Plerixafor as a salvage mobilization strategy for haploidentical peripheral blood allogeneic stem cell transplantation

McBride, Ali, Nadeau, Michelle, George, Laeth, Yeager, Andrew M., Anwer, Faiz

15 July 2015

In allogeneic stem cell mobilization, peripheral blood stem cell mobilization with filgrastim can be considered standard of care. Poor mobilizers may be at risk for inadequate stem cell collection during apheresis. He we present a successful case of salvage plerixafor use with filgrastim in a haploidentical identical transplant patient.

CLL

mobilization

plerixafor

stem cell transplant

Mobilization of PML-RARA Negative Blood Stem Cells and Salvage With Autologous Peripheral Blood Stem Cell Transplantation in Children With Relapsed Acute Promyelocyte Leukemia

Termuhlen, Amanda, Klopfenstein, Kathryn, Olshefski, Randall, Rosselet, Robin, Yeager, Nicholas D., Soni, Sandeep, Gross, Thomas G.

01 October 2008

Background. Relapsed acute promyleocytic leukemia (APL) is treated with re-induction chemotherapy, commonly arsenic trioxide, and stem cell transplantation (SCT). The effect of arsenic trioxide on autologous peripheral blood stem cell collection is unknown. Procedure. Five pediatric patients with relapsed APL had PML-RARA negative peripheral blood stem cells mobilized (four after arsenic trioxide) and underwent autologous SCT after cyclophosphamide (60 mg/kg x 2) and total body irradiation (TBI-fractionated 1,200 cGy) conditioning. Results. All five patients remain in molecular remission a median of 20 months post-transplant. Conclusion. Autologous SCT performed during molecular remission is a treatment option for pediatric patients with relapsed APL and may provide durable leukemia-free survival without the complications of allogeneic transplantation.

APL

autologous stem cell transplant

pediatric

relapsed

Manipulating Embryonic Neural Precursor Cells for Therapeutic Transplantation into a Rat Model of Neuropathic Pain

Furmanski, Orion

18 December 2009

Persons with spinal cord injury (SCI) suffer life-long consequences including paralysis, loss of involuntary bodily functions, and chronic pain. A subset of SCI patients develop neuropathic pain (NP), a chronic condition resulting from damage to the spinal cord. Hyperexcitability of spinal cord sensory neurons near damaged tissue is believed to underlie SCI-related NP. Although many therapies have been employed clinically to combat SCI-NP, few give satisfactory long-term relief. Transplantation of cells that release GABA, a molecule that inhibits neuronal activity, is being explored as an alternative to current SCI-NP therapies. My experiments made progress toward preclinical modeling of GABA cell therapy for SCI-NP. First, I sought to determine whether quisqualic acid (QUIS)-induced SCI altered responses to tonic pain stimuli or altered GABAergic neural circuitry in rats. Second, I sought to determine whether a combination of genetic and trophic manipulations could promote a GABAergic phenotype in rat embryonic neural precursor cells (NPCs) in an in vitro culture system. The results revealed that QUIS-SCI rats exhibit unusually prolonged nocifensive responses to hind paw formalin injections. There was no significant difference between QUIS-SCI and sham surgery rats in c-Fos immunolabeling of spinal cord sensory neurons after formalin-induced neuronal activity. However, immunohistochemistry revealed substantial decreases in staining for markers of GABA presynaptic vesicles in injured spinal cord tissue. NPCs were enriched for a neuronal phenotype by combining withdrawal of the growth factor FGF-2 from culture media and overexpression of the transcription factor MASH1 in transfected cells. Although glial marker expression was suppressed in NPCs by these manipulations, expression of neuronal markers none the less declined through time. MASH1-overexpressing NPCs exhibited greater clonal expansion and decreased stress-induced PDI expression after FGF-2 withdrawal as compared to naïve. In light of existing data, these results suggest that the QUIS-SCI model may be useful for testing the efficacy of GABAergic NPC transplantation to reduce neuropathic pain. MASH1 overexpression and FGF-2 withdrawal could serve as a first step toward enriching GABA in NPCs for transplantation. Although the mechanism for MASH1 cytoprotection remains unclear, MASH1 may enhance survival of NPCs grafted into the spinal cord. These experiments contributed to the preclinical basis for application of therapeutic GABAergic stem cell transplantation for NP in human SCI patients.

Sleep Disruption Among Cancer Patients Following Autologous Hematopoietic Stem Cell Transplantation

Nelson, Ashley M.

06 September 2016

Background: Sleep disruption is one of the most commonly reported quality of life concerns among cancer patients who have undergone hematopoietic stem cell transplantation (HSCT). Despite the high percentage of patients reporting sleep concerns, relatively little research has characterized sleep problems or explored relationships with psychological factors. In addition, no studies have used actigraph technology to characterize sleep issues among transplant recipients. Method: Autologous HSCT recipients who were 6 to 18 months post-transplant were invited to participate. Patients completed self-report measures of cancer-related distress, fear of cancer recurrence, dysfunctional cognitions about sleep, and maladaptive sleep behaviors upon enrollment, wore an actigraph and completed a sleep log at home for 7 days, and completed a self-report measure of sleep disruption on day 7 of the study. Results: 84 autologous HSCT recipients (age M = 60, 45% female) were enrolled and provided complete data. Forty-one percent of patients met criteria for sub-clinical or clinical insomnia based on patient self-report. Examination of actigraph data indicated that certain aspects of sleep were poorer than others (wake after sleep onset M = 66 minutes; total sleep time M = 6.5 hours; sleep efficiency M = 78%; sleep onset latency M = 21 minutes). Measures of cancer-related distress, fear of cancer recurrence, cognitive distortions, and maladaptive behavioral patterns were related to subjectively reported sleep disruption, p’s < .05, but were not related to objectively measured sleep disruption. Further examination revealed that the cognitive and behavioral factors accounted for the largest unique variance in subjectively reported sleep disruption. Conclusion: Results from the present study suggest that many HSCT recipients continue to experience sleep disruption during the survivorship period following transplant. Cancer-specific factors, dysfunctional cognitions about sleep, and maladaptive sleep behaviors were related to self-reported sleep disruption and are ripe targets for a cognitive behavioral intervention.

Sleep

Cancer

Hematopoietic Stem Cell Transplant

Quality of Life

Clinical Psychology

Nutritional Status of Allogeneic Hematopoietic Stem Cell Transplant Recipients and Post-transplant Outcomes

Szovati, Stephanie

24 May 2022

No description available.

Nutrition

Hematopoietic stem cell transplant

Nutrition

Malnutrition

Outcomes

The contributions of music therapy to the prevention and mitigation of the effects of toxic stress and trauma in pediatric patients undergoing Hematopoietic Stem Cell Transplants: A qualitative multi-case study

Harman, Elizabeth, 0000-0002-3694-3874

January 2021

It is well documented that adverse or traumatic events in childhood can lead to increased incidences of serious mental and physical health diseases and disorders. It is also well documented that medical treatment, especially during childhood can be stressful and potentially traumatic, leading to Post-Traumatic Stress Disorder or Symptoms after treatment. This is especially true for lengthy and invasive medical treatment such as Hematopoietic Stem Cell Transplant (HSCT). A single music therapy intervention has been shown to effectively improve resilience in pediatric HSCT patients. But additional research is needed to understand the contribution music therapy interventions make to traumatic and stressful experiences and building resilience across time. This longitudinal two-phase multi-case study examined the patterns of potential trauma, toxic stress, and resilience during the HSCT process as well as the potential roles, functions, and contributions of music therapy interventions to the mitigation and prevention of toxic stress and trauma. The first phase, a retrospective multi-case study, resulted in the construction of a preliminary model of music therapy which identified patterns of stress and trauma and how the music therapy process interacts with these patterns. In the second phase, a purposeful sample of cases was used to confirm, clarify, and challenge the model utilizing Template Analysis. The outcome is the Music Therapy for Pediatric Medical Trauma, a proposed model of music therapy to focus treatment with the intention of mitigating toxic stress and trauma and build resilience in pediatric HSCT patients. / Music Therapy

Music therapy

Pediatric

Resilience

Stem cell transplant

Toxic stress

Trauma

The immunobiology and clinical management of acute graft versus host disease after allogeneic transplant

Chen, Kaina

31 January 2023

Alloreactivity between donor cells against disparate host tissue is a natural and normal physiologic phenomenon after engraftment. Consequently, GVHD is a universally expected side effect after allogeneic HSCT. An effective strategy to prevent severe or fatal acute GVHD is require if the transplant is to be successful. The HSCT field has witnessed significant progress in the prevention and treatment of acute GVHD. However, select interventions come at the cost of losing the alloimmune activity that prevents relapse, the GVL effect, as many of the mechanisms which cause GVHD are shared with those responsible for GVL. Current efforts are focused on therapeutic interventions that not only alleviate the burden of acute GVHD but does so in a way that maintains the GVL effect. This review will provide an up-to-date overview of our current understanding of the diagnosis, risk stratification, immunobiology of acute GVHD, summarize efforts to prevent and treat the disease, and provide a perspective on future directions.

Medicine

Graft versus host disease

Hematopoietic stem cell transplant

Chemomobilization with Cyclophosphamide and Filgrastim in Multiple Myeloma Patients Following Lenalidomide Treatment

Gerfen, Ashlee, Green, Myke

January 2012

Class of 2012 Abstract / Specific Aims: Autologous stem cell transplant (ASCT) is the current gold standard following induction therapy to improve survival of multiple myeloma (MM). Lenalidomide (LEN) is used for treatment of MM before ASCT, but exposure may impair autologous peripheral blood stem cell (PBSC) mobilization. Chemomobilization with cyclophosphamide (CTX) has not been evaluated in this setting. CTX + filgrastim was investigated to determine if LEN-associated mobilization impairment can be abrogated. Methods: 36 pts (group A=12 pts who received ≥2 cycles of LEN and group B=24 pts without LEN) were analyzed retrospectively. Baseline characteristics were matched (p>0.05 for all variables). All pts received CTX (median group B, 1.5g/m2; median group A, 3gm/m2(p=0.18)) and filgrastim 10µg/kg/day. Primary outcomes include number of CD34+ cells collected and number of leukapheresis sessions. Secondary outcomes include failure to collect CD34+ cells and total CD34+ cells collected after second leukapheresis. Main Results: Total median number of CD34+ cells collected in group B=9.15x106/kg CD34+ cells and group A=7.43x106/kg CD34+ cells (p=0.159). Median number of apheresis sessions in group B=2 and group A=3 (p=0.42). Two of 12 pts with antecedent LEN usage failed to collect while no patient without previous LEN exposure failed to collect (p=0.105). Total number of CD34+ cells collected after 2 apheresis sessions for group B=8.13x106/kg CD34+ cells and group A=3.34x106/kg CD34+ cells (p=0.06). Conclusions: Chemomobilization with CTX + filgrastim yields robust PBSC collections irrespective of antecedent lenalidomide. There was a trend towards lesser PBSC collection in LEN-treated pts.

Chemomobilization

Autologous stem cell transplant (ASCT)

multiple myeloma (MM)

Lenalidomide (LEN)

cyclophosphamide (CTX)

The Top 25 Comorbidities Reported During Inpatient Stays for Pediatric Hematopoietic Stem Cell Transplant: Patient Demographics and Impact on Inpatient Mortality and Charges

Zulueta, Stacy, Clemans, Emily, Skrepnek, Grant

January 2011

Class of 2011 Abstract / OBJECTIVES: The purpose of this study was to analyze the impact of patient and hospital characteristics as well as selected comorbidities on inpatient mortality and charges in pediatric HSCT. We have determined the top 25 comorbidities reported during all inpatient stays for HSCT as well as for those stays ending in mortality. METHODS: All data was extracted from the AHRQ KID databases for the years 1997, 2000, 2003, and 2006. Two regression analyses were performed to determine the contribution of various independent variables on mortality and charges. Subjects of this study included all cases of HSCT reported in the Healthcare Cost and Utilization Project (HCUP) KID as ICD-9 41.XX. RESULTS: Factors accounting for larger increases in cost included death during hospital stay, the development of disseminated intravascular coagulation (DIC), pneumonia, and length of stay (LOS). The largest decreases in charges were seen for patients coming from a small or “micropolitan” location, patients cared for in teaching hospitals, and in hospitals with large bedsizes. Variables associated with increased risk of mortality on linear regression included development of DIC, sepsis, or pneumonia. CONCLUSION: Further study relating to HSCT is necessary to determine the contribution of specific comorbidities to mortality and charges. Importantly, DIC is associated with both greater risk of mortality and greater charges. It would be prudent to recommend increased monitoring and early treatment for DIC based on these results.

comorbidities

hematopoietic stem cell transplant

pediatric

mortality

Non-myeloablative bone marrow transplantation for Mucopolysaccharide diseases

Langford-Smith, Kia Jane

January 2012

The Mucopolysaccharide (MPS) diseases are a group of lysosomal storage disorders, caused by a lack of the enzymes required for catabolism of glycosaminoglycans (GAGs), leading to severe neurological decline, skeletal deformities, organomegaly, cardiac and respiratory compromise, and premature death. The severe form of MPS I, Hurler syndrome, can be successfully treated using haematopoietic stem cell transplantation (HSCT), but the risks associated with myeloablation and immune suppression limit the broader application of HSCT to attenuated diseases. Successful engraftment in MPS I has been difficult to achieve, and requires fully myeloablative conditioning, whilst reduced intensity conditioning is a risk factor for graft rejection. Non-myeloablative conditioning generating reliable graft acceptance and high donor chimerism could increase safety and applicability of HSCT in genetic disease, therefore the aim of this research was to identify such a regimen in a clinically relevant mouse model of HSCT.Conditioning regimens developed in existing mouse models of HSCT have had limited clinical success, and often require clinically unachievable high cell doses or less stringent strain combinations to overcome allogeneic transplant rejection. To improve clinical relevance we used CBA donors and C57BL/6 recipients, which require full myeloablation with busulfan and immune suppression using non-depleting anti-CD4 and anti-CD8 monoclonal antibodies for engraftment of low cell doses across a major histocompatibility complex barrier. In syngeneic transplant donor chimerism was improved by generating a greater ratio of donor:recipient haematopoietic cells in the bone marrow initially, therefore we tested granulocyte colony stimulating factor (G-CSF), high cell dose and stem cell niche disruption and compared this to anti-CD40L costimulatory blockade in allogeneic transplant performed with a reduced dose of busulfan that was insufficient for graft acceptance. Despite improvements in initial engraftment with some of these treatments, only combined signal 1 and 2 T cell blockade were effective in reducing the dose of busulfan required for long-term graft acceptance. Early detection of MPS is important in treatment success; good disease biomarkers are vital, and biomarkers suitable for monitoring treatment outcome in MPS are lacking. We evaluated serum heparin cofactor II-thrombin (HCII-T) complex for MPS. We determined optimal sample collection and storage conditions, assay limitations and developed measurement in dried blood spots. Dermatan sulphate has a greater effect on in vivo HCII-T complex formation than heparan sulphate, thus in the MPS mouse models HCII-T is a reliable biomarker for MPS I, but not MPS IIIA or IIIB. HCII-T is greatly elevated in MPS I, II and VI patients, who all store dermatan sulphate, but it is also elevated by a small but significant amount in MPS III patients, who store heparan sulphate. HCII-T was also measured longitudinally in MPS I, II and VI patients, compared to an existing clinical biomarker, and validated against clinical outcomes to show that it is a good biomarker of short-term treatment outcomes and responds rapidly to perturbations in treatment. Finally, we determined whether an engraftment defect was observed in the MPS I mouse model, and show that this is present following both syngeneic and allogeneic HSCT. The effect of enzyme replacement therapy (ERT) and anti-inflammatory treatment prior to allogeneic HSCT was investigated, and initial results suggest that ERT, but not ibuprofen, may improve HSCT outcome. Overall, a clinically relevant mouse model of allogeneic HSCT has been developed and used to determine a non-myeloablative conditioning regimen that generates high levels of donor chimerism with a minimal dose of busulfan and blockade of both signal 1 and 2 of T cell activation. The conditions required to observe an engraftment defect in MPS I mice have also been defined, and preliminary studies have suggested that ERT, but not anti-inflammatory treatment, may overcome the engraftment defect in MPS I. Alongside this work, the HCII-T biomarker has been evaluated in MPS mouse models and patients, determining that it correlates well with short-term treatment outcomes. The techniques and models developed here will provide an excellent basis for further work in developing non-myeloablative conditioning for bone marrow transplant in MPS I.

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