Phototherapy for Psoriasis in the Age of Biologics.

Phototherapy has utility as a psoriatic therapy, given its relatively high clinical efficacy, low side effect profile, and lower cost compared to newer effective treatments like biologics and small molecules. Phototherapy has shown Psoriasis Area and Severity Index (PASI)-75 and PASI-90 rates comparable to those of biologics and small molecules, with similarly rapid onsets of action, rates of remission, and quality of life scores. Certain patients may particularly benefit from phototherapy, such as those with localized disease or contraindications to systemic immunomodulatory medication.

Applications of Human Pluripotent Stem Cell-Derived Skin Organoids in Dermatology.

Pluripotent stem cells have the potential to become any cell type, and recently, they have been used to create organoids that can recapitulate several pertinent features of human organs. Skin organoids have been developed that possess many of the crucial accessory organs, including hair follicles, sebaceous glands, nerves, fat, and melanocytes. These skin organoids present the opportunity to study skin development and disease as well as perform screens to identify new drug candidates.

Tumor suppressors inhibit reprogramming of African spiny mouse ( ) fibroblasts to induced pluripotent stem cells.

The African spiny mouse ( ) is an emerging mammalian model for scar-free regeneration, and further study of could advance the field of regenerative medicine. Isolation of pluripotent stem cells from would allow for development of transgenic or chimeric animals and study of regeneration; however, the reproductive biology of is not well characterized, complicating efforts to derive embryonic stem cells. Thus, we sought to generate induced pluripotent stem cells (iPSCs) by reprogramming somatic cells back to pluripotency.

Regeneration in the spiny mouse, Acomys, a new mammalian model.

We describe the tissues and organs that show exceptional regenerative ability following injury in the spiny mouse, Acomys. The skin and ear regenerate: hair and its associated stem cell niches, sebaceous glands, dermis, adipocytes, cartilage, smooth muscle, and skeletal muscle. Internal tissues such as the heart, kidney, muscle, and spinal cord respond to damage by showing significantly reduced inflammation and improved regeneration responses.

Comparative transcriptomic analysis of dermal wound healing reveals de novo skeletal muscle regeneration in Acomys cahirinus.

The African spiny mouse, Acomys spp., is capable of scar-free dermal wound healing. Here, we have performed a comprehensive analysis of gene expression throughout wound healing following full-thickness excisional dermal wounds in both Acomys cahirinus and Mus musculus.

Perfect chronic skeletal muscle regeneration in adult spiny mice, Acomys cahirinus.

The spiny mouse, Acomys cahirinus, is an adult mammal capable of remarkable feats of scar-free tissue regeneration after damage to several organs including the skin and the heart. Here we investigate the regenerative properties of the skeletal muscle of A. cahirinus tibialis anterior in comparison to the lab mouse, Mus musculus.

Identification of regenerative roadblocks via repeat deployment of limb regeneration in axolotls.

Axolotl salamanders are powerful models for understanding how regeneration of complex body parts can be achieved, whereas mammals are severely limited in this ability. Factors that promote normal axolotl regeneration can be examined in mammals to determine if they exhibit altered activity in this context. Furthermore, factors prohibiting axolotl regeneration can offer key insight into the mechanisms present in regeneration-incompetent species.