Alternate Aquaculture Vaccine Delivery System

=Problem Definition=

Project Goal: The goal of this project is to develop an alternate aquaculture vaccine delivery system to enhance antigen uptake and protection in juvenile salmonids.

Background
Fish vaccines used for aquaculture species are typically delivered by injection, immersion, or oral (feed) delivery. Of these methods, injection vaccination is by far the most effective and provides the greatest level of protection from disease. This is primarily due to direct delivery of antigens to immune cells rather than relying on uptake across the integument (skin) such as for immersion vaccination, or the need for intact antigens to pass through the harsh environment of the stomach during oral vaccination. Immersion and oral vaccines are the methods of choice for mass vaccination of small fish (1-15g) because of the ease of delivery when compared to injecting large numbers of small fish. However, if a mass vaccine delivery method could be developed that “injected” a vaccine into the integument in a new way and provide greater disease protection than immersion or oral vaccination, it would revolutionize the aquaculture industry.

Deliverables
The Device Must:
 * Create a puncture or break in the integument(skin) of small fish without causing injury.
 * Be designed to see repeated use.
 * Be designed in a way that allows the transfer of used and new vaccine solution in and out of the system.
 * Meet or exceed all IACUC regulations for animal research.

Specifications
Product Specifications:
 * Must be sized for bench top testing version (1L of fluid and 240g of fish)
 * Must be upscaled to hold 30 gal and be 27.4kg of fish at a time
 * Must be functional for 1g-5g fish
 * Must create puncture or integument(skin) of 85% of the fish
 * Must allow for proper cleaning
 * Must allow for all consumables to be easily changed
 * Must be made of non-porous material i.e. polished stainless steel and UHMW
 * Must have full operational capabilities in environments with both fresh and salt water around 15°C
 * Must be capable of doing all necessary fluid changes
 * The components shall comply with the Animal care and use protocol standards

Value Proposition Statement
Delivering vaccinations to humans 1 by 1 or by appointment is easy due to the construct of our society and freedom of communication. When giving vaccinations to hundreds of fish, scientists use the immersion vaccination method. This method submerges the animal into a water and vaccine bath, where the treatment is absorbed through the skin. The largest issue in utilizing this method, is the time it takes for the skin to uptake the medicine. Our project is constructed to assist in this method and cut down the immersion time. Our model works as a funnel for fish to to pass through, be harmlessly pierced by hypodermic needles, and to be briefly treated in a vaccinated bath. Our product will enhance the vaccine-skin uptake and make the immersion treatment method more effective and efficient to fish.

=Design Considerations= When developing the device the following need to be considered:


 * Materials such as wood, galvanized steel, and carbon steels cannot be used.
 * If electrical components are used they must be sealed and water tight.
 * All components of the system should be light and small enough for one person to safely handle.
 * All components need to be easily accessed in order to be disinfected between uses.
 * The first prototype should be able to handle 240 grams of fish per vaccine dip.
 * Holding tank drains will be compatible with hoses for easy emptying and refilling of tanks.

=Project Learning=

Additional Research
=Initial Prototype=

=Final Prototype=

=Validation=

Fish Cycle Validation
This is the cycle or flow of fish that will be seen during our testing of the initial prototype:



=Team Members=

=Additional Documentation= Budget


 * [[File:Fish_Vac_Budget.pdf]]

Client Interview
 * Fish_Vac_CI_6_18.pdf
 * Fish_Vac_CI_6_23.pdf

Design Validation Plan
 * [[File:Fish Vacc. Design Validation Plan.pdf]]

Manufacturing Plan
 * [[File:Team Fish Vac. Manufacturing Plan Rev.1.pdf]]

Meeting Minutes
 * Fish_Vac_MM_6_24.pdf
 * Fish_Vac_MM_6_30.pdf
 * Fish_Vac_MM_7_2.pdf
 * Fish_Vac_MM_7_7.pdf
 * Fish_Vac_MM_7_9.pdf
 * Fish_Vac_MM_7_14.pdf
 * Fish_Vac_MM_7_16.pdf
 * Fish_Vac_MM_7_21.pdf
 * Fish_Vac_MM_7_23.pdf
 * Fish_Vac_MM_7_28.pdf
 * Fish_Vac_MM_7_30.pdf
 * Fish_Vac_MM_8_4.pdf
 * Fish_Vac_MM_9_2.pdf
 * Fish_Vac_MM_9_9.pdf
 * Fish_Vac_MM_9_16.pdf
 * Fish_Vac_MM_9_23.pdf
 * Fish_Vac_MM_9_30.pdf
 * Fish_Vac_MM_10_7.pdf
 * Fish_Vac_MM_11_11.pdf
 * Fish_Vac_MM_11_18.pdf

Presentations
 * [[File:Fish Vac Concept Design Review.pdf]]
 * [[File:Engineering Release Review Presentation.pdf]]
 * [[File:Team FishVac Snapshot 4.pdf]]
 * [[File:Technical Presentation Fish Vac.pdf]]

Product Requirements
 * Fish_Vac_PR.pdf

Project Schedule


 * Fish_Vac_Schedule.pdf

Team Contract
 * Fish_Vac_Team_Contract.pdf