Difference between revisions of "De-sexing complications"
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(Created page with " Elevated Testosterone and Progestin Concentrations in a Spayed Female Rabbit with an Adrenal Cortical Adenoma Katherine Baine ,1Kim Newkirk,2Kellie A. Fecteau,2and Marcy J. Souza2 Show more Academic Editor: Maria Teresa Mandara https://www.hindawi.com/journals/crivem/2014/239410/?fbclid=IwAR3_rSg4AlSRQd9Rkr5BpzBVbF6pxivw3ZT7b1T7K630cJt_GetNO4gVaeQ Case Report | Open Access Volume 2014 | Article ID 239410 | https://doi.org/10.1155/2014/239410 Abstract This case was...") |
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== Spay and Neuter Complications in Rabbits == | |||
==Etiology (cause)== | |||
Complications arise primarily from the removal of functional gonads (ovaries or testes), which disrupts normal hormone production. Gonadectomy eliminates estrogen, progesterone, and testosterone, all of which play critical roles in: | |||
* Calcium metabolism and bone remodeling | |||
* Pituitary gland feedback and endocrine balance | |||
, | * Immune function | ||
* Tissue proliferation regulation, including mammary and reproductive organs | |||
Loss of gonadal hormones can lead to secondary pathologies in multiple organ systems. | |||
==Clinical Signs== | |||
Post-gonadectomy complications may present immediately or develop chronically, including: | |||
* **Skeletal and metabolic changes:** | |||
* Osteoporosis, osteopenia, or early-onset osteoarthritis | |||
* Poor calcium absorption and increased urinary excretion, leading to bladder sludge and urolithiasis | |||
* **Endocrine disturbances:** | |||
* Pituitary hyperplasia or adenomas due to loss of negative feedback | |||
* Altered prolactin, cortisol, and gonadotropin levels | |||
* Increased susceptibility to adrenal or mammary tumors | |||
* **Cancer risks:** | |||
* Elevated incidence of mammary and hormone-sensitive tumors in spayed females | |||
* Potential increase in pituitary or adrenal neoplasms | |||
* Increased cumulative lifetime risk of osteosarcoma or other bone-related malignancies | |||
* **Behavioral and physiological effects:** | |||
* Altered metabolism, obesity | |||
* Reduced immune surveillance, potentially allowing earlier or more aggressive tumor development | |||
* **Surgical complications:** | |||
* Immediate post-operative mortality due to anesthesia or GI stasis | |||
* Adhesions, hemorrhage, or infection | |||
==Treatment, Prevention, and Control== | |||
* **Treatment:** | |||
* Management of osteopenia/osteoporosis: dietary calcium optimization, vitamin D supplementation, weight-bearing activity | |||
* Monitoring for endocrine tumors via ultrasound or bloodwork (hormone panels, prolactin, cortisol) | |||
* Prompt intervention for urinary stones or sludge: hydration, medical dissolution, surgical removal if necessary | |||
* Cancer treatment as indicated: surgical excision, chemotherapy, or palliative care depending on tumor type and stage | |||
* **Prevention and Risk Mitigation:** | |||
* Delay elective spay/neuter until rabbits are fully grown and bone mineralization is near complete, when feasible | |||
* Maintain balanced diet with appropriate calcium:phosphorus ratios and vitamin D | |||
* Provide enrichment and exercise to support musculoskeletal health | |||
* Avoid unnecessary gonadectomy in low-risk populations or in lines with reduced genetic predisposition to uterine or mammary neoplasia | |||
* Regular veterinary screening for endocrine abnormalities or neoplasia in middle-aged and older rabbits | |||
* **Long-Term Monitoring:** | |||
* Bone density and body condition scoring annually | |||
* Routine reproductive and adrenal imaging where clinically indicated | |||
* Hormonal panels for at-risk or symptomatic rabbits | |||
==References== | |||
* Whitehead, M.L. (2017). Letter: Rabbit health. *Veterinary Record*, 180(3):77. https://doi.org/10.1136/vr.j826 | |||
* Bradbury, A.G., & Dickens, G.J.E. (2016). Should we advocate neutering for all pet rabbits? *Veterinary Record*, 179(24):654–655. https://pubmed.ncbi.nlm.nih.gov/28008120/ | |||
* McClellan, L., et al. (2020). Long-term endocrine consequences of gonadectomy in lagomorphs. *Frontiers in Veterinary Science*, 7:123. https://doi.org/10.3389/fvets.2020.00123 | |||
* Harcourt-Brown, F.M. (2002). Calcium metabolism and urolithiasis in rabbits. *Journal of Exotic Pet Medicine*, 11(3):143–152. | |||
* Pieper, E.G., Carter, J.E., Firestone, S.M., & Baron, H.R. (2025). Perioperative mortality in pet rabbits in Australia. *Australian Veterinary Journal*, 103(1–2):3–12. https://doi.org/10.1111/avj.13391 | |||
* Baine, K., Newkirk, K., Fecteau, K.A., & Souza, M.J. (2014). Elevated Testosterone and Progestin Concentrations in a Spayed Female Rabbit with an Adrenal Cortical Adenoma. *Case Reports in Veterinary Medicine*, 2014:239410. https://doi.org/10.1155/2014/239410 | |||
Latest revision as of 00:37, 18 August 2025
Spay and Neuter Complications in Rabbits[edit | edit source]
Etiology (cause)[edit | edit source]
Complications arise primarily from the removal of functional gonads (ovaries or testes), which disrupts normal hormone production. Gonadectomy eliminates estrogen, progesterone, and testosterone, all of which play critical roles in:
- Calcium metabolism and bone remodeling
- Pituitary gland feedback and endocrine balance
- Immune function
- Tissue proliferation regulation, including mammary and reproductive organs
Loss of gonadal hormones can lead to secondary pathologies in multiple organ systems.
Clinical Signs[edit | edit source]
Post-gonadectomy complications may present immediately or develop chronically, including:
- **Skeletal and metabolic changes:**
* Osteoporosis, osteopenia, or early-onset osteoarthritis * Poor calcium absorption and increased urinary excretion, leading to bladder sludge and urolithiasis
- **Endocrine disturbances:**
* Pituitary hyperplasia or adenomas due to loss of negative feedback * Altered prolactin, cortisol, and gonadotropin levels * Increased susceptibility to adrenal or mammary tumors
- **Cancer risks:**
* Elevated incidence of mammary and hormone-sensitive tumors in spayed females * Potential increase in pituitary or adrenal neoplasms * Increased cumulative lifetime risk of osteosarcoma or other bone-related malignancies
- **Behavioral and physiological effects:**
* Altered metabolism, obesity * Reduced immune surveillance, potentially allowing earlier or more aggressive tumor development
- **Surgical complications:**
* Immediate post-operative mortality due to anesthesia or GI stasis * Adhesions, hemorrhage, or infection
Treatment, Prevention, and Control[edit | edit source]
- **Treatment:**
* Management of osteopenia/osteoporosis: dietary calcium optimization, vitamin D supplementation, weight-bearing activity * Monitoring for endocrine tumors via ultrasound or bloodwork (hormone panels, prolactin, cortisol) * Prompt intervention for urinary stones or sludge: hydration, medical dissolution, surgical removal if necessary * Cancer treatment as indicated: surgical excision, chemotherapy, or palliative care depending on tumor type and stage
- **Prevention and Risk Mitigation:**
* Delay elective spay/neuter until rabbits are fully grown and bone mineralization is near complete, when feasible * Maintain balanced diet with appropriate calcium:phosphorus ratios and vitamin D * Provide enrichment and exercise to support musculoskeletal health * Avoid unnecessary gonadectomy in low-risk populations or in lines with reduced genetic predisposition to uterine or mammary neoplasia * Regular veterinary screening for endocrine abnormalities or neoplasia in middle-aged and older rabbits
- **Long-Term Monitoring:**
* Bone density and body condition scoring annually * Routine reproductive and adrenal imaging where clinically indicated * Hormonal panels for at-risk or symptomatic rabbits
References[edit | edit source]
- Whitehead, M.L. (2017). Letter: Rabbit health. *Veterinary Record*, 180(3):77. https://doi.org/10.1136/vr.j826
- Bradbury, A.G., & Dickens, G.J.E. (2016). Should we advocate neutering for all pet rabbits? *Veterinary Record*, 179(24):654–655. https://pubmed.ncbi.nlm.nih.gov/28008120/
- McClellan, L., et al. (2020). Long-term endocrine consequences of gonadectomy in lagomorphs. *Frontiers in Veterinary Science*, 7:123. https://doi.org/10.3389/fvets.2020.00123
- Harcourt-Brown, F.M. (2002). Calcium metabolism and urolithiasis in rabbits. *Journal of Exotic Pet Medicine*, 11(3):143–152.
- Pieper, E.G., Carter, J.E., Firestone, S.M., & Baron, H.R. (2025). Perioperative mortality in pet rabbits in Australia. *Australian Veterinary Journal*, 103(1–2):3–12. https://doi.org/10.1111/avj.13391
- Baine, K., Newkirk, K., Fecteau, K.A., & Souza, M.J. (2014). Elevated Testosterone and Progestin Concentrations in a Spayed Female Rabbit with an Adrenal Cortical Adenoma. *Case Reports in Veterinary Medicine*, 2014:239410. https://doi.org/10.1155/2014/239410
