0.18 mm

Could you please share your human fibrinogen with arterial blood and washing clot method, so we can try it?

Did you make the tip yourself or is custom-made commercially? 

Thanks for the info!

The Alzet IT catheter is made with Polyurethane (PU). DOCCOL sells both Polyethlene (PE) and PU tubings.  The hardness of these two tubes may also need testing for the clot model. 

Order No.: 0007740

Catheter Material: Polyurethane (PU)

Specifications:

10 cm of 28G PU (0.36 mm OD; 0.18 mm ID) connected to 12.7 cm PU (0.84 mm OD; 0.36 mm ID) and ALZET connection (1.02 mm OD; 0.61 mm ID) with Teflon coated stylet wire. Total catheter length is 23.7 cm (9.33″). (Internal catheter volume is ~20 μl).

Optimum Animal Size:

Up to 300+ grams (cut distal end to desired length for proper placement)

Features & Benefits:

• Designed for occipital insertion
• Includes a Teflon coated stylet for easier placement
• Protected tubing junction minimizes kinking at exit point from intrathecal space

Will do,  

Also, we have tested the DOCCOL 0.36 mm microcatheter. I am happy to report that this DOCCOL 0.36 mm microcatheter works well to draw the washed clot made with PE50 tubing. Attached figure shows washed and non-washed clots, and DOCCOL catheter with the washed clot.

We have submitted a rat clot stroke model for UCSD IACUC review for about 3 weeks, and expect to get it approved in a few weeks.  We will test this DOCCOL catheter with the washed clot in the rat clot stroke model upon the IACUC approval. 

The UCSD team will work and upload the protocol for comments 

We understand that different mouse and rat embolic model protocols have been used to achieve the research objectives. We would like to post the mouse and rat embolic stroke models used at UCSD for getting critiques, suggestions, and comments on the protocol.  

UCSD Mouse or Rat Embolic Model

Animals: Male Sprague Dawley rats weighing about 400 g or Male C57BL/6J mice weighing about 25 g.

Anesthesia:

Using a face mask, mice or rats will be anesthetized with 3.5% isoflurane for induction and 1.5% isoflurane for maintenance. Isoflurane is delivered with 70% N2O and 30% O2.

Rectal temperature will be maintained at 37° ± 1.0°C throughout the surgical procedure by means of a feedback-regulated heating system.

Preparation of the emboli:

All surgery-related steps will be performed aseptically.

Arterial blood from either common carotid artery or femoral artery of a donor mouse or rat will be withdrawn and retained in 10 cm (for mice) or 50 cm (for rats) of PE-50 tubing for 2 hours at room temperature and for 22 hours at 4°C.

Five centimeters of the PE-50 tubing containing clot will be cut and attached to a system built of two syringes interconnected by 40 cm PE-10 tube filled with saline.

The clot will be continuously moved back and forth from one end to the other end of the PE10 tubing for about 15 times.

The tip of the Doccol PI-218 microcatheter for mice (OD 0.218 mm, ID 0.175 mm, tubing length 150 mm) or Doccol PI-267 microcatheter for rats (OD 0.267 mm, ID 0.221 mm, tubing length 150 mm), is coated with a very thin layer of silicone.

Alternatively, we will make and use PE50-extruded clot delivery catheter in the following steps: (i) holding the PE-50 tubing (150 mm in length) by hand about 200 mm above the low - medium flame of a burner until the medial portion of the tubing becomes soft and flexible; (ii) move the soft tubing away from the flame and immediately stretch the tubing laterally until the medial portion of the tubing is elongated and its o.d. is reduced; (iii) measure the medial portion of the modified PE-50 tubing with a micrometer to the o.d. between 0.2-0.3 mm for mice and 0.3-0.4 mm for rats. Cut and discard the portion with the proper ODs; and (iv) sterilize the modified PE-50 tubing in Cidex OPA solution overnight, and then rinse with sterile saline at least three times before use. The entire length of the modified tubing should be at least 120 mm, including an about 22 mm long portion from the tip with 0.3–0.4 mm OD.

A single clot will be transferred to the corresponding Doccol or modified tubing for mice or rats.

Animal models for mice or rats:

All surgery-related steps will be performed aseptically.

Via a midline incision in the neck area, the right common carotid artery, the right external carotid artery (ECA), and the right internal carotid artery (ICA) will be isolated and carefully separated under a surgical microscope (e.g., Carl Zeiss, Inc., Thorn-wood, NY, USA).  

A 6-0 silk suture will be loosely tied at the origin of the ECA and another suture will be ligated at the distal end of the ECA.

The right common carotid artery and ICA will be temporarily clamped using a microvascular clip (Codman & Shurtleff, Inc., Randolf, MA, U.S.A.).

The clot-loaded silicone-coated Doccol PI-218 microcatheter for mice or Doccol PI-267 microcatheter for rats will be introduced into the ECA lumen through a small ECA incision.

The suture around the origin of the ECA will be tightened around the intraluminal catheter to a degree that prevents bleeding.

The microvascular clip will be removed. An 8-9 mm length of catheter for mice and 18-19 mm length of catheter for rats will be gently advanced from the ECA into the lumen of the ICA. Previous studies show that the intraluminal catheters at these positions are about 1.5 mm from the origins of the mouse or rat MCA, respectively.

The embolus in the catheters will be injected with a pre-tested speed through the catheter.

For the pre-tested speed, before injection of the clot, the lab will need to test the injection speed (using a separate catheter and clot) that allows the clot to form a ball when it comes out from the tip of the catheter.    

To confirm the placement of the catheter in the correct position, the MCA blood flow will be monitored by laser Doppler flowmetry (LDF).

The LDF probe will be attached, via a small incision between the ear and eye, to the flat point/site of the temporal bone surface right about the MCA.  This flat point/site needs to be tested by moving the probe tip around the area until the maximal voltage is detected. For mice, this LDF attachment can directly or transcranially monitor the MCA blood flow. For rats, the bone in this area must be thinned via a hand-held drill to the level that the MCA blood flow can be monitored with a LDF probe. 

The MCA blood flow will be reduced significantly when the tip of the clot delivery catheter reaches or is close to the base/origin of MCA, or transiently increased initially when injecting the clot and then decreased when the clot blocks the MCA. The MCA blood flow is expressed as a percentage of pre-ischemic baseline values.

After injection of the embolus, the CCA remains to be clamped for 5 min, the clot delivery catheter will be slowly pulled out from the ECA, and then the ECA will be closed with a suture.

For mice, the original report of this model showed that mice (12 of 20) achieving a successful occlusion of the MCA exhibited a blanching of the ipsilateral skull and a ≥70% reduction in MCA blood flow immediately after injection of the clot. The remaining 8 mice, because of inadequate MCA occlusion, did not exhibit blanching of the ipsilateral skull, and MCA blood flow in these mice was reduced by 30% to 40% from pre-embolization levels, indicating inadequate MCAO (Zhang Z, Chopp M, Zhang RL, Goussev A. A mouse model of embolic focal cerebral ischemia. J Cereb Blood Flow Metab. 1997 Oct;17(10):1081-8).

For rats, the successful occlusion of the MCA is higher according to the report (Zhang RL, Chopp M, Zhang ZG, Jiang Q, Ewing JR. A rat model of focal embolic cerebral ischemia. Brain Res. 1997 Aug 22;766(1-2):83-92).

We use PE50 clot. The clot is highly sticky and elastic. The diameter will change when very slowly injecting out of the microcatheter (ID 0.18), so that clot will form a small ball to occlude MCA base.  Also, select curved a "curved" clot. 

This is helpful.  We will try this method. 

How many mm can you insert this catheter from the insertion site into the ICA, could this catheter passes the PCA?

Thanks for the info.  Proof of catheter passing PCA may be important for doing this model reproducibility. 

Hi Khan, it is PCA.  If the catheter dose not pass PCA, the clot can go to the PCA according to our previous studies.  

The more close to the MCA base that clot delivery tube is inserted into ICA, the more consistent/reproducible we may get. However, if all testing sites use the same ICA insertion distance, we may have more animals per group, which may overcome the potential variation issues.    

We withdraw blood from femoral artery or CCA directly into a PE50 tubing and leave the PE50 tubing at 37C for 2 h and 4C for overnight. Has anyone compared the clot formation between the blood withdrawal to a syringe then to a PE50 tubing, and directly into PE50 tubing?