Difference between revisions of "Humane endpoints"
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(Included the table "Refinement of study specific endpoints and alternatives to death/moribund as endpoint") |
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| − | '''Refinement of study specific endpoints and alternatives to death | + | '''Refinement of study specific endpoints and alternatives to death/moribund as endpoint''' |
{| class="wikitable" | {| class="wikitable" | ||
| − | | | + | | |
| − | |'''Focus of the Study''' | + | |'''Focus of the Study''' |
| − | |'''Proposed Endpoint''' | + | |'''Proposed Endpoint''' |
| − | |'''Reference''' | + | |'''Reference''' |
|- | |- | ||
| rowspan="3" |'''INFECTIONS, IMMUNE SYSTEM''' | | rowspan="3" |'''INFECTIONS, IMMUNE SYSTEM''' | ||
| − | | rowspan="3" |Infectious diseases | + | | rowspan="3" |Infectious diseases |
| − | + | |Acute phase responses | |
| − | |Acute phase responses | ||
|Olfert, E.D. and D.L. Godson, Humane endpoints for infectious disease animal models. ILAR J, 2000. 41(2): p. 99-104. | |Olfert, E.D. and D.L. Godson, Humane endpoints for infectious disease animal models. ILAR J, 2000. 41(2): p. 99-104. | ||
|- | |- | ||
| − | |Body Temperature | + | |Body Temperature |
| − | |Olfert, E.D. and D.L. Godson, ''Humane endpoints for infectious disease animal models.'' ILAR J, 2000. '''41'''(2): p. 99-104. | + | |Olfert, E.D. and D.L. Godson, ''Humane endpoints for infectious disease animal models.'' ILAR J, 2000. '''41'''(2): p. 99-104. |
|- | |- | ||
| − | |Weight loss | + | |Weight loss |
| − | |Olfert, E.D. and D.L. Godson, ''Humane endpoints for infectious disease animal models.'' ILAR J, 2000. '''41'''(2): p. 99-104. | + | |Olfert, E.D. and D.L. Godson, ''Humane endpoints for infectious disease animal models.'' ILAR J, 2000. '''41'''(2): p. 99-104. |
|- | |- | ||
| − | | | + | | |
| − | |Shock by cecal ligations and puncture (CLP) | + | |Shock by cecal ligations and puncture (CLP) |
|Observation of Loss of ability to ambulate. | |Observation of Loss of ability to ambulate. | ||
| Line 34: | Line 33: | ||
|- | |- | ||
| | | | ||
| − | |Rheumatoid arthritis in rodents | + | |Rheumatoid arthritis in rodents |
| − | |Swollen digits, knuckle, midfoot and ancle/wrist scoring, Ulceration, gait and posture analysis | + | |Swollen digits, knuckle, midfoot and ancle/wrist scoring, Ulceration, gait and posture analysis |
| − | |Hawkins, P., et al., ''Applying refinement to the use of mice and rats in rheumatoid arthritis research.'' Inflammopharmacology, 2015. '''23'''(4): p. 131-50. | + | |Hawkins, P., et al., ''Applying refinement to the use of mice and rats in rheumatoid arthritis research.'' Inflammopharmacology, 2015. '''23'''(4): p. 131-50. |
|- | |- | ||
| colspan="4" |'''CANCER''' | | colspan="4" |'''CANCER''' | ||
| Line 46: | Line 45: | ||
|- | |- | ||
| | | | ||
| − | |Intracranial Glioma in rat | + | |Intracranial Glioma in rat |
| − | |Body weight algorithm | + | |Body weight algorithm |
| − | |Helgers, S.O.A., et al., ''Body weight algorithm predicts humane endpoint in an intracranial rat glioma model.'' Sci Rep, 2020. '''10'''(1): p. 9020. | + | |Helgers, S.O.A., et al., ''Body weight algorithm predicts humane endpoint in an intracranial rat glioma model.'' Sci Rep, 2020. '''10'''(1): p. 9020. |
|- | |- | ||
| | | | ||
| − | |Severe irradiations studies in NHP | + | |Severe irradiations studies in NHP |
| − | |Rapid decrease of body temperature for 3 consecutive days combined with general behaviour score | + | |Rapid decrease of body temperature for 3 consecutive days combined with general behaviour score |
|Bertho, J.M., et al., ''Humane endpoints in severe irradiation experiments using non-human primates: a retrospective analysis.'' Scandinavian Journal of Laboratory Animal Science, 2020. '''46'''(1): p. 1-15 | |Bertho, J.M., et al., ''Humane endpoints in severe irradiation experiments using non-human primates: a retrospective analysis.'' Scandinavian Journal of Laboratory Animal Science, 2020. '''46'''(1): p. 1-15 | ||
|- | |- | ||
| | | | ||
| − | |Total-Body Irradiation in Mouse | + | |Total-Body Irradiation in Mouse |
| − | |Body weight, temperature by telemetry | + | |Body weight, temperature by telemetry |
|Koch, A., et al., ''Establishment of Early Endpoints in Mouse Total-Body Irradiation Model.'' PLoS One, 2016. '''11'''(8): p. e0161079. | |Koch, A., et al., ''Establishment of Early Endpoints in Mouse Total-Body Irradiation Model.'' PLoS One, 2016. '''11'''(8): p. e0161079. | ||
|- | |- | ||
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|- | |- | ||
| | | | ||
| − | |Experimental liver metastases | + | |Experimental liver metastases |
| − | |Laparoscopy | + | |Laparoscopy |
| − | |Kobaek-Larsen, M., et al., ''Laparoscopy of rats with experimental liver metastases: a method to assess new humane endpoints.'' Lab Anim, 2004. '''38'''(2): p. 162-8. | + | |Kobaek-Larsen, M., et al., ''Laparoscopy of rats with experimental liver metastases: a method to assess new humane endpoints.'' Lab Anim, 2004. '''38'''(2): p. 162-8. |
|- | |- | ||
|'''CNS''' | |'''CNS''' | ||
| Line 77: | Line 76: | ||
|- | |- | ||
| rowspan="2" | | | rowspan="2" | | ||
| − | | rowspan="2" |Amyotrophic Lateral Sclerosis (ALS) | + | | rowspan="2" |Amyotrophic Lateral Sclerosis (ALS) |
| − | |Decline in motoric Function | + | |Decline in motoric Function |
|Mead, R.J., et al., ''Optimised and rapid pre-clinical screening in the SOD1(G93A) transgenic mouse model of amyotrophic lateral sclerosis (ALS).'' PLoS One, 2011. '''6'''(8): p. e23244. | |Mead, R.J., et al., ''Optimised and rapid pre-clinical screening in the SOD1(G93A) transgenic mouse model of amyotrophic lateral sclerosis (ALS).'' PLoS One, 2011. '''6'''(8): p. e23244. | ||
|- | |- | ||
|Home cage running wheel | |Home cage running wheel | ||
| − | |Bennett, E.J., et al., ''Early detection of motor dysfunction in the SOD1G93A mouse model of Amyotrophic Lateral Sclerosis (ALS) using home cage running wheels.'' PLoS One, 2014. '''9'''(9): p. e107918. | + | |Bennett, E.J., et al., ''Early detection of motor dysfunction in the SOD1G93A mouse model of Amyotrophic Lateral Sclerosis (ALS) using home cage running wheels.'' PLoS One, 2014. '''9'''(9): p. e107918. |
|- | |- | ||
| colspan="4" |'''TOX testing''' | | colspan="4" |'''TOX testing''' | ||
| Line 94: | Line 93: | ||
|- | |- | ||
| | | | ||
| − | |Post laparotomy | + | |Post laparotomy |
| − | |Telemetric recording of heart rate | + | |Telemetric recording of heart rate |
|Arras, M., et al., ''Assessment of post-laparotomy pain in laboratory mice by telemetric recording of heart rate and heart rate variability.'' BMC Vet Res, 2007. '''3''': p. 16. | |Arras, M., et al., ''Assessment of post-laparotomy pain in laboratory mice by telemetric recording of heart rate and heart rate variability.'' BMC Vet Res, 2007. '''3''': p. 16. | ||
<br /> | <br /> | ||
| Line 102: | Line 101: | ||
|- | |- | ||
| | | | ||
| − | |Murine model for cholestasis | + | |Murine model for cholestasis |
| − | |Burrowing activity | + | |Burrowing activity |
| − | |Zhang, X., et al., ''A rational approach of early humane endpoint determination in a murine model for cholestasis.'' ALTEX, 2020. '''37'''(2): p. 197-207. | + | |Zhang, X., et al., ''A rational approach of early humane endpoint determination in a murine model for cholestasis.'' ALTEX, 2020. '''37'''(2): p. 197-207. |
|- | |- | ||
| | | | ||
| − | |Anti-urolithiasis activity of test compounds by zinc disc implantation | + | |Anti-urolithiasis activity of test compounds by zinc disc implantation |
| − | |Imaging (X-ray radiographs) of the bladder deposits | + | |Imaging (X-ray radiographs) of the bladder deposits |
| − | |Singh, P.K., et al., ''Zinc disc implantation model of urinary bladder calculi and humane endpoints.'' Lab Anim, 2010. '''44'''(3): p. 226-30. | + | |Singh, P.K., et al., ''Zinc disc implantation model of urinary bladder calculi and humane endpoints.'' Lab Anim, 2010. '''44'''(3): p. 226-30. |
|} | |} | ||
Revision as of 09:58, 1 February 2021
A broad definition of Humane endpoint is a concept for continuous refinement of animal studies (Hendriksen et al., 2010). This broad definition is aligned with the 3R principles (Balls et al., 1995, EvaluationandRetrospectiveAssessment, 2013, Russell and Burch, 1959).
Continuous improvements or refinement is embedded in the directive (EuropeanCommission, 2010) – Article 4.3 Member States shall ensure refinement of breeding, accommodation and care, and of methods used in procedures, eliminating or reducing to the minimum any possible pain, suffering, distress or lasting harm to the animals.
Refinement of study specific endpoints and alternatives to death/moribund as endpoint
| Focus of the Study | Proposed Endpoint | Reference | |
| INFECTIONS, IMMUNE SYSTEM | Infectious diseases | Acute phase responses | Olfert, E.D. and D.L. Godson, Humane endpoints for infectious disease animal models. ILAR J, 2000. 41(2): p. 99-104. |
| Body Temperature | Olfert, E.D. and D.L. Godson, Humane endpoints for infectious disease animal models. ILAR J, 2000. 41(2): p. 99-104. | ||
| Weight loss | Olfert, E.D. and D.L. Godson, Humane endpoints for infectious disease animal models. ILAR J, 2000. 41(2): p. 99-104. | ||
| Shock by cecal ligations and puncture (CLP) | Observation of Loss of ability to ambulate.
Body weight and temperature |
Nemzek, J. A., Xiao, H. Y., Minard, A. E., BOLGOS, G. L. & REMICK, D. G. 2004. Humane endpoints in shock research. Shock, 21, 17-25. | |
| Rheumatoid arthritis in rodents | Swollen digits, knuckle, midfoot and ancle/wrist scoring, Ulceration, gait and posture analysis | Hawkins, P., et al., Applying refinement to the use of mice and rats in rheumatoid arthritis research. Inflammopharmacology, 2015. 23(4): p. 131-50. | |
| CANCER | |||
| Early Cancer detection | Ultrasound | Wang, L. V. (2003). Ultrasound-mediated biophotonic imaging: a review of acousto-optical tomography and photo-acoustic tomography. Disease Markers, 19(2-3), 123–138. https://doi.org/10.1155/2004/478079 | |
| Intracranial Glioma in rat | Body weight algorithm | Helgers, S.O.A., et al., Body weight algorithm predicts humane endpoint in an intracranial rat glioma model. Sci Rep, 2020. 10(1): p. 9020. | |
| Severe irradiations studies in NHP | Rapid decrease of body temperature for 3 consecutive days combined with general behaviour score | Bertho, J.M., et al., Humane endpoints in severe irradiation experiments using non-human primates: a retrospective analysis. Scandinavian Journal of Laboratory Animal Science, 2020. 46(1): p. 1-15 | |
| Total-Body Irradiation in Mouse | Body weight, temperature by telemetry | Koch, A., et al., Establishment of Early Endpoints in Mouse Total-Body Irradiation Model. PLoS One, 2016. 11(8): p. e0161079. | |
| Colon cancer in rats | black feces or presence of fresh blood
|
Kobaek-Larsen, Morten, Fenger, Claus, & Ritskes-Hoitinga, Jelmera. (2004). Secondary effects induced by the colon carcinogen azoxymethane in BDIX rats. APMIS : Acta Pathologica, Microbiologica et Immunologica Scandinavica, 112(6), 319–329. https://doi.org/10.1111/j.1600-0463.2004.apm1120601.x | |
| Experimental liver metastases | Laparoscopy | Kobaek-Larsen, M., et al., Laparoscopy of rats with experimental liver metastases: a method to assess new humane endpoints. Lab Anim, 2004. 38(2): p. 162-8. | |
| CNS | |||
| Amyotrophic Lateral Sclerosis (ALS) | Decline in motoric Function | Mead, R.J., et al., Optimised and rapid pre-clinical screening in the SOD1(G93A) transgenic mouse model of amyotrophic lateral sclerosis (ALS). PLoS One, 2011. 6(8): p. e23244. | |
| Home cage running wheel | Bennett, E.J., et al., Early detection of motor dysfunction in the SOD1G93A mouse model of Amyotrophic Lateral Sclerosis (ALS) using home cage running wheels. PLoS One, 2014. 9(9): p. e107918. | ||
| TOX testing | |||
| Alternatives to LD 50 | Hypotermiadose50 (HD50) replaces LD50 | Soothill, J. S., Morton, D. B. & Ahmad, A. 1992. The HID50 (hypothermia-inducing dose 50): an alternative to the LD50 for measurement of bacterial virulence. Int J Exp Pathol, 73, 95-8. | |
| SURGERY | |||
| Post laparotomy | Telemetric recording of heart rate | Arras, M., et al., Assessment of post-laparotomy pain in laboratory mice by telemetric recording of heart rate and heart rate variability. BMC Vet Res, 2007. 3: p. 16.
| |
| Other organ systems | |||
| Murine model for cholestasis | Burrowing activity | Zhang, X., et al., A rational approach of early humane endpoint determination in a murine model for cholestasis. ALTEX, 2020. 37(2): p. 197-207. | |
| Anti-urolithiasis activity of test compounds by zinc disc implantation | Imaging (X-ray radiographs) of the bladder deposits | Singh, P.K., et al., Zinc disc implantation model of urinary bladder calculi and humane endpoints. Lab Anim, 2010. 44(3): p. 226-30. | |
