Albendazole in Breastfeeding
Yes
Use with Caution
Use of Albendazole in Children
Albendazole in Pregnancy
.
All information was
accessed on 30 August 2019 by JCK Ho
Friday, August 30, 2019
Thursday, August 22, 2019
Prednisolone in Neurosyphillis
|
UK national guidelines on the
management of syphilis 2015
|
Steroids should be given with all anti-treponemal
antibiotics for cardiovascular syphilis; 40–60 mg
prednisolone OD for three days starting 24 h
before the antibiotics.
|
|
Syphilis: diagnosis and management options
[The Pharmaceutical Journal, 20 Mac 2018]
|
Steroids should be given with all treatment regimens for late
syphilis with cardiovascular or neurological involvement; 40–60mg
prednisolone OD for three days starting 24 hours before antibiotics
|
|
|
Steroids should be given with all anti-treponemal antibiotics for
neurosyphilis; 40–60mg prednisolone OD for three days starting 24h before the
antibiotics.
|
|
2014 European Guideline on the Management of Syphilis
|
• Prednisolone can prevent the febrile episode Although steroids are unproven
at ameliorating local infection, biological plausibility suggests that those
may help preventing severe deterioration in early syphilis with optic neuritis
and uveitis.
• Management:
- If cardiovascular or neurological involvement (including optic
neuritis) exists, inpatient management is advisable.
- Prevention of Jarisch-Herxheimer reaction: Prednisolone 20-60 mg
daily for 3 days, starting anti-treponemal treatment after 24 hours of commencing
prednisolone [IV; C]
- Antipyretics
|
|
https://www.medscape.com/answers/1169231-113753/how-is-a-jarisch-herxheimer-reaction-to-neurosyphilis-therapy-managed
[Updated 17 July 2018]
|
Corticosteroids (eg, prednisone at 20 mg 4 times per day for 3 d
started 1 d prior to antitreponemal treatment) have been used to prevent
adverse effects. Salicylates/antipyretics are prescribed for symptomatic
relief.
|
|
National Antibiotic Guideline (Malaysia) 2014
|
All patients with neurosyphilis should be considered for
corticosteroid cover at the start of the therapy to prevent the
Jarisch-Herxheimer reaction (Prednisolone 10-20mg PO q8h for
3 days commencing one day prior to syphilis treatment)
|
All accessed on 22 Aug 2019 by JCK Ho
Wednesday, August 21, 2019
New Primaquine Dosing Recommendation for Non-complicated P. falciparum Malaria
UptoDate: Treatment of uncomplicated
falciparum malaria in nonpregnant adults and children
[Updated at 31 July
2019]
Gametocytes may persist in the blood after successful treatment
of infection; they are not harmful to the patient but serve as a source of ongoing
transmission. Artemether-lumefantrine has been shown to be superior to
non-artemisinin antimalarial drugs in reducing gametocytemia. Primaquine has
activity against mature gametocytes but no effect on blood-stage parasites.
To further reduce transmissibility of treated P. falciparum
infection in endemic areas with low transmission, we are in agreement with the
WHO which favors administration of primaquine (0.25 mg/kg single dose) on the
first day of malaria treatment to nonpregnant adults and children ≥6
months. This approach is supported by a systematic review including 24
randomized trials in which a single low dose of primaquine added to ACT therapy
reduced infectiousness of humans to mosquitoes on day 3 or 4 (from 14 to 2
percent) and was as effective as higher doses of primaquine. Data on the impact
on community transmission levels and hemolysis in glucose-6-phosphate
dehydrogenase (G6PD) deficiency are needed. Primaquine should be avoided in
pregnant women and infants <6 months of age given the particular
vulnerability of these patient groups.
Primaquine can cause hemolysis in individuals with G6PD
deficiency; however, G6PD testing is not required for patients receiving
primaquine for reducing transmissibility given the relatively low dose for this
indication. In one study including 274 Senegalese patients with mild malaria
randomized to ACT plus primaquine (0.25 mg/kg, single dose) versus ACT alone,
the mean reduction in hemoglobin at day 7 was equivalent. Among 54 patients
with G6PD deficiency, the drop in hemoglobin was 0.63 g/dL greater in those who
received primaquine than in those who received an ACT alone.
World Health
Organisation: Guidelines for the Treatment of Malaria (3rd Edition,
2015)
In
low-transmission areas, give a single dose of 0.25 mg/kg bw primaquine with ACT
to patients with P. falciparum malaria (except pregnant women, infants aged
< 6 months and women breastfeeding infants aged < 6 months) to reduce
transmission. Testing for glucose-6-phosphate dehydrogenase (G6PD) deficiency
is NOT required.
(Strong recommendation, low quality evidence)
Monday, August 19, 2019
Human Albumin Injection in Hepatorenal Syndrome (HRS)
UptoDate: Hepatorenal
syndrome
The ideal therapy for hepatorenal syndrome is improvement of liver
function from recovery of alcoholic hepatitis, treatment of decompensated
hepatitis B with effective antiviral therapy, recovery from acute hepatic
failure, or liver transplantation. The ability of liver function to improve
with abstinence from alcohol and effective antiviral therapy of hepatitis B is
remarkable.
However, when improvement of liver function is not possible in the short
term, we recommend that medical therapy be instituted in an attempt to reverse
the acute kidney injury associated with hepatorenal syndrome.
In patients with hepatorenal syndrome who are critically ill, we suggest initial treatment with norepinephrine in
combination with albumin. Norepinephrine is given intravenously as a continuous
infusion (0.5 to 3 mg/hr) with the goal of raising the mean arterial pressure
by 10 mmHg, and albumin is given for at least two days as an intravenous bolus
(1 g/kg per day [100 g maximum]). Intravenous vasopressin may also be
effective, starting at 0.01 units/min and titrating upward as needed to raise
the mean arterial pressure.
In patients with hepatorenal syndrome who are not critically ill, where terlipressin therapy is not available, we
suggest initial treatment with a combination of midodrine, octreotide, and
albumin. Midodrine is given orally (starting at 7.5 mg and increasing the dose
at eight-hour intervals up to a maximum of 15 mg by mouth three times daily), octreotide is either given as a continuous intravenous infusion (50 mcg/hr)
or subcutaneously (100 to 200 mcg three
times daily), and albumin is given for two days as an intravenous bolus (1
g/kg per day [100 g maximum]), followed by 25 to 50 grams per day until
midodrine and octreotide therapy is discontinued.
In patients who fail to respond to the above therapies, develop severely
impaired renal function, and either are candidates for liver transplantation or
have a reversible form of liver injury and are expected to survive, we
recommend dialysis as a bridge to liver transplantation or liver recovery.
In patients treated with
norepinephrine, terlipressin, or octreotide, we usually treat for a total of two weeks. However, we and others
occasionally treat for longer durations (up to one month or more) if there is
some but not complete improvement in renal function after two weeks of therapy.
In patients who respond to therapy, we occasionally treat indefinitely with
midodrine to maintain a higher mean arterial pressure (or until liver
transplantation or resolution of liver injury). Many patients who recover from
type 1 hepatorenal syndrome continue to have refractory ascites, and midodrine
may be effective in such patients [42]. In contrast, if a patient has no improvement in renal function after two
weeks, therapy with these drugs
can be considered futile.
EASL clinical practice
guidelines on the management of ascites, spontaneous bacterial peritonitis, and
hepatorenal syndrome in cirrhosis
Management of hepatorenal syndrome
The most effective method currently available is the administration of
vasoconstrictor drugs. Among the vasoconstrictors used, those that have been
investigated more extensively are the vasopressin analogues particularly
terlipressin. The rationale for the use of vasopressin analogues in HRS is to
improve the markedly impaired circulatory function by causing a
vasoconstriction of the extremely dilated splanchnic vascular bed and
increasing arterial pressure.
Drug therapy of type 1 hepatorenal syndrome Terlipressin (1 mg/4–6 h
intravenous bolus) in combination with albumin should be considered the first
line therapeutic agent for type 1 HRS. The aim of therapy is to improve renal
function sufficiently to decrease serum creatinine to less than 133 mcmol/L (1.5
mg/dl) (complete response). If serum creatinine does not decrease at least 25%
after 3 days, the dose of terlipressin should be increased in a stepwise manner
up to a maximum of 2 mg/4 h. Median time to response is 14 days and usually depends
on pre-treatment serum creatinine, the time being shorter in patients with
lower baseline serum creatinine. A serum bilirubin less than 10 mg/dl before
treatment and an increase in mean arterial pressure of >5 mm Hg at day 3 of treatment
are associated with a high probability of response to therapy. For patients
with partial response (serum creatinine does not decrease <133 mcmol/L) or
in those patients without reduction of serum creatinine treatment should be discontinued
within 14 days. Recurrence after withdrawal of therapy is uncommon and retreatment
with terlipressin is generally effective.
In most studies, terlipressin was given in combination with albumin (1
g/kg on day 1 followed by 40 g/day) to improve the efficacy of treatment on
circulatory function.
Japan
Society of Transfusion Medicine and Cell Therapy: Evidence-based Guidelines for
the Use of Albumin Products 2017
Hepatorenal syndrome is referred to as acute renal failure in patients
with end-stage liver cirrhosis or hepatic insufficiency, such as fulminant
hepatitis, but represents functional pre-renal failure without any organic or
pathological changes in renal tissues. Hepatorenal syndrome is classified into
2 types: type 1 showing rapidly progressive symptoms of renal failure and type
2 showing slowly progressive renal failure. Patients with hepatorenal syndrome
has a low glomerular filtration rate (serum Cr >1.5 mg/dl or 24-hour CCr
<40 ml/min), resulting in oliguria. In many cases, hepatorenal syndrome progresses
in an irreversible manner, is associated with a mortality rate of ≥90%, and is one of the causes of death in
end-stage liver cirrhosis. The use of terlipressin and albumin is recommended
for the treatment of type-1 hepatorenal syndrome. Improvement of renal
impairment is also noted in 83% of patients with coadministration of
norepinephrine and albumin, which represents a beneficial treatment regimen while waiting for a liver
transplant.
Treatment with a hypertonic albumin solution and a
vasoconstrictor is effective in improving type-1 hepatorenal syndrome. Albumin
should be administered at a dose of 1 g/kg body weight on day 1 and 20 to 40
g/body weight on subsequent days, in combination with terlipressin and other
drugs (evidence grade 1A).
Guideline
|
Recommended Dosages of Human Albumin
Injection for SBP
|
|||||||||
UptoDate
[Accessed 19 August
2019]
|
Critically
ill
For at least two days as
an intravenous bolus
(1 g/kg per day [100 g
maximum])
Not
critically ill
Given for two days as an
intravenous bolus (1 g/kg/day [100 g maximum]), followed by 25-50 g/day until
terlipressin therapy is discontinued
|
|||||||||
Clinical Guidelines for
Human Albumin Use (NHS Scotland 2016)
|
|
|||||||||
EASL clinical practice
guidelines on the management of ascites, spontaneous bacterial peritonitis,
and hepatorenal syndrome in cirrhosis 2010
|
1 g/kg on day 1, followed
by 40 g/day
|
|||||||||
Evidence-based
Guidelines for the Use of Albumin Products (Japan Society of Transfusion
Medicine and Cell Therapy 2017)
|
1 g/kg body weight on
day 1 , then,
20 to 40 g/body weight
on subsequent days
|
|||||||||
Guideline for the use of
human albumin solution (Guy’s and St. Thomas’ 2015)
|
Day 1: 1g/kg
Day 2 -14: 0.5g/kg
The transfusions should stopped
once patient’s condition has resolved.
|
|||||||||
Guidelines for
Intravenous Albumin Administration at Stanford Health Care (Stanford Health
Care 2017)
|
Suspected HRS
Defined as acute renal dysfunction (serum
creatinine >1.5 mg/dL or 132.6 mcmol/L) in the presence of cirrhosis
1 g/kg/day for 2 days (max. 100 g/day) *
|
|||||||||
Confirmed HRS
Defined as:
·
Serum creatinine >1.5 mg/dL in the
presence of cirrhosis
·
Absence of shock, ongoing bacterial
infection, and/or current treatment with nephrotoxic drugs
·
Absence of sustained improvement in
renal function after discontinuation of diuretics and a trial of albumin 1
g/kg
·
Absence of proteinuria (<500
mg/day) or hematuria (<50 red cells per high-power field)
·
Absence of ultrasonographic evidence
of obstructive uropathy or parenchymal renal disease
25-50 g* daily for a total of 72 hours
(starting 1-2 days after initial diagnostic trial of albumin, if applicable),
and consult nephrology and hepatology services to determine whether to continue
Should be used in addition to midodrine and
octreotide
|
||||||||||
Albumin – Adult –
Inpatient Clinical Practice Guideline (University of Wisconsin Hospitals
2018)
|
Management
of hepatorenal syndrome (HRS) / acute kidney injury (AKI) in patients with
cirrhosis
and probable non-structural injury (i.e. pre-renal azotemia):
As fluid
challenge (UW Health low
quality evidence; strong recommendation)
Assess for resolution or
progression of AKI at 48 hours after initiating albumin therapy
|
|||||||||
Treatment of
Type 1 HRS with cirrhosis (UW Health
high quality evidence; strong recommendation)
1 g/kg on day 1 (max.100
g/day), then 25 g/day
The following duration
of therapy for albumin is recommended:
1.
For
patients that respond to vasoconstrictors and albumin as evidenced by a
decrease in plasma creatinine, discontinue albumin when plasma creatinine has
returned to or is close to baseline, or has not decreased further after 3
days of treatment
2.
In
patients that do not respond to vasoconstrictors and albumin, discontinue
albumin after a maximum of 7 days
3.
Discontinue
albumin if patient is started on renal replacement therapy or the plasma
albumin level is > 3 g/dL (30 g/L).
|
*Use 25%.
References:
|
Human Albumin Injection in Spontaneous Bacterial Peritonitis (SBP)
UptoDate: Spontaneous
bacterial peritonitis in adults: Treatment and prophylaxis
Renal failure develops in 30 to 40 percent of patients with SBP and is a
major cause of death. The risk may be decreased with an infusion of intravenous
albumin (1.5 g per kg body weight within six hours of diagnosis and 1.0 g/kg
body weight on day three). Albumin infusion should be given if the creatinine
is >1 mg/dL (88 micromol/L), the blood urea nitrogen is >30 mg/dL (10.7
mmol/L), or the total bilirubin is >4 mg/dL (68 micromol/L). Once renal
failure has developed, treatment with a combination of octreotide and midodrine
may be helpful, in addition to infusion of 25 grams of 25 percent albumin
daily, unless there is massive fluid overload.
The development of renal failure is associated with activation of the
renin-angiotensin system and a decrease in effective arterial volume. Thus, it
has been hypothesized that plasma volume expansion could attenuate the hemodynamic
changes in patients with SBP, thereby preserving renal function and hence
reduce mortality. A meta-analysis of four randomized trials (with a total of
288 patients) by Salerno et al. 2013 evaluated the impact of albumin infusion
(in addition to antibiotics) on renal impairment and mortality in patients with
SBP. Albumin infusion was associated with a significant decrease in the
incidence of renal impairment (8 versus 31 percent) and a significant reduction
in mortality (16 versus 35 percent).
EASL clinical practice
guidelines on the management of ascites, spontaneous bacterial peritonitis, and
hepatorenal syndrome in cirrhosis
A randomized, controlled study in patients with SBP treated with
cefotaxime showed that albumin (1.5 g/kg body weight at diagnosis, followed by
1 g/kg on day 3) significantly decreased the incidence of type 1 HRS (from 30%
to 10%) and reduced mortality from 29% to 10% compared with cefotaxime alone.
Treatment with albumin was particularly effective in patients with
baseline serum bilirubin ≥68 mcmol/L (4 mg/dl) or serum creatinine ≥88 mcmol/L
(1 mg/dl). It is unclear whether intravenous albumin is useful in patients with
baseline bilirubin <68 mcmol/L and creatinine <88 mcmol/L, as the
incidence of type 1 HRS was very low in the two treatment groups (7% without albumin
and 0% with albumin).
It is not known whether crystalloids or artificial colloids could
replace albumin in the prevention of HRS in patients with SBP. Albumin improves
circulatory function in patients with SBP while equivalent doses of
hydroxyethyl starch have no such beneficial effect.
Therefore, the EASL guidelines summarises that:
- · Hepatorenal syndrome (HRS) occurs in approximately 30% of patients with SBP treated with antibiotics alone, and is associated with a poor survival.
- · The administration of albumin (1.5 g/kg at diagnosis and 1g/kg on day 3) decreases the frequency of HRS and improves survival (Level A1).
- · It is unclear whether albumin is useful in the subgroup of patients with baseline serum bilirubin <68 mcmol/L and creatinine <88 mcmol/L (Level B2).
- · Until more information is available, we recommend that all patients who develop SBP should be treated with broad spectrum antibiotics and intravenous albumin (Level A2).
|
Guideline
|
Recommended Dosages of Human Albumin
Injection for SBP
|
|
UptoDate
[Accessed 19 August
2019]
|
1.5 g/kg body weight
within six hours of diagnosis and 1.0 g/kg body weight on day three
|
|
Clinical Guidelines for
Human Albumin Use (NHS Scotland 2016)
|
Day 1: 1.5g HAS / kg
given over a 6 hour period:
Day 3: 1g HAS / kg given
over 3 hours
(high risk of mortality
defined as: urea ≥11 mmol/L and/or bilirubin ≥ 68 mcmol/L)
|
|
Guidelines for
Intravenous Albumin Administration at Stanford Health Care (Stanford Health
Care 2017)
|
1.5 g/kg within 6-hours of
detection (day 1) and 1 g/kg on day 3 *
|
|
Albumin – Adult –
Inpatient Clinical Practice Guideline (University of Wisconsin Hospitals
2018)
|
Dose: 1.5 g/kg on day 1,
followed by 1 g/kg on day 3. Maximum daily dose: 100 g (400 mL) *
|
|
EASL clinical practice
guidelines on the management of ascites, spontaneous bacterial peritonitis,
and hepatorenal syndrome in cirrhosis 2010
|
1.5 g/kg at diagnosis
and 1g/kg on day 3
|
|
Evidence-based
Guidelines for the Use of Albumin Products (Japan Society of Transfusion
Medicine and Cell Therapy 2017)
|
1.5 g per kilogram of
body weight within 6 hours after diagnosis, followed by 1 g per kilogram of
body
weight on day 3 of
illness
|
|
Guideline for the use of
human albumin solution (Guy’s and St. Thomas’ 2015)
|
Day 1 and 2: 1.5g/kg
Day 3 onwards: 1g/kg
until significant improvement
in the patients clinical condition
|
*Use 25%.
References:
- UptoDate: Spontaneous bacterial peritonitis in adults: Treatment and prophylaxis [Accessed 19 August 2019]
- NHS Services Scotland: National Plasma Products Expert Advisory Group. Clinical Guidelines for Human Albumin Use.
- Weinacker A & Ang H. Guidelines for Intravenous Albumin Administration at Stanford Health Care. 2017. Stanford Health Care.
- Retter et al. Guideline for the use of human albumin solution (HAS). 2015. Guy’s and St. Thomas’ NHS Foundation Trust.
- Fish et al. Albumin – Adult – Inpatient Clinical Practice Guideline. 2018. University of Wisconsin Hospitals and Clinics Authority
- European Association for the Study of the Liver. EASL clinical practice guidelines on the management of ascites, spontaneous bacterial peritonitis, and hepatorenal syndrome in cirrhosis. Journal of Hepatology 2010 vol. 53 j 397–417.
Friday, August 16, 2019
Riamet & Rifampicin Co-administration
[Pg 36]
Treatment of uncomplicated Plasmodium falciparum malaria
Factors associated with altered drug exposure and treatment
response:
• Decreased exposure to lumefantrine has been documented in
young children (<3 years)as well as pregnant women, large adults, patients
taking mefloquine, rifampicin or efavirenz and in smokers. As these target
populations may be at increased risk for treatment failure, their responses to
treatment should be monitored more closely and their full adherence ensured.
[Pg 48]
Treatment of uncomplicated P.falciparum malaria in
special populations
Several important patient sub-populations, including young
children, pregnant women and patients taking potent enzyme inducers (e.g.
rifampicin, efavirenz), have altered pharmacokinetics, resulting in sub-optimal
exposure to antimalarial drugs. This increases the rate of treatment failure
with current dosage regimens. The rates of treatment failure are substantially
higher in hyperparasitaemic patients and patients in areas with artemisinin-resistant
falciparum malaria, and these groups require greater exposure to antimalarial
drugs (longer duration of therapeutic concentrations) than is achieved with
current ACT dosage recommendations. It is often uncertain how best to achieve this.
Options include increasing individual doses, changing the frequency or duration
of dosing, or adding an additional antimalarial drug. Increasing individual
doses may not, however, achieve the desired exposure (e.g. lumefantrine
absorption becomes saturated), or the dose may be toxic due to transiently high
plasma concentrations (piperaquine, mefloquine, amodiaquine, pyronaridine). An
additional advantage of lengthening the duration of treatment (by giving a
5-day regimen) is that it provides additional exposure of the asexual cycle to
the artemisinin component as well as augmenting exposure to the partner drug.
The acceptability, tolerability, safety and effectiveness of augmented ACT
regimens in these special circumstances should be evaluated urgently.
[Pg 56]
Treatment of uncomplicated P.falciparum malaria in
special populations
5.5 | PATIENTS CO-INFECTED WITH TUBERCULOSIS
Rifamycins, in particular rifampicin, are potent CYP3A4
inducers with weak antimalarial activity. Concomitant administration of
rifampicin during quinine treatment of adults with malaria was associated with
a significant decrease in exposure to quinine and a five-fold higher
recrudescence rate. Similarly, concomitant rifampicin with mefloquine in
healthy adults was associated with a there-fold decrease in exposure to
mefloquine.
In adults co-infected with HIV and tuberculosis who were
being treated with rifampicin, administration of artemether + lumefantrine
resulted in significantly lower exposure to artemether, dihydroartemisinin and
lumefantrine (nine-, six- and there-fold decreases, respectively).
There is
insufficient evidence at this time to change the current mg/kg bw dosing
recommendations; however, as these patients are at higher risk of recrudescent infections
they should be monitored closely.
[Pg 274-275]
Ref: WHO Guidelines for the Treatment of Malaria – 3rd Edition, 2015
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