Salas, S., Frasca, M., Planchet-Barraud, B., Burucoa, B., Pascal, M., Lapiana, J.M., … Baumstarck, K. (2012). Ketamine analgesic effect by continuous intravenous infusion in refractory cancer pain: Considerations about the clinical research in palliative care. Journal of Palliative Medicine, 15(3), 287–293.
To assess the efficacy of continuous IV infusion of ketamine in patients suffering from opiate-refractory cancer pain admitted to palliative care units
Patients were computer randomized to either IV morphine plus ketamine or morphine plus placebo. Morphine could be titrated by 50% once daily. Evaluations were performed at baseline, 2 hours, 24 hours, and 48 hours after initiation of infusion. Ketamine was given at continuous infusion of 0.5mg/kg per day and increased to 1mg/kg per day if pain score did not improve after 24 hours.
This was a multisite study conducted in France.
This was a randomized, double blind, placebo-controlled study.
Pain did not significantly differ between the two groups. No significant differences were found in morphine changes, ESS scores, or satisfaction scores between the two groups.
The combination of morphine and ketamine did not improve pain or decrease opioid requirements.
Although ketamine did not improve pain scores in patients with opiate refractory pain, further studies are needed because of study limitations.
Salari, P., Nikfar, S., & Abdollahi, M. (2012). A meta-analysis and systematic review on the effect of probiotics in acute diarrhea. Inflammation & Allergy Drug Targets, 11(1), 3–14.
To clarify the efficacy of probiotics in children and adults
The effect size for probiotics compared to placebo in 19 trials related to duration of diarrhea was -0.67 (95% confidence interval [CI] = -0.95–0.38) in favor of probiotics. Heterogeneity was statistically significant. Findings included evaluation of duration of diarrhea, hours of fever, duration of hospitalization, duration of vomiting, and number of stools per day. Authors reviewed subsets of information for children, adults, cases of amebiasis and clostridium difficile, HIV, and radiation or chemotherapy.
Taken as a whole, authors concluded insufficient evidence exists for the efficacy of probiotics for different types of diarrhea in children or adults.
These findings did not provide strong support for the use of probiotics for prevention or management of diarrhea in patients receiving radiation or chemotherapy. Overall evidence in all groups was limited by a number of factors. The specific type, dosages, and timing of probiotic use varied.
Sakurai, M., Mori, T., Kato, J., Koda, Y., Kikuchi, T., Kohashi, S., . . . Okamoto, S. (2014). Efficacy of aprepitant in preventing nausea and vomiting due to high-dose melphalan-based conditioning for allogeneic hematopoietic stem cell transplantation. International Journal of Hematology, 99, 457–462.
To evaluate the efficacy of aprepitant in addition to standard antiemetic therapy with ondansetron and methylprednisolone in the prevention of chemotherapy-induced nausea and vomiting (CINV) caused by high-dose melphalan given as part of conditioning for allogeneic hematopoietic stem cell transplantation (HSCT)
Retrospective, single-center analysis
Medical records during the period were analyzed to extract data about CINV and food information. Adverse events were monitored during the observation period, and there were no statistically significant differences in the incidence of grade 2 or greater adverse events between the two groups.
Aprepitant was well tolerated and positively affected the rates of delayed vomiting in this population. The ability to consume food more quickly after the conditioning regimen was improved with aprepitant.
This retrospective study did not indicate how the data were categorized from the records. There was no specific information regarding the rescue antiemetics used, and the rescue medications were chosen by the physicians. This impact on CINV was not discussed in the manuscript. The results are intriguing and demonstrate the safety of adding aprepitant, but a prospective, randomized, controlled trial will be needed to change clinical practice.
Saito, H., Watanabe, Y., Sato, K., Ikawa, H., Yoshida, Y., Katakura, A., ... Sato, M. (2014). Effects of professional oral health care on reducing the risk of chemotherapy-induced oral mucositis. Supportive Care in Cancer, 22, 2935–2940.
To assess the usefulness of prophylactic professional oral health (POHC) care done by dentists and dental hygienists for preventing mucositis in patients undergoing chemotherapy
Further studies are needed to investigate the addition of professional oral care along with self-care. In this study, oral mucositis was not improved or made worse by professional oral care. There is a definite role for better education regarding self-care and adherence to self-care with oral hygiene. Patients need to understand how their oral care can affect the side effects they may experience from the medication.
Saito, H., Yoshizawa, H., Yoshimori, K., Katakami, N., Katsumata, N., Kawahara, M., & Eguchi, K. (2013). Efficacy and safety of single-dose fosaprepitant in the prevention of chemotherapy-induced nausea and vomiting in patients receiving high-dose cisplatin: A multicentre, randomised, double-blind, placebo-controlled phase 3 trial. Annals of Oncology, 24, 1067–1073.
To evaluate the efficacy and safety of single-dose fosaprepitant in combination with IV granisetron and dexamethasone to prevent chemotherapy-induced nausea and vomiting (CINV) in patients receiving highly emetogenic chemotherapy (HEC) containing cisplatin at 70 mg/m2 or higher
Patients receiving high-dose cisplatin were randomized to one of two groups (fosaprepitant or placebo). On day 1, one hour before antineoplastic treatment, both groups received IV granisetron 40 µg/kg and an IV infusion over 20-30 minutes of either fosaprepitant 150 mg or placebo. Dexamethasone also was given on day 1 (10 mg given to the fosaprepitant group and 20 mg given to the placebo group). Aprepitant is known to increase plasma dexamethasone concentrations when used in combination with dexamethasone; therefore, to achieve comparable plasma levels of dexamethasone, the fosaprepitant group received a half dose of dexamethasone on days 1 and 2 only. On day 2, both groups received dexamethasone 4 mg and 8 mg, respectively. On day 3, both groups received dexamethasone 8 mg IV, administered in the morning.
This was a multisite study conducted at 68 institutions in Japan.
All patients were in active antitumor treatment.
This was a multicenter, placebo-controlled, double-blind, randomized, parallel study.
Patients kept self-assessment symptom diaries. Vomiting was defined as one episode of emesis or retching; nausea was assessed on most intense during a 24 hour-period of time.
A single-dose administration of fosaprepitant (150 mg), used in combination with granisetron and dexamethasone, was found to be well-tolerated and effective in preventing CINV in patients receiving HEC, including high-dose cisplatin.
The use of single-dose fosaprepitant (150 mg) in combination with granisetron and dexamethasone has shown effectiveness in preventing nausea and vomiting in patients receiving highly emetogenic antineoplastic therapies, such as cisplatin.
Saito, M., & Tsukuda, M. (2010). Review of palonosetron: Emerging data distinguishing it as a novel 5 HT(3) receptor antagonist for chemotherapy induced nausea and vomiting. Expert Opinion on Pharmacotherapy, 11, 1003–1014.
This article provided a review of the history of antiemetic development and use, a brief overview of relevant professional guidelines, and recent research on pharmacokinetics and outcomes with palonosetron. A meta-analysis on studies with two different doses of palonosetron was provided. No specific search strategy or research evaluation approach was reported.
Pharmacokinetics and effects of palonosetron suggest it may have greater efficacy, particularly with delayed nausea and vomiting. This review points to a number of issues that should be considered in the design of future studies in this area.
Saif, M.W., Syrigos, K., Kaley, K., & Isufi, I. (2010). Role of pregabalin in treatment of oxaliplatin-induced sensory neuropathy. Anticancer Research, 30, 2927–2933.
The study goal was to assess the efficacy of pregabalin in the treatment of oxaliplatin-induced neurotoxicity.
Patients receiving oxaliplatin with grade 2 and 3 sensory neuropathy were treated with pregabalin up to a target dose of 150 mg orally three times a day. Neurologic symptoms were serially evaluated before treatment initiation with pregabalin and every two weeks thereafter, recording intensity and duration of the symptom. Interference with activities of daily living (ADLs) were evaluated. Patients started pregabalin at 50 mg three times per day. If tolerated, the dose was increased by 50 mg increments until symptoms improved to a max of 150 mg three times per day.
The study was conducted at an outpatient university setting in the United States.
The study had a prospective trial design.
National Cancer Institute common toxicity criteria
Five of the 23 participants were escalated to 150 mg of pregabalin with benefit and tolerance. Seven of the 23 escalated to 100 mg with benefit and tolerance. Four stopped due to no benefit, five could not be increased above 50 mg three times daily, two continued at this dose, and three stopped because of CNS side effects. Onset of benefit observed in 2–6 weeks. Three patients' neuropathy improved from grade 3 to grade 2, two patients improved from grade 3 to grade 1, and six patients improved from grade 2 to grade 1. No patients remained at grade 3 and five remained stable at grade 2. The five most common toxicities of pregabalin were dizziness, headache, somnolence, dry mouth, ataxia, and tremor.
Pregabalin at a dose of 100 mg–150 mg three times daily appears to decrease sensory neuropathy in some patients receiving oxaliplatin. Pregabalin was associated with side effects that limited the ability to tolerate the medication or dose escalation.
Pregabalin may be another alternative in treating chemotherapy-induced neuropathy for some patients. Findings suggest that pregabalin is not effective for everyone. In addition, the drug is expensive and is a controlled substance, which can limit the use. Pregabalin has side effects that need to be considered, including CNS side effects that required drug discontinuation. Patients receiving this agent need to be monitored appropriately for both effectiveness and potential side effects.
Saif, M.W., & Elfiky, A.A. (2007). Identifying and treating fluoropyrimidine-associated hand-and-foot syndrome in white and non-white patients. Journal of Supportive Oncology, 5, 337–343.
Multiple interventions can be implemented to prevent or minimize PPE, including teaching patients to avoid friction and exposing their skin to heat.
Sahler, O.J.Z., Hunter, B.C., & Liesveld, J.L. (2003). The effect of using music therapy with relaxation imagery in the management of patients undergoing bone marrow transplantation: A pilot feasibility study. Alternative Therapies, 9(6), 70–74.
A 45-minute music-assisted intervention with relaxation imagery sessions was provided twice a week by a trained therapist from the date of enrollment in the study to discharge.
The study was conducted at a university bone marrow transplant center.
Patients were undergoing the active treatment phase of care.
The study had a case-controlled, nonrandomized convenience sample design.
Patient self-reported pre- and postintervention nausea and pain on a 0–10 scale. Time to engraftment also was measured.
Nausea, pain, and time to engraftment decreased from pre- to postintervention.
The intervention was implemented successfully with a very ill population (i.e., transplant environment).
Sahin, Z.A., & Erguney, S. (2016). Effect on symptom management education receiving patients of chemotherapy. Journal of Cancer Education, 31, 101–107.
To examine the effect of a planned educational program on symptom control
Patients were randomly assigned to the education or waitlist control/usual care group. The educational intervention consisted of face-to-face educational sessions prior to each chemotherapy cycle provided to patients, caregivers, and family members. Symptom management education, support, and opportunity for discussion were provided.
PHASE OF CARE: Active antitumor treatment
Randomized, controlled trial
Not specified
The prevalence of chemotherapy-induced nausea and vomiting and difficulty sleeping were significantly lower after the intervention in the education group (p < 0.001), whereas the prevalence of these symptoms increased in the control group.
The findings suggest that an educational intervention can be beneficial in managing symptoms related to cancer treatment.
Patient education may be helpful in managing symptoms during cancer treatment. Education is necessary but may not be sufficient for symptom control.