Abstract
Malignant fungating wounds present in 5–14% of advanced cancer patients in the United States and are a result of cancerous cells infiltrating and proliferating in the skin. Presentation of malignant fungating wounds often occurs in the last 6 months of life and therefore become symbols of impending death for patients and their families. Due to the incurable and severe nature of these wounds, patients require palliative care until death to minimize pain and suffering. Symptoms associated with these chronic wounds include malodor, pain, bleeding, necrosis, large amounts of exudate, increased microbial growth, and more. Limited research using culture-based techniques has been conducted on malignant fungating wounds and therefore no optimal approach to treating these wounds has been established. Despite limited data, associations between the cutaneous microbiome of these wounds and severity of symptoms have been made. The presence of at least one strain of obligate anaerobic bacteria is linked with severe odor and exudate. A concentration of over 105/g bacteria is linked with increased pain and exudate. Bacterial metabolites such as DMTS and putrescine are linked with components of malignant fungating wound odor and degradation of periwound skin. The few but significant associations made between the malignant fungating wound microbiome and severity of symptoms indicate that further study on this topic using 16S rRNA gene sequencing may reveal potential therapeutic targets within the microbiome to significantly improve current methods of treatment used in the palliative care approach.
Highlights
Palliative care becomes the primary focus when treating advanced cancer patients; most of the effort and attention of the care team focuses on alleviating pain, treating symptoms, and maximizing comfort (Merz et al, 2011)
Wounds having a bacterial concentration over 104/g are associated with odor (p = 0.02) and having over 105/g bacteria is a significant threshold for an increased level of pain (p = 0.04) and exudates (p = 0.07) (Fromantin et al, 2013)
This study observed that having more than four distinct species of bacteria in the wound microbiome increases the risk of odors (p = 0.0008) and exudates (p = 0.007) significantly: from 43.5 to 84.2% and from 56.5 to 86.8%, respectively (Fromantin et al, 2013)
Summary
Palliative care becomes the primary focus when treating advanced cancer patients; most of the effort and attention of the care team focuses on alleviating pain, treating symptoms, and maximizing comfort (Merz et al, 2011). The purpose of this review is to bring light to this understudied subject, investigate the available evidence regarding the relationship between microbiota and MFWs, and highlight the importance of using 16S rRNA gene sequencing to fill the gap in our understanding of the microbiome’s effects on wound healing.
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