Cloud-baserade PACS (Picture Archiving and Communication Systems) och teleradiologiska tjänster omvandlar medicinsk bild genom att tillåta fjärråtkomst till diagnostiska bilder. emellertid, överföring av patientdata till molnmiljöer kräver noggrann uppmärksamhet på integritet och säkerhet. Denna guide visar hur man implementerar DICOM anonymisering för molnet och teleadiologi arbetsflöden med hjälp av Aspose.Medical för .NET.
Varför anonyma för moln och radiologi?
När DICOM-bilder lämnar sjukhusnätverket för molnlagring eller fjärrläsning gäller ytterligare sekretessbehov:
- Data residens: Patientdata kan överskrida geografiska gränser där olika bestämmelser gäller
- Tredjepartsåtkomst: Cloud-leverantörer och teleradiologistjänster är affärspartner under HIPAA
- Nätverksöverföring: Data som passerar internet kräver ytterligare skydd
- Multi-tenant miljöer: Cloud-system kan lagra data från flera sjukvårdsorganisationer
- Remote radiologer: Externa läsare kanske inte behöver tillgång till patientidentifierare
Anonymisering skapar ett säkerhetsskikt som skyddar patientens integritet även om andra säkerhetsåtgärder misslyckas.
Cloud Upload Anonymiseringstjänst
Skapa en tjänst som anonymiserar DICOM-filer innan molnet laddas upp:
using Aspose.Medical.Dicom;
using Aspose.Medical.Dicom.Anonymization;
public class CloudUploadAnonymizer
{
private readonly ConfidentialityProfile _profile;
private readonly Dictionary<string, string> _studyIdMapping;
private readonly string _organizationPrefix;
public CloudUploadAnonymizer(string organizationPrefix)
{
_organizationPrefix = organizationPrefix;
_studyIdMapping = new Dictionary<string, string>();
// Create profile optimized for cloud storage
var options = ConfidentialityProfileOptions.BasicProfile |
ConfidentialityProfileOptions.RetainDeviceIdentity |
ConfidentialityProfileOptions.CleanDescriptions;
_profile = ConfidentialityProfile.CreateDefault(options);
}
public CloudUploadResult AnonymizeForCloud(string inputPath, string outputPath)
{
var result = new CloudUploadResult
{
OriginalPath = inputPath,
ProcessedAt = DateTime.UtcNow
};
try
{
DicomFile dicomFile = DicomFile.Open(inputPath);
var dataset = dicomFile.Dataset;
// Capture original identifiers for mapping
string originalStudyUid = dataset.GetString(DicomTag.StudyInstanceUID);
string originalPatientId = dataset.GetString(DicomTag.PatientID);
string originalAccession = dataset.GetString(DicomTag.AccessionNumber);
// Generate cloud-safe identifiers
string cloudStudyId = GetOrCreateCloudStudyId(originalStudyUid);
result.OriginalStudyUID = originalStudyUid;
result.CloudStudyId = cloudStudyId;
result.OriginalPatientId = originalPatientId;
// Apply anonymization
var anonymizer = new Anonymizer(_profile);
anonymizer.Anonymize(dataset);
// Apply cloud-specific identifiers
dataset.AddOrUpdate(DicomTag.PatientID, $"{_organizationPrefix}-{cloudStudyId}");
dataset.AddOrUpdate(DicomTag.PatientName, $"CloudStudy^{cloudStudyId}");
dataset.AddOrUpdate(DicomTag.AccessionNumber, cloudStudyId);
// Add cloud tracking metadata
dataset.AddOrUpdate(DicomTag.InstitutionName, _organizationPrefix);
dicomFile.Save(outputPath);
result.CloudPath = outputPath;
result.Success = true;
}
catch (Exception ex)
{
result.Success = false;
result.ErrorMessage = ex.Message;
}
return result;
}
private string GetOrCreateCloudStudyId(string originalStudyUid)
{
if (!_studyIdMapping.ContainsKey(originalStudyUid))
{
string timestamp = DateTime.UtcNow.ToString("yyyyMMddHHmmss");
string random = Guid.NewGuid().ToString("N").Substring(0, 8);
_studyIdMapping[originalStudyUid] = $"{timestamp}-{random}";
}
return _studyIdMapping[originalStudyUid];
}
public Dictionary<string, string> GetStudyMapping()
{
return new Dictionary<string, string>(_studyIdMapping);
}
}
public class CloudUploadResult
{
public string OriginalPath { get; set; }
public string CloudPath { get; set; }
public string OriginalStudyUID { get; set; }
public string CloudStudyId { get; set; }
public string OriginalPatientId { get; set; }
public DateTime ProcessedAt { get; set; }
public bool Success { get; set; }
public string ErrorMessage { get; set; }
}
Teleradiologi arbetsflöde integration
Bygg en komplett teleradiologisk anonymiseringsrör:
public class TeleradiologyAnonymizationPipeline
{
private readonly CloudUploadAnonymizer _anonymizer;
private readonly string _stagingDirectory;
private readonly string _mappingDirectory;
public TeleradiologyAnonymizationPipeline(
string organizationId,
string stagingDirectory,
string mappingDirectory)
{
_anonymizer = new CloudUploadAnonymizer(organizationId);
_stagingDirectory = stagingDirectory;
_mappingDirectory = mappingDirectory;
Directory.CreateDirectory(_stagingDirectory);
Directory.CreateDirectory(_mappingDirectory);
}
public async Task<TeleradiologyBatch> ProcessStudyForRemoteReading(
string studyDirectory,
string priority = "ROUTINE")
{
var batch = new TeleradiologyBatch
{
BatchId = Guid.NewGuid().ToString(),
Priority = priority,
SubmittedAt = DateTime.UtcNow,
Results = new List<CloudUploadResult>()
};
var dicomFiles = Directory.GetFiles(studyDirectory, "*.dcm", SearchOption.AllDirectories);
// Create batch output directory
string batchOutputDir = Path.Combine(_stagingDirectory, batch.BatchId);
Directory.CreateDirectory(batchOutputDir);
foreach (var inputFile in dicomFiles)
{
string relativePath = Path.GetRelativePath(studyDirectory, inputFile);
string outputPath = Path.Combine(batchOutputDir, relativePath);
Directory.CreateDirectory(Path.GetDirectoryName(outputPath));
var result = _anonymizer.AnonymizeForCloud(inputFile, outputPath);
batch.Results.Add(result);
}
// Save mapping file for this batch
await SaveBatchMapping(batch);
// Generate manifest for teleradiology service
batch.ManifestPath = await GenerateTeleradiologyManifest(batch, batchOutputDir);
batch.Success = batch.Results.All(r => r.Success);
batch.TotalFiles = batch.Results.Count;
batch.SuccessfulFiles = batch.Results.Count(r => r.Success);
return batch;
}
private async Task SaveBatchMapping(TeleradiologyBatch batch)
{
var mapping = new
{
BatchId = batch.BatchId,
SubmittedAt = batch.SubmittedAt,
StudyMappings = _anonymizer.GetStudyMapping(),
FileMappings = batch.Results.Select(r => new
{
r.OriginalPath,
r.CloudPath,
r.OriginalStudyUID,
r.CloudStudyId,
r.OriginalPatientId
})
};
string mappingPath = Path.Combine(_mappingDirectory, $"{batch.BatchId}_mapping.json");
string json = JsonSerializer.Serialize(mapping, new JsonSerializerOptions { WriteIndented = true });
await File.WriteAllTextAsync(mappingPath, json);
}
private async Task<string> GenerateTeleradiologyManifest(
TeleradiologyBatch batch,
string outputDirectory)
{
var manifest = new
{
Version = "1.0",
BatchId = batch.BatchId,
Priority = batch.Priority,
SubmittedAt = batch.SubmittedAt.ToString("O"),
TotalStudies = batch.Results
.Where(r => r.Success)
.Select(r => r.CloudStudyId)
.Distinct()
.Count(),
TotalImages = batch.Results.Count(r => r.Success),
Studies = batch.Results
.Where(r => r.Success)
.GroupBy(r => r.CloudStudyId)
.Select(g => new
{
CloudStudyId = g.Key,
ImageCount = g.Count(),
Files = g.Select(r => Path.GetFileName(r.CloudPath)).ToList()
})
.ToList()
};
string manifestPath = Path.Combine(outputDirectory, "manifest.json");
string json = JsonSerializer.Serialize(manifest, new JsonSerializerOptions { WriteIndented = true });
await File.WriteAllTextAsync(manifestPath, json);
return manifestPath;
}
}
public class TeleradiologyBatch
{
public string BatchId { get; set; }
public string Priority { get; set; }
public DateTime SubmittedAt { get; set; }
public List<CloudUploadResult> Results { get; set; }
public string ManifestPath { get; set; }
public bool Success { get; set; }
public int TotalFiles { get; set; }
public int SuccessfulFiles { get; set; }
}
Azure Blob lagringsintegration
Ladda upp anonymiserade DICOM-filer till Azure Blob Storage:
using Azure.Storage.Blobs;
using Azure.Storage.Blobs.Models;
public class AzureDicomUploader
{
private readonly BlobContainerClient _containerClient;
private readonly TeleradiologyAnonymizationPipeline _pipeline;
public AzureDicomUploader(
string connectionString,
string containerName,
string organizationId)
{
_containerClient = new BlobContainerClient(connectionString, containerName);
_containerClient.CreateIfNotExists();
_pipeline = new TeleradiologyAnonymizationPipeline(
organizationId,
Path.Combine(Path.GetTempPath(), "dicom_staging"),
Path.Combine(Path.GetTempPath(), "dicom_mappings"));
}
public async Task<AzureUploadResult> UploadStudyAsync(
string studyDirectory,
string priority = "ROUTINE")
{
var result = new AzureUploadResult
{
StartedAt = DateTime.UtcNow
};
try
{
// Anonymize the study
var batch = await _pipeline.ProcessStudyForRemoteReading(studyDirectory, priority);
result.BatchId = batch.BatchId;
if (!batch.Success)
{
result.Success = false;
result.ErrorMessage = "Anonymization failed for some files";
return result;
}
// Upload anonymized files to Azure
string batchDirectory = Path.GetDirectoryName(batch.ManifestPath);
var filesToUpload = Directory.GetFiles(batchDirectory, "*.*", SearchOption.AllDirectories);
foreach (var filePath in filesToUpload)
{
string blobName = $"{batch.BatchId}/{Path.GetRelativePath(batchDirectory, filePath)}";
BlobClient blobClient = _containerClient.GetBlobClient(blobName);
using (var stream = File.OpenRead(filePath))
{
await blobClient.UploadAsync(stream, new BlobUploadOptions
{
HttpHeaders = new BlobHttpHeaders
{
ContentType = GetContentType(filePath)
},
Metadata = new Dictionary<string, string>
{
{ "batch_id", batch.BatchId },
{ "priority", priority },
{ "uploaded_at", DateTime.UtcNow.ToString("O") }
}
});
}
result.UploadedFiles.Add(blobName);
}
// Clean up staging directory
Directory.Delete(batchDirectory, true);
result.Success = true;
result.CompletedAt = DateTime.UtcNow;
result.BlobContainerUri = _containerClient.Uri.ToString();
}
catch (Exception ex)
{
result.Success = false;
result.ErrorMessage = ex.Message;
}
return result;
}
private string GetContentType(string filePath)
{
return Path.GetExtension(filePath).ToLower() switch
{
".dcm" => "application/dicom",
".json" => "application/json",
_ => "application/octet-stream"
};
}
}
public class AzureUploadResult
{
public string BatchId { get; set; }
public DateTime StartedAt { get; set; }
public DateTime CompletedAt { get; set; }
public bool Success { get; set; }
public string ErrorMessage { get; set; }
public string BlobContainerUri { get; set; }
public List<string> UploadedFiles { get; set; } = new List<string>();
}
AWS S3 Integration
Ladda ner anonym DICOM till Amazon S3:
using Amazon.S3;
using Amazon.S3.Transfer;
public class AwsDicomUploader
{
private readonly IAmazonS3 _s3Client;
private readonly string _bucketName;
private readonly TeleradiologyAnonymizationPipeline _pipeline;
public AwsDicomUploader(
IAmazonS3 s3Client,
string bucketName,
string organizationId)
{
_s3Client = s3Client;
_bucketName = bucketName;
_pipeline = new TeleradiologyAnonymizationPipeline(
organizationId,
Path.Combine(Path.GetTempPath(), "dicom_staging"),
Path.Combine(Path.GetTempPath(), "dicom_mappings"));
}
public async Task<S3UploadResult> UploadStudyAsync(
string studyDirectory,
string priority = "ROUTINE")
{
var result = new S3UploadResult
{
StartedAt = DateTime.UtcNow
};
try
{
// Anonymize
var batch = await _pipeline.ProcessStudyForRemoteReading(studyDirectory, priority);
result.BatchId = batch.BatchId;
if (!batch.Success)
{
result.Success = false;
result.ErrorMessage = "Anonymization failed";
return result;
}
// Upload to S3
var transferUtility = new TransferUtility(_s3Client);
string batchDirectory = Path.GetDirectoryName(batch.ManifestPath);
await transferUtility.UploadDirectoryAsync(new TransferUtilityUploadDirectoryRequest
{
BucketName = _bucketName,
Directory = batchDirectory,
KeyPrefix = batch.BatchId,
SearchOption = SearchOption.AllDirectories
});
// Clean up
Directory.Delete(batchDirectory, true);
result.Success = true;
result.S3Uri = $"s3://{_bucketName}/{batch.BatchId}/";
result.CompletedAt = DateTime.UtcNow;
}
catch (Exception ex)
{
result.Success = false;
result.ErrorMessage = ex.Message;
}
return result;
}
}
public class S3UploadResult
{
public string BatchId { get; set; }
public DateTime StartedAt { get; set; }
public DateTime CompletedAt { get; set; }
public bool Success { get; set; }
public string ErrorMessage { get; set; }
public string S3Uri { get; set; }
}
Real-Time Anonymisering Gateway
Skapa en API-portfölj som anonymiserar DICOM i realtid för moln tittare:
[ApiController]
[Route("api/[controller]")]
public class CloudDicomGatewayController : ControllerBase
{
private readonly CloudUploadAnonymizer _anonymizer;
private readonly ILogger<CloudDicomGatewayController> _logger;
public CloudDicomGatewayController(ILogger<CloudDicomGatewayController> logger)
{
_anonymizer = new CloudUploadAnonymizer("GATEWAY");
_logger = logger;
}
[HttpPost("anonymize-stream")]
public async Task<IActionResult> AnonymizeStream(IFormFile file)
{
if (file == null || file.Length == 0)
return BadRequest("No DICOM file provided");
var tempInput = Path.GetTempFileName();
var tempOutput = Path.GetTempFileName();
try
{
// Save uploaded file
using (var stream = new FileStream(tempInput, FileMode.Create))
{
await file.CopyToAsync(stream);
}
// Anonymize
var result = _anonymizer.AnonymizeForCloud(tempInput, tempOutput);
if (!result.Success)
{
return StatusCode(500, $"Anonymization failed: {result.ErrorMessage}");
}
// Return anonymized file
var fileBytes = await System.IO.File.ReadAllBytesAsync(tempOutput);
// Add tracking headers
Response.Headers.Add("X-Cloud-Study-Id", result.CloudStudyId);
Response.Headers.Add("X-Processed-At", result.ProcessedAt.ToString("O"));
return File(fileBytes, "application/dicom", $"{result.CloudStudyId}.dcm");
}
finally
{
if (System.IO.File.Exists(tempInput))
System.IO.File.Delete(tempInput);
if (System.IO.File.Exists(tempOutput))
System.IO.File.Delete(tempOutput);
}
}
[HttpPost("batch-prepare")]
public async Task<IActionResult> PrepareBatchForCloud([FromBody] BatchPrepareRequest request)
{
var pipeline = new TeleradiologyAnonymizationPipeline(
request.OrganizationId,
Path.Combine(Path.GetTempPath(), "staging"),
Path.Combine(Path.GetTempPath(), "mappings"));
var batch = await pipeline.ProcessStudyForRemoteReading(
request.StudyDirectory,
request.Priority);
return Ok(new
{
batch.BatchId,
batch.Success,
batch.TotalFiles,
batch.SuccessfulFiles,
batch.ManifestPath,
StagingDirectory = Path.GetDirectoryName(batch.ManifestPath)
});
}
}
public class BatchPrepareRequest
{
public string OrganizationId { get; set; }
public string StudyDirectory { get; set; }
public string Priority { get; set; } = "ROUTINE";
}
Återidentifieringstjänst
Implementation säkerställer återidentifiering för läsrapporter:
public class ReidentificationService
{
private readonly string _mappingDirectory;
public ReidentificationService(string mappingDirectory)
{
_mappingDirectory = mappingDirectory;
}
public ReidentificationResult Reidentify(string batchId, string cloudStudyId)
{
var result = new ReidentificationResult();
try
{
string mappingFile = Path.Combine(_mappingDirectory, $"{batchId}_mapping.json");
if (!File.Exists(mappingFile))
{
result.Success = false;
result.ErrorMessage = "Mapping file not found";
return result;
}
string json = File.ReadAllText(mappingFile);
var mapping = JsonSerializer.Deserialize<BatchMapping>(json);
// Find original identifiers
var fileMapping = mapping.FileMappings
.FirstOrDefault(f => f.CloudStudyId == cloudStudyId);
if (fileMapping == null)
{
result.Success = false;
result.ErrorMessage = "Study not found in mapping";
return result;
}
result.OriginalPatientId = fileMapping.OriginalPatientId;
result.OriginalStudyUID = fileMapping.OriginalStudyUID;
result.Success = true;
}
catch (Exception ex)
{
result.Success = false;
result.ErrorMessage = ex.Message;
}
return result;
}
}
public class BatchMapping
{
public string BatchId { get; set; }
public DateTime SubmittedAt { get; set; }
public Dictionary<string, string> StudyMappings { get; set; }
public List<FileMapping> FileMappings { get; set; }
}
public class FileMapping
{
public string OriginalPath { get; set; }
public string CloudPath { get; set; }
public string OriginalStudyUID { get; set; }
public string CloudStudyId { get; set; }
public string OriginalPatientId { get; set; }
}
public class ReidentificationResult
{
public bool Success { get; set; }
public string OriginalPatientId { get; set; }
public string OriginalStudyUID { get; set; }
public string ErrorMessage { get; set; }
}
Bästa praxis för moln PACS anonymisering
- Säker mappning lagring: Håll identitetsmappningsfiler krypterade och separerade från anonymiserade data
- Använda konsekventa identifierare: Se till att samma patient/studie får samma anonymiserade ID på alla laddningar
- Implementationskontrolllogging: Spåra alla anonymiserings- och återidentifieringsoperationer
- Test noggrant: Kontrollera att det inte finns några PHI-läckor via privata taggar eller inbyggda data
- Consider-nätverkssäkerhet: Använd TLS för alla molntillägg och krypterad lagring under vila
slutsatser
Anonymisering av DICOM-filer för molnet PACS och teleradiologi kräver noggrann hantering av patientidentifierare samtidigt som man bibehåller studieintegritet för fjärrläsning. Aspose.Medical för .NET ger grunden för att bygga säkra anonymiseringsrör som integreras med Azure, AWS och andra molnplattformar. Genom att genomföra lämpliga identitetsmappning och granskningsvägar kan du möjliggöra moderna radiologiska arbetsflöden medan du skyddar patientens integritet.
För mer information om DICOM anonymisering, besök Aspose.Medicinsk dokumentation.
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