Wounds Clinical Trial
Official title:
FAST Lidocaine, "Study of Functional Microarray-Facilitated Lidocaine Liposomal Cream Absorption for Cutaneous Anesthesia in Volunteers"
The study's aim is to determine whether use of a mechanical device can improve the
timeliness of anesthesia provided by liposomal lidocaine cream. Liposomal lidocaine cream
has historically come in the brandnames of ELA-Max and LMX, with either 4% or 5% lidocaine
in the cream. In this protocol, the abbreviation LLC will be generally used to refer to the
4% concentration to be used in FAST Lidocaine. Regardless of the concentration used, the
encapsulation of lidocaine in liposomes protects the anesthetic from rapid metabolism and
allows the medication to remain in the epidermis, yielding a theoretical benefit of
long-lasting anesthesia.1 The test device is a painless functional microarray (FMA) that
renders hundreds of microscopic punctures per cm2 in a patient's stratum corneum. The holes
in the stratum corneum subsequently allow for faster movement of LLC into the skin to be
anesthetized.
Currently, topical anesthetics are used less commonly in the Emergency Department (ED) than
would be the case if the available approaches were not associated with such long onset
times. The most commonly utilized topical anesthetic for intact skin, eutectic mixture of
local anesthetics (EMLA), requires at least an hour for anesthetic effect; maximal effect
requires up to 2 hours.2, 3 4 The topical anesthetic to be used in the FAST Lidocaine study,
4% LLC, has a roughly equipotent analgesic effect to that of EMLA and works faster, but must
still be in place for at least a half-hour before onset of reliable anesthesia.1, 5-8
Commentators have judged such delays "considerable" and written that because of long
application times, use of topical anesthetics may not be practical.1, 8-10 In discussing
agents (such as LLC) that are formulated for more rapid transcutaneous absorption, ED wound
care experts have written that "their delayed onset limits their use in the emergent
setting."11 It has also been noted that LLC's utility is potentially diminished by the fact
that anesthesia may begin to wear off as soon as 10 minutes after cream removal.8 Given the
previously outlined findings, it is obvious that there is room for improvement in ED
delivery of topical anesthesia. The goal of rendering topical anesthesia practical - and
thus more likely to be used - constitutes the basis for the FAST Lidocaine study. We seek to
identify whether a novel approach safely and painlessly improves the onset time (and perhaps
depth) of topical anesthesia.
Reducing pain caused by procedures involving violation of the skin barrier (e.g. intravenous
[IV] line placement, anesthesia and suturing of wounds) is an important goal. Needlesticks
and IV catheters have been identified as important causes of pain in both children and
adults.8, 12, 13 In terms of frequency, U.S. EDs place over 20 million IV catheters and care
for over 10 million wounds.9 Thus, there is potentially broad-based utility in a potentiator
for local anesthesia absorption in the ED.
The importance of the clinical goal of improving absorption of topical anesthesia has
already prompted efforts aimed at improving delivery and efficacy of topically applied local
anesthetics. Previous investigations have demonstrated utility - and limitations - of
various methods of traversing and/or stripping the stratum corneum. Among the techniques
studied have been use of electrical energy (iontophoresis),14 sound waves (sonophoresis),15,
16 adhesive tape17-19 and lasers.11, 12, 20, 21 While these varying approaches all have
promise, their limitations leave room for assessment of a new method if it promises to be
safe, painless, and effective.
The approach of the FAST Lidocaine study will be to assess FMA use. The FMA is a painless
mechanism that is placed on the skin with minimal pressure. It creates microscopic punctures
in the stratum corneum, facilitating movement of anesthetic through the cutaneous barrier.
The device's physical characteristics, namely its easy application and low apparent
potential for incorrect or unsafe use, appear quite suitable for ED utilization. If it
works, the FMA would be immediately useful in a variety of circumstances.
The overarching goal of the FAST Lidocaine investigators is to assess whether the FMA can
improve management of procedure-related pain in the ED. The main problem in terms of ED use
of the currently available topical anesthetics - whether EMLA, LMX, or others - is the time
of onset, rather than anesthetic efficacy. Thus, it is the timing impracticality for most ED
situations that is the spur for FAST Lidocaine. The study's primary focus and endpoint will
be time to anesthesia. Secondary analysis will evaluate whether the depth of anesthesia is
improved by assessing the nadir of visual analog scale (VAS) assessments. However, it is
noteworthy that deeper anesthesia is not necessary in order to establish the potential
utility of FMA in the acute care setting.
n/a
Allocation: Randomized, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Treatment
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