ICD-10-CM/PCS MS-DRG v43.0 Definitions Manual
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ICD-10-CM/PCS MS-DRG v43.0 Definitions Manual |
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| MDC 05 Diseases and Disorders of the Circulatory System |
| Other Vascular Procedures |
| Page 24 of 24 |
OPERATING ROOM PROCEDURES (continued)
00HE0MZ 02VS0CZ 03160A5 037404Z 037H4DZ 039P0ZX 03LA3CZ 03RM4JZ 03UV0KZ 041M4JS 047405Z 047F0DZ 047S36Z 04BY3ZX 04PY4CZ 04UE4KZ 051M0ZY 059D0ZX 05LD3DZ 05ST4ZZ 061G49Y 06H24DZ 06UM3JZ 0GWS00Z
| 0GWS00Z | Revision of Drainage Device in Endocrine Gland, Open Approach |
| 0GWS02Z | Revision of Monitoring Device in Endocrine Gland, Open Approach |
| 0GWS03Z | Revision of Infusion Device in Endocrine Gland, Open Approach |
| 0GWS0YZ | Revision of Other Device in Endocrine Gland, Open Approach |
| 0GWS30Z | Revision of Drainage Device in Endocrine Gland, Percutaneous Approach |
| 0GWS32Z | Revision of Monitoring Device in Endocrine Gland, Percutaneous Approach |
| 0GWS33Z | Revision of Infusion Device in Endocrine Gland, Percutaneous Approach |
| 0GWS40Z | Revision of Drainage Device in Endocrine Gland, Percutaneous Endoscopic Approach |
| 0GWS42Z | Revision of Monitoring Device in Endocrine Gland, Percutaneous Endoscopic Approach |
| 0GWS43Z | Revision of Infusion Device in Endocrine Gland, Percutaneous Endoscopic Approach |
| 0JH60BZ | Insertion of Single Array Stimulator Generator into Chest Subcutaneous Tissue and Fascia, Open Approach |
| 0JH60CZ | Insertion of Single Array Rechargeable Stimulator Generator into Chest Subcutaneous Tissue and Fascia, Open Approach |
| 0JH60DZ | Insertion of Multiple Array Stimulator Generator into Chest Subcutaneous Tissue and Fascia, Open Approach |
| 0JH60EZ | Insertion of Multiple Array Rechargeable Stimulator Generator into Chest Subcutaneous Tissue and Fascia, Open Approach |
| 0JH60MZ | Insertion of Stimulator Generator into Chest Subcutaneous Tissue and Fascia, Open Approach |
| 0JH63BZ | Insertion of Single Array Stimulator Generator into Chest Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH63CZ | Insertion of Single Array Rechargeable Stimulator Generator into Chest Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH63DZ | Insertion of Multiple Array Stimulator Generator into Chest Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH63EZ | Insertion of Multiple Array Rechargeable Stimulator Generator into Chest Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH63MZ | Insertion of Stimulator Generator into Chest Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH70BZ | Insertion of Single Array Stimulator Generator into Back Subcutaneous Tissue and Fascia, Open Approach |
| 0JH70CZ | Insertion of Single Array Rechargeable Stimulator Generator into Back Subcutaneous Tissue and Fascia, Open Approach |
| 0JH70DZ | Insertion of Multiple Array Stimulator Generator into Back Subcutaneous Tissue and Fascia, Open Approach |
| 0JH70EZ | Insertion of Multiple Array Rechargeable Stimulator Generator into Back Subcutaneous Tissue and Fascia, Open Approach |
| 0JH70MZ | Insertion of Stimulator Generator into Back Subcutaneous Tissue and Fascia, Open Approach |
| 0JH73BZ | Insertion of Single Array Stimulator Generator into Back Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH73CZ | Insertion of Single Array Rechargeable Stimulator Generator into Back Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH73DZ | Insertion of Multiple Array Stimulator Generator into Back Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH73EZ | Insertion of Multiple Array Rechargeable Stimulator Generator into Back Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH73MZ | Insertion of Stimulator Generator into Back Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH80BZ | Insertion of Single Array Stimulator Generator into Abdomen Subcutaneous Tissue and Fascia, Open Approach |
| 0JH80CZ | Insertion of Single Array Rechargeable Stimulator Generator into Abdomen Subcutaneous Tissue and Fascia, Open Approach |
| 0JH80DZ | Insertion of Multiple Array Stimulator Generator into Abdomen Subcutaneous Tissue and Fascia, Open Approach |
| 0JH80EZ | Insertion of Multiple Array Rechargeable Stimulator Generator into Abdomen Subcutaneous Tissue and Fascia, Open Approach |
| 0JH80MZ | Insertion of Stimulator Generator into Abdomen Subcutaneous Tissue and Fascia, Open Approach |
| 0JH83BZ | Insertion of Single Array Stimulator Generator into Abdomen Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH83CZ | Insertion of Single Array Rechargeable Stimulator Generator into Abdomen Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH83DZ | Insertion of Multiple Array Stimulator Generator into Abdomen Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH83EZ | Insertion of Multiple Array Rechargeable Stimulator Generator into Abdomen Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JH83MZ | Insertion of Stimulator Generator into Abdomen Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0W3C0ZZ | Control Bleeding in Mediastinum, Open Approach |
| 0W3C3ZZ | Control Bleeding in Mediastinum, Percutaneous Approach |
| 0W3C4ZZ | Control Bleeding in Mediastinum, Percutaneous Endoscopic Approach |
| X0HK3Q8 | Insertion of Neurostimulator Lead into Sphenopalatine Ganglion, Percutaneous Approach, New Technology Group 8 |
| X0HQ3R8 | Insertion of Neurostimulator Lead with Paired Stimulation System into Vagus Nerve, Percutaneous Approach, New Technology Group 8 |
| X27339B | Dilation of Right Pulmonary Artery with Expandable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27439B | Dilation of Left Pulmonary Artery with Expandable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27535B | Dilation of Right Subclavian Vein with Cell Impermeable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27635B | Dilation of Left Subclavian Vein with Cell Impermeable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27735B | Dilation of Right Axillary Vein with Cell Impermeable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27835B | Dilation of Left Axillary Vein with Cell Impermeable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27935B | Dilation of Right Brachial Vein with Cell Impermeable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27A35B | Dilation of Left Brachial Vein with Cell Impermeable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27B35B | Dilation of Right Basilic Vein with Cell Impermeable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27C35B | Dilation of Left Basilic Vein with Cell Impermeable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27D35B | Dilation of Right Cephalic Vein with Cell Impermeable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27E35B | Dilation of Left Cephalic Vein with Cell Impermeable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27P3TA | Dilation of Right Anterior Tibial Artery with Intraluminal Device, Everolimus-eluting Resorbable Scaffold(s), Percutaneous Approach, New Technology Group 10 |
| X27Q3TA | Dilation of Left Anterior Tibial Artery with Intraluminal Device, Everolimus-eluting Resorbable Scaffold(s), Percutaneous Approach, New Technology Group 10 |
| X27R3TA | Dilation of Right Posterior Tibial Artery with Intraluminal Device, Everolimus-eluting Resorbable Scaffold(s), Percutaneous Approach, New Technology Group 10 |
| X27S3TA | Dilation of Left Posterior Tibial Artery with Intraluminal Device, Everolimus-eluting Resorbable Scaffold(s), Percutaneous Approach, New Technology Group 10 |
| X27T3TA | Dilation of Right Peroneal Artery with Intraluminal Device, Everolimus-eluting Resorbable Scaffold(s), Percutaneous Approach, New Technology Group 10 |
| X27U3TA | Dilation of Left Peroneal Artery with Intraluminal Device, Everolimus-eluting Resorbable Scaffold(s), Percutaneous Approach, New Technology Group 10 |
| X27W39B | Dilation of Thoracic Aorta, Descending with Expandable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X27X39B | Dilation of Thoracic Aorta, Ascending/Arch with Expandable Intraluminal Device, Percutaneous Approach, New Technology Group 11 |
| X2H13R9 | Insertion of Intraluminal Device, Bioprosthetic Valve into Superior Vena Cava, Percutaneous Approach, New Technology Group 9 |
| X2H20R9 | Insertion of Intraluminal Device, Bioprosthetic Valve into Right Femoral Vein, Open Approach, New Technology Group 9 |
| X2H30R9 | Insertion of Intraluminal Device, Bioprosthetic Valve into Left Femoral Vein, Open Approach, New Technology Group 9 |
| X2HL0F9 | Insertion of Conduit to Short-term External Heart Assist System into Right Axillary Artery, Open Approach, New Technology Group 9 |
| X2HM0F9 | Insertion of Conduit to Short-term External Heart Assist System into Left Axillary Artery, Open Approach, New Technology Group 9 |
| X2HX0F9 | Insertion of Conduit to Short-term External Heart Assist System into Thoracic Aorta, Ascending, Open Approach, New Technology Group 9 |
| X2KH3D9 | Bypass Right Femoral Artery using Conduit through Femoral Vein to Superficial Femoral Artery, Percutaneous Approach, New Technology Group 9 |
| X2KH3E9 | Bypass Right Femoral Artery using Conduit through Femoral Vein to Popliteal Artery, Percutaneous Approach, New Technology Group 9 |
| X2KJ3D9 | Bypass Left Femoral Artery using Conduit through Femoral Vein to Superficial Femoral Artery, Percutaneous Approach, New Technology Group 9 |
| X2KJ3E9 | Bypass Left Femoral Artery using Conduit through Femoral Vein to Popliteal Artery, Percutaneous Approach, New Technology Group 9 |
| X2R50WA | Replacement of Right Upper Extremity Artery using Bioengineered Human Acellular Vessel, Open Approach, New Technology Group 10 |
| X2R60WA | Replacement of Left Upper Extremity Artery using Bioengineered Human Acellular Vessel, Open Approach, New Technology Group 10 |
| X2R70WA | Replacement of Right Lower Extremity Artery using Bioengineered Human Acellular Vessel, Open Approach, New Technology Group 10 |
| X2R80WA | Replacement of Left Lower Extremity Artery using Bioengineered Human Acellular Vessel, Open Approach, New Technology Group 10 |
| X2UQ0P9 | Supplement Right Upper Extremity Vein with Synthetic Substitute, Extraluminal Support Device, Open Approach, New Technology Group 9 |
| X2UR0P9 | Supplement Left Upper Extremity Vein with Synthetic Substitute, Extraluminal Support Device, Open Approach, New Technology Group 9 |
NON-OPERATING ROOM PROCEDURES
| 0JWT0MZ* | Revision of Stimulator Generator in Trunk Subcutaneous Tissue and Fascia, Open Approach |
| 0JWT3MZ* | Revision of Stimulator Generator in Trunk Subcutaneous Tissue and Fascia, Percutaneous Approach |
| 0JWTXMZ* | Revision of Stimulator Generator in Trunk Subcutaneous Tissue and Fascia, External Approach |
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Centers for Medicare & Medicaid Services, 7500 Security Boulevard Baltimore, MD 21244 22 Jul 2025 11:22:30 CMS, code-revision=376, description-revision=1445 |