Marina Landau scite author profile

We present the first reported cases of delayed inflammatory reactions (DIR) to hyaluronic acid (HA) dermal fillers after exposure to the COVID-19 spike protein. DIR to HA is reported to occur in the different scenarios including: secondary to poor injection technique, following dental cleaning procedures, following bacterial/viral illness, and after vaccination. In this report of 4 cases with distinct clinical histories and presentations: one case occured following a community acquired COVID-19 infection, one case occured in a study subject in the mRNA-1273 clinical phase III trial, one case occurred following the first dose of publically available mRNA-1273 vaccine (Moderna, Cambridge MA), and the last case occurred after the second dose of BNT162b2 vaccine (Pfizer, New York, NY). Injectable HA dermal fillers are prevalent in aesthetic medicine for facial rejuvenation. Structural modifications in the crosslinking of HA fillers have enhanced the products' resistance to enzymatic breakdown and thus increased injected product longevity, however, have also led to a rise in DIR. Previous, DIR to HA dermal fillers can present clinically as edema with symptomatic and inflammatory erythematous papules and nodules. The mechanism of action for the delayed reaction to HA fillers is unknown and is likely to be multifactorial in nature. A potential mechanism of DIR to HA fillers in COVID-19 related cases is binding and blockade of angiotensin 2 converting enzyme receptors (ACE2), which are targeted by the SARS-CoV-2 virus spike protein to gain entry into the cell. Spike protein interaction with dermal ACE2 receptors favors a pro-inflammatory, loco-regional TH1 cascade, promoting a CD8+T cell mediated reaction to incipient granulomas, which previously formed around residual HA particles. Management to suppress the inflammatory response in the native COVID-19 case required high-dose corticosteroids (CS) to suppress inflammatory pathways, with concurrent ACE2 upregulation, along with high-dose intralesional hyaluronidase to dissolve the inciting HA filler. With regards to the two vaccine related cases; in the mRNA-1273 case, a low dose angiotensin converting enzyme inhibitor (ACE-I) was utilized for treatment, to reduce pro-inflammatory Angiotensin II. Whereas, in the BNT162b2 case the filler reaction was suppressed with oral corticosteroids. Regarding final disposition of the cases; the vaccine-related cases returned to baseline appearance within 3 days, whereas the native COVID-19 case continued to have migratory, evanescent, periorbital edema for weeks which ultimately subsided.

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Melanocyte-Associated T Cell Epitopes Can Function as Autoantigens for Transfer of Alopecia Areata to Human Scalp Explants on Prkdcscid Mice

Gilhar

Landau

Assy

et al. 2001

Journal of Investigative Dermatology

141

115

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Alopecia areata is a tissue restricted autoimmune condition affecting the hair follicle, resulting in hair loss. The goal of this study was to test the hypothesis that the autoantigen of alopecia areata is melanocyte associated. Potential autoantigens were tested in the human scalp explant/Prkd(scid) CB-17 mouse transfer system. Scalp T cells from lesional (bald) alopecia areata scalp were cultured with antigen-presenting cells, and antigen, along with interleukin-2. The T cells were then injected into autologous lesional scalp grafts on SCID mice, and hair regrowth was measured. Hair follicle homogenate was used as an autoantigen control. T cells cultured with melanoma homogenate induced statistically significant reduction in hair growth (p <0.01 by ANOVA). HLA-A2-restricted melanocyte peptide epitopes were then tested with lesional scalp T cells from HLA-A2-positive alopecia areata patients. Melanocyte-peptide-activated T cells significantly reduced the number of hairs regrowing in two experiments with six patients (p <0.001 by ANOVA). Injected scalp grafts showed histologic and immunochemical changes of alopecia areata. The most consistent peptide autoantigens were the Gp100-derived G9-209 and G9-280 peptides, as well as MART-1 (27-35). Melanocyte peptide epitopes can function as autoantigens for alopecia areata. Multiple peptides were recognized, suggesting epitope spreading.

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Nevus Sebaceous Revisited

Moody

Landau

Goldberg

2011

Pediatric Dermatology

112

110

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Nevus sebaceous of Jadassohn is a hamartoma with a combination of abnormalities of the epidermis, hair follicles, and sebaceous and apocrine glands. Herein, we discuss the results of an extensive literature review on the topic of nevus sebaceous with a particular focus on the debate about the necessity for prophylactic excision. We also focus on the documentation of associated malignant tumors that were reported to develop within NS. In addition to reporting the number and types of neoplasms, we documented the recommendations of all authors for therapeutic handling of these nevi.

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Chemical peels

Landau

2008

Clinics in Dermatology

131

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Chemical peels are important tools for skin rejuvenation. Their popularity is related to their versatility and relative simplicity. Chemical peels are classified as superficial, medium, and deep according to the depth of penetration of the peeling solution. The results of the procedure depend on the chemical used and its concentration, method of application, contact time, skin condition, preparation, etc. The depth of the peel determines the patient's inconvenience during and after the procedure, healing time, the rate of the potential side effects, and the results. In this article, we discuss the basic methods for skin peeling, the variety of chemicals used, the potential side effects, and how to avoid them.

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Resistant and Recurrent Late Reaction to Hyaluronic Acid–Based Gel

Artzi

Loizides²,

Verner

et al. 2016

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Marina Landau

“COVID-19/SARS-CoV-2 virus spike protein-related delayed inflammatory reaction to hyaluronic acid dermal fillers: a challenging clinical conundrum in diagnosis and treatment”

Melanocyte-Associated T Cell Epitopes Can Function as Autoantigens for Transfer of Alopecia Areata to Human Scalp Explants on Prkdcscid Mice

Nevus Sebaceous Revisited

Chemical peels

Resistant and Recurrent Late Reaction to Hyaluronic Acid–Based Gel

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