In The Wild | Mixlab Blog

Respiratory Depression in Chinese Water Deer | Mixlab

Written by Admin | July 21, 2023

The Chinese water deer (Hydropotes inermis), or simply “water deer”, is a diminutive deer native to the river valleys of the Yangtze flood plain in eastern China and in Korea. This deer was originally introduced to zoos in England in the late 1800s. Since the early 1900s, there have been numerous releases, translocations, and escapes of these animals.1-3 Water deer have also been introduced to other countries, including the United States.

Chinese water deer are a light- to medium-brown color and lack the white rump seen in other species of deer. Slightly smaller than a roe deer, the water deer’s large ears, black eyes and small black nose are said to give them a teddy bear-like appearance. They favor wet, marshy habitat and are strong swimmers. The Chinese water deer is the only deer in which the bucks (males) have no antlers. Instead, they have tusk-like canines that protrude downward from the upper mandible, resembling fangs.

Chinese water deer seem to prefer wetlands adjoining woodlands, although they will range onto nearby farmland. They typically feed on weeds, grasses, herbs and some browse, usually around dawn and dusk. Water deer do not form herds, but are seen either solitarily or in family groups of a doe with her fawns. Groups sometimes come together at choice feeding areas.2-4

Except when mating, Chinese water deer are solitary, but may form pairs or small groups. During the rest of the year, the bucks are particularly aggressive and do not tolerate the presence of other bucks. Both sexes will emit a short bark when alarmed or as a warning. During courtship, bucks make whistles and squeaks, and both sexes make a shrieking noise when being pursued.1-3

Capture and Respiratory Depression

The management of Chinese water deer can require the live capture of individual animals. For research and wildlife management purposes, many techniques have been used to capture water deer and other hoofstock, including live traps, drop nets, drive nets and rocket nets. Since these methods tend to limit the ability to select specific animals for capture, chemical immobilization using a remotely-delivered anesthetic agent has become the preferred capture technique. This is because this method is not only selective, but it reduces the stress of manual capture on water deer.

Numerous chemical agents and drug formulations are now available for the purposes of chemical immobilization due to increased scientific and physiological knowledge and the refinement of immobilizing drugs. Most of these are far more effective and safer than the drugs and combinations used in the past. Still, chemical immobilization does cause physiological stress to water deer. Sedated or anesthetized animals will be at risk of complications such as cardiovascular or respiratory depression and disruption of the thermoregulatory system. These effects can require supportive treatment by the attending veterinarian or support staff or the initiation of anesthetic reversal prior to completion of the procedure.4,5

Remote drug delivery systems are typically used for the purpose of chemical immobilization, usually via a dart gun or blowpipe. Drugs are injected by means of a dart syringe which is fired from the dart gun at a distance. Since dart volume can be a limiting factor, immobilizing drugs must be highly potent and concentrated. They must also have a high therapeutic index and wide safety margin since animals cannot be examined and weighed prior to immobilization.4 The ideal drugs will also be fast-acting to limit stress and the likelihood of escape following darting. They should also be reversible, since water deer are often released back into the wild immediately after the capture event.

In zoos, deer farms, breeding facilities and even in free-ranging situations, chemical immobilization is usually carried out from the ground. In some circumstances however, wild animals often have to be located and darted from a helicopter.4 All of the above methods of capture can cause significant stress and trauma to animals, potentially giving rise to complications.

Respiratory Depression Risks in Chinese Water Deer

It is unavoidable that the chemical immobilization of Chinese water deer and other wildlife is associated with risks. In many cases, animals cannot be examined with regard to their health status beforehand and they often cannot receive adequate supportive treatment during immobilization in the field. Additionally, they are often highly-stressed and sometimes run long distances before they are immobilized. Most drugs used for immobilization have side effects; they not only cause sedation by influencing the central nervous system, but also influence cardiovascular, respiratory and thermoregulatory functions.4

Opioids are often used for the chemical immobilization of water deer and other wild herbivores. A disadvantage of using these drugs is that they can cause clinically significant respiratory depression which is due to their potent effect on mu-opioid receptors.5 Activation of mu-opioid receptors in the respiratory centers of animals depresses neurons that generate the normal respiratory rhythm. At the same time, activation of these receptors activate other receptors in the brain stem, on the aortic arch and carotid bodies, which depresses normal respiratory function.

The above processes lead to a reduction of the respiratory frequency and tidal volume, as well as pulmonary vasoconstriction which decreases pulmonary perfusion.4 Alpha-2 agonists such as guanabenz, clonidine, medetomidine, and dexmedetomidine cause reflex bradycardia and hypotension, which can lead to hypoxemia and tissue hypoxia. Hypoxia can cause capture myopathy, which can ultimately lead to cardiac arrest and death.5

Treating Respiratory Depression in Chinese Water Deer

Several approaches are available to reduce the risk of opioid-induced respiratory depression in water deer undergoing chemical immobilization. Assisted ventilation and oxygen insufflation can combat hypoxia,4 while agents such as opioid antagonists or partial antagonists can be used. Unfortunately, the latter also reduce desirable effects, such as the degree of immobilization, sedation and analgesia. Respiration can also be improved during chemical immobilization events via respiratory stimulants which act on non-opioid receptor systems such as potassium channel blockers, ampakines and serotonin receptor agonists.6

The use of oxygen is recommended during the chemical immobilization of Chinese water deer; this can be combined with a partial opioid reversal to better alleviate hypoxia.5 Naltrexone is frequently used to fully reverse opioid-based immobilization after capture, especially if the animal needs to be released back into the field and must be fully alert. If residual analgesic or sedative effects are required, partial opioid antagonists or mixed agonists/antagonists are used for the reversal of opioids such as diprenorphine, nalorphine or butorphanol.6,7 Signs of recovery after naltrexone administration typically consist of increased respiratory depth, followed by ear twitching, eye movement and lifting of the head.7

Butorphanol or other partial mu-receptor antagonists can be used to reduce respiratory depression caused by strong mu-agonistic immobilization drugs.4,7 Some of these also reduce the immobilization effects of opioids, however. Potassium channel blockers such as doxapram can also be used to stimulate breathing. Doxapram is widely used as a respiratory stimulant by veterinarians. It has been shown to increase the minute ventilation in large herbivores immobilized with etorphine.8 It should be noted that the respiratory effects of doxapram are usually short lived.

While safe and effective drug combinations used for darting were not always commercially available as pre-mixed solutions, many of these can now be purchased as highly-concentrated drug formulations for this purpose from compounding pharmacies. Such formulations are often species-specific, reliable and are less likely to bring about complications such as respiratory depression in Chinese water deer than drugs and combinations used in the past.


1mammal.org.uk.
2britannica.com.
3bds.org.uk.
4Walsh VP, Wilson PR. Sedation and chemical restraint of deer. N Z Vet J. 2002 Dec;50(6):228-36. doi: 10.1080/00480169.2002.36318. PMID: 16032278.
5Arnemo, J. Kreeger, T. (2018). Handbook of Wildlife Chemical Immobilization 5th Ed. Sunquest Publishing, 2007.
6Arnemo, J., et. al. Field Emergencies and Complications. In: G. West, D. Heard, & N. Caulkett, eds. Zoo Animal and Wildlife Immobilization and Anaesthesia. Oxford: Wiley Blackwell, pp. 139–147.
7Bailey, P.L., et. al. (1985) The ED50 of carfentanil for elk immobilization with and without the Tranquilizer R51703. The Journal of Wildlife Management, 49(4), pp.931–934.
8Van der Schier, R., et. al. (2014) Opioid-induced respiratory depression: reversal by non-opioid drugs. F1000 Prime Reports, 6, pp.1–8.