Research reportThe effect of brief neonatal cryoanesthesia on physical development and adult cognitive function in mice

•We studied the effects of deep hypothermia (cryoanesthesia) on cognition in mice.•Cryoanesthesia within 10 h after birth did not affect the body weight of pups.•The body weight of neonatally cryoanesthetized adult mice normal.•Up to 12 min cryoanesthesia did not affect spatial or fear memories in adult mice.•Neonatal cryoanesthesia also did not affect the brain weight of adult mice.

Deep hypothermia (cryoanesthesia) is often used as general anesthesia during surgery in neonatal rodents. Neonatal cryoanesthesia has been used recently to generate somatic brain transgenic (SBT) mouse models via intracerebral ventricular injection of rAAV vectors into both non-transgenic mice and numerous transgenic mouse models. Since, the evaluation of cognition is one of the main experimental endpoints in many of these studies, we examined the consequences of brief neonatal cryoanesthesia on the physical development and mnemonic function of adult mice. Two groups of 129FVBF1 pups from reciprocal breeding crosses underwent cryoanesthesia for 6 min (Cryo6) or 12 min (Cryo12), respectively, within the first hours (<12 h) of postnatal life. A group of pups separated from the nest and kept in ambient temperature of 33 °C for 6 min served as a control. Our results revealed that lowering the temperature of pups to ∼8 °C (Cryo6) or ∼5 °C (Cryo12) did not affect their body weight at pre-weaning stage and in the adulthood. The evaluation of cognitive function in adult mice revealed strong and comparable to control spatial reference, and context and tone fear memories of neonatally cryoanesthetized mice. Also, the experimental and control groups had comparable brain weight at the end of the study. Our results demonstrate that neonatal cryoanesthesia, lasting up to 12 min, has no adverse effects on the body weight of mice during development, and on their cognition in the adulthood.