Preclinical characterization of dostarlimab, a therapeutic anti-PD-1 antibody with potent activity to enhance immune function in in vitro cellular assays and in vivo animal models

The development of new and better radioactive tracers capable of detecting and characterizing osteomyelitis is an ongoing process, mainly because available tracers lack selectivity towards osteomyelitis. An integrated part of developing new tracers is the performance of in vivo tests using appropriate animal models. The available animal models for osteomyelitis are also far from ideal. Therefore, developing improved animal osteomyelitis models is as important as developing new radioactive tracers. We recently published a review on radioactive tracers. In this review, we only present and discuss osteomyelitis models. Three ethical aspects (3R) are essential when exposing experimental animals to infections. Thus, we should perform experiments in vitro rather than in vivo (Replacement), use as few animals as possible (Reduction), and impose as little pain on the animal as possible (Refinement). The gain for humans should by far exceed the disadvantages for the individual experimental animal. To this end, the translational value of animal experiments is crucial. We therefore need a robust and well-characterized animal model to evaluate new osteomyelitis tracers to be sure that unpredicted variation in the animal model does not lead to a misinterpretation of the tracer behavior. In this review, we focus on how the development of radioactive tracers relies heavily on the selection of a reliable animal model, and we base the discussions on our own experience with a porcine model.

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In-vitro and in-vivo Evaluation of Anti-asthmatic Activity of Eugenia jambolana bark

Research Journal of Pharmacy and Technology ◽

10.52711/0974-360x.2021.00580 ◽

2021 ◽

pp. 3337-3342

Author(s):

Bhong Prabha N. ◽

Naikawade Nilofar. S. ◽

Mali Pratibha. R. ◽

Bindu Madhavi. S.

Keyword(s):

Mast Cell ◽

Mast Cells ◽

Animal Models ◽

Aqueous Extract ◽

Guinea Pigs ◽

Bark Extract ◽

Eugenia Jambolana ◽

In Vivo Animal Models

Objectives: The present study designed to evaluate the Antiasthmatic activity of aqueous extract of bark of Eugenia Jambolana (AEEJ) on in vitro and in vivo animal models. Materials and methods: Different in vitro and in vivo animal models was used to study the anti asthmatic activity as isolated goat tracheal chain preparation, Acetylcholine and Histamine induced bronconstriction in guinea pigs, effect of drug extract on histamine release from mast cell was checked by clonidine-induced mast cell degranulation, and milk-induced eosinophilia and leukocytosis. Results: In-vitro study on goat tracheal chain preparation revealed that aqueous extract of Eugenia jambolana (AEEJ)bark exerted antagonistic effect on the histamine induced contraction. (P<0.05) The guinea pigs when exposed to 0.2% histamine aerosol showed signs of progressive dyspnoea leading to convulsions. AEEJ significantly prolonged the latent period of convulsions (PCT) as compared to control following the exposure of histamine (0.2%) aerosol (P<0.01). The observation of present study indicates aqueous extract of Eugenia jambolana shows significant inhibition of milk induced eosinophilia and leukocytosis. Group of animals pretreated with aqueous Eugenia jambolana bark extract showed significant reduction in degranulation of mast cells when challenged with clonidine. The prevention of degranulation process by the aqueous Eugenia jambolana bark extract (P<0.01) indicates a possible stabilizing effect on the mast cells, indicating mast cell stabilizing activity. Conclusions: Thus, AEEJ showed antihistaminic, mast cell stabilizing and protective in guinea pigs against histamine induced PCD, reduced eosinophilia and leukocytosis and hence possesses potential role in the treatment of asthma.

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In-vivo Animal Models and In-vitro Techniques for Screening Antidiabetic Activity

Journal of Developing Drugs ◽

10.4172/2329-6631.1000153 ◽

2016 ◽

Vol 05 (02) ◽

Author(s):

Karthikeyan M ◽

Balasubramanian T

Keyword(s):

Animal Models ◽

Antidiabetic Activity ◽

In Vitro Techniques ◽

In Vivo Animal Models

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In vivo animal models in periodontal research - focus on rodents

BULGARIAN JOURNAL OF VETERINARY MEDICINE ◽

10.15547/bjvm.2019-0056 ◽

2021 ◽

Vol 24 (2) ◽

pp. 167-175

Author(s):

E. I. Firkova

Keyword(s):

Animal Models ◽

Cellular Level ◽

In Vitro Tests ◽

Large Species ◽

In Vivo Experiments ◽

Data Translation ◽

In Vivo Animal Models ◽

Periodontal Research

Periodontal research has developed very fast in the last two decades. Although at this stage of science a lot of genetic and molecular-based trials are performed in order to elucidate the complex etiology, pathophysiology, biofilm-host interactions and responses on genetic and cellular level, in vivo animal models are still used. In many ways, in vivo experiments are superior to in vitro tests when the dynamics of the immune-inflammatory nature of the periodontal disease and peri-implantitis and the specific healing of soft and hard tissues is concerned. Screening the efficacy, mechanisms of action and application of different biomaterials requires in vivo experiments, be-fore the data translation to clinical settings. A number of small animals like rodents and large species like dogs and nonhuman primates are involved in periodontal research. As live creatures are used, the design of the studies must be well defined, with regard to the type of the animals, most suitable for the tested hypothesis, observation period, sample size, study power, critical size defects, and specific testing sites.

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Past and Future of in-vitro and in-vivo Animal Models for Diabetes: A Review

Indian Journal of Pharmaceutical Education and Research ◽

10.5530/ijper.51.4s.79 ◽

2017 ◽

Vol 51 (4s) ◽

pp. s522-s530

Author(s):

Hemlata Dewangan ◽

Raj Kumar Tiwari ◽

Vikas Sharma ◽

Shiv Shankar Shukla ◽

Trilochan Satapathy ◽

...

Keyword(s):

Animal Models ◽

In Vivo Animal Models

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Trace elements and DNA damage

Biochemical Society Transactions ◽

10.1042/bst0290354 ◽

2001 ◽

Vol 29 (2) ◽

pp. 354-358 ◽

Cited By ~ 15

Author(s):

J. M. O'Connor

Keyword(s):

Dna Damage ◽

Trace Elements ◽

Animal Models ◽

Adverse Effects ◽

Oxidative Damage ◽

Physiological Conditions ◽

In Vivo Animal Models

A number of studies (mainly in vitro and in vivo animal models) have examined the interaction of trace elements with DNA. Normal dietary levels of various trace elements are required to prevent the occurrence of oxidative damage, and deficiency may increase susceptibility. Conversely, overload of some trace elements, including copper and iron, has been demonstrated to result in adverse effects. However, under normal physiological conditions, such overloads are unlikely to occur.

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