Synergistic Effect of Intracranial and Intraperitoneal Delivery of Analgesic Drugs on Thermal Pain Response in a Rat

0 views • 2:25 min • August 7th, 2025

Loading...
$$\rightleftharpoonup{xx}$$ $$\longleftharp{xx}$$, $$\longrightharp{xx}$$,

Begin with a secured, anesthetized rat with implanted guide cannulas in the prefrontal cortex of its brain, a region associated with pain regulation.

Take a Hamilton syringe containing an analgesic or pain-relieving drug connected with an injector cannula via tubing.

Attach the injector cannula to the guide cannula and administer the drug intracranially over a predetermined period.

Administer a second analgesic drug intraperitoneally to study the synergistic effect of the two drugs.

Allow the animal to recover.

Place the freely moving animal on Hargreave’s apparatus.

Focus an infrared beam through the glass onto the rat’s paw.

As the rat withdraws its paw in response to thermal pain, the withdrawal latency time is recorded by the apparatus.

Analyze the data to evaluate the effect of intracranial injection and the co-administration of analgesic drugs on thermal pain perception.

To study the effect of intracranial injections on acute pain behavior in rats, one week after the surgery, place the rat onto the glass plate of a Hargreaves' apparatus and use the apparatus to focus an infrared beam through the glass plane under the planter area of one of the rat's feet.

To study the synergistic pharmacological effects between two different study drugs, use a piece of PE-50 tubing attached to a 10-microliter Hamilton syringe, equipped with a 33 gauge injector cannula that extends 1 millimeter beyond the implanted guides. Inject 0.5 microliters or less of the study drug into one intracranial cannula over a period of 100 seconds.

Keep the injector cannula in place for an additional 60 seconds after the injection to facilitate a slow diffusion of the solution. Then, intraperitoneally inject the second drug of interest. 20 to 30 minutes after the injection, perform the plantar reflex test five more times, as demonstrated.

07:27

Autoradiographic Measurements of [14C]-Iodoantipyrine in Rat Brain Following Central Post-Stroke Pain

Related Videos

0 Views

06:04

Intracerebroventricular Treatment with Resiniferatoxin and Pain Tests in Mice

Related Videos

0 Views

06:57

Mechanical Conflict-Avoidance Assay to Measure Pain Behavior in Mice

Related Videos

0 Views

08:23

Chronic Constriction of the Sciatic Nerve and Pain Hypersensitivity Testing in Rats

Related Videos

0 Views

07:23

Assessment of Morphine-induced Hyperalgesia and Analgesic Tolerance in Mice Using Thermal and Mechanical Nociceptive Modalities

Related Videos

0 Views

02:26

Intracranial Pharmacotherapy and Pain Assays in Rodents

Related Videos

0 Views

07:12

Chronic Post-Ischemia Pain Model for Complex Regional Pain Syndrome Type-I in Rats

Related Videos

0 Views

05:10

Back Mechanical Sensitivity Assessment in the Rat for Mechanistic Investigation of Chronic Back Pain

Related Videos

0 Views

08:16

Partial Sciatic Nerve Ligation: A Mouse Model of Chronic Neuropathic Pain to Study the Antinociceptive Effect of Novel Therapies

Related Videos

0 Views

05:49

Analgesic Effect of Tuina on Rat Models with Compression of the Dorsal Root Ganglion Pain

Related Videos

0 Views

Last updated: 27 June 2026