Efficacy of lateral- versus medial-approach hip joint capsule denervation as surgical treatments of the hip joint pain; a neuronal tract tracing study in the sheep

Efficacy of lateral- versus medial-approach hip joint capsule denervation as surgical treatments of the hip joint pain; a neuronal tract tracing study in the sheep

To evaluate efficacy of denervation of the of the hip joint capsule (HJC), as a treatment of hip joint pain. Specifically, we tested the hypothesis that HJC denervation will significantly reduce the number of sensory neurons innervating the capsule. Denervation of the HJC from a medial or lateral ap...

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Veröffentlicht in:PloS one 2018-01, Vol.13 (1), p.e0190052-e0190052
Hauptverfasser: Sienkiewicz, Waldemar, Dudek, Agnieszka, Czaja, Krzysztof, Janeczek, Maciej, Chrószcz, Aleksander, Kaleczyc, Jerzy
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Sprache:eng
Schlagworte:
Animals
Arthralgia
Arthritis
Biology and Life Sciences
Body weight
Care and treatment
Denervation
Dorsal root ganglia
Fentanyl
Ganglia
Hip
Hip joint
Hip Joint - innervation
Hip Joint - physiology
Innervation
Life sciences
Male
Medicine and Health Sciences
Methods
Neuronal Tract-Tracers
Neurons
Pain
Patient outcomes
Reduction
Sacrum
Sensory neurons
Sheep
Studies
Surgery
Veterinary medicine
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container_title PloS one
container_volume 13
creator Sienkiewicz, Waldemar
Dudek, Agnieszka
Czaja, Krzysztof
Janeczek, Maciej
Chrószcz, Aleksander
Kaleczyc, Jerzy
description To evaluate efficacy of denervation of the of the hip joint capsule (HJC), as a treatment of hip joint pain. Specifically, we tested the hypothesis that HJC denervation will significantly reduce the number of sensory neurons innervating the capsule. Denervation of the HJC from a medial or lateral approach was followed by retrograde tracing of sensory neurons innervating the capsule. Twenty adult male sheep (30-40 kg of body weight; Polish merino breed) were used in the study. The hip joint was denervated from medial (n = 5) or lateral (n = 5) surgical approaches. Immediately after denervation, the retrograde neural tract tracer Fast Blue (FB) was injected into the HJC. An additional ten animals (n = 5 for medial and n = 5 for lateral approach) received the same treatment without HJC denervation to provide the appropriate controls. Results of the study revealed that the vast majority of retrogradely labelled sensory neurons innervating the HJC originate from fifth lumbar to second sacral dorsal root ganglia. Both the medial and the lateral denervations significantly reduced the number of sensory neurons innervating the HJC (39.2% and 69.0% reduction respectively). These results show that denervation of the HJC is an effective surgical procedure for reduction of the sensory neuronal input to the HJC. Moreover, the lateral approach was found to be significantly more effective for reducing sensory innervation as compared to the medial one.
doi_str_mv 10.1371/journal.pone.0190052
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Both the medial and the lateral denervations significantly reduced the number of sensory neurons innervating the HJC (39.2% and 69.0% reduction respectively). These results show that denervation of the HJC is an effective surgical procedure for reduction of the sensory neuronal input to the HJC. Moreover, the lateral approach was found to be significantly more effective for reducing sensory innervation as compared to the medial one.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>29329303</pmid><doi>10.1371/journal.pone.0190052</doi><oa>free_for_read</oa></addata></record>
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subjects Animals
Arthralgia
Arthritis
Biology and Life Sciences
Body weight
Care and treatment
Denervation
Dorsal root ganglia
Fentanyl
Ganglia
Hip
Hip joint
Hip Joint - innervation
Hip Joint - physiology
Innervation
Life sciences
Male
Medicine and Health Sciences
Methods
Neuronal Tract-Tracers
Neurons
Pain
Patient outcomes
Reduction
Sacrum
Sensory neurons
Sheep
Studies
Surgery
Veterinary medicine
title Efficacy of lateral- versus medial-approach hip joint capsule denervation as surgical treatments of the hip joint pain; a neuronal tract tracing study in the sheep
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