In a series of 279 hepatectomies performed for cancer between June 1984 and March 1992, 46 were repeat operations, for metastases in 41 patients. The primary tumour was in the colon and rectum (28 patients), APUDoma (five) and miscellaneous (eight). Repeat hepatectomies were performed in 26 per cent of patients who had recurrence after the first liver resection and in 40 per cent of those who had liver recurrence. An unsuspected extrahepatic recurrence was discovered and resected in eight instances and in two other cases a known extrahepatic recurrence was resected during the second hepatectomy. The hospital mortality rate was 2 per cent (one patient); the death was from nosocomial pneumonia. The total morbidity rate including minor complications was 32 per cent, with a higher frequency of haemorrhagic problems after secondary liver resection (12 per cent) than after primary hepatectomy (5 per cent). The rate of postoperative complications after repeat hepatectomy was related significantly to operative blood loss greater than 1500 ml (P = 0.04). The technical problems of repeat hepatectomy were: (1) re-exposure of the liver, considered to be difficult in 67 per cent of second liver resections and 80 per cent of third procedures; (2) the liver parenchyma, which often had histological modifications between first and second resections and was more difficult to 'work' as shown by the mean duration of clamping of the hepatic pedicle (54 min for secondary versus 36 min for primary liver resection); and (3) modification of the intraparenchymal vasculobiliary anatomy following liver regeneration after major hepatectomy. Intraoperative ultrasonography was of great benefit. Rates of crude and recurrence-free survival were relatively encouraging at 47 and 33 per cent 3 years after the second liver resection for the whole group. These values were lower for colorectal cancer (37 and 21 per cent 3 years after the second hepatectomy). These figures do not, however, convey the complete picture of the outcome for these patients. During the same follow-up period, 143 recurrences were detected and a mean of 2.9 resections per patient were performed. The indications for repeat hepatectomy are still to be clarified, although the surgical technique is safe.
Trillions of microbes such as bacteria, fungi, and viruses exist in the healthy human gut microbiome. Although gut bacterial dysbiosis has been extensively studied in multiple sclerosis (MS), the significance of the fungal microbiome (mycobiome) is an understudied and neglected part of the intestinal microbiome in MS. The aim of this study was to characterize the gut mycobiome of patients with relapsing-remitting multiple sclerosis (RRMS), compare it to healthy controls, and examine its association with changes in the bacterial microbiome. We characterized and compared the mycobiome of 20 RRMS patients and 33 healthy controls (HC) using Internal Transcribed Spacer 2 (ITS2) and compared mycobiome interactions with the bacterial microbiome using 16S rRNA sequencing. Our results demonstrate an altered mycobiome in RRMS patients compared with HC. RRMS patients showed an increased abundance of Basidiomycota and decreased Ascomycota at the phylum level with an increased abundance of Candida and Epicoccum genera along with a decreased abundance of Saccharomyces compared to HC. We also observed an increased ITS2/16S ratio, altered fungal and bacterial associations, and altered fungal functional profiles in MS patients compared to HC. This study demonstrates that RRMS patients had a distinct mycobiome with associated changes in the bacterial microbiome compared to HC. There is an increased fungal to bacterial ratio as well as more diverse fungal-bacterial interactions in RRMS patients compared to HC. Our study is the first step towards future studies in delineating the mechanisms through which the fungal microbiome can influence MS disease.
As geographical location can impact the gut microbiome, it is important to study region-specific microbiome signatures of various diseases. Therefore, we profiled the gut microbiome of breast cancer (BC) patients of the Midwestern region of the United States. The bacterial component of the gut microbiome was profiled utilizing 16S ribosomal RNA sequencing. Additionally, a gene pathway analysis was performed to assess the functional capabilities of the bacterial microbiome. Alpha diversity was not significantly different between BC and healthy controls (HC), however beta diversity revealed distinct clustering between the two groups at the species and genera level. Wilcoxon Rank Sum test revealed modulation of several gut bacteria in BC specifically reduced abundance of those linked with beneficial effects such as Faecalibacterium prausnitzii. Machine learning analysis confirmed the significance of several of the modulated bacteria found by the univariate analysis. The functional analysis showed a decreased abundance of SCFA (propionate) production in BC compared to HC. In conclusion, we observed gut dysbiosis in BC with the depletion of SCFA-producing gut bacteria suggesting their role in the pathobiology of breast cancer. Mechanistic understanding of gut bacterial dysbiosis in breast cancer could lead to refined prevention and treatment.
Trillions of microbes such as bacteria, fungi, and viruses exist in the healthy human gut microbiome. Although gut bacterial dysbiosis has been extensively studied in multiple sclerosis (MS), the significance of the fungal microbiome (mycobiome) is an understudied and neglected part of the intestinal microbiome in MS. The aim of this study was to characterize the gut mycobiome of patients with relapsing-remitting multiple sclerosis (RRMS), compare it to healthy controls, and examine its association with changes in the bacterial microbiome. We characterized and compared the mycobiome of 20 RRMS patients and 33 healthy controls (HC) using Internal Transcribed Spacer 2 (ITS2) and compared mycobiome interactions with the bacterial microbiome using 16S rRNA sequencing. Our results demonstrate an altered mycobiome in RRMS patients compared with HC. RRMS patients showed an increased abundance of Basidiomycota and decreased Ascomycota at the phylum level with an increased abundance of Candida and Epicoccum genera along with a decreased abundance of Saccharomyces compared to HC. We also observed an increased ITS2/16S ratio, altered fungal and bacterial associations, and altered fungal functional profiles in MS patients compared to HC. This study demonstrates that RRMS patients had a distinct mycobiome with associated changes in the bacterial microbiome compared to HC. There is an increased fungal to bacterial ratio as well as more diverse fungal-bacterial interactions in RRMS patients compared to HC. Our study is the first step towards future studies in delineating the mechanisms through which the fungal microbiome can influence MS disease.
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