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Severity Assessment of Complex and Repeated Intracranial Surgery in Rats
Author(s) -
Riedesel Ann-Kristin,
Helgers Simeon O.A.,
Abdulbaki Arif,
Hatipoglu Majernik Gökce,
Alam Mesbah,
Krauss Joachim K.,
Schwabe Kerstin
Publication year - 2021
Publication title -
european surgical research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.658
H-Index - 46
eISSN - 1421-9921
pISSN - 0014-312X
DOI - 10.1159/000520678
Subject(s) - research article
Evidence-based grading of the impact of intracranial surgery on rat’s well-being is important for ethical and legal reasons. We assessed the severity of complex and repeated intracranial surgery in a 6-hydroxydopamine (6-OHDA) Parkinson’s rat model with subsequent intracranial electrode implantation and in an intracranial tumor model with subsequent resection. Methods: Stereotactic surgery was performed in adult male rats with the same general anesthesia and perioperative pain management. In Parkinson’s model, Sprague Dawley rats received unilateral injection of 6-OHDA ( n = 11) or vehicle ( n = 7) into the medial forebrain bundle as first operation (1st OP). After four weeks, neural electrodes were implanted in all rats as second operation (2nd OP). For tumor formation, BDIX/UlmHanZtm rats ( n = 8) received frontocortical injection of BT4Ca cells as 1st OP, followed by tumor resection as 2nd OP after one week. Multiple measures severity assessment was done two days before and four days after surgery in all rats, comprising clinical scoring, body weight, and detailed behavioral screening. To include a condition with a known burden, rats with intracranial tumors were additionally assessed up to a predefined humane endpoint that has previously been classified as “moderate”. Results: After the 1st OP, only 6-OHDA injection resulted in transient elevated clinical scores, a mild long-lasting weight reduction, and motor disturbances. After the second surgery, body weight was transiently reduced in all groups. All other parameters showed variable results. Principal component analysis showed a separation from the preoperative state driven by motor-related parameters after 6-OHDA injection, while separation after electrode implantation and more clearly after tumor resection was driven by pain-related parameters, although not reaching the level of the humane endpoint of our tumor model. Conclusion: Overall, cranial surgery of different complexity only transiently and rather mildly affects rat’s well-being. Multiple measures assessment allows the differentiation of model-related motor disturbances in Parkinson’s model from potentially pain-related conditions after tumor resection and electrode implantation.

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