ClinicalTrials.Veeva

Menu

The Effect of Vibration Stimulation on Intramuscular Injection Pain and Patient Satisfaction: A Single-blind, Randomized Cross-over Study

I

Istanbul Medeniyet University

Status

Unknown

Conditions

Pain

Treatments

Device: Vibrating Device

Study type

Interventional

Funder types

Other

Identifiers

NCT04411992
42432570

Details and patient eligibility

About

Intramuscular (IM) injection is the most frequently used nursing practice in the clinic.1 16 billion treatments are performed through injection per year all over the world. Approximately 95% of these injections are administered for therapeutic purpose. There is no study result in the literature on the effect of vibration on pain in the ventrogluteal region in particular.

Full description

Intramuscular (IM) injection is the most frequently used nursing practice in the clinic.1 16 billion treatments are performed through injection per year all over the world. Approximately 95% of these injections are administered for therapeutic purpose.

If IM injections are not administered properly, they cause many complications such as primarily pain and cellulitis, muscular fibrosis and contracture, abscesses, tissue necrosis, granuloma, hematoma, and nerve injuries.Painful injections may lead to the development of fear and needle phobia. People are not able to comply with the treatment due to fear and needle phobia and they may even reject treatment. Pain developing after IM injection may vary based on drug content, individual factors and injection technique.

It has been reported that patients feel less pain and the other complications decrease when the correct technique of IM injection is selected. Different pain relief methods such as local ice application, changing needle before injection and acupressure are employed during injection. In the literature, mechano-analgesia, which is known as the skin stimulation methods, is included in pain management in addition to these methods.

One of the mechano-analgesia methods is vibration. The pain-relief mechanism of vibration is explained with the gate control theory. The theory, which is a similar mechanism used to obtain pain relief by rubbing an area near an injury, using TENS, or acupuncture. In the studies, it has been explained by the fact that the sense of touch and vibration obtained from skin receptors stimulate the intermediary inhibitor neurons in medulla spinalis through A-β nerve fibres. These neurons reduce the pain level in A-delta and A-C fibres in transmitting the signal received from skin to the second neuron, the signal cross over medulla spinalis and rises to brain. There are studies in the literature explaining that pain is reduced by vibration. Also, the vibration has advantages over other methods such as TENS, acupuncture as it is a method that is easy to apply, simple, applicable in all hours, and cheap and does not require any preparation.

Although the results of the related studies have indicated that this new method is effective in reducing injection pain, the number of studies on this method in the literature is limited. There is no study result in the literature on the effect of vibration on pain in the ventrogluteal region in particular.

Purpose of the study The purpose of this study was to assess the effect of vibration stimulation application in ventrogluteal region on intramuscular injection pain and patient satisfaction.

The specific study questions were as follows:

  1. What are the effects of vibration on intramuscular injection-induced pain?
  2. What are the effects of vibration on satisfaction for intramuscular injection?

Enrollment

84 estimated patients

Sex

All

Ages

18 to 65 years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

  • 18 years old and over
  • had no communication problem,
  • had a body mass index (BMI) of 18.5 to 30 kg/m2,
  • not injected in ventrogluteal region in the last two weeks
  • not have any pain, hematoma, necrosis, scar, incision or infection symptoms on skin in ventrogluteal region

Exclusion criteria

  • Have ppain, hematoma, necrosis, scar, incision or infection symptoms on skin in ventrogluteal region
  • injected in ventrogluteal region in the last two weeks
  • not want to participate.
  • body mass index (BMI) of under 18.5 and up 30 kg/m2,
  • have psychological illness

Trial design

Primary purpose

Prevention

Allocation

Randomized

Interventional model

Crossover Assignment

Masking

Single Blind

84 participants in 4 patient groups

Allocated to Vibration intervention (1) A
Experimental group
Description:
Patient information form, visual pain form and satisfaction scale were applied before injection application for all of the patients. The height, weight and BMI of the patients will be measured by the attending nurse. Intramuscular antibiotic injection with vibration will be applied to the ventrogluteal region of the patients .
Treatment:
Device: Vibrating Device
Allocated to Control intervention (1) B
No Intervention group
Description:
The height, weight and BMI of the patients will be measured by the attending nurse. Intramuscular antibiotic injection without vibration will be applied to the ventrogluteal region of the patients.
Allocated to Vibration intervention (2) B
Experimental group
Description:
Patient information form, visual pain form and satisfaction scale were applied before injection application for all of the patients. The height, weight and BMI of the patients will be measured by the attending nurse. Intramuscular antibiotic injection with vibration will be applied to the ventrogluteal region of the patients .
Treatment:
Device: Vibrating Device
Allocated to Control intervention (1) A
No Intervention group
Description:
The height, weight and BMI of the patients will be measured by the attending nurse. Intramuscular antibiotic injection without vibration will be applied to the ventrogluteal region of the patients.

Trial contacts and locations

0

Loading...

Data sourced from clinicaltrials.gov

Clinical trials

Find clinical trialsTrials by location
© Copyright 2025 Veeva Systems