Rivka Inbal scite author profile

(1) When hindlimb peripheral nerves are cut across in rats and mice, there is a tendency for the animal to attack the anaesthetic limb. We have called this attack "autotomy". In this paper we describe the time course and degree of autotomy following various types of nerve injury. (2) Four different types of lesion were applied to the sciatic nerve of rats. The most serious autotomy was produced by section of the nerve and encapsulation of its cut end in a polythene tube. Section followed by immediate resuturing also produced serious autotomy. Simple ligation of the nerve end was followed by less autotomy than encapsulation or cut and resuture. A crush lesion caused only minimal attack. (3) Section of the saphenous branch of the femoral nerve produced no autotomy. However, if the saphenous and sciatic nerves were ligated at the same time so that the entire foot became anaesthetic there was a great increase of autotomy over that seen when the sciatic nerve alone was ligated. This increase with the double lesion occurred even if the saphenous nerve was ligated more than 100 days after the sciatic nerve had been cut. (4) Mice showed autotomy very similar to that seen in rats but the onset was somewhat faster. (5) Reasons are given to propose that autotomy is triggered by an abnormal afferent barrage generated in the cut end of the nerve. Autotomy from peripheral nerve lesions is a different phenomenon from that seen after dorsal root section. Autotomy occurs under conditions which produce anaesthesia dolorosa in man. This simple model may be suitable for studies of the prevention of irritations originating from chronic lesions of peripheral nerves.

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Collateral sprouting in skin and sensory recovery after nerve injury in man

Inbal

Rousso

Ashur

et al. 1987

Pain

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Two different modes of cutaneous sensory reinnervation are thought to be engaged following nerve injury: regenerative growth of the injured nerve and 'collateral sprouting' of neighboring intact nerves. Although both processes are well known from experimental preparations, there is little unequivocal documentation of collateral sprouting in human skin. We report here on 5 patients in whom at least partial recovery of sensation in the hand following traumatic or surgical nerve section was apparently based on collateral sprouting from nerves that had not themselves been injured. Two types of evidence are brought. In three of the cases a totally anesthetic region of skin at a distance from the site of injury was shown to recover sensitivity long before regenerating nerve fibers could have arrived, given the known rates of fiber outgrowth. In the remaining two cases, nerve blocks using local anesthetics were used to establish that the reinnervated skin was served by a nerve other than the injured one. Thus, collateral sprouting appears to contribute to cutaneous sensory recovery in man as well as in animals.

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Autotomy following nerve injury: Genetic factors in the development of chronic pain

Inbal¹,

Devor²,

Tuchendler³

et al. 1980

Pain

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Several weeks following transection and ligation of the hind limb nerves in rats, the animals often attack their anaesthetic foot ("autotomy"). This behaviour is thought to reflect a sensory pathology analogous to anaesthesia dolorosa. We report here that the extent of autotomy varies greatly in genetically different populations of rats. Rats of one population, LC2, showed high autotomy levels; rats of another, LC1, showed very low autotomy levels. The main genetic difference between these two populations is the presence of inbred Lewis rat stock in the LC1 population. Pure Lewis strain rats proved to have very low autotomy levels. Thus, constitutional differences between different rat populations effect the extent of autotomy. These data may bear on the fact that after seemingly identical nerve injuries, some humans develop chronic pain syndromes and others do not. Our rat strains may provide a model for investigating the physiological basis of constitutional susceptibility to chronic pain.

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Rivka Inbal

Autotomy following peripheral nerve lesions: experimental anesthesia dolorosa

Collateral sprouting in skin and sensory recovery after nerve injury in man

Autotomy following nerve injury: Genetic factors in the development of chronic pain

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