Quality – AI-Powered Double Reading

Oxipit Quality is an AI double-reading medical imaging tool. The product analyzes final radiologist reports and corresponding medical images. Operating in near-real-time, Oxipit Quality helps to identify reporting errors and improve patient outcomes.

AI-Powered Double Reading Imaging Audit

Radiology involves decision-making under conditions of uncertainty, and therefore cannot always produce infallible interpretations or reports. The ‘error’ or ‘discrepancy’ rate varies from medical to medical institution, yet no one is immune from mistakes.

Up to

5%

“real time” error-rate in day to day radiological practice

19%

of lung cancers presenting as a nodular lesion were missed

Up to

0.5%

of all CXR reports include impactful errors identified at ChestLink deployment sites

Oxipit Quality provides radiologists with ‘a second set of eyes’. If potential discrepancies are found in the study report, the platform notifies the radiologist and invites to take another look.

Oxipit Quality Workflow

Image and radiologist report sent to Oxipit Quality

Oxipit Quality

Provides a list of “mismatches”

Oxipit Radiologist

Validates discrepancies. Flags the case for second look.

Hospital radiologist

Reviews the case. Finalizes the report.

Final report

Works with

Chest X-rays
MSK X-rays
MG studies
CT Studies
The Quality software now supports musculoskeletal, mammography and CT Pulmonary embolism study modalities. As with CXR studies, Quality for MSK, MG and CT PE follows the same workflow for quality assurance.

How it works?

Retrospective Analysis

An audit of 6 month imaging study reports helps to establish an error/discrepancy threshold at your organization.

AI Powered Double Reading Internal Imaging Audit

1

Medical institution provides access to 6 month imaging studies.

VPN, VM and Data

2

Oxipit runs an AI algorithm to identify discrepancies.

Findings validated by an Oxipit radiologist

3

Validated case-by-case error report of full 6 month backlog is provided to the medical institution.

Takes only 7 days!

Prospective Operations

The radiologist and Oxipit Quality operate as a team. After inputting the final report, the platform notifies the radiologists if any discrepancies were found.

Email Notifications

The radiologist receives an email notification with the link to the corresponding case to take another look.

Analytical Page

Cases are presented in the analytical page for in-depth analysis and performance statistics.

Key Oxipit Quality benefits

Improve Diagnostic Performance

Prospective Quality Audit enables the radiology department to identify most common mistakes, call for extra attention or provide additional training to mitigate the risk of misdiagnosis.

Improve Patient Outcomes

Operation in near-real time can help to change treatment decisions before, for instance, the patient is discharged from the hospital, or to call up the patient for an additional follow up.

Key Oxipit Quality features

Quick and Simple Deployment

Retrospective analysis is performed in 7 days. Full prospective operations can be started in as soon as 30 days. Minimal technical involvement is required from the client side to make the platform integration.

Fully GDPR Compliant

Oxipit Quality adheres to strict privacy regulations. All identifiable data is anonymized and the platform operates onsite.

Only Relevant Notifications

The platform only sends notifications on suspected errors where it is highly certain that a reporting discrepancy was found, eliminating ‘false-positives’ which may result from textual interpretations.

Multilingual support

No matter in which language your organization produces study reports, our platform can ingest radiological reports (report in) in any world language.

Built upon ChestEye Imaging Suite

ChestEye Quality builds upon the vanguard capabilities of the ChestEye imaging suite, which supports 75 most common radiological findings covering 90% of pathologies encountered at a medical institution on a daily basis.

Supported Findings

  1. Abnormal Rib
  2. Aortic Sclerosis
  3. Artificial Heart Valve
  4. Azygos Lobe
  5. Barium Swallow
  6. Bowel Gas
  7. Bullous Emphysema
  8. Catheter Malposition
  9. Chest Tube
  10. Congestion
  11. Consolidation
  12. CV Catheter RA Placement
  13. CV Catheter SVC Placement
  14. Cyst
  15. Dislocated Mediastinum
  16. Edema
  17. Elevated Diaphragm
  18. Endovascular Stent
  19. Enlarged Aorta
  20. Enlarged Heart
  21. Esophageal Stent
  22. Fibrosis
  23. Fissural Thickening
  24. Gastric Bubble
  25. Goitre
  26. Granuloma
  27. HD Catheter RA Placement
  28. HD Catheter SVC Placement
  29. Hernia
  30. Hilar Prominence
  31. Hypertension
  32. Hypoventilation
  33. Interstitial Markings
  34. Intra Aortic Balloon
  35. Intubation
  36. Intubation Malposition
  37. Kyphosis
  38. Ligament Ossification
  39. Linear Atelectasis
  40. Lobar Collapse
  41. Loculated Effusion
  42. Lymph Node Calcification
  43. Lymphadenopathy
  44. Mass
  45. Nasogastric Tube
  46. Osteoporosis
  47. Pacemaker
  48. Pericardial Effusion
  49. Pleural Adhesion
  50. Pleural Effusion
  51. Pleural Plaque
  52. Pleural Thickening
  53. Pneumomediastinum
  54. Pneumoperitoneum
  55. Pneumothorax
  56. Pulmonary Cavity
  57. Pulmonary Emphysema
  58. Removed Lung
  59. Respiratory Distress Syndrome
  60. Retrosternal Airspace Obliteration
  61. Rib Resection
  62. Sarcoidosis
  63. Scoliosis
  64. Spinal Compression Fracture
  65. Spinal Degenerative Changes
  66. Spinal Enthesopathy
  67. Spinal Implant
  68. Spondylosis
  69. Sternal Wires
  70. Subcutaneous Emphysema
  71. Thymus
  72. Tracheal Stent
  73. Tuberculosis
  74. Ventricular Assist Device
  75. Widened Mediastinum