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Journal articles on the topic 'Thryonomys'

Author: Grafiati
Published: 4 June 2021
Last updated: 18 February 2022

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1

van der Merwe, M. "Discriminating between Thryonomys swinderianus and Thryonomys gregorianus." African Zoology 42, no. 2 (October 2007): 165–71. http://dx.doi.org/10.3377/1562-7020(2007)42[165:dbtsat]2.0.co;2.

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2

Aluko, F. A. "Qualitative characteristics of Thryonomys swinderianus swinderianus and Thryonomys swinderianus gregorianus." Nigerian Journal of Animal Production 41, no. 1 (January 19, 2021): 258–63. http://dx.doi.org/10.51791/njap.v41i1.2732.

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Cane rat, a micro livestock currently being domesticated has the potential to increase animal protein sources. This study examined the qualitative characteristics of Thyryonomys swinderianus swinderianus (Tss) and Thryonomys swinderianus gregorianus (Tsg). Three hundred and thirty five cane rats were sampled. Seven qualitative characters were coded. These included: Shape of Head (SH), Eye Placement (EP), Ear Shape (ES), Body Pelage (BP), Tail Shape (TS), Tail Colour (TC), Breed (B). The qualitative characters were scored on the individual animals. This measures were analysed using frequency distribution and chi-square analysis. In the Tss population, 89.23% of the animals had broad heads, 10.77% had narrow heads. The broad heads animals had broad tip ear (89.236) have brown and yellow - belly white body colour (89.23%). Their tail is broad base and thin out to tip (87.69%) although a few (1.54%) had broad base and even out to tip. All the broad heads (89.23%) brown and yellow-belly white animals (100.00%) had black and hairy tail. In the Tsg population, 87.06% of the animals had narrow heads, (12,94%) had broad heads. The narrow heads animal (86.67%) had ear with broad tip and have black and yellow-belly white body colour (86.67%). The tail is broad base and thin out is tip (80.39%). All the narrow heads (87.06), black and yellow-belly white (99.61%) animals had black and hairy tail
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3

Jegede, Henry O., Ahmed O. Akeem, Oluwafemi B. Daodu, and Afolabi A. Adegboye. "Aflatoxicosis in African greater cane rats (Thryonomys swinderianus)." Veterinary World 11, no. 7 (July 2018): 1001–5. http://dx.doi.org/10.14202/vetworld.2018.1001-1005.

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4

Cox, J. M., S. L. MARINIER, and A. J. ALEXANDER. "Auditory communication in the cane rat (Thryonomys swinderianus)." Journal of Zoology 216, no. 1 (September 1988): 141–67. http://dx.doi.org/10.1111/j.1469-7998.1988.tb02421.x.

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5

Sacramento, TI, F. Aizoun, OS Sinabaragui, GA Mensah, and J.-M. Ategbo. "Détermination de l’âge de l’aulacode (Thryonomys swinderianus." International Journal of Biological and Chemical Sciences 7, no. 4 (February 18, 2014): 1427. http://dx.doi.org/10.4314/ijbcs.v7i4.1.

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6

Oboegbulem, Stephen I., and Ihekeremma Okoronkwo. "Salmonellae in the African Great Cane Rat (Thryonomys swinderianus)." Journal of Wildlife Diseases 26, no. 1 (January 1990): 119–21. http://dx.doi.org/10.7589/0090-3558-26.1.119.

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7

Sallam, Hesham M., and Erik R. Seiffert. "Revision of Oligocene ‘Paraphiomys’ and an origin for crown Thryonomyoidea (Rodentia: Hystricognathi: Phiomorpha) near the Oligocene–Miocene boundary in Africa." Zoological Journal of the Linnean Society 190, no. 1 (December 30, 2019): 352–71. http://dx.doi.org/10.1093/zoolinnean/zlz148.

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Abstract ‘Paraphiomys’ simonsi is a phiomorph rodent from the early Oligocene of Egypt (~29–30 Mya) that has historically been aligned with much younger (< ~20 Mya) Miocene species of the genera Paraphiomys and Neosciuromys. Here, we use Bayesian tip-dating analysis of a 109-character morphological matrix containing 57 living and extinct ctenohystricans to test these proposed placements for ‘Paraphiomys’ simonsi. Our analyses provide support for the exclusion of ‘Paraphiomys’ simonsi from both Paraphiomys and Neosciuromys and justify the establishment of a new genus (Monamys gen. nov.) for this stem thryonomyoid. These analyses also indicate that the divergence of the extant dassie rat Petromus from the extant cane rat Thryonomys (i.e. origin of crown Thryonomyoidea) occurred ~23.7 Mya, close to the Oligocene–Miocene boundary and in close agreement with recent molecular estimates for this split. Miocene Neosciuromys, Paraulacodus, Protohummus and the type species of Paraphiomys are identified as stem thryonomyids, whereas the Namibian species Apodecter stromeri, Tufamys woodi, ‘Paraphiomys’ australis and ‘Paraphiomys’ roessneri are identified for the first time as stem petromurids, raising the possibility of a long period of endemic petromurid evolution in south-west Africa. Comparison of molecular divergence estimates with our optimal tip-dated topology suggests that stem bathyergoids are most likely to have arisen from late Eocene and early Oligocene ‘phiomyids’.
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8

Akpan, M. O., O. M. Samuel, and B. O. Emikpe. "Peculiar epidermal peg pattern in cane rat skin." Sokoto Journal of Veterinary Sciences 18, no. 2 (September 9, 2020): 100–103. http://dx.doi.org/10.4314/sokjvs.v18i2.6.

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Skin is the largest organ in the body of man and animal where interdigitation of the dermal papillae with epidermal pegs enhances structural stability of the skin especially where frequent pressure is applied. Cane rats are robust rodents with stocky bodies. They are only found in Africa and only a single species known as Thryonomys has been found to exist. This work was designed to establish the nature of the interdigitating structural disposition of the epidermal-dermal interface in T. swinderianus (Greater cane rat) which may account for the fragility and easy tear of their skin. A total of twenty adult male greater cane rats were used. Three samples sized 1cm to 2cm were taken from each of 14 different body sites for histological evaluation for rete pegs. These pegs were generally few in six regions with the following average per light microscopic field: head (5.5±3.7), neck (1.0±1.7), forelimb (5.6±3.7), trunk (4.3±4.2), tail (1.0±1.7) and the hindlimb (6.3±5.3). The neck and the tail parts of the body have the least concentration of this structure compared to other regions evaluated. This few in number of rete pegs may account for the fragility of the skin which makes it difficult to restrain or handle without damage during research work procedures and management during domestication. Keywords: Epidermal pegs, Fragility, Histology, Peculiar, Thryonomys
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9

Addo, Phyllis, Alfred Dodoo, Samuel Adjei, Bawa Awumbila, and Ebenezer Awotwi. "Determination of the ovulatory mechanism of the grasscutter (Thryonomys swinderianus)." Animal Reproduction Science 71, no. 1-2 (May 2002): 125–37. http://dx.doi.org/10.1016/s0378-4320(01)00184-1.

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10

Broalet, E., A. Tako, D. Soro, Y. Zunon-Kipré, M. Kakou, and A. Fantodji. "L’encéphale de l’aulacode (Thryonomys swinderianus, Temminck) : aspects morphologiques et microstructure." Morphologie 98, no. 322 (September 2014): 129–30. http://dx.doi.org/10.1016/j.morpho.2014.04.073.

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11

Julien, Coulibaly-Kalpy, Goualie Bernadette, Kouassi Kan Stephane, Koffi Kouadio Stephane, Kra Guy Forget, Faye-Kette Hortense, Fantodji Agathe, and Dosso Mireille. "Emergence of Campylobacter spp. in grasscutter (Thryonomys swinderianus, Temminck, 1827)." Asian Pacific Journal of Tropical Disease 3, no. 4 (August 2013): 320–22. http://dx.doi.org/10.1016/s2222-1808(13)60076-6.

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12

Jori, F., J. E. Cooper, and J. Casal. "Postmortem findings in captive cane rats (Thryonomys swinderianus) in Gabon." Veterinary Record 148, no. 20 (May 19, 2001): 624–28. http://dx.doi.org/10.1136/vr.148.20.624.

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13

Schwarzenberg, A., C. H. Stier, A. Bessei, and C. F. Gall. "Reproductive behaviour of cane rats (Thryonomys swin-derianus) in captivity." Applied Animal Behaviour Science 40, no. 1 (April 1994): 95. http://dx.doi.org/10.1016/0168-1591(94)90125-2.

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14

Goue, D., and YM Yapi. "Typologie des élevages d’aulacodes (Thryonomys swinderianus) en Côte-d’Ivoire." International Journal of Biological and Chemical Sciences 9, no. 2 (July 22, 2015): 643. http://dx.doi.org/10.4314/ijbcs.v9i2.6.

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15

Hammoudi, Nassim, Agui Sylvestre Dizoe, Sofiane Regoui, Bernard Davoust, Michel Drancourt, and Amar Bouam. "Disseminated Mycobacterium ulcerans Infection in Wild Grasscutters (Thryonomys swinderianus), Côte d’Ivoire." American Journal of Tropical Medicine and Hygiene 101, no. 3 (September 4, 2019): 491–93. http://dx.doi.org/10.4269/ajtmh.19-0137.

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16

Sacramento, TI, OS Sinabaragui, F. Aizoun, S. Farougou, GA Mensah, and J.-M. Ategbo. "Determination of grasscutter age (Thryonomys swinderianus Temminck, 1827) from anogenital distance." Journal of Applied Biosciences 62 (March 6, 2013): 4637. http://dx.doi.org/10.4314/jab.v62i0.86148.

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17

van der Merwe, M. "Tooth succession in the greater cane rat Thryonomys swinderianus (Temminck, 1827)." Journal of Zoology 251, no. 4 (August 2000): 535–47. http://dx.doi.org/10.1017/s0952836900238132.

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18

Müller, W. "Is Enterotoxaemia in Grasscutters (Thryonomys swinderianus) Caused by C. perfringens Toxovars?" Journal of Veterinary Medicine, Series B 42, no. 1-10 (January 12, 1995): 569–71. http://dx.doi.org/10.1111/j.1439-0450.1995.tb00749.x.

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19

Broalet, E., A. Tako, Y. Zunon-Kipre, D. Ouatara, and F. Kouakou. "Sur l’anatomie de l’aulacode (Thryonomys swinderianus, Temminck, 1827) : revue de littérature." Morphologie 96, no. 314-315 (October 2012): 100. http://dx.doi.org/10.1016/j.morpho.2012.08.080.

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20

Broalet, Espérance, Hounakey Mawunnyo Afanvi, Yaya Kamissoko, and Antoine Tako. "Étude anatomique de l’artère vertébrale de l’aulacode (Thryonomys swinderianus, Temminck, 1827)." Morphologie 103, no. 342 (November 2019): 117. http://dx.doi.org/10.1016/j.morpho.2019.09.024.

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21

Jori, F., and J. E. Cooper. "Spontaneous Neoplasms in Captive African Cane Rats (Thryonomys swinderianus Temminck, 1827)." Veterinary Pathology 38, no. 5 (September 2001): 556–58. http://dx.doi.org/10.1354/vp.38-5-556.

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22

S., Y. Annor, K. Ahunu B., S. Aboagye G., Boa-Amponsem K., and P. Cassady J. "Non-genetic factors affecting fitness traits in the grasscutter (Thryonomys swinderianus)." International Journal of Livestock Production 5, no. 6 (June 13, 2014): 103–11. http://dx.doi.org/10.5897/ijlp2013.0178.

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23

Henry, A. J., S. N. Ibe, and B. O. Asuquo. "Estimation of genetic parameters for litter traits in grasscutters (Thryonomys swinderianus)." Animal Production Science 54, no. 10 (2014): 1762. http://dx.doi.org/10.1071/an14371.

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A study was conducted to estimate genetic parameters for litter traits in grasscutters. Data were obtained using 209 progenies from an unbalanced design of 18 does nested under six bucks. Heritability values of 0.56 ± 0.21 and 0.22 ± 0.22 were obtained for litter weight at birth from dam component and both sire and dam components, respectively. For litter weight at weaning, the heritability estimate was 0.66 ± 0.22 using the dam component of variance. Genetic correlation between litter weight at birth and litter weight at weaning was 0.59 revealing a positive relationship between both traits.
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24

Olayemi, Omonona Abosede. "Gastrointestinal Parasites of Domesticated Grasscutters (Thryonomys swinderianus) in South-western Nigeria." Journal of Human Ecology 36, no. 2 (November 2011): 117–20. http://dx.doi.org/10.1080/09709274.2011.11906425.

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25

Senou, Par M. "Paramètres génétiques de quelques caractères d’importance économique chez l’aulacode (Thryonomys swinderianus)." Journal of Animal Breeding and Genetics 116, no. 4 (August 1999): 305. http://dx.doi.org/10.1046/j.1439-0388.1999.00188.x.

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26

Adu, Emmanuel K., Ebenezer K. Awotwi, Kofi Amaning-Kwarteng, and Bawa Awumbila. "Metabolic fecal nitrogen and digestibility estimates in the grasscutter (Thryonomys swinderianus)." Tropical Animal Health and Production 44, no. 4 (September 25, 2011): 881–86. http://dx.doi.org/10.1007/s11250-011-9982-2.

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27

Aire, Tom A., and Mac van der Merwe. "The ductuli efferentes testis of the greater cane rat (Thryonomys swinderianus)." Anatomy and Embryology 206, no. 5 (March 21, 2003): 409–17. http://dx.doi.org/10.1007/s00429-003-0310-0.

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28

Onadeko, S. A., and F. O. Amubode. "Reproductive indices and performance of captive reared grasscutters (Thryonomys swinderianus Temminck)." Nigerian Journal of Animal Production 29, no. 1 (January 1, 2021): 142–49. http://dx.doi.org/10.51791/njap.v29i1.1548.

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Two male and 8 female grasscutters were severally observed and paired to characterize certain indices of reproduction as important requirements for successful propagation of the animal in captivity. Observations on some of the reproductive indices are reported. Grasscutter possesses some specialized stages of courtship and coitus that were not readily available for observation. Females openly showed no receptivity to all courtship moves by male. 71% of the mating exercises were however successful, resulting in 36 youngs from 9 litters, comprising 20 females and 16 males. Mean gestation length was 163.11 + 1.58 days (Range 152-170 days). Litter size ranged from 2 to 7 (X -4.00 + 0.52, n=9). Baby grasscutters were born with eyes opened, body fully haired and teeth well developed and capable of inflicting painful bites. Mean birth weight of litters was 117.70 + 34.08g. Male birth weighis were generally heavier (X = 118.10 +27.70g) than females (x= 100.90 + 27.50g). Litter size and weight at birth were negatively correlated (r = . 0.42) and not significant (P> 0.05). Breeding occurred in January, March, April, June, July, November and December. About 67% of the parturition occurred at night. Breeding success among other things affirmed the feasibility of commercial rearing of the grasscutter to supplement the prevailing inadequate animal protein supply in the country.
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29

Mensah, ERCKD, RMOBDADG Mensah, SCB Pomalegni, GA Mensah, PJE Akpo, and A. Ibrahimy. "Viabilité et financement des élevages d’aulacode (Thryonomys swinderianus) au Bénin." International Journal of Biological and Chemical Sciences 5, no. 5 (May 31, 2012): 1842. http://dx.doi.org/10.4314/ijbcs.v5i5.7.

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30

Ajayi, Itopa, Samuel Ojo, Joseph Ayo, and Chikera Ibe. "Histomorphometric Studies of the Urinary Tubules of the African Grasscutter (Thryonomys swinderianus)." Journal of Veterinary Anatomy 3, no. 1 (April 6, 2010): 17–23. http://dx.doi.org/10.21608/jva.2010.44903.

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31

James, Yaovi, Espérance Broalet, Yvan Zunon-Kipre, and Komlanvi James. "Étude anatomique du système artériel carotidien de l’aulacode (Thryonomys swinderianus, Temminck 1827)." Morphologie 101, no. 335 (December 2017): 223. http://dx.doi.org/10.1016/j.morpho.2017.07.153.

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32

Danhou��, Gou��. "Diagnosis of the Cane Rat (Thryonomys swinderianus) Breeding Systems in Ivory Coast." Agriculture, Forestry and Fisheries 4, no. 3 (2015): 148. http://dx.doi.org/10.11648/j.aff.20150403.21.

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33

Leonard, Ona Ehigie, Sanya Fagbohunka Bamidele, Oluwasola Itakorode Babamotemi, and Emuebie Okonji Raphael. "Physicochemical properties of rhodanese from the kidney of cane rat (Thryonomys swinderianus)." African Journal of Biotechnology 18, no. 24 (June 12, 2019): 511–17. http://dx.doi.org/10.5897/ajb2019.16839.

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34

Opara, Maxwell N., and Benjamin O. Fagbemi. "Hematological and Plasma Biochemistry of the Adult Wild African Grasscutter (Thryonomys swinderianus)." Annals of the New York Academy of Sciences 1149, no. 1 (December 2008): 394–97. http://dx.doi.org/10.1196/annals.1428.001.

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35

Alogninouwa, T., K. C. Agba, S. Gambo, and M. Kpodekon. "Topographie des Noeuds Lymphatiques de ?Aulacode M�le (Thryonomys Swinderianus, Temminck 1827)." Anatomia, Histologia, Embryologia: Journal of Veterinary Medicine Series C 24, no. 1 (March 1995): 29–37. http://dx.doi.org/10.1111/j.1439-0264.1995.tb00006.x.

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36

Hammoudi, Nassim, Bernard Davoust, Sylvestre Dizoe, Marine Le Guyader, Michel Drancourt, Amar Bouam, and Angeli Kodjo. "Molecular Detection of Pathogenic Leptospira in Grasscutters (Thryonomys swinderianus) from Côte d'Ivoire." Vector-Borne and Zoonotic Diseases 20, no. 12 (December 1, 2020): 924–26. http://dx.doi.org/10.1089/vbz.2020.2633.

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37

MCCOY, J., F. JORI, and C. STEM. "Tranquillization of cane rats (Thryonomys swinderianus) with a depot neuroleptic (pipothiazine palmitate)." Journal of Veterinary Pharmacology and Therapeutics 20, no. 3 (June 1997): 233–39. http://dx.doi.org/10.1111/j.1365-2885.1997.tb00101.x.

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38

Owusu, B. A., E. K. Adu, E. K. Awotwi, and B. Awumbila. "Embryonic resorption, litter size and sex ratio in the grasscutter, Thryonomys swinderianus." Animal Reproduction Science 118, no. 2-4 (April 2010): 366–71. http://dx.doi.org/10.1016/j.anireprosci.2009.08.013.

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39

A, Olatunji-akioye, Ojiaka H. N, and Samuel E. S. "XYLAZINE-KETAMINE ANAESTHESIA; COMPARATIVE STUDIES IN MALE AND FEMALE CANE RATS (THRYONOMYS SWINDERIANUS)." International Journal of Pharmacy and Pharmaceutical Sciences 9, no. 1 (December 31, 2016): 52. http://dx.doi.org/10.22159/ijpps.2017v9i1.12140.

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<p><strong>Objective: </strong>Domestication of the Cane rats is on-going globally and might replace the conventional rodents used in biomedical research in future. However, the paucity of information on adequate anaesthesia vis-a-vis xylazine-ketamine drug combination in the male and female Cane rats warranted this study.</p><p><strong>Methods: </strong>Six adult Cane rats {1.8±0.7 kg body weights (bwt.)} assigned into group A (Female) and group B (Male) of three rats each was used for the study. Each animal was premedicated with atropine sulphate (0.05 mg/kg bwt), and later administered xylazine (10 mg/kg bwt) and ketamine (100 mg/kg bwt) intramuscularly. Meanwhile, anaesthetic characteristics and physiologic indices of anaesthesia were monitored.</p><p><strong>Results: </strong>Results obtained showed that the physiologic indices; open eyelids, smooth induction and recovery, skeletal muscle relaxation and somatic analgesia were observed in all the animals, however, the anaesthetic indices; time to induction, time to standing, duration of analgesia and duration of recumbency showed marked sex variations. The mean values for the duration of analgesia and recumbency were significantly elevated (P&lt;0.05) in group B as compared with group A. Similar trend was seen for time to standing, but, it was non-significant (P&gt;005). However, time to induction mean value for group A was non-significantly increased (P&gt;005) when compared with group B. The heart rate, respiratory rate and rectal temperature mean values decreased in both groups non-significantly (P&gt;0.05).<strong></strong></p><p><strong>Conclusion: </strong>Conclusively, the xylazine-ketamine combination produced anaesthesia in Cane rat and the combination is more tolerated in the male Cane rats than the female Cane rats.</p>
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40

Latifou, Lagnika, Anago Eugenie, Atindehou Menonvegrave, Adjahoutonon Brice, Dramane Karim, and Sanni Ambaliou. "Antimicrobial activity of Crataeva religiosa Forst against bacteria isolated from Thryonomys swinderianus Temminck." African Journal of Biotechnology 10, no. 49 (August 31, 2011): 10034–39. http://dx.doi.org/10.5897/ajb10.2435.

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41

Igbokwe, CasmirO. "Ultrastructure of the parotid salivary gland in the greater cane rats (Thryonomys Swinderianus)." Journal of Microscopy and Ultrastructure 6, no. 1 (2018): 17. http://dx.doi.org/10.4103/jmau.jmau_6_18.

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42

Coker, Oluwakayode M., Abosede O. Omonona, Olusegun A. Fagbohun, Cortney Pylant, and James D. Austin. "Genetic structure of wild and domesticated grasscutters (Thryonomys swinderianus) from south-western Nigeria." African Zoology 52, no. 3 (July 3, 2017): 155–62. http://dx.doi.org/10.1080/15627020.2017.1379358.

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43

Essuman, Edward K., and Kingsley K. Duah. "Poisonous substances used to capture and kill the greater cane rat ( Thryonomys swinderianus )." Veterinary Medicine and Science 6, no. 3 (March 31, 2020): 617–22. http://dx.doi.org/10.1002/vms3.259.

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44

Durojaye, A. Soewu, M. Agbolade Olufemi, Y. Oladunjoye Rasheed, and A. Ayodele Ibukun. "Bioaccumulation of heavy metals in cane rat (Thryonomys swinderianus) in Ogun State, Nigeria." Journal of Toxicology and Environmental Health Sciences 6, no. 8 (October 31, 2014): 154–60. http://dx.doi.org/10.5897/jtehs2014.0310.

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45

Akpan, M. O., O. M. Samuel, and B. O. Emikpe. "Regional skin histomorphology in adult greater cane rats (Thryonomys swinderianus): A pilot study." International Journal of Veterinary Science and Medicine 6, no. 2 (December 2018): 219–26. http://dx.doi.org/10.1016/j.ijvsm.2018.11.001.

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46

Adebayo, A. O., Z. A. Adegbesan, M. E. Okandeji, O. A. Mustapha, M. A. Olude, and A. K. Akinloye. "An anatomical perspective: does the male greater cane rat (Thryonomys swinderianus) have a scrotum?" Anatomy Journal of Africa 8, no. 2 (June 18, 2019): 1523–30. http://dx.doi.org/10.4314/aja.v8i2.187586.

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We evaluated the anatomy of the “scrotal” skin pouch in an attempt to answer the question of whether (or not) there exist true scrotum in the greater cane rat (Thryonomys swinderianus). The “scrotal” skin folds from ten (10) matured male cane rats were morphologically and morphometrically studied with samples routinely processed for histology. Grossly, the pouch has features like fine hair on thin skin and longitudinal raphae typical of scrotum in other species. The histoarchitecture of the “scrotal” skin in the cane rat follows the normal scrotal pattern and the arrangements of the cutaneous strata, hair follicles and glands were similar in animals with perineal staining and those without perineal stain. The cane rat scrotal skin, though different in conformation from the scrotum of other mammalian species, has all the properties of a true scrotum thereby establishing the presence of scrotum in the greater cane rat.Keywords: Scrotum, Greater cane rat, Skin Pouch, Perineal staining
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47

Obadiah, B., T. Dzenda, and N. Wanmi. "Lobulation pattern of the of the cerebellum of African grasscutter (Thryonomys swinderianus)." Nigerian Veterinary Journal 39, no. 1 (October 23, 2018): 66. http://dx.doi.org/10.4314/nvj.v39i1.8.

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48

Wogar, G. S. I. "Performance of Gestating Grasscutters (Thryonomys swinderianus) Fed Cassava-based Diets with Graded Protein Levels." Asian Journal of Animal Sciences 5, no. 6 (October 15, 2011): 373–80. http://dx.doi.org/10.3923/ajas.2011.373.380.

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49

Akinola, L., I. Etela, and S. Emiero. "Grasscutter (Thryonomys swinderianus) Production in West Africa: Prospects, Challenges and Role in Disease Transmission." American Journal of Experimental Agriculture 6, no. 4 (January 10, 2015): 196–207. http://dx.doi.org/10.9734/ajea/2015/14194.

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50

Onwuama, K. T., S. A. Ojo, J. O. Hambolu, T. Dzenda, F. O. Zakari, and S. O. Salami. "Macro-anatomical and morphometric studies of the hindlimb of grasscutter (Thryonomys swinderianus , Temminck-1827)." Anatomia, Histologia, Embryologia 47, no. 1 (November 14, 2017): 21–27. http://dx.doi.org/10.1111/ahe.12319.

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