If your IVSA equipment is failing along any of these measures—if you are losing patency, if it takes you more than a few seconds to connect or disconnect the tether, or if your animals are stressed or restrained—it is time to consider a change.
Disclaimer: Instech manufactures the Dacron mesh buttons, polysulfone buttons, Vascular Access Harnesses™ and Vascular Access Buttons™ referenced in this article.
IV Self-Administration Equipment for Rats
IV Self-Administration Equipment for Mice
Systems from Med Associates (such as part no MED-008-CT-B1) are nearly universal, though occasionally Panlab, Coulbourn, Lafayette Instrument, TSE or homemade systems are seen. The chamber should always have a responsive counter-balance (MCLA) to take up slack in the tether. This will allow for unrestrained movement and prevent bites and tangles, which are more of a risk with self-administration studies because the animals are often hyperactive.
Tethers, or "leashes" as they are uniquely referred to in the IVSA community, include the line from the pump, a swivel to allow the animal to turn, the line to the animal, and a connection to an implanted catheter, are critical to the success of the overall system. There have been significant advances in these tethering systems over the past several years.
Med Associates PHM-131 |
Back-mounted cannula connector pedestal (CamCaths IVSA28; Med Associates PHM-131; PlasticsOne / P1 Technologies / Protech 313-00BM, SAI SBD-06-30). This device has been used for IVSA for many years. A stiff mesh is implanted under the skin and the pedestal is suitable for long term use. Connection can be time consuming (tubing must be connected manually to an open tube and then spring threaded over to protect it) and it is not possible to use aseptic technique. However, the pedestal is much better than older systems where externalized catheters had to be connected with couplers. Group housing is possible with a screw-on metal cap. CamCaths in Cambridgeshire UK has ceased operations so availability may be limited. |
Instech DC95BS |
Dacron mesh skin button (Instech DC95BS, Med Associates PHM-123D, SAI SBD-02). Instech developed this product nearly 30 years ago for long-term implantation. Tissue will grow into the mesh over time, but it was designed for permanent connection to a tether so connection and disconnection is awkward and opens the catheter line to contamination and air. Therefore, it is not a good product for IVSA. |
Instech VAHR1H/22 |
Harness. Instech originally developed the rat harness (CIH95) in 1995 working with Covance Laboratories as an improvement on cloth jackets. It allowed a rat with a simple externalized catheter to be connected to a swivel and tether system after surgery. In 2006, we added a small external port to simplify the connection and in doing so created the first closed tethering system, the Vascular Access Harness™ (VAHR1H/22 (formerly VAH95AB)). Harlan Laboratories (now Inotiv) reported that this device significantly improved patency, allowing them to reliably conduct three month infusion studies. The ease of connection made the VAH™ useful for IVSA studies, but with several disadvantages: a segment of the catheter is externalized which can lead to evaporation and loss of patency when fluid is static, the bands around the animal need to be checked frequently, and there is no ability to group house animals. |
Instech VABR1B/22 |
Instech Vascular Access Button™ (VAB™) (Instech VABR1B/22; distributed Med Associates as PHM-VABR1B/22). In 2009, we worked with Janssen Pharmaceuticals in Belgium to combine the benefits of the CamCaths button with the port in the VAH™ to extend patency and simplify connections in their IVSA studies (Teuns et al, 2014). The result, the Vascular Access Button™, solved many of the problems with previous systems and has been successful not only in IVSA but in many other applications such as blood sampling for pharmacokinetics, glucose clamping and infusion toxicology. We updated the design in 2016, creating models with two, three and four ports and adding magnets to further simplify connection. The VAB™ is a closed system—the catheter is subcutaneous rather than exteriorized which allows for long-term patency and is an animal welfare refinement. Group housing is made possible with a magnetic protective cap. |
The catheter that is placed in the vessel is also critical.
It should have suture collars or beads at the appropriate spot to keep it in place long-term and guide you to the ideal insertion length. For jugular vein catheterization the catheter tip should be just above the right atrium of the heart. Instech has catheters with insertion lengths matched to body weights and a surgical SOP to ensure ideal positioning.
The catheter should be made of polyurethane—PE is too stiff for vessels, silicone is too slippery to make reliable connection with the VAB™ connector.
It should have an inner diameter (ID) that is ideal for the device to which it is connecting (.61-.63mm to connect to 22ga tubing). Instech uses a multiple-step process to ensure our catheters meet standards for consistent ID which alleviates issues with inadvertent disconnection from the VAB™.
And without fail it should be sterilized; ethylene oxide gas exposure in Tyvek® pouches is really the only way to sterilize polyurethane catheters and any implanted component such as the VAB™.
For more information, see our blog post, What Does it Take to Disconnect a Rodent Catheter?
As with rats, the Med Associates mouse chamber, part no MED-307A-CT-B1, is ubiquitous. A responsive spring-based counter-balance such as SMCLA is a must to remove slack from the tether (Med Associates part no. PHM-124MA).
Mice are one-tenth the weight of rats and so component design is critical. Only use 25ga swivels—mice cannot turn 22ga rat swivels without significant effort. Use the lightest possible springs; spring tethers designed for rats will restrain a mouse. If you find that the mouse is able to bite or climb up its spring tether, optimize the tether length and your counter-balance and that will usually solve the problem. There have been several options for catheter exteriorization and animal connection:
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Open lumen skin button (Instech 250P or LW62BS; distributed by Med Associates as PHM-124C). This product, which we designed about 40 years ago, was frequently used for mouse IVSA when there weren’t any other choices, but today it is a suboptimal option. Its biocompatibility is poor, the catheter connection is awkward and it is an open system. Open systems lead to subclinical and clinical infections, and short patency – impacting scientific outcomes and animal welfare. If you are still using these it’s time to upgrade. |
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Back-mounted pedestal (CamCaths MIVSA); a small version of the IVSA28 for rats, this device also is an open system and connection is awkward, though better than the LW62BS. Availability may be limited since CamCaths ceased operations. |
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Harness. We designed a miniature version of the Vascular Access Harness™ (Instech VAH62AB; Med Associates PHM-VAH62AB-P) with a small port for clean and simple connection, but the fact is that mice are not small rats. Mice do not tolerate harnesses well; their behavior changes noticeably and they are better than rats at escaping from them. |
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Vascular Access Button™ (Instech VABM1B/25; distributed by Med Associates as PHM-VABM1B/25). As with the VAB™ for rats this is an ideal catheter-exteriorization device for mouse IVSA. The subcutaneous catheter and closed system lead to extended patency. You can connect or disconnect the tether in seconds, and you can group house with the protective caps. Charles River reported 5x longer patency in mice compared to externalized catheters and Slosky et al at Duke reported a patency half-life of over 100 days and "unprecedented success in mouse self-administration approaches." |
As with rats you should use sterile, polyurethane catheters with rounded-tips. Proper tip position, guided by a collar marking insertion length, is critical. For a typical 25g mouse, 2Fr (0.66mm OD) fits well in the jugular vein; a collar positioned at an insertion length of 13mm is common but may vary based on your surgical techniques, weight and strain. Our model C20PU-MJV2013 has these features as well as an inner diameter that is an ideal fit on the 25ga connector on the mouse Vascular Access Button™.
None of these improvements in equipment will do you any good if you do not have a skilled surgeon on staff and the right space and equipment for him or her to operate. The basics include:
Training. You’ll minimize trauma and time under anesthesia while optimizing tip placement and exteriorization with proper training and practice. If you do not have a skilled mentor, training opportunities can be hard to find but they do exist! Instech offers live online catheterization training for both mice and rats using a variety of techniques.
Maintenance protocol. Avoid the temptation to flush the catheter just to maintain patency. This may be helpful with an exteriorized catheter, where evaporation will pull blood into the tip (be aware of laminar flow), but with the VAB™ we have consistently heard that less is more. Several studies run by Charles River support this, as they have demonstrated in mice and rats that catheters can be maintained long term by flushing low concentration heparin-saline (5-20 USP units/mL) no more than once weekly when animals are not on study. Always use positive pressure technique when accessing catheters.
Intravenous self-administration studies require the longest patency of any type of catheterized rodent study. Furthermore, these are behavioral studies, so the animals must be as healthy and as free of restraint as possible to give you the best data. These are not the kind of studies where you want to cut corners with homemade non-sterile catheters or a makeshift surgical suite.
Using a Vascular Access Button™ with a sterile, round-tip polyurethane catheter is a great start for both rat and mouse IVSA. The combination will give you the longest documented patency of any rodent device, the ability to group house, and quick, clean connection and disconnection. Once you have set up a reliable connection to the catheter, you will need to optimize your tether lengths and have a smoothly rotating swivel and sensitive counter-balance to minimize tether problems and its impact on behavior. Finally, just as important as the equipment, you will need aseptic access and maintenance with pharmaceutical-grade flush and lock solutions to achieve patency and successful study outcomes.