Lidocaine Administration Using STAR Particles

Sponsor

Emory University (Other)

Overall Status

Recruiting

CT.gov ID

NCT06034340

Collaborator

Children's Healthcare of Atlanta (Other)

Enrollment

Location

Arm

6.4

Anticipated Duration (Months)

3.9

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

This study is being done to answer the question: Do STAR particles (tiny pieces of ceramic with small spikes) help numbing gel (a gel that helps you feel less pain) work more quickly to provide local anesthesia or numbing in a specific area? Research participants will provide feedback on how quickly the STAR particles with the numbing gel can provide anesthesia.

Condition or Disease	Intervention/Treatment	Phase
Anesthesia, Local	Device: LET Gel after STAR Particle Application (Right Arm) Other: LET Gel Application without STAR Particle Application (Left Arm)	N/A

Detailed Description

The objective of this study is to find out if the combination of STAR particles with numbing cream can deliver anesthesia faster than applying the cream by itself. STAR particles are very small particles with microneedles on the surface that can increase and create small punctures in the skin. The small punctures should allow for the numbing cream to work more quickly and allow the area to become numb more quickly.

The study will work towards finding out what combination of numbing cream and STAR particles will work more quickly than the numbing cream that is already used in children.

Participants will have 1 visit when they will apply the numbing gel, have a gel with STAR particles mixed in applied, and have a Pin-Prick Pain test done to evaluate the numbing gel. The study team will also use a device called a vapometer to measure how much water is being lost from the skin at the application site before and after the STAR particle application. Participants will have follow-up calls 24 hours, 1 week, and 30 days after the visit to ask them about any changes to the skin where the STAR particles were applied.

Study Design

Study Type:

Interventional

Anticipated Enrollment :

25 participants

Allocation:

N/A

Intervention Model:

Single Group Assignment

Masking:

None (Open Label)

Primary Purpose:

Treatment

Official Title:

Rapid Local Anesthesia by Lidocaine Administered Using STAR Particles

Actual Study Start Date :

Mar 19, 2023

Anticipated Primary Completion Date :

Oct 1, 2023

Anticipated Study Completion Date :

Oct 1, 2023

Arms and Interventions

Arm	Intervention/Treatment
Experimental: LET Gel after STAR Particle Application Children, adolescents, and young adults will receive local anesthesia via different methods: STAR particles prior to lidocaine compared to topical lidocaine without the use of the STAR particles device.	Device: LET Gel after STAR Particle Application (Right Arm) STAR particles are made of titanium dioxide, a widely used and safe ceramic material found in sunscreens, cosmetics, and paint. The particles will vary in concentration and length in order to find the optimal concentration and length. Topical lidocaine (0.5 grams of Lidocaine in LET gel) will be applied immediately after applying a STAR particle preparation to the volar surface of the mid-forearm at two locations (right antecubital fossa and wrist). Immediately after application of the STAR particles, the topical lidocaine (LET gel) will be applied. Immediately after the topical lidocaine (LET gel) is applied, the pain will be assessed every minute using the Pin-Prick Pain test. The time that the subject reports no pain (complete local anesthesia) will be recorded as the time to achieve anesthesia for the topical lidocaine after STAR particle application (TSP) at both sites. Other Names: STAR Particle preparation Other: LET Gel Application without STAR Particle Application (Left Arm) Topical lidocaine (0.5 grams of Lidocaine in LET gel) will be applied immediately after applying aloe gel (CONTROL) to the volar surface of the mid-forearm at two locations (right antecubital fossa and right wrist). Immediately after application of the aloe gel, the topical lidocaine (LET gel) will be applied. Immediately after the topical lidocaine (LET gel) is applied, the pain will be assessed by the investigator every minute using the Pin-Prick Pain test. The time that the subject reports no pain (complete local anesthesia) will be recorded as the time to achieve anesthesia for the topical lidocaine without STAR particle application (TLET) at both sites. Other Names: Aloe Gel Topical Lidocaine Control

Arm

Intervention/Treatment

Experimental: LET Gel after STAR Particle Application

Children, adolescents, and young adults will receive local anesthesia via different methods: STAR particles prior to lidocaine compared to topical lidocaine without the use of the STAR particles device.

Device: LET Gel after STAR Particle Application (Right Arm)

STAR particles are made of titanium dioxide, a widely used and safe ceramic material found in sunscreens, cosmetics, and paint. The particles will vary in concentration and length in order to find the optimal concentration and length. Topical lidocaine (0.5 grams of Lidocaine in LET gel) will be applied immediately after applying a STAR particle preparation to the volar surface of the mid-forearm at two locations (right antecubital fossa and wrist). Immediately after application of the STAR particles, the topical lidocaine (LET gel) will be applied. Immediately after the topical lidocaine (LET gel) is applied, the pain will be assessed every minute using the Pin-Prick Pain test. The time that the subject reports no pain (complete local anesthesia) will be recorded as the time to achieve anesthesia for the topical lidocaine after STAR particle application (TSP) at both sites.

Other Names:

STAR Particle preparation

Other: LET Gel Application without STAR Particle Application (Left Arm)

Topical lidocaine (0.5 grams of Lidocaine in LET gel) will be applied immediately after applying aloe gel (CONTROL) to the volar surface of the mid-forearm at two locations (right antecubital fossa and right wrist). Immediately after application of the aloe gel, the topical lidocaine (LET gel) will be applied. Immediately after the topical lidocaine (LET gel) is applied, the pain will be assessed by the investigator every minute using the Pin-Prick Pain test. The time that the subject reports no pain (complete local anesthesia) will be recorded as the time to achieve anesthesia for the topical lidocaine without STAR particle application (TLET) at both sites.

Other Names:

Aloe Gel

Topical Lidocaine

Control

Outcome Measures

Primary Outcome Measures

Time to achieve local anesthesia [From STAR particles application until anesthesia is achieved up to 1 hour]
The time that the subject reports no pain (complete local anesthesia) will be recorded as the time to achieve anesthesia: TSP - Time to achieve anesthesia for STAR particles compared to TLET - Time to achieve anesthesia for application of topical lidocaine (LET gel).
Application site pain assessment [1 hour after application]
The application site pain assessment will be measured by using the visual analog scale (VAS). The VAS consists of a 10cm line, with two endpoints representing 0 ('no pain') and 10 ('pain as bad as it could possibly be').

Secondary Outcome Measures

Change in the transepidermal water loss (TEWL) [Baseline and immediately after application]
The trans epidermal water loss (TEWL) will be measured before and after application of the STAR particles and compared to the TEWL measurement before and after application of the aloe gel.
Number of participants with acute skin reactions (ASRs) post-STAR particle application [1 hour after application up to 1 week]
The particle application sites will be observed for acute skin reactions.
Assessment of adverse events (AEs) [1 hour after application up to 30 days after application]
All AEs will be documented starting after lidocaine application up to 30 days.
Assessment of serious adverse events (SAEs) [1 hour after application up to 30 days after application]
All SAEs will be documented starting after lidocaine application up to 30 days.

Eligibility Criteria

Criteria

Ages Eligible for Study:

10 Years to 21 Years

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Yes

Inclusion Criteria:

Children, adolescents, and young adults, 10 - 21 years of age. The first 2 patients will be between the ages of 18-21 years old.
In good general health as determined by a medical history
Willing to provide informed assent with parental consent and follow study requirements

Exclusion Criteria:

Is chronically using pain medication
Has a plan to move to another location in the next 12 months or foresees any other reason that participation in the study would be disrupted during the next 12 months
Has skin disorders or skin allergies
Has any previous allergy or adverse reaction to STAR particle ingredients (Titanium Dioxide)
Has abnormal (e.g., tattooed) skin at proposed the site(s) of STAR particle application
Has known neurological conditions that might affect sensory function or perception of pain
Has any condition (social or medical), which in the opinion of the investigator would make study participation unsafe, would interfere with adherence to the clinical study requirements, or would complicate data interpretation

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	Emory Children's Center	Atlanta	Georgia	United States	30322

Sponsors and Collaborators

Emory University
Children's Healthcare of Atlanta

Investigators

Principal Investigator: Eric I Felner, MD, MS, Emory University

Study Documents (Full-Text)

None provided.

More Information

Publications

None provided.

Responsible Party:

Eric Felner, Professor of Pediatrics, Emory University

ClinicalTrials.gov Identifier:

NCT06034340

Other Study ID Numbers:

STUDY00002928

First Posted:

Sep 13, 2023

Last Update Posted:

Sep 13, 2023

Last Verified:

Sep 1, 2023

Individual Participant Data (IPD) Sharing Statement:

Plan to Share IPD:

Studies a U.S. FDA-regulated Drug Product:

Studies a U.S. FDA-regulated Device Product:

Yes

Product Manufactured in and Exported from the U.S.:

Yes

Keywords provided by Eric Felner, Professor of Pediatrics, Emory University

Additional relevant MeSH terms:

Lidocaine

Study Results

No Results Posted as of Sep 13, 2023