Here, we present a protocol to collect blood samples from the rat subclavian vein.
Blood collection with enough blood volume is essential in animal experiments. Blood collection from the tail vein of rats is popular and less stressful compared to other more aggressive methods such as retro-orbital plexus sample collection. However, this blood collection method is sometimes limited by an unsatisfactory success rate. Here, we introduce a method for blood collection through the subclavian vein puncture. The subclavian vein is located just under the clavicle and this vein is large enough to fulfill the volume requirements of blood collection. Our results show that this method is safe and applicable for blood collection sampling with the required blood volume. Blood collection through the subclavian vein puncture could serve as an alternative blood collection method in case of failed tail vein blood sampling in rats.
Blood collection is essential in animal research. The target veins for blood collection include the retro-orbital plexus, the jugular vein, the saphenous vein, tail blood vessels, and the carotid artery1,2,3,4. Sometimes, blood could be obtained from the abdominal aorta, vena cava or even the heart5,6,7. On such occasions, the animals must be sacrificed and cannot be used for subsequent observation; thus, these methods are used less in daily experimental work. Blood collection from the tail vein of rats is popular and less stressful compared to the above mentioned methods8.
However, blood collection from the tail vein is sometimes limited by an unsatisfactory success rate. Occasionally, it is also difficult to obtain enough blood volume by this method. As the subclavian vein is large enough and is located just under the clavicle bone, subclavian vein puncture can be an alternative method for blood sampling if routine blood collection methods are unsuccessful. Here, we introduce a method of blood collection by means of subclavian vein puncture in rats.
This study was approved by the Central South University Ethics Committee for Animal Research from the Second Xiangya Hospital (Changsha, China). The manuscript was prepared according to ARRIVE (Animal Research: Reporting of In Vivo Experiments) guidelines9.
1. Material and Animal Preparation
2. Blood Collection Procedure
NOTE: Both sides of the subclavian vein are suitable for puncture, and here we choose the right side for puncture. The location and direction of the right clavicle are identified by the operator's left thumb (Figure 2). The suprasternal fossae are gently touched with the index finger as the suprasternal fossae is in the direction of the needle (Figure 2).
3. Blood Sample Processing
A total of 20 SD rats (male n=10, female n=10) were used here. Blood collectionwas performed by skilled operators, who have performed more than 20 blood samplings from the subclavian vein in rats, and by the beginner operators, who have no subclavian vein puncture experience in rats or other animals. Before operations, beginners watched at least 3 procedures done by skilled operators.
Blood sampling succeeded in 17 rats through the right subclavian vein access. This procedure failed in 3 rats (1 in the skilled group and 2 in the beginner group), and blood sampling was successful through the left subclavian vein accesses in these 3 rats. The time course and blood volume collected for each case are illustrated in Table 1. The success rate was similar between the beginner group (80%) and the skilled group (90%, p = 0.531). The success rate was 100% for both groups when including the additional left subclavian vein accesses in the 3 rats. Two tailed Student's t-test showed that there was no significant difference on time expended between beginner group and skilled group (102.1 ± 14.9 s versus 84.3 ± 9.7 s, p = 0.33, Figure 7). No severe complications occurred in all procedures such as pneumothorax, hemopneumothorax, or major bleeding during or after operation. All animals survived and recovered within 30 minutes after the blood sampling.
To demonstrate the difficulties of learning the puncture procedure, we further compared the number of withdrawals between skilled and beginner groups. As shown in Table 2, the average number of withdrawals in the skilled group is slightly less than the beginner group (1.6 ±0.3 vs. 2.5 ±0.4), but there is no statistical significance (p = 0.0913).
Figure 1: Position of rats. The rats are laid in a supine position, and the upper limbs are fixed parallel to the body axis, just beside the trunk. Please click here to view a larger version of this figure.
Figure 2: Identify the surface symbols of rats. (A) The left thumb of the operator is on the right clavicle to identify the location and array of this bone; (B) The suprasternal fossae are gently touched with the index finger. Please click here to view a larger version of this figure.
Figure 3: Location of puncture. The puncture site is located 0.5 mm caudal to the outer 1/3 site of the right clavicle. Please click here to view a larger version of this figure.
Figure 4: Forming negative pressure in the syringe. Once the needle enters the infraclavicular skin, the fingers of right hand move to create negative pressure in the syringe. Please click here to view a larger version of this figure.
Figure 5: Withdrawing blood into the syringe. When the needle enters the subclavian vein, blood will enter the syringe under negative pressure. The negative pressure is kept until enough blood is obtained. Please click here to view a larger version of this figure.
Figure 6: Plasma extraction after centrifuging. After centrifuging, the blood is separated into plasma and cells. Please click here to view a larger version of this figure.
Figure 7: The time course and success rate between different groups. This chart shows no significant differences in the time spent (left panel) or success rate (right panel) between the skilled group and the beginner group. The time course in the beginner group and the skilled group are 102.1 ± 14.9 s and 84.3 ± 9.7 s, respectively, p = 0.33 between groups. Please click here to view a larger version of this figure.
Figure 8: The anatomy of subclavian vein. The subclavian vein is located just posterior and caudal to the clavicle. It joins with the internal jugular vein to form the brachiocephalic vein and drains into super vena cava, just beneath the suprasternal fossae. Please click here to view a larger version of this figure.
skilled group | Beginner group | |||||||||
Gender | Body weight (g) | Blood volume (mL) | Time course (S) | Gender | Body weight (g) | blood volume (mL) | Time course (S) | |||
S1 | male | 153 | 1.6 | 70 | B1 | male | 149 | 1.6 | 72 | |
S2 | male | 168 | 1.6 | 60 | B2 | male | 158 | 1.6 | 68 | |
S3 | female | 183 | 1.6 | 75 | B3 | female | 190 | 1.6 | 83 | |
S4 | female | 170 | 1.6 | 74 | B4 | female | 160 | 1.6 | 77 | |
S5 | female | 159 | 1.6 | 65 | B5 | female | 153 | 1.6 | 200 | |
S6 | male | 200 | 1.6 | 83 | B6 | male | 187 | 1.6 | 92 | |
S7 | male | 178 | 1.6 | 86 | B7 | male | 164 | 1.6 | 99 | |
S8 | male | 187 | 1.6 | 168 | B8 | male | 200 | 1.6 | 82 | |
S9 | female | 192 | 1.6 | 83 | B9 | female | 198 | 1.6 | 70 | |
S10 | female | 157 | 1.6 | 79 | B10 | female | 175 | 1.6 | 178 |
Table 1: The blood volume and time course from puncture to a finished blood collection. S: skilled group; B: beginners.
Group | n | Mean | SE | 95% Conf. Interval | |
B | 10 | 2.5 | 0.4 | 1.59 | 3.41 |
S | 10 | 1.6 | 0.3 | 0.91 | 2.29 |
Table 2: The number of withdrawals between the two groups. B: beginners; S: skilled group. p = 0.0913
Here, we introduce an alternative method for blood extraction from the subclavian vein and we show that this method is feasible, safe, and applicable for blood sampling in rats. This method is derived from the subclavian vein puncture in pacemaker lead implantation for patients11. The subclavian vein is located just posterior and caudal to the clavicle and is a continuation of the axillary vein. It runs from the outer border of the first rib to the medial border of anterior scalene muscle12. From here, it joins with the internal jugular vein to form the brachiocephalic vein and drains into super vena cava, just beneath suprasternal fossae (Figure 8). The clavicle is easily identified and there is a clear anatomic relationship between the subclavian vein and the clavicle. Here, we applied this clinical skill to animal experiments. Due to the different orientation of the upper limb in humans and rats, the upper limb is placed just beside the trunk during the procedure to expose the space caudal to the clavicle, which will facilitate the puncture (Figure 1).
The subclavian vein is much larger than the tail vein. Therefore, it is easier to get enough blood from the subclavian vein than from the tail vein. The total sample volume could reach 10% of total circulating blood volume each time1. If conventional tail vein blood sampling or another route fails, researchers can consider the subclavian vein puncture. General anesthesia is required for this procedure, and this is a major limitation of this procedure. Here, we use pentobarbital sodium for general anesthesia. Compared to other agents, pentobarbital sodium is easy to inject, and no other special instruments are needed. Tsukamoto et al. reported that isoflurane inhalation had the most stable SpO2 than other agents and had short recovery times. In centers with inhalation equipment, isoflurane can be considered13. Moreover, as the subclavian vein is located near to the thoracic cavity, we must be careful to prevent severe procedure-related complications such as pneumothorax and hemopneumothorax. The direction of the needle must be carefully directed to avoid these complications. Here, the needle is always positioned parallel to the clavicle and just posterior to it and moved gently towards the suprasternal fossae. The results show that use of above technique can avoid potential complications. Avoid any downward direction of the needle toward the thoracic cavity in this procedure. Also, the depth of the subclavian vein must always be kept about 2 mm from the puncture site.
Occasionally, attempts from one side may fail. We do not suggest more than 3 attempts from the same side. In such conditions, use the other side for puncture, which may improve the success rate of blood sampling. To further illustrate the feasibility of our method, we tested the success rate and time expended between a beginner group and a skilled group. Interestingly, there were no statistical significance between these groups (p = 0.33), which proved the practicability of this newly developed method.
As discussed here, the main limitation is the success rate on one side. If the procedure fails, the other side of the subclavian vein must be considered. General anesthesia is used in this procedure and the recovery time averaged about 30 min with pentobarbital sodium. Isoflurane inhalation anesthesia has a much shorter recovery time and the adoption of new anesthesia methods could be helpful in reducing the duration of the procedure. We show that this method is applicable to rats, but we have not tested its applicability to smaller animals such as mice.
In conclusion, the study results indicate that the subclavian vein puncture method for blood sample collection is safe and feasible in rats. This method is especially valuable when large amounts of blood are needed. This method is an optimal alternative if conventional blood sampling procedures fail.
The authors have nothing to disclose.
None declared.
rats | Hunan SJA Laboratory Animal Co., Ltd (Changsha, Hunan Province, China) | ||
stastical software | SPSS Statistics 17 | ||
epilating agent | France Yi Sha Cosmetics Co.,Ltd(Guangzhou, Guangdong Province ,China) | ||
2.5 mL syringe | Shandong Weigao Group Medical Polymer Co.,Ltd(Weihai,Shandong Province ,China) | ||
hair shaver | Shanghai FLYCO Electric Co., Ltd(Shanghai,China) | ||
adhesive tape | 3M Deutschland GmbH(EdisonstraBe 6,59157 Kamen, Germany) | ||
Pentobarbital sodium | Merck | ||
75% ethanol | Department of Pharmacy,The Second Xiangya Hospital of Central South Univesity | ||
blood collection tube | Hubei Jinxing Technology&Development Co.,Ltd (Wuhan Hubei Province,China) (2ml) | ||
electronic scale | Dongguan Shengheng Electronics Co.,Ltd (Dongguan,Guangdng Province,China) | ||
canvas gloves | for anethesia | ||
hepain | Nanjing Xinbai Pharmaceutical Co.,Limited (Nanjing, Jiangsu Province, China) (2mL, 12500 IU) | ||
physical saline | Hunan Kelun Pharmaceutical Co., Ltd(Yueyang ,Hunan Province,China) (100ml) |