A one-time pneumatic jet-injection of 5-fluorouracil and triamcinolone acetonide for treatment of hypertrophic scars-A blinded randomized controlled trial.

BACKGROUND: Patients with hypertrophic scars (HTS) risk reduced quality of life due to itching, pain, poor cosmesis, and restriction of movement. Despite good clinical efficacy, patients are often reluctant to undergo repeated needle injections due to pain or needle phobia. OBJECTIVES: To evaluate the applicability of needle-free pneumatic jet injection (PJI) and assess changes in hypertrophic scars following a single PJI treatment with 5-fluorouracil (5-FU) and triamcinolone acetonide (TAC). METHODS: Twenty patients completed this blinded, randomized, controlled, split-scar trial. The intervention side of the HTS received a one-time treatment with PJIs containing a mixture of TAC + 5-FU injected at 5 mm intervals (mean 7 PJI per HTS); the control side received no treatment. Assessments were made at baseline and 4 weeks posttreatment. Outcome measures included change in (1) Vancouver Scar Scale (VSS) total score and subscores, (2) scar volume and surface area assessed by three-dimensional imaging, (3) skin microarchitecture measured by optical-coherence tomography (OCT), (4) photo-assessed scar cosmesis (0-100), (5) patient-reported pain and satisfaction (0-10), and (6) depiction of drug biodistribution after PJI. RESULTS: PJI with TAC + 5-FU significantly decreased both HTS height (-1 VSS; p = 0.01) and pliability (-1 VSS; p < 0.01) with a nonstatistically significant reduction of -1 in total VSS score (0 in control; p = 0.09). On 3D imaging, a 33% decrease in scar volume (p = 0.016) and a 37% decrease in surface area (p = 0.008) was observed. OCT indicated trends towards smoother scar surface (Ra 11.1-10.3; p = 0.61), normalized dermal microarchitecture (attenuation coefficient: 1.52-1.68; p = 0.44), and a reduction in blood flow between 9% and 17% (p = 0.50-0.79). Despite advances in VSS subscores and OCT, no improved photo-assessed cosmesis was found (-3.2 treatment vs. -1.4 control; p = 0.265). Patient-reported pain was low (2/10) and 90% of the patients that had previously received needle injections preferred PJI to needle injection. Depositions of TAC + FU were imaged reaching deep into the scar at levels corresponding to the reticular dermis. CONCLUSION: A single PJI injection containing 5-FU and TAC can significantly improve the height and pliability of HTS. PJI is favored by the patients and may serve as a complement to conventional needle injections, especially for patients with needle phobia.

A Comparison of Human and Porcine Skin in Laser-Assisted Drug Delivery of Chemotherapeutics.

BACKGROUND AND OBJECTIVES: Porcine skin is a widely used model in diffusion studies, but its usefulness for laser-assisted drug delivery (LADD) has not been evaluated in comparison with human skin. This study compared porcine and human skin in ex vivo LADD diffusion studies. STUDY DESIGN/MATERIALS AND METHODS: Ex vivo ablative fractional laser (AFL) treatments (5, 20, and 80 mJ/mb) were applied to skin samples from three sources: human, normal pig (Duroc × Landrace × Yorkshire breed), and a hyperkeratotic pig phenotype. Samples were stained using hematoxylin and eosin, photo-documented, and measured digitally. Samples (20 mJ/mb) were exposed to bleomycin or 5-fluorouracil (5-FU) for 19 hours in Franz diffusion cells. Drug uptake was quantified at three skin depths (100, 500, and 1,500 µm) by high-performance liquid chromatography-mass spectrometry. Drug biodistribution and endogenous lipids were visualized by matrix-assisted laser desorption/ionization-mass spectrometry imaging. RESULTS: Epidermal and dermal thicknesses of human and normal pig skin were similar (76-87 µm and 1,668-1,886 µm, respectively; P = 0.082-0.494). Endogenous lipids were investigated, and 116 compounds were identified. Of these compounds, 100 were found in all three skin types, while six were present exclusively in human skin. Laser channel depths (20 mJ/mb) in human and normal pig skin were similar (1,081 vs. 1,126 µm; P = 0.588). Bleomycin uptake was similar in all skin types at all depths (101.4-175.6 µg/cm3 ; P = 0.132-0.699). 5-FU uptake in human and normal pig skin was similar at 100 and 500 µm (80.5 vs. 140.3 µg/cm3 and 131.2 vs. 208.1 µg/cm3 , respectively; P = 0.065-0.093). At 1500 µm, 5-FU concentrations in the porcine skin types differed from those in human skin (104.7 vs. 196.7-344.8 µg/cm3 ; P = 0.002-0.026). Drug biodistribution was similar among skin types, but differences between bleomycin and 5-FU biodistribution were observed. CONCLUSIONS: Normal porcine and human skin showed similar morphology, the composition of endogenous lipids, and AFL-assisted cutaneous uptake, and biodistribution of chemotherapeutics. Therefore, normal porcine skin, but not hyperkeratotic pig phenotype skin, is a practical and reliable model for healthy human skin in ex vivo LADD diffusion studies. Lasers Surg. Med. © 2020 Wiley Periodicals LLC.