Device Type: Anesthesiology - Therapeutic
Device Type: Anesthesiology - Therapeutic
FDA Description:
SurfactantSol is a surfactant delivery device employing a proprietary nasal cannula delivery system in conjunction with a programmable interactive mechanism that detects breathing to deliver the drug only at the point of inhalation without interrupting CPAP treatment.
Design Assumptions:
The device is a combination reusable and disposable in one, designed for single patient use by general clinical staff in respiratory care to treat patients suffering from RDS. The reusable portion can be used up to 30 days; 3 days for the disposable portion.
The device will comprise an injection molded clamshell housing for the main controller and a smaller injection molded housing in the area of the delivery ports. The device includes extruded plastic tubing, a user interface screen, a control board power supply, and various pressure and fluid flow monitors and solenoids. A crude prototype has been developed and built for feasibility purposes.
The device is not sterile.
The developer should expect to spend nominally ~$1M on non-recurring engineering (NRE) costs and expenses, including limited production tooling for verification samples. In addition, no less than 22% of that is dedicated toward a proof-of-concept for feasibility evaluation before the start of design for manufacturability.
The device is not exempt from good manufacturing practices, including design controls requiring design traceability documentation to be compliant with regulations. The developer should expect this work to add up to 15-20% to the program's nonrecurring engineering costs.
Regulation and Testing Assumptions:
After an exhaustive review of materials, the most likely scenario for the SurfactantSol would be a Class II De Novo FDA filing. This is primarily because SurfactantSol has features of CPAP and drug delivery in a combined method not currently utilized by any existing approved devices. Regulatory support fees are expected to exceed $150k.
Testing Assumptions:
The device is also subject to several other requirements based on two conditions that increase the difficulty of development and approval. It is a gas pathway device requiring extensive testing associated with chemical compatibility and material leaching testing. It is an electronic device, subject to IEC60601 regulations for electronic medical devices. This does not include software validation or performance testing. Below is a list of the expected ISO standards applicable to this device:
Lastly, real-world clinical data is likely required because the device may fall under the De Novo pathway. Clinical trials are not estimated in this report. However, clinical trials can easily cost over $5k per patient per day. It is recommended that a regulatory expert be consulted as soon as possible, who will likely recommend filing a pre-submission and requesting guidance from the FDA.
The developer should prepare to spend over ~$550k on the above testing for this device to show device safety per FDA-recognized standards. Testing for Class II De Novo devices is not optional. However, a pre-submission may be submitted to the FDA, leading to a meeting to discuss the required tests.
Ease of Manufacturing:
The device does not employ any area of manufacturing technology that is not well established. However, the device represents a complex set of functionalities working seamlessly together to provide a specific outcome. The manufacturing assembly process will have to be well-detailed and traceable.