ Á¾¾çÇÐ ¹× Ç¥Àû °¨¿° °ü¸®¸¦ À§ÇÑ ½ÇÇà °¡´ÉÇÑ ¼±ÅÃÀÌ µÉ ¼ö ÀÖ½À´Ï´Ù. ¶ÇÇÑ PDT¿Í ¸é¿ª¿ä¹ý, È­Çпä¹ý, ºÐÀÚÇ¥Àû Ä¡·áÁ¦¿ÍÀÇ º´¿ë¿ä¹ý µîÀÇ °³¹ß·Î ´ÙÁ¦³»¼º Á¾¾ç ¹× Àç¹ß¾ÏÀÇ Ä¡·áÈ¿°ú°¡ Çâ»óµÇ°í ÀÖ½À´Ï´Ù.

¾È°ú ¹× »óó Ä¡À¯ ºÐ¾ß¿¡¼­ PDTÀÇ Ã¤ÅÃÀÌ Áõ°¡ÇÔ¿¡ µû¶ó ½ÃÀå ¼ºÀåÀ» ´õ¿í ÃËÁøÇÏ°í ÀÖ½À´Ï´Ù. Ȳ¹Ýº¯¼º, ¸¸¼º »óó, ´ç´¢º´¼º ±Ë¾çÀÇ À¯º´·üÀÌ Áõ°¡ÇÔ¿¡ µû¶ó PDT ±â¹Ý Ä¡·á´Â ±âÁ¸ Ä¡·á¹ýÀ¸·Î´Â ÃæºÐÇÏÁö ¾Ê¾Ò´ø È¿°úÀûÀÌ°í ºñħ½ÀÀûÀÎ ÇØ°áÃ¥À» Á¦°øÇÏ°í ÀÖ½À´Ï´Ù. ½Å°æÅðÇ༺ Áúȯ¿¡ ´ëÇÑ Àú°­µµ PDTÀÇ Çõ½Åµµ ½ÃÀå °¡´É¼ºÀ» È®´ëÇÏ°í ÀÖÀ¸¸ç, ÀüÀÓ»ó ¿¬±¸¿¡¼­ ¾ËÃ÷ÇÏÀ̸Ӻ´°ú ÆÄŲ½¼º´ Ä¡·á¿¡ ´ëÇÑ PDT Àû¿ëÀÌ ¸ð»öµÇ°í ÀÖ½À´Ï´Ù.

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Global Photodynamic Therapy Devices Market to Reach US$878.1 Million by 2030

The global market for Photodynamic Therapy Devices estimated at US$590.7 Million in the year 2024, is expected to reach US$878.1 Million by 2030, growing at a CAGR of 6.8% over the analysis period 2024-2030. Diode Lasers, one of the segments analyzed in the report, is expected to record a 5.6% CAGR and reach US$500.5 Million by the end of the analysis period. Growth in the Disposable Fiber Optic Light Delivery Devices segment is estimated at 8.7% CAGR over the analysis period.

The U.S. Market is Estimated at US$160.9 Million While China is Forecast to Grow at 10.5% CAGR

The Photodynamic Therapy Devices market in the U.S. is estimated at US$160.9 Million in the year 2024. China, the world's second largest economy, is forecast to reach a projected market size of US$180.5 Million by the year 2030 trailing a CAGR of 10.5% over the analysis period 2024-2030. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at a CAGR of 3.5% and 6.6% respectively over the analysis period. Within Europe, Germany is forecast to grow at approximately 4.5% CAGR.

Global Photodynamic Therapy Devices Market - Key Trends & Drivers Summarized

Photodynamic therapy (PDT) is emerging as a highly effective, non-invasive treatment for various medical conditions, including cancer, dermatological diseases, and ophthalmic disorders. This technique leverages photosensitizing agents, light exposure, and oxygen to induce a therapeutic effect, effectively destroying targeted cells while minimizing damage to surrounding healthy tissues. With increasing demand for targeted, minimally invasive therapies, the market for photodynamic therapy devices is expanding rapidly, driven by advancements in laser technology, light-emitting diodes (LEDs), and next-generation photosensitizers.

One of the most significant trends shaping the market is the rising prevalence of skin cancers and actinic keratosis. PDT is widely used for non-melanoma skin cancer (NMSC) treatment due to its high precision, minimal scarring, and outpatient feasibility. With the global surge in UV exposure and skin cancer cases, there is an increasing need for cost-effective, non-surgical treatment options, making PDT devices an attractive alternative to conventional methods such as surgical excision and radiotherapy. Additionally, advancements in light delivery systems-including wearable PDT devices, handheld LED-based applicators, and flexible fiber-optic catheters-are expanding the treatment’s usability across different medical settings.

Another key driver of market growth is the growing application of PDT in oncology, particularly for lung, esophageal, bladder, and head and neck cancers. Unlike traditional chemotherapy and radiation, PDT offers localized treatment with fewer systemic side effects, making it a promising option for patients with localized or recurrent malignancies. Recent innovations in near-infrared (NIR) light sources, photodynamic nanoparticles, and multi-wavelength laser systems have enhanced the penetration depth and efficacy of PDT, increasing its adoption in internal tumor therapy and intraoperative treatments. As clinical research continues to explore the potential of PDT in glioblastoma, pancreatic cancer, and prostate cancer, the demand for specialized PDT devices is expected to rise significantly.

How Are Photodynamic Therapy Devices Expanding Beyond Oncology?

While oncology remains a primary area of focus, photodynamic therapy is gaining traction in dermatology, ophthalmology, and infectious disease treatment. In dermatology, PDT is widely used for acne, psoriasis, rosacea, and warts due to its ability to reduce inflammation, eliminate bacteria, and modulate immune responses. The development of portable, home-use PDT devices is making this treatment more accessible for patients with chronic skin conditions, reducing the need for frequent clinical visits. Furthermore, new-generation photosensitizers with improved skin penetration and selectivity are expanding PDT’s effectiveness in cosmetic dermatology, including anti-aging treatments and scar reduction.

The ophthalmology sector is another key area witnessing increased adoption of PDT devices. PDT has been successfully utilized in the treatment of age-related macular degeneration (AMD), central serous retinopathy (CSR), and choroidal neovascularization (CNV). Light-based therapies using verteporfin and specialized diode lasers have demonstrated significant improvements in stabilizing vision loss and reducing abnormal blood vessel growth in the retina. With the aging global population and increasing incidence of retinal disorders, the demand for precision-targeted PDT devices is expected to grow substantially.

Emerging research is also exploring the potential of PDT in antimicrobial applications. With the increasing prevalence of antibiotic-resistant infections, PDT is being investigated as an alternative therapy for bacterial, fungal, and viral infections. Light-activated antimicrobial agents are showing promise in treating periodontal diseases, chronic wounds, and hospital-acquired infections, particularly in dentistry and wound care management. Innovations in low-level light therapy (LLLT) and antimicrobial photodynamic therapy (aPDT) are paving the way for new-generation PDT devices tailored for infection control and wound healing.

What Role Do Technological Advancements Play in PDT Device Development?

The rapid evolution of PDT devices is being driven by technological advancements in light sources, photosensitizers, and drug-device integration. Traditional PDT treatments relied on broad-spectrum light sources, but modern devices are now equipped with tunable laser systems, high-intensity LEDs, and fiber-optic endoscopic applicators that allow greater precision, deeper tissue penetration, and optimized light dosimetry. These improvements have significantly enhanced treatment selectivity and patient outcomes, making PDT a more viable alternative to invasive procedures.

One of the most transformative innovations is the development of nanotechnology-based PDT. Nanoparticle-mediated photosensitizers are improving drug stability, targeting specific cancer cells, and enhancing light absorption efficiency. Gold nanoparticles, quantum dots, and upconversion nanoparticles (UCNPs) are being integrated into PDT formulations, leading to improved tumor specificity, deeper tissue penetration, and reduced systemic toxicity. Additionally, biodegradable and multi-functional nanoparticles are enabling controlled drug release and synergistic combination therapies, further increasing the therapeutic potential of PDT.

Another breakthrough is the rise of automated and AI-driven PDT systems. Machine learning algorithms are being integrated into real-time dosimetry monitoring and treatment planning, allowing for personalized light exposure and adaptive therapy protocols. These AI-enhanced PDT devices help optimize treatment response, reduce variability in therapeutic outcomes, and improve clinician efficiency. Additionally, the development of smart PDT wearables and wireless light-emitting patches is making home-based therapy a practical reality, particularly for dermatological and wound-healing applications.

What Are the Key Factors Driving the Growth of the Photodynamic Therapy Devices Market?

The growth in the photodynamic therapy devices market is driven by several factors, including expanding medical applications, rising incidence of chronic diseases, technological advancements, and increasing patient preference for minimally invasive treatments. The rising burden of cancer worldwide, particularly skin, lung, and esophageal cancers, is fueling demand for advanced PDT devices with enhanced light delivery and treatment precision. As PDT continues to gain regulatory approvals for new indications, its adoption in oncology and dermatology clinics is expected to increase significantly.

Another critical growth driver is the surge in dermatological disorders and aesthetic treatments. With growing consumer demand for non-invasive, light-based skin therapies, PDT devices are being widely used in anti-aging, acne treatment, and hyperpigmentation correction. The launch of portable and consumer-friendly PDT devices, such as wearable LED masks and handheld laser systems, is making this therapy more accessible to home users and cosmetic dermatology clinics.

The global shift toward personalized and precision medicine is also influencing PDT market expansion. The ability of AI-powered PDT systems to tailor light dosage, treatment duration, and wavelength customization is making PDT a viable option for personalized oncology and targeted infectious disease management. Additionally, the development of combination PDT therapies-such as PDT with immunotherapy, chemotherapy, and targeted molecular agents-is improving treatment efficacy in multi-drug-resistant tumors and recurrent cancers.

The increasing adoption of PDT in ophthalmology and wound healing is further boosting market growth. With the rising prevalence of macular degeneration, chronic wounds, and diabetic ulcers, PDT-based therapies are offering effective, non-invasive solutions where traditional treatments fall short. Innovations in low-intensity PDT for neurodegenerative disorders are also expanding the market potential, with preclinical research exploring PDT applications in Alzheimer’s and Parkinson’s disease treatment.

As research and development efforts continue to push the boundaries of PDT applications, the market is expected to experience significant technological advancements and commercial expansion. The introduction of next-generation photosensitizers, AI-assisted treatment planning, and hybrid PDT-nanomedicine therapies will further solidify PDT’s role as a mainstream therapeutic modality across oncology, dermatology, ophthalmology, and infectious disease management.

SCOPE OF STUDY:

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

Segments:

Product (Diode Lasers, Disposable Fiber Optic Light Delivery Devices); Application (Cancer, Actinic Keratosis, Acne, Psoriasis, Others); End-Use (Hospitals, Clinics & Dermatology Centers, Others)

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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