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UNITED STATES
NUCLEAR REGULATORY COMMISSION
OFFICE OF NUCLEAR MATERIAL SAFETY AND SAFEGUARDS
WASHINGTON, D.C. 20555
March 9, 1998
NRC INFORMATION NOTICE 98-10: | PROBABLE MISADMINISTRATIONS OCCURRING DURING INTRAVASCULAR BRACHYTHERAPY WITH THE NOVOSTE BETA-CATH SYSTEM |
Addressees:
All Medical Licensees
Purpose:
The U.S. Nuclear Regulatory Commission is issuing this information notice to alert addressees to two reported incidents that have occurred during the conduct of intravascular brachytherapy procedures using the Novoste Beta-Cath system. This system uses Strontium-90 high-dose-rate (HDR) source trains that can range between approximately 1 to 10 Gy/min beta dose output at the surface of the seeds. Licensees should be aware of the potential for similar failures during the course of patient treatments and the possible risk(s) for misadministrations and potential patient harm resulting from the inability to retract these HDR sources at the conclusion of the planned treatment. It is expected that recipients will review the information for applicability to their facilities and consider actions, as appropriate, to avoid similar problems. However, suggestions contained in this information notice are not new NRC requirements; therefore, no specific action nor written response is required.
Description of Circumstances:
NRC has become aware of two reported failures, while using the Novoste Beta-Cath system for intravascular brachytherapy in multi-center clinical trials. Both of these events are being investigated as probable misadministrations (wrong treatment sites) as the sources failed to return to the device storage safe at the conclusion of the treatments. The Sr-90 source train was observed leaving the treatment site but did not return to the device; in fact, the precise locations of the sources were unknown for some period of time. A brief summary of the two reported failures follows:
Although investigation of both of the reported events is ongoing, presently available information attributes the failure of the source transport system in the first event to crimping of the Novoste system catheter by over-tightening of the Touhy-Bourst valve used to tighten around the catheter and prevent the flow of blood out of the insertion point in the patient's femoral artery. This crimp did not completely close the source lumen in the Novoste catheter, allowing the saline flow to continue, but it was sufficient to block the sources from returning to the device. When the saline supply in the delivery syringe was exhausted, an emergency removal of the Beta-Cath treatment catheter from the patient was performed.
In the second reported incident, the syringe saline supply was also exhausted before the sources were returned to the device source storage location. In this event, the syringe was replaced with a fresh supply of saline and the sources were then successfully returned to their storage location using the device's hydraulic source transport system. It is possible that the second reported event may have the same root cause as the first, but this has not yet been determined.
In both events, the respective authorized users report that they do not expect any adverse health consequences for the patients involved.
Discussion:
Numerous clinical trials are underway to evaluate the feasibility of using intravascular brachytherapy to prevent restenosis after angioplasty in coronary and peripheral arteries. These trials involve numerous new and innovative sources of byproduct materials and delivery systems that, in most cases, have not undergone formal sealed source and device reviews and listing in NRC's Registry of Sealed Sources and Devices as approved source(s) and device(s) for this intended use.
In the first cited event report from our NRC licensee, the immediate cause of the incident appears to be transient damage to the Beta-Cath system source lumen (catheter), because of over-tightening of the Touhy-Bourst valve (this is a valve-like device located at the proximal end of the guide catheter, 15 to 20 cm beyond the external skin surface, and contains an iris-like shutter designed to tightly grip the Beta-Cath catheter to prevent leaking of blood around the catheter). It is necessary to loosen this valve each time the Beta-Cath source train is moved to or from the transfer device to the treatment site at the distal end of the catheter. Subsequent simulation of the misadministration incident by the licensee showed that tightening the Touhy-Bourst valve one-half turn beyond "finger-tight" created a condition where the sources could not be retracted back into the device. On visual examination, a small depression was clearly evident on the catheter at the location of the Touhy-Bourst valve. Loosening, or even removing the valve did not allow retraction of the source train. After about 20 minutes, it was possible to retract the sources normally with the device's hydraulic transport system. It is believed that, over this 20-minute period, elastic restoring forces reduced the indentation in the catheter to the point where the sources could be retracted normally.
At this time, less information is available concerning the second event reported by the Washington State licensee. However, discussions with Novoste revealed that a second source transfer failure mechanism exists with this device design.
Specifically, if too much pressure is applied to the saline supply syringe during source transport, the supply of saline can be prematurely exhausted before completing the intended source transport procedure. Thus, it appears that at least two source transport failure modes exist that can be induced by the improper application of force in the operation of the device by the user.
In the extensive investigation of its event, our licensee identified a number of factors that it believes contributed to the reported misadministration. These were: (1) The device design allows for over-tightening of the Touhy-Bourst valve, which can block the source train transport pathway; (2) excessive intervals of time between training and start of clinical procedures and successive clinical procedures; (3) less than optimal didactic and practical training; (4) between extremely limited opportunities for self-practice and rehearsal because of restrictions imposed by Novoste; and, (5) lack of a detailed checklist, describing all precautionary checks and warnings, including manipulation of the Touhy-Bourst valve.
During the course of the NRC investigation of these events, an additional possible design related source transport system failure mode was discovered that should be added to the above listing. Specifically, when attaching the syringe to the transfer device, over-tightening of the syringe Luer to the extension connector may cause the sterile sleeve to be pinched, which, could result in the inability to produce sufficient hydraulic pressure. Inclusion of related operational procedures and warnings, addressing all these failure modes should be included in the check-list cited in the preceding paragraph.
The following corrective actions, proposed by our licensee's medical physicist, may be beneficial in addressing radiation safety concerns related to the use of this device in ongoing clinic trials:
The post-incident investigation and resultant proposed corrective actions appear to be appropriate. Certain of these actions, specifically numbers 1, 3, and 4, can be unilaterally implemented by the licensee. However, the remaining three actions require the approval and support of Novoste Corporation.
All licensees contemplating use of the Novoste Beta-Cath system or any of the other emerging intravascular brachytherapy procedures should ensure that either: (1) the device(s) and/or source(s) have undergone a thorough radiation safety review and approval by the NRC or Agreement State, as required by 10 CFR 35.49(a); or, (2) for broad scope licensees, who are exempted from the requirements of 10 CFR 35.49(a) through a standard license condition, an equivalent radiation safety evaluation by a broad scope licensee's radiation safety committee should be performed in order to fully satisfy the requirements of 10 CFR 33.13(c)(3)(ii). In addition, licensees should ensure that affected personnel understand all operating parameters necessary for the safe operation of the system. If significant unaddressed safety concerns remain, then it would be expected that the licensee would decline to participate in that particular clinical trial.
This information notice requires no specific action nor written response. If you have any questions about the information in this notice, please contact the technical contact listed below or the appropriate NRC regional office.
/s/'d
Donald A. Cool, Director |
Technical Contact: | Robert L. Ayres, NMSS (301) 415-5746 E-mail: rxa1@nrc.gov |