Track topics on Twitter Track topics that are important to you
This proof of concept study seeks to demonstrate that Botulinum toxin injections are a safe and effective method for treating this form of hair loss.
Primary Purpose: Screening
Male Pattern Baldness
Botulinum Toxin - A injections
The Crown Institute
Published on BioPortfolio: 2010-07-15T17:00:00-0400
Botulism is a severe form of food poisoning caused by bacteria. This bacteria produces several toxins one of which is botulinum toxin A. This toxin causes the symptoms of food poisoning....
Botulinum toxin is the main treatment for focal spasticity but the effects of botulinum toxin injections with respect to limitations of gait activities are still discussed. The aim of this...
In children requiring botulinum toxin injections, improving supervisory procedures of injection sessions to reduce pain and improve the experience of this invasive procedure is needed. The...
The main objective of this study is to compare the efficacy of botulinum toxin injections on vestibulodynia pain compared to a group treated with a placebo.
The study proposes to determine if injections of BTX-A to the hamstring muscles result in measurable physiologic changes not observed with normal saline injections in children with spastic...
The effects of botulinum toxin are transient, and repeat injections are required in children with lower-limb spasticity. However, the efficacy of botulinum toxin in patients who have received previous...
The aim of the present study was to report the outcomes of botulinum toxin A (BTX-A) intradetrusor injections in adult patients with spina bifida.
To assess the effectiveness of Intradetrusor injections of botulinum toxin type A (IDBTX-A) in children with spina bifida.
Temporo-mandibular joint dysfunction can be painful and disabling. In some cases, it is refractory to classical treatment. Intra-articular botulinum toxin injections have been shown to have an anti-in...
The relationship between male pattern baldness and incidence of prostate cancer remains inconclusive. Hence, we performed the present meta-analysis based on all eligible cohort and case-control studie...
Subtype of CLOSTRIDIUM BOTULINUM that produces botulinum toxin type C which is neurotoxic to ANIMALS, especially CATTLE, but not humans. It causes dissociation of ACTIN FILAMENTS.
Subtype of CLOSTRIDIUM BOTULINUM that produces botulinum toxin type D which is neurotoxic to ANIMALS, especially CATTLE, but not humans.
Subtype of CLOSTRIDIUM BOTULINUM that produces botulinum toxin type E which is neurotoxic to humans and animals.
Subtype of CLOSTRIDIUM BOTULINUM that produces botulinum toxin type F which is neurotoxic to humans and animals.
Subtype of CLOSTRIDIUM BOTULINUM that produces BOTULINUM TOXIN TYPE A which is neurotoxic to humans and animals.